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Wikipedia

Defensin

January 01, 1970

Defensins are small cysteine-rich cationic proteins across cellular life, including vertebrate[1] and invertebrate[2] animals, plants,[3][4] and fungi.[5] They are host defense peptides, with members displaying either direct antimicrobial activity, immune signaling activities, or both. They are variously active against bacteria, fungi and many enveloped and nonenveloped viruses. They are typically 18-45 amino acids in length, with three or four highly conserved disulphide bonds.

Defensin
Example defensins with alpha helix in red, beta strands in blue, disulphide bonds in yellow (PDB: 1MR4, 2KOZ, 1FJN, 2LXZ, 1IJV, 2RNG​)
Identifiers
SymbolDefensin
Pfam clanCL0075
OPM superfamily54
OPM protein6cs9

In animals, they are produced by cells of the innate immune system and epithelial cells, whereas in plants and fungi they are produced by a wide variety of tissues. An organism usually produces many different defensins, some of which are stored inside the cells (e.g. in neutrophil granulocytes to kill phagocytosed bacteria), and others are secreted into the extracellular medium. For those that directly kill microbes, their mechanism of action varies from disruption of the microbial cell membrane to metabolic disruption.

Varieties edit

Characteristic disulphide linkages
 
Trans-defensin superfamily: In yellow, the two most conserved disulphides link a beta strand to two different secondary structure elements (motif = CC). On the right, an example structure (PDB: 1IJV​).
 
Cis-defensin superfamily: In yellow, the two most conserved disulphides link a beta strand to the same alpha helix (motif = CxC...CxxxC). On the right, an example structure (PDB: 1MRR4​).

The name 'defensin' was coined in the mid-1980s, though the proteins have been called 'Cationic Antimicrobial Proteins,' 'Neutrophil peptides,' 'Gamma thionins' amongst others.[6]

Proteins called 'defensins' are not all evolutionarily related to one another.[7] Instead fall into two broad superfamilies, each of which contains multiple families.[7][8] One superfamily, the trans-defensins, contains the defensins found in humans and other vertebrates,[9][10] as well as some invertebrates.[11][12] The other superfamily, cis-defensins, contains the defensins found in invertebrates, plants, and fungi.[13][14][15] The superfamilies and families are determined by the overall tertiary structure, and each family usually has a conserved pattern of disulphide bonds.[9][16] All defensins form small and compact folded structures, typically with a high positive charge, that are highly stable due to the multiple disulphide bonds. In all families, the underlying genes responsible for defensin production are highly polymorphic.[citation needed]

Trans-defensins edit

Vertebrate defensins are primarily α-defensins and β-defensins. Some primates additionally have the much smaller θ-defensins. In general, both α- and β-defensins are encoded by two-exon genes, where the first exon encodes for a hydrophobic leader sequence (removed after translation) and the cysteine-rich sequence (the mature peptide). The disulfide linkages formed by the cysteines have been suggested to be essential for activities related to innate immunity in mammals, but are not necessarily required for antimicrobial activity.[17][18] Theta defensins form a single beta-hairpin structure and represent a distinct group. Only alpha and beta-defensins are expressed in humans.[19]

Table of human defensins
Type Gene Symbol Gene Name Protein Name Description
α-defensins DEFA1 Defensin, alpha 1 Neutrophil defensin 1 Are expressed primarily in neutrophils as well as in NK cells and certain T-lymphocyte subsets. DEFA5 and DEFA6 are expressed in Paneth cells of the small intestine, where they may regulate and maintain microbial balance in the intestinal lumen.
DEFA1B Defensin, alpha 1B Defensin, alpha 1
DEFA3 Defensin, alpha 3, neutrophil-specific Neutrophil defensin 3
DEFA4 Defensin, alpha 4, corticostatin Neutrophil defensin 4
DEFA5 Defensin, alpha 5, Paneth cell-specific Defensin-5
DEFA6 Defensin, alpha 6, Paneth cell-specific Defensin-6
β-defensins DEFB1 Defensin, beta 1 Beta-defensin 1 Are the most widely distributed, being secreted by leukocytes and epithelial cells of many kinds. For example, they can be found on the tongue, skin, cornea, salivary glands, kidneys, esophagus, and respiratory tract. It has been suggested (but also challenged) that some of the pathology of cystic fibrosis arises from the inhibition of β-defensin activity on the epithelial surfaces of the lungs and trachea due to higher salt content.
DEFB2 Defensin, beta 2 Beta-defensin 2
DEFB3 Defensin, beta 3 Beta-defensin 3
DEFB103A Defensin, beta 103B Beta-defensin 103
... ... ...
DEFB106A Defensin, beta 106A Beta-defensin 106A
DEFB106B Defensin, beta 106B Beta-defensin 106B
DEFB107B Defensin, beta 107A Beta-defensin 107
DEFB110 Defensin, beta 110 Beta-defensin 110
... ... ...
DEFB136 Defensin, beta 136 Beta-defensin 136
θ-defensins DEFT1P Defensin, theta 1 pseudogene not expressed in humans Are rare, and thus far have been found only in the leukocytes of the rhesus macaque[20] and the olive baboon, Papio anubis, the gene coding for it is corrupted in humans and other primates.[21][22]

Although the most well-studied defensins are from vertebrates, a family of trans-defensins called 'big defensins' are found in molluscs, arthropods and lancelets.[7][8]

Cis-defensins edit

Arthropod defensins are the best-characterised defensins from invertebrates (especially those from insects).[23] Other invertebrates known to produce defensins from this protein superfamily include molluscs, annelids and cnidaria.[24]

Plant defensins were discovered in 1990 and have subsequently been found in most plant tissues with antimicrobial activities, with both antifungal and antibacterial examples.[25] They have been identified in all major groups of vascular plants, but not in ferns, mosses or algae.[25]

Fungal defensins were first identified in 2005.[26] Studied examples mainly have anti-bacterial activities and have been found in both main divisions of fungi (Ascomycota and Basidiomycota), as well as in the more basal groups of Zygomycota and Glomeromycota.[27]

Bacterial defensins have also been identified, but are by far the least studied. They include variants with only four cysteines, whereas defensins from eukaryote defensins almost all have six or eight.[28]

Related defensin-like proteins edit

In addition to the defensins involved in host defence, there are a number of related Defensin-Like Peptides (DLPs) that have evolved to have other activities.

Toxins edit

There appear to have been multiple evolutionary recruitments of defensins to be toxin proteins used in the venoms of animals;[29] they act via a completely different mechanism to their antimicrobial relatives, from binding directly to ion channels to disrupting nerve signals. Examples include the crotamine toxin in snake venom,[30] many scorpion toxins,[31] some sea anemone toxins,[10] and one of the toxins in platypus venom.[29] Indeed, an insect defensin has been experimentally converted into a toxin by deletion of a small loop that otherwise sterically hindered interactions with the ion channels.[32]

Signalling edit

In vertebrates, some α- and β-defensins are involved in signalling between the innate immune and adaptive immune systems.[33][34] In plants, a specialised family of DLPs is involved in signalling to detect if self-pollination has occurred and induce self-incompatibility to prevent inbreeding.[35]

Enzyme inhibitors edit

Some antimicrobial defensins also have enzyme inhibitory activity, and some DLPs function primarily as enzyme inhibitors, acting as antifeedants (discouraging animals from eating them).[36][37][38]

Function edit

In immature marsupials, because their immune system is underdeveloped at the time of birth, defensins play a major role in defense against pathogens. [citation needed] They are produced in the milk of the mother as well as by the young marsupial in question.

In human breast milk, defensins play a central role in neonate immunity.[39]

The human genome contains theta-defensin genes, but they have a premature stop codon, hampering their expression. An artificial human theta-defensin,[40] retrocyclin, was created by 'fixing' the pseudogene, and it was shown to be effective against HIV[41] and other viruses, including herpes simplex virus and influenza A. They act primarily by preventing these viruses from entering their target cells.

Also interesting is the effect of alpha-defensins on the exotoxin produced by anthrax (Bacillus anthracis). Chun Kim et al. showed how anthrax, which produces a metalloprotease lethal factor (LF) protein to target MAPKK, is vulnerable to human neutrophil protein-1 (HNP-1). This group showed HNP-1 to behave as a reversible noncompetitive inhibitor of LF.[42]

They have generally been considered to contribute to mucosal health; however, it is possible that these peptides can be considered biological factors that can be upregulated by bioactive compounds present in human breast milk. In this sense, the intestinal production of antimicrobial peptides as hBD2 and hBD4 by trefoil from milk might play an important role on neonate colonization, thereby enhancing the immune response of newborns against pathogens with which they may come in contact.[39][43]

Pathology edit

The alpha defensin peptides are increased in chronic inflammatory conditions.

Alpha defensin are increased in several cancers, including colorectal cancer.[44]

An imbalance of defensins in the skin may contribute to acne.[45]

A reduction of ileal defensins may predispose to Crohn's disease.[46][47]

In one small study, a significant increase in alpha defensin levels was detected in T cell lysates of schizophrenia patients; in discordant twin pairs, unaffected twins also had an increase, although not as high as that of their ill siblings. The authors suggested that alpha-defensin levels might prove a useful marker for schizophrenia risk.[48]

Defensins are found in the human skin during inflammatory conditions like psoriasis[49] and also during wound healing.

Applications edit

Defensins edit

At present, the widespread spread of antibiotic resistance requires the search and development of new antimicrobial drugs. From this point of view, defensins (as well as antimicrobial peptides in general) are of great interest. It was shown that defensins have pronounced antibacterial activity against a wide range of pathogens.[50] In addition, defensins can enhance the effectiveness of conventional antibiotics.[50]

Defensin-mimetics edit

Defensin mimetics, also called host defense peptide (HDP) mimetics, are completely synthetic, non-peptide, small molecule structures that mimic defensins in structure and activity.[51] Similar molecules, such as brilacidin, are being developed as antibiotics,[52] anti-inflammatories for oral mucositis,[53][54] and antifungals, especially for candidiasis.[55][56][57]

See also edit

References edit

  1. ^ Hazlett L, Wu M (January 2011). "Defensins in innate immunity". Cell and Tissue Research. 343 (1): 175–88. doi:10.1007/s00441-010-1022-4. PMID 20730446. S2CID 2234617.
  2. ^ Tassanakajon A, Somboonwiwat K, Amparyup P (February 2015). "Sequence diversity and evolution of antimicrobial peptides in invertebrates". Developmental and Comparative Immunology. Specific immunity in invertebrates. 48 (2): 324–41. doi:10.1016/j.dci.2014.05.020. PMID 24950415.
  3. ^ Thomma BP, Cammue BP, Thevissen K (December 2002). "Plant defensins". Planta. 216 (2): 193–202. Bibcode:2002Plant.216..193T. doi:10.1007/s00425-002-0902-6. PMID 12447532. S2CID 19356421.
  4. ^ Sathoff AE, Samac DA (May 2019). "Antibacterial Activity of Plant Defensins". Molecular Plant-Microbe Interactions. 32 (5): 507–514. doi:10.1094/mpmi-08-18-0229-cr. PMID 30501455.
  5. ^ Wu J, Gao B, Zhu S (August 2014). "The fungal defensin family enlarged". Pharmaceuticals. 7 (8): 866–80. doi:10.3390/ph7080866. PMC 4165938. PMID 25230677.
  6. ^ Lehrer RI (September 2004). "Primate defensins". Nature Reviews. Microbiology. 2 (9): 727–38. doi:10.1038/nrmicro976. PMID 15372083. S2CID 8774156.
  7. ^ a b c Shafee TM, Lay FT, Hulett MD, Anderson MA (September 2016). "The Defensins Consist of Two Independent, Convergent Protein Superfamilies". Molecular Biology and Evolution. 33 (9): 2345–56. doi:10.1093/molbev/msw106. PMID 27297472.
  8. ^ a b Shafee TM, Lay FT, Phan TK, Anderson MA, Hulett MD (February 2017). "Convergent evolution of defensin sequence, structure and function". Cellular and Molecular Life Sciences. 74 (4): 663–682. doi:10.1007/s00018-016-2344-5. PMID 27557668. S2CID 24741736.
  9. ^ a b Hollox EJ, Abujaber R (2017). "Evolution and Diversity of Defensins in Vertebrates". In Pontarotti P (ed.). Evolutionary Biology: Self/Nonself Evolution, Species and Complex Traits Evolution, Methods and Concepts. Springer International Publishing. pp. 27–50. doi:10.1007/978-3-319-61569-1_2. ISBN 978-3-319-61569-1.
  10. ^ a b Mitchell ML, Shafee T, Papenfuss AT, Norton RS (July 2019). "Evolution of cnidarian trans-defensins: Sequence, structure and exploration of chemical space". Proteins. 87 (7): 551–560. doi:10.1002/prot.25679. hdl:11343/285595. PMID 30811678. S2CID 73469576.
  11. ^ Zhu S, Gao B (2013). "Evolutionary origin of β-defensins". Developmental and Comparative Immunology. 39 (1–2): 79–84. doi:10.1016/j.dci.2012.02.011. PMID 22369779.
  12. ^ Montero-Alejo V, Corzo G, Porro-Suardíaz J, Pardo-Ruiz Z, Perera E, Rodríguez-Viera L, Sánchez-Díaz G, Hernández-Rodríguez EW, Álvarez C, Peigneur S, Tytgat J, Perdomo-Morales R (February 2017). "Panusin represents a new family of β-defensin-like peptides in invertebrates". Developmental and Comparative Immunology. 67: 310–321. doi:10.1016/j.dci.2016.09.002. PMID 27616720. S2CID 19734223.
  13. ^ Dias RD, Franco OL (October 2015). "Cysteine-stabilized αβ defensins: From a common fold to antibacterial activity". Peptides. Festschrift to highlight the career of Abba J. Kastin as a founding editor, researcher, and educator in the peptide field. 72: 64–72. doi:10.1016/j.peptides.2015.04.017. PMID 25929172. S2CID 17846143.
  14. ^ Shafee T, Anderson MA (March 2019). "A quantitative map of protein sequence space for the cis-defensin superfamily" (PDF). Bioinformatics. 35 (5): 743–752. doi:10.1093/bioinformatics/bty697. PMID 30102339. S2CID 51968286.
  15. ^ Zhu S (February 2008). "Discovery of six families of fungal defensin-like peptides provides insights into origin and evolution of the CSalphabeta defensins". Molecular Immunology. 45 (3): 828–38. doi:10.1016/j.molimm.2007.06.354. PMID 17675235.
  16. ^ Wang YP, Lai R (February 2010). "[Insect antimicrobial peptides: structures, properties and gene regulation]". Dong Wu Xue Yan Jiu = Zoological Research. 31 (1): 27–34. doi:10.3724/sp.j.1141.2010.01027. hdl:1807/64439. PMID 20446450. S2CID 4692675.
  17. ^ Varkey J, Singh S, Nagaraj R (November 2006). "Antibacterial activity of linear peptides spanning the carboxy-terminal beta-sheet domain of arthropod defensins". Peptides. 27 (11): 2614–23. doi:10.1016/j.peptides.2006.06.010. PMID 16914230. S2CID 21104756.
  18. ^ Varkey J, Nagaraj R (November 2005). "Antibacterial activity of human neutrophil defensin HNP-1 analogs without cysteines". Antimicrobial Agents and Chemotherapy. 49 (11): 4561–6. doi:10.1128/AAC.49.11.4561-4566.2005. PMC 1280114. PMID 16251296.
  19. ^ Dhople V, Krukemeyer A, Ramamoorthy A (September 2006). "The human beta-defensin-3, an antibacterial peptide with multiple biological functions". Biochimica et Biophysica Acta (BBA) - Biomembranes. 1758 (9): 1499–512. doi:10.1016/j.bbamem.2006.07.007. PMID 16978580. S2CID 36461159.
  20. ^ Tran D, Tran P, Roberts K, Osapay G, Schaal J, Ouellette A, Selsted ME (March 2008). "Microbicidal properties and cytocidal selectivity of rhesus macaque theta defensins". Antimicrobial Agents and Chemotherapy. 52 (3): 944–53. doi:10.1128/AAC.01090-07. PMC 2258523. PMID 18160518.
  21. ^ Garcia AE, Selsted M (March 2008). "Olive baboon θ-defensins". The FASEB Journal. 22 (1 Suppl): 673.11. doi:10.1096/fasebj.22.1_supplement.673.11. S2CID 89807163.
  22. ^ Garcia AE, Osapay G, Tran PA, Yuan J, Selsted ME (December 2008). "Isolation, synthesis, and antimicrobial activities of naturally occurring theta-defensin isoforms from baboon leukocytes". Infection and Immunity. 76 (12): 5883–91. doi:10.1128/IAI.01100-08. PMC 2583559. PMID 18852242.
  23. ^ Koehbach J (2017). "Structure-Activity Relationships of Insect Defensins". Frontiers in Chemistry. 5: 45. Bibcode:2017FrCh....5...45K. doi:10.3389/fchem.2017.00045. PMC 5506212. PMID 28748179.
  24. ^ Greco S, Gerdol M, Edomi P, Pallavicini A (January 2020). "Molecular Diversity of Mytilin-Like Defense Peptides in Mytilidae (Mollusca, Bivalvia)". Antibiotics. 9 (1): 37. doi:10.3390/antibiotics9010037. PMC 7168163. PMID 31963793.
  25. ^ a b Parisi K, Shafee TM, Quimbar P, van der Weerden NL, Bleackley MR, Anderson MA (April 2019). "The evolution, function and mechanisms of action for plant defensins". Seminars in Cell & Developmental Biology. 88: 107–118. doi:10.1016/j.semcdb.2018.02.004. PMID 29432955. S2CID 3543741.
  26. ^ Mygind PH, Fischer RL, Schnorr KM, Hansen MT, Sönksen CP, Ludvigsen S, Raventós D, Buskov S, Christensen B, De Maria L, Taboureau O, Yaver D, Elvig-Jørgensen SG, Sørensen MV, Christensen BE, Kjaerulff S, Frimodt-Moller N, Lehrer RI, Zasloff M, Kristensen HH (October 2005). "Plectasin is a peptide antibiotic with therapeutic potential from a saprophytic fungus". Nature. 437 (7061): 975–80. Bibcode:2005Natur.437..975M. doi:10.1038/nature04051. PMID 16222292. S2CID 4423851.
  27. ^ Wu J, Gao B, Zhu S (August 2014). "The fungal defensin family enlarged". Pharmaceuticals. 7 (8): 866–80. doi:10.3390/ph7080866. PMC 4165938. PMID 25230677.
  28. ^ Dash TS, Shafee T, Harvey PJ, Zhang C, Peigneur S, Deuis JR, Vetter I, Tytgat J, Anderson MA, Craik DJ, Durek T, Undheim EA (February 2019). "A Centipede Toxin Family Defines an Ancient Class of CSαβ Defensins". Structure. 27 (2): 315–326.e7. doi:10.1016/j.str.2018.10.022. PMID 30554841.
  29. ^ a b Whittington CM, Papenfuss AT, Bansal P, Torres AM, Wong ES, Deakin JE, Graves T, Alsop A, Schatzkamer K, Kremitzki C, Ponting CP, Temple-Smith P, Warren WC, Kuchel PW, Belov K (June 2008). "Defensins and the convergent evolution of platypus and reptile venom genes". Genome Research. 18 (6): 986–94. doi:10.1101/gr.7149808. PMC 2413166. PMID 18463304.
  30. ^ Batista da Cunha D, Pupo Silvestrini AV, Gomes da Silva AC, Maria de Paula Estevam D, Pollettini FL, de Oliveira Navarro J, Alves AA, Remédio Zeni Beretta AL, Annichino Bizzacchi JM, Pereira LC, Mazzi MV (May 2018). "Mechanistic insights into functional characteristics of native crotamine". Toxicon. 146: 1–12. doi:10.1016/j.toxicon.2018.03.007. hdl:11449/170828. PMID 29574214. S2CID 205440053.
  31. ^ Possani LD, Becerril B, Delepierre M, Tytgat J (September 1999). "Scorpion toxins specific for Na+-channels". European Journal of Biochemistry. 264 (2): 287–300. doi:10.1046/j.1432-1327.1999.00625.x. PMID 10491073.
  32. ^ Zhu S, Peigneur S, Gao B, Umetsu Y, Ohki S, Tytgat J (March 2014). "Experimental conversion of a defensin into a neurotoxin: implications for origin of toxic function". Molecular Biology and Evolution. 31 (3): 546–59. doi:10.1093/molbev/msu038. PMID 24425781.
  33. ^ Petrov V, Funderburg N, Weinberg A, Sieg S (December 2013). "Human β defensin-3 induces chemokines from monocytes and macrophages: diminished activity in cells from HIV-infected persons". Immunology. 140 (4): 413–20. doi:10.1111/imm.12148. PMC 3839645. PMID 23829433.
  34. ^ Semple F, Dorin JR (2012). "β-Defensins: multifunctional modulators of infection, inflammation and more?". Journal of Innate Immunity. 4 (4): 337–48. doi:10.1159/000336619. PMC 6784047. PMID 22441423.
  35. ^ Fobis-Loisy I, Ivanov R, Gaude T (2012). "The S-LOCUS CYSTEINE-RICH PROTEIN (SCR): A Small Peptide with a High Impact on the Evolution of Flowering Plants". Plant Signaling Peptides. Signaling and Communication in Plants. Vol. 16. Springer Berlin Heidelberg. pp. 77–92. doi:10.1007/978-3-642-27603-3_5. ISBN 978-3-642-27602-6.
  36. ^ Williams LK, Brayer GD (2015-11-25). "Porcine pancreatic alpha-amylase in complex with helianthamide, a novel proteinaceous inhibitor". doi:10.2210/pdb4x0n/pdb.
  37. ^ Zhao Q, Chae YK, Markley JL (2003-01-07). "Minimized NMR structure of ATT, an Arabidopsis trypsin/chymotrypsin inhibitor". doi:10.2210/pdb1jxc/pdb.
  38. ^ Pelegrini PB, Lay FT, Murad AM, Anderson MA, Franco OL (November 2008). "Novel insights on the mechanism of action of alpha-amylase inhibitors from the plant defensin family". Proteins. 73 (3): 719–29. doi:10.1002/prot.22086. PMID 18498107. S2CID 28378146.
  39. ^ a b Barrera GJ, Sanchez G, Gonzalez JE (November 2012). "Trefoil factor 3 isolated from human breast milk downregulates cytokines (IL8 and IL6) and promotes human beta defensin (hBD2 and hBD4) expression in intestinal epithelial cells HT-29". Bosnian Journal of Basic Medical Sciences. 12 (4): 256–64. doi:10.17305/bjbms.2012.2448. PMC 4362502. PMID 23198942.
  40. ^ retrocyclin at the U.S. National Library of Medicine Medical Subject Headings (MeSH)
  41. ^ Münk C, Wei G, Yang OO, Waring AJ, Wang W, Hong T, Lehrer RI, Landau NR, Cole AM (October 2003). "The theta-defensin, retrocyclin, inhibits HIV-1 entry". AIDS Research and Human Retroviruses. 19 (10): 875–81. doi:10.1089/088922203322493049. PMID 14585219.
  42. ^ Kim C, Gajendran N, Mittrücker HW, Weiwad M, Song YH, Hurwitz R, Wilmanns M, Fischer G, Kaufmann SH (March 2005). "Human alpha-defensins neutralize anthrax lethal toxin and protect against its fatal consequences". Proceedings of the National Academy of Sciences of the United States of America. 102 (13): 4830–5. Bibcode:2005PNAS..102.4830K. doi:10.1073/pnas.0500508102. PMC 555714. PMID 15772169.
  43. ^ Barrera GJ, Tortolero GS (2016). "Trefoil factor 3 (TFF3) from human breast milk activates PAR-2 receptors, of the intestinal epithelial cells HT-29, regulating cytokines and defensins". Bratislavske Lekarske Listy. 117 (6): 332–9. doi:10.4149/bll_2016_066. PMID 27546365.
  44. ^ Albrethsen J, Bøgebo R, Gammeltoft S, Olsen J, Winther B, Raskov H (January 2005). "Upregulated expression of human neutrophil peptides 1, 2 and 3 (HNP 1-3) in colon cancer serum and tumours: a biomarker study". BMC Cancer. 5: 8. doi:10.1186/1471-2407-5-8. PMC 548152. PMID 15656915.
  45. ^ Philpott MP (November 2003). "Defensins and acne". Molecular Immunology. 40 (7): 457–62. doi:10.1016/S0161-5890(03)00154-8. PMID 14568392.
  46. ^ "Researchers discover a possible cause of chronic inflammations of Crohn Disease". Genomics & Genetics Weekly: 72. August 11, 2006.
  47. ^ Wehkamp J, Salzman NH, Porter E, Nuding S, Weichenthal M, Petras RE, Shen B, Schaeffeler E, Schwab M, Linzmeier R, Feathers RW, Chu H, Lima H, Fellermann K, Ganz T, Stange EF, Bevins CL (December 2005). "Reduced Paneth cell alpha-defensins in ileal Crohn's disease". Proceedings of the National Academy of Sciences of the United States of America. 102 (50): 18129–34. Bibcode:2005PNAS..10218129W. doi:10.1073/pnas.0505256102. PMC 1306791. PMID 16330776.
  48. ^ Craddock RM, Huang JT, Jackson E, Harris N, Torrey EF, Herberth M, Bahn S (July 2008). "Increased alpha-defensins as a blood marker for schizophrenia susceptibility". Molecular & Cellular Proteomics. 7 (7): 1204–13. doi:10.1074/mcp.M700459-MCP200. PMID 18349140. S2CID 35381828.
  49. ^ Harder J, Bartels J, Christophers E, Schroder JM (February 2001). "Isolation and characterization of human beta -defensin-3, a novel human inducible peptide antibiotic". The Journal of Biological Chemistry. 276 (8): 5707–13. doi:10.1074/jbc.M008557200. PMID 11085990. S2CID 9516726.
  50. ^ a b Bolatchiev A (2020-11-25). "Antibacterial activity of human defensins against Staphylococcus aureus and Escherichia coli". PeerJ. 8: e10455. doi:10.7717/peerj.10455. PMC 7698690. PMID 33304659.
  51. ^ "Press release: PolyMedix" (Press release). 2008-05-09. Business Wire
  52. ^ "PMX-30063 The First And Only Defensin Mimetic Systemic Antibiotic Drug In Human Clinical Trials". 2008.
  53. ^ Clinical trial number NCT02324335 for "Phase 2 Study to Evaluate the Safety & Efficacy of Brilacidin Oral Rinse in Patients With Head and Neck Cancer (Brilacidin)" at ClinicalTrials.gov
  54. ^ . Cellceutix. Archived from the original on 2015-02-07. Retrieved 2015-03-02.
  55. ^ . Cellceutix. Archived from the original on 2015-02-07. Retrieved 2015-03-02.
  56. ^ Diamond G, Scott R. "A Novel Therapeutic For Invasive Candiasis". Grantome. Fox Chase Chemical Diversity Center.
  57. ^ Ryan LK, Freeman KB, Masso-Silva JA, Falkovsky K, Aloyouny A, Markowitz K, Hise AG, Fatahzadeh M, Scott RW, Diamond G (July 2014). "Activity of potent and selective host defense peptide mimetics in mouse models of oral candidiasis". Antimicrobial Agents and Chemotherapy. 58 (7): 3820–7. doi:10.1128/AAC.02649-13. PMC 4068575. PMID 24752272.

External links edit

 
Wikimedia Commons has media related to Defensin.

January 01, 1970
defensin, small, cysteine, rich, cationic, proteins, across, cellular, life, including, vertebrate, invertebrate, animals, plants, fungi, they, host, defense, peptides, with, members, displaying, either, direct, antimicrobial, activity, immune, signaling, acti. Defensins are small cysteine rich cationic proteins across cellular life including vertebrate 1 and invertebrate 2 animals plants 3 4 and fungi 5 They are host defense peptides with members displaying either direct antimicrobial activity immune signaling activities or both They are variously active against bacteria fungi and many enveloped and nonenveloped viruses They are typically 18 45 amino acids in length with three or four highly conserved disulphide bonds DefensinExample defensins with alpha helix in red beta strands in blue disulphide bonds in yellow PDB 1MR4 2KOZ 1FJN 2LXZ 1IJV 2RNG IdentifiersSymbolDefensinPfam clanCL0075OPM superfamily54OPM protein6cs9 In animals they are produced by cells of the innate immune system and epithelial cells whereas in plants and fungi they are produced by a wide variety of tissues An organism usually produces many different defensins some of which are stored inside the cells e g in neutrophil granulocytes to kill phagocytosed bacteria and others are secreted into the extracellular medium For those that directly kill microbes their mechanism of action varies from disruption of the microbial cell membrane to metabolic disruption Contents 1 Varieties 1 1 Trans defensins 1 2 Cis defensins 1 3 Related defensin like proteins 1 3 1 Toxins 1 3 2 Signalling 1 3 3 Enzyme inhibitors 2 Function 3 Pathology 4 Applications 4 1 Defensins 4 2 Defensin mimetics 5 See also 6 References 7 External linksVarieties editCharacteristic disulphide linkages nbsp Trans defensin superfamily In yellow the two most conserved disulphides link a beta strand to two different secondary structure elements motif CC On the right an example structure PDB 1IJV nbsp Cis defensin superfamily In yellow the two most conserved disulphides link a beta strand to the same alpha helix motif CxC CxxxC On the right an example structure PDB 1MRR4 The name defensin was coined in the mid 1980s though the proteins have been called Cationic Antimicrobial Proteins Neutrophil peptides Gamma thionins amongst others 6 Proteins called defensins are not all evolutionarily related to one another 7 Instead fall into two broad superfamilies each of which contains multiple families 7 8 One superfamily the trans defensins contains the defensins found in humans and other vertebrates 9 10 as well as some invertebrates 11 12 The other superfamily cis defensins contains the defensins found in invertebrates plants and fungi 13 14 15 The superfamilies and families are determined by the overall tertiary structure and each family usually has a conserved pattern of disulphide bonds 9 16 All defensins form small and compact folded structures typically with a high positive charge that are highly stable due to the multiple disulphide bonds In all families the underlying genes responsible for defensin production are highly polymorphic citation needed Trans defensins edit Vertebrate defensins are primarily a defensins and b defensins Some primates additionally have the much smaller 8 defensins In general both a and b defensins are encoded by two exon genes where the first exon encodes for a hydrophobic leader sequence removed after translation and the cysteine rich sequence the mature peptide The disulfide linkages formed by the cysteines have been suggested to be essential for activities related to innate immunity in mammals but are not necessarily required for antimicrobial activity 17 18 Theta defensins form a single beta hairpin structure and represent a distinct group Only alpha and beta defensins are expressed in humans 19 Table of human defensins Type Gene Symbol Gene Name Protein Name Description a defensins DEFA1 Defensin alpha 1 Neutrophil defensin 1 Are expressed primarily in neutrophils as well as in NK cells and certain T lymphocyte subsets DEFA5 and DEFA6 are expressed in Paneth cells of the small intestine where they may regulate and maintain microbial balance in the intestinal lumen DEFA1B Defensin alpha 1B Defensin alpha 1 DEFA3 Defensin alpha 3 neutrophil specific Neutrophil defensin 3 DEFA4 Defensin alpha 4 corticostatin Neutrophil defensin 4 DEFA5 Defensin alpha 5 Paneth cell specific Defensin 5 DEFA6 Defensin alpha 6 Paneth cell specific Defensin 6 b defensins DEFB1 Defensin beta 1 Beta defensin 1 Are the most widely distributed being secreted by leukocytes and epithelial cells of many kinds For example they can be found on the tongue skin cornea salivary glands kidneys esophagus and respiratory tract It has been suggested but also challenged that some of the pathology of cystic fibrosis arises from the inhibition of b defensin activity on the epithelial surfaces of the lungs and trachea due to higher salt content DEFB2 Defensin beta 2 Beta defensin 2 DEFB3 Defensin beta 3 Beta defensin 3 DEFB103A Defensin beta 103B Beta defensin 103 DEFB106A Defensin beta 106A Beta defensin 106A DEFB106B Defensin beta 106B Beta defensin 106B DEFB107B Defensin beta 107A Beta defensin 107 DEFB110 Defensin beta 110 Beta defensin 110 DEFB136 Defensin beta 136 Beta defensin 136 8 defensins DEFT1P Defensin theta 1 pseudogene not expressed in humans Are rare and thus far have been found only in the leukocytes of the rhesus macaque 20 and the olive baboon Papio anubis the gene coding for it is corrupted in humans and other primates 21 22 Although the most well studied defensins are from vertebrates a family of trans defensins called big defensin s are found in molluscs arthropods and lancelets 7 8 Cis defensins edit Arthropod defensins are the best characterised defensins from invertebrates especially those from insects 23 Other invertebrates known to produce defensins from this protein superfamily include molluscs annelids and cnidaria 24 Plant defensins were discovered in 1990 and have subsequently been found in most plant tissues with antimicrobial activities with both antifungal and antibacterial examples 25 They have been identified in all major groups of vascular plants but not in ferns mosses or algae 25 Fungal defensins were first identified in 2005 26 Studied examples mainly have anti bacterial activities and have been found in both main divisions of fungi Ascomycota and Basidiomycota as well as in the more basal groups of Zygomycota and Glomeromycota 27 Bacterial defensins have also been identified but are by far the least studied They include variants with only four cysteines whereas defensins from eukaryote defensins almost all have six or eight 28 Related defensin like proteins edit In addition to the defensins involved in host defence there are a number of related Defensin Like Peptides DLPs that have evolved to have other activities Toxins edit There appear to have been multiple evolutionary recruitments of defensins to be toxin proteins used in the venoms of animals 29 they act via a completely different mechanism to their antimicrobial relatives from binding directly to ion channels to disrupting nerve signals Examples include the crotamine toxin in snake venom 30 many scorpion toxins 31 some sea anemone toxins 10 and one of the toxins in platypus venom 29 Indeed an insect defensin has been experimentally converted into a toxin by deletion of a small loop that otherwise sterically hindered interactions with the ion channels 32 Signalling edit In vertebrates some a and b defensins are involved in signalling between the innate immune and adaptive immune systems 33 34 In plants a specialised family of DLPs is involved in signalling to detect if self pollination has occurred and induce self incompatibility to prevent inbreeding 35 Enzyme inhibitors edit Some antimicrobial defensins also have enzyme inhibitory activity and some DLPs function primarily as enzyme inhibitors acting as antifeedants discouraging animals from eating them 36 37 38 Function editIn immature marsupials because their immune system is underdeveloped at the time of birth defensins play a major role in defense against pathogens citation needed They are produced in the milk of the mother as well as by the young marsupial in question In human breast milk defensins play a central role in neonate immunity 39 The human genome contains theta defensin genes but they have a premature stop codon hampering their expression An artificial human theta defensin 40 retrocyclin was created by fixing the pseudogene and it was shown to be effective against HIV 41 and other viruses including herpes simplex virus and influenza A They act primarily by preventing these viruses from entering their target cells Also interesting is the effect of alpha defensins on the exotoxin produced by anthrax Bacillus anthracis Chun Kim et al showed how anthrax which produces a metalloprotease lethal factor LF protein to target MAPKK is vulnerable to human neutrophil protein 1 HNP 1 This group showed HNP 1 to behave as a reversible noncompetitive inhibitor of LF 42 They have generally been considered to contribute to mucosal health however it is possible that these peptides can be considered biological factors that can be upregulated by bioactive compounds present in human breast milk In this sense the intestinal production of antimicrobial peptides as hBD2 and hBD4 by trefoil from milk might play an important role on neonate colonization thereby enhancing the immune response of newborns against pathogens with which they may come in contact 39 43 Pathology editThe alpha defensin peptides are increased in chronic inflammatory conditions Alpha defensin are increased in several cancers including colorectal cancer 44 An imbalance of defensins in the skin may contribute to acne 45 A reduction of ileal defensins may predispose to Crohn s disease 46 47 In one small study a significant increase in alpha defensin levels was detected in T cell lysates of schizophrenia patients in discordant twin pairs unaffected twins also had an increase although not as high as that of their ill siblings The authors suggested that alpha defensin levels might prove a useful marker for schizophrenia risk 48 Defensins are found in the human skin during inflammatory conditions like psoriasis 49 and also during wound healing Applications editDefensins edit At present the widespread spread of antibiotic resistance requires the search and development of new antimicrobial drugs From this point of view defensins as well as antimicrobial peptides in general are of great interest It was shown that defensins have pronounced antibacterial activity against a wide range of pathogens 50 In addition defensins can enhance the effectiveness of conventional antibiotics 50 Defensin mimetics edit Defensin mimetics also called host defense peptide HDP mimetics are completely synthetic non peptide small molecule structures that mimic defensins in structure and activity 51 Similar molecules such as brilacidin are being developed as antibiotics 52 anti inflammatories for oral mucositis 53 54 and antifungals especially for candidiasis 55 56 57 See also editHost defense peptides to which defensins belongReferences edit Hazlett L Wu M January 2011 Defensins in innate immunity Cell and Tissue Research 343 1 175 88 doi 10 1007 s00441 010 1022 4 PMID 20730446 S2CID 2234617 Tassanakajon A Somboonwiwat K Amparyup P February 2015 Sequence diversity and evolution of antimicrobial peptides in invertebrates Developmental and Comparative Immunology Specific immunity in invertebrates 48 2 324 41 doi 10 1016 j dci 2014 05 020 PMID 24950415 Thomma BP Cammue BP Thevissen K December 2002 Plant defensins Planta 216 2 193 202 Bibcode 2002Plant 216 193T doi 10 1007 s00425 002 0902 6 PMID 12447532 S2CID 19356421 Sathoff AE Samac DA May 2019 Antibacterial Activity of Plant Defensins Molecular Plant Microbe Interactions 32 5 507 514 doi 10 1094 mpmi 08 18 0229 cr PMID 30501455 Wu J Gao B Zhu S August 2014 The fungal defensin family enlarged Pharmaceuticals 7 8 866 80 doi 10 3390 ph7080866 PMC 4165938 PMID 25230677 Lehrer RI September 2004 Primate defensins Nature Reviews Microbiology 2 9 727 38 doi 10 1038 nrmicro976 PMID 15372083 S2CID 8774156 a b c Shafee TM Lay FT Hulett MD Anderson MA September 2016 The Defensins Consist of Two Independent Convergent Protein Superfamilies Molecular Biology and Evolution 33 9 2345 56 doi 10 1093 molbev msw106 PMID 27297472 a b Shafee TM Lay FT Phan TK Anderson MA Hulett MD February 2017 Convergent evolution of defensin sequence structure and function Cellular and Molecular Life Sciences 74 4 663 682 doi 10 1007 s00018 016 2344 5 PMID 27557668 S2CID 24741736 a b Hollox EJ Abujaber R 2017 Evolution and Diversity of Defensins in Vertebrates In Pontarotti P ed Evolutionary Biology Self Nonself Evolution Species and Complex Traits Evolution Methods and Concepts Springer International Publishing pp 27 50 doi 10 1007 978 3 319 61569 1 2 ISBN 978 3 319 61569 1 a b Mitchell ML Shafee T Papenfuss AT Norton RS July 2019 Evolution of cnidarian trans defensins Sequence structure and exploration of chemical space Proteins 87 7 551 560 doi 10 1002 prot 25679 hdl 11343 285595 PMID 30811678 S2CID 73469576 Zhu S Gao B 2013 Evolutionary origin of b defensins Developmental and Comparative Immunology 39 1 2 79 84 doi 10 1016 j dci 2012 02 011 PMID 22369779 Montero Alejo V Corzo G Porro Suardiaz J Pardo Ruiz Z Perera E Rodriguez Viera L Sanchez Diaz G Hernandez Rodriguez EW Alvarez C Peigneur S Tytgat J Perdomo Morales R February 2017 Panusin represents a new family of b defensin like peptides in invertebrates Developmental and Comparative Immunology 67 310 321 doi 10 1016 j dci 2016 09 002 PMID 27616720 S2CID 19734223 Dias RD Franco OL October 2015 Cysteine stabilized ab defensins From a common fold to antibacterial activity Peptides Festschrift to highlight the career of Abba J Kastin as a founding editor researcher and educator in the peptide field 72 64 72 doi 10 1016 j peptides 2015 04 017 PMID 25929172 S2CID 17846143 Shafee T Anderson MA March 2019 A quantitative map of protein sequence space for the cis defensin superfamily PDF Bioinformatics 35 5 743 752 doi 10 1093 bioinformatics bty697 PMID 30102339 S2CID 51968286 Zhu S February 2008 Discovery of six families of fungal defensin like peptides provides insights into origin and evolution of the CSalphabeta defensins Molecular Immunology 45 3 828 38 doi 10 1016 j molimm 2007 06 354 PMID 17675235 Wang YP Lai R February 2010 Insect antimicrobial peptides structures properties and gene regulation Dong Wu Xue Yan Jiu Zoological Research 31 1 27 34 doi 10 3724 sp j 1141 2010 01027 hdl 1807 64439 PMID 20446450 S2CID 4692675 Varkey J Singh S Nagaraj R November 2006 Antibacterial activity of linear peptides spanning the carboxy terminal beta sheet domain of arthropod defensins Peptides 27 11 2614 23 doi 10 1016 j peptides 2006 06 010 PMID 16914230 S2CID 21104756 Varkey J Nagaraj R November 2005 Antibacterial activity of human neutrophil defensin HNP 1 analogs without cysteines Antimicrobial Agents and Chemotherapy 49 11 4561 6 doi 10 1128 AAC 49 11 4561 4566 2005 PMC 1280114 PMID 16251296 Dhople V Krukemeyer A Ramamoorthy A September 2006 The human beta defensin 3 an antibacterial peptide with multiple biological functions Biochimica et Biophysica Acta BBA Biomembranes 1758 9 1499 512 doi 10 1016 j bbamem 2006 07 007 PMID 16978580 S2CID 36461159 Tran D Tran P Roberts K Osapay G Schaal J Ouellette A Selsted ME March 2008 Microbicidal properties and cytocidal selectivity of rhesus macaque theta defensins Antimicrobial Agents and Chemotherapy 52 3 944 53 doi 10 1128 AAC 01090 07 PMC 2258523 PMID 18160518 Garcia AE Selsted M March 2008 Olive baboon 8 defensins The FASEB Journal 22 1 Suppl 673 11 doi 10 1096 fasebj 22 1 supplement 673 11 S2CID 89807163 Garcia AE Osapay G Tran PA Yuan J Selsted ME December 2008 Isolation synthesis and antimicrobial activities of naturally occurring theta defensin isoforms from baboon leukocytes Infection and Immunity 76 12 5883 91 doi 10 1128 IAI 01100 08 PMC 2583559 PMID 18852242 Koehbach J 2017 Structure Activity Relationships of Insect Defensins Frontiers in Chemistry 5 45 Bibcode 2017FrCh 5 45K doi 10 3389 fchem 2017 00045 PMC 5506212 PMID 28748179 Greco S Gerdol M Edomi P Pallavicini A January 2020 Molecular Diversity of Mytilin Like Defense Peptides in Mytilidae Mollusca Bivalvia Antibiotics 9 1 37 doi 10 3390 antibiotics9010037 PMC 7168163 PMID 31963793 a b Parisi K Shafee TM Quimbar P van der Weerden NL Bleackley MR Anderson MA April 2019 The evolution function and mechanisms of action for plant defensins Seminars in Cell amp Developmental Biology 88 107 118 doi 10 1016 j semcdb 2018 02 004 PMID 29432955 S2CID 3543741 Mygind PH Fischer RL Schnorr KM Hansen MT Sonksen CP Ludvigsen S Raventos D Buskov S Christensen B De Maria L Taboureau O Yaver D Elvig Jorgensen SG Sorensen MV Christensen BE Kjaerulff S Frimodt Moller N Lehrer RI Zasloff M Kristensen HH October 2005 Plectasin is a peptide antibiotic with therapeutic potential from a saprophytic fungus Nature 437 7061 975 80 Bibcode 2005Natur 437 975M doi 10 1038 nature04051 PMID 16222292 S2CID 4423851 Wu J Gao B Zhu S August 2014 The fungal defensin family enlarged Pharmaceuticals 7 8 866 80 doi 10 3390 ph7080866 PMC 4165938 PMID 25230677 Dash TS Shafee T Harvey PJ Zhang C Peigneur S Deuis JR Vetter I Tytgat J Anderson MA Craik DJ Durek T Undheim EA February 2019 A Centipede Toxin Family Defines an Ancient Class of CSab Defensins Structure 27 2 315 326 e7 doi 10 1016 j str 2018 10 022 PMID 30554841 a b Whittington CM Papenfuss AT Bansal P Torres AM Wong ES Deakin JE Graves T Alsop A Schatzkamer K Kremitzki C Ponting CP Temple Smith P Warren WC Kuchel PW Belov K June 2008 Defensins and the convergent evolution of platypus and reptile venom genes Genome Research 18 6 986 94 doi 10 1101 gr 7149808 PMC 2413166 PMID 18463304 Batista da Cunha D Pupo Silvestrini AV Gomes da Silva AC Maria de Paula Estevam D Pollettini FL de Oliveira Navarro J Alves AA Remedio Zeni Beretta AL Annichino Bizzacchi JM Pereira LC Mazzi MV May 2018 Mechanistic insights into functional characteristics of native crotamine Toxicon 146 1 12 doi 10 1016 j toxicon 2018 03 007 hdl 11449 170828 PMID 29574214 S2CID 205440053 Possani LD Becerril B Delepierre M Tytgat J September 1999 Scorpion toxins specific for Na channels European Journal of Biochemistry 264 2 287 300 doi 10 1046 j 1432 1327 1999 00625 x PMID 10491073 Zhu S Peigneur S Gao B Umetsu Y Ohki S Tytgat J March 2014 Experimental conversion of a defensin into a neurotoxin implications for origin of toxic function Molecular Biology and Evolution 31 3 546 59 doi 10 1093 molbev msu038 PMID 24425781 Petrov V Funderburg N Weinberg A Sieg S December 2013 Human b defensin 3 induces chemokines from monocytes and macrophages diminished activity in cells from HIV infected persons Immunology 140 4 413 20 doi 10 1111 imm 12148 PMC 3839645 PMID 23829433 Semple F Dorin JR 2012 b Defensins multifunctional modulators of infection inflammation and more Journal of Innate Immunity 4 4 337 48 doi 10 1159 000336619 PMC 6784047 PMID 22441423 Fobis Loisy I Ivanov R Gaude T 2012 The S LOCUS CYSTEINE RICH PROTEIN SCR A Small Peptide with a High Impact on the Evolution of Flowering Plants Plant Signaling Peptides Signaling and Communication in Plants Vol 16 Springer Berlin Heidelberg pp 77 92 doi 10 1007 978 3 642 27603 3 5 ISBN 978 3 642 27602 6 Williams LK Brayer GD 2015 11 25 Porcine pancreatic alpha amylase in complex with helianthamide a novel proteinaceous inhibitor doi 10 2210 pdb4x0n pdb Zhao Q Chae YK Markley JL 2003 01 07 Minimized NMR structure of ATT an Arabidopsis trypsin chymotrypsin inhibitor doi 10 2210 pdb1jxc pdb Pelegrini PB Lay FT Murad AM Anderson MA Franco OL November 2008 Novel insights on the mechanism of action of alpha amylase inhibitors from the plant defensin family Proteins 73 3 719 29 doi 10 1002 prot 22086 PMID 18498107 S2CID 28378146 a b Barrera GJ Sanchez G Gonzalez JE November 2012 Trefoil factor 3 isolated from human breast milk downregulates cytokines IL8 and IL6 and promotes human beta defensin hBD2 and hBD4 expression in intestinal epithelial cells HT 29 Bosnian Journal of Basic Medical Sciences 12 4 256 64 doi 10 17305 bjbms 2012 2448 PMC 4362502 PMID 23198942 retrocyclin at the U S National Library of Medicine Medical Subject Headings MeSH Munk C Wei G Yang OO Waring AJ Wang W Hong T Lehrer RI Landau NR Cole AM October 2003 The theta defensin retrocyclin inhibits HIV 1 entry AIDS Research and Human Retroviruses 19 10 875 81 doi 10 1089 088922203322493049 PMID 14585219 Kim C Gajendran N Mittrucker HW Weiwad M Song YH Hurwitz R Wilmanns M Fischer G Kaufmann SH March 2005 Human alpha defensins neutralize anthrax lethal toxin and protect against its fatal consequences Proceedings of the National Academy of Sciences of the United States of America 102 13 4830 5 Bibcode 2005PNAS 102 4830K doi 10 1073 pnas 0500508102 PMC 555714 PMID 15772169 Barrera GJ Tortolero GS 2016 Trefoil factor 3 TFF3 from human breast milk activates PAR 2 receptors of the intestinal epithelial cells HT 29 regulating cytokines and defensins Bratislavske Lekarske Listy 117 6 332 9 doi 10 4149 bll 2016 066 PMID 27546365 Albrethsen J Bogebo R Gammeltoft S Olsen J Winther B Raskov H January 2005 Upregulated expression of human neutrophil peptides 1 2 and 3 HNP 1 3 in colon cancer serum and tumours a biomarker study BMC Cancer 5 8 doi 10 1186 1471 2407 5 8 PMC 548152 PMID 15656915 Philpott MP November 2003 Defensins and acne Molecular Immunology 40 7 457 62 doi 10 1016 S0161 5890 03 00154 8 PMID 14568392 Researchers discover a possible cause of chronic inflammations of Crohn Disease Genomics amp Genetics Weekly 72 August 11 2006 Wehkamp J Salzman NH Porter E Nuding S Weichenthal M Petras RE Shen B Schaeffeler E Schwab M Linzmeier R Feathers RW Chu H Lima H Fellermann K Ganz T Stange EF Bevins CL December 2005 Reduced Paneth cell alpha defensins in ileal Crohn s disease Proceedings of the National Academy of Sciences of the United States of America 102 50 18129 34 Bibcode 2005PNAS 10218129W doi 10 1073 pnas 0505256102 PMC 1306791 PMID 16330776 Craddock RM Huang JT Jackson E Harris N Torrey EF Herberth M Bahn S July 2008 Increased alpha defensins as a blood marker for schizophrenia susceptibility Molecular amp Cellular Proteomics 7 7 1204 13 doi 10 1074 mcp M700459 MCP200 PMID 18349140 S2CID 35381828 Harder J Bartels J Christophers E Schroder JM February 2001 Isolation and characterization of human beta defensin 3 a novel human inducible peptide antibiotic The Journal of Biological Chemistry 276 8 5707 13 doi 10 1074 jbc M008557200 PMID 11085990 S2CID 9516726 a b Bolatchiev A 2020 11 25 Antibacterial activity of human defensins against Staphylococcus aureus and Escherichia coli PeerJ 8 e10455 doi 10 7717 peerj 10455 PMC 7698690 PMID 33304659 Press release PolyMedix Press release 2008 05 09 Business Wire PMX 30063 The First And Only Defensin Mimetic Systemic Antibiotic Drug In Human Clinical Trials 2008 Clinical trial number NCT02324335 for Phase 2 Study to Evaluate the Safety amp Efficacy of Brilacidin Oral Rinse in Patients With Head and Neck Cancer Brilacidin at ClinicalTrials gov Brilacidin OM page Cellceutix Archived from the original on 2015 02 07 Retrieved 2015 03 02 Candidiasis Cellceutix Archived from the original on 2015 02 07 Retrieved 2015 03 02 Diamond G Scott R A Novel Therapeutic For Invasive Candiasis Grantome Fox Chase Chemical Diversity Center Ryan LK Freeman KB Masso Silva JA Falkovsky K Aloyouny A Markowitz K Hise AG Fatahzadeh M Scott RW Diamond G July 2014 Activity of potent and selective host defense peptide mimetics in mouse models of oral candidiasis Antimicrobial Agents and Chemotherapy 58 7 3820 7 doi 10 1128 AAC 02649 13 PMC 4068575 PMID 24752272 External links edit nbsp Wikimedia Commons has media related to Defensin Defensins Database Singapore Archived 2008 04 24 at the Wayback Machine Innate Nonspecific Immunity at Western Kentucky University UMich Orientation of Proteins in Membranes families superfamily 56 Vertebrate defensins and related sea anemone sodium channel toxins UMich Orientation of Proteins in Membranes families superfamily 61 Defensins from insects and plants and scorpion toxins Defensins at the U S National Library of Medicine Medical Subject Headings MeSH Retrieved from https en wikipedia org w index php title Defensin amp oldid 1206166747, wikipedia, wiki, book, books, library,

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