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Vejocalcin

January 01, 1970

Vejocalcin (VjCa, also called Vejocalcine) is a toxin from the venom of the Mexican scorpion Vaejovis mexicanus. Vejocalcin is a member of the calcin family of toxins. It acts as a cell-penetrating peptide (CPP); it binds with high affinity and specificity to skeletal ryanodine receptor 1 (RYR1) of the sarcoplasmic reticulum, thereby triggering calcium release from intracellular Ca2+ stores.

Vejocalcin
3-dimensional modelling of Vejocalcin toxin.[1]
Names and Taxonomy
Recommended nameVejocalcin
Short nameVjCa
OrganismVaejovis mexicanus
Taxonomic Identifier993612 [NCBI]
Taxonomic LineageVaejovis
Family and Domains
DomainKnottin
Sequence SimilaritiesScorpion Calcin Family
InterProIPR012632
PfamPF08099
PROSITEPS60028
Identifiers
UniProtP0DPT1

Source and etymology edit

Vejocalcin is produced by Vaejovis mexicanus, a scorpion endemic to North and Central America.[2] While Vaejovis mexicanus was originally described in 1836,[3] vejocalcin was only isolated in 2016. This toxin was named after the scorpion that produces the peptide as well as its structural similarity to other toxins of the scorpion calcin family.[1]

Chemistry edit

Homology and family edit

On the basis of its amino acid structure, vejocalcin belongs to the family of scorpion calcin toxins, a group of selective, high-affinity membrane-permeable ligands of RyRs. Vejocalcin shares significant sequence similarity with other members of this family.[1]

Structure edit

Vejocalcin has a molecular mass of approximately 3.8 kDa and an isoelectric point of 9.3.[1]

Physical and chemical characteristics of vejocalcin [1]
Formula Amino Acids Molecular Mass Molecular Volume Negatively charged residues Positively charged residues
C149H254N56O47S6 33 3,774.4 2,692.7 3 (9%) 9 (27%)

It is a relatively small protein, consisting of only 33 amino acids:  

Ala-Asp-Cys-Leu-Ala-His-Leu-Lys-Leu-Cys-Lys-Lys-Asn-Asn-Asp-Cys-Cys-Ser-Lys-Lys-Cys-Ser-Arg-Arg-Gly-Thr-Asn-Pro-Glu-Glu-Arg-Cys-Arg

Notably, two calcins produced by two closely related scorpions - vejocalcin from Vaejovis mexicanus and intrepicalcin from Vaejovis intrepidus - display a 97% similarity in their primary sequence, differing in only one amino acid at position 14 (Asn and Lys, respectively). Despite this marked similarity, vejocalcin exhibits a binding affinity to RyR1 that is 4.7-fold higher than that of intrepicalcin.[1]

Vejocalcin shows an arrangement of charged residues, in which most of the positively charged residues are segregated on one side of the molecule, whereas neutral and negatively charged residues are clustered on the opposite side.[1] This arrangement generates a discrete dipole moment (DM) and appears to be a prevalent feature across all toxins of the calcin family.[4] Interestingly, vejocalcin has the smallest charge segregation among peptides in the calcin family. However, comparisons among different calcins show that, for each peptide, there appears to be no correlation between DM, binding affinity and subconductance state attributes.[1][5]

Maturation of vejocalcin involves post-translational modification of its tertiary structure. Specifically, three disulfide bonds are formed between cysteine residues in positions 3–17, 10–21, and 16–32.[1] These three disulfide bonds arrange themselves spatially to form a “disulfide through disulfide knot”, which is an evolutionary conserved structural motif known as the inhibitor cystine knot motif (ICK motif), thus defining the whole protein as a knottin.[6] This three-dimensional arrangement confers the protein remarkable stability and builds the structural core of its pharmacological active site. ICK motifs have also been shown to be characteristic of calcium channel blocking toxins produced by snails and spiders.[1]

Target edit

Though the exact target of vejocalcin on RyR1 remains unclear, it is thought that calcins bind to RyR1 at a binding site different from that of ryanodine, as the combination of calcins and ryanodine can have a cumulative effect on RyR1.[1][5] Like most calcins, vejocalcin shows a fast association rate, as well as a reversible effect, due to free dissociation from the binding site.[1] Single channel experiments and modeling of the kinetics and gating of RyR1 during calcin exposure suggest that the RyR1 transits between closed and open states and a single calcin molecule binds to the channel when the channel is in the open state.[1] It is hypothesized that globular calcins, such as vejocalcin, can affect RyR1 channels by entering the cytosolic opening and accessing the binding site in the core of the channel.[1] The precise mechanism by which calcins bind to their target, however, remains controversial.[5]

Mode of action edit

Using single channel electrophysiological recordings, it was found that RyR1 channels exposed to vejocalcin move from an open state to a subconductance open state, with the latter conducting approximately 60% of the full-conductance level.[1][6] Evidence from [3H]ryanodine binding assays shows that vejocalcin is able to enhance [3H]ryanodine binding to RyR1. This effect of vejocalcin is dose-dependent and happens at all Ca2+ levels, with an apparent dissociation constant Kd= 3.7 ± 0.4 nM.[1] Mechanistically, vejocalcin is thought to promote this action by increasing the “openness” of the channel in a long-lasting, reversible and transient manner.[1]

Noteworthy, vejocalcin triggers dose-dependent Ca2+ release from skeletal sarcoplasmic vesicles. High concentrations of vejocalcin drive incomplete, submaximal depletion of Ca2+ load through the process of calcium-induced calcium release (CICR) from intracellular Ca2+ stores.[1] These functional effects are also characteristic of other calcins as detected in structure–function relationship assays.[1]

Toxicity edit

While the effects of vejocalcin have not yet been studied, in vivo toxicity testing of hemicalcin has shown that the peptide induces neurotoxic symptoms in mice, followed by death.[7] The comparable activity of vejocalcin and hemicalcin on RyR1 suggests a similar toxicity of vejocalcin.[6] However, given the high variability in RyR-affinity between various calcins, the LD50 may vary significantly.[7][8]

Therapeutic use edit

Despite their highly ionized nature, calcins are able to penetrate cell membranes with high efficiency.[9] Thus, they act as cell-penetrating peptides (CPPs) and can transport large, membrane-impermeable cargos across the plasma membrane directly into the cell.[10][11] This property of calcins, combined with their high-affinity and specificity to RyRs, may have positive implications for intracellular drug delivery, particularly for the treatment of RyR channelopathies.[12]

References edit

  1. ^ a b c d e f g h i j k l m n o p q r s Xiao, Liang; Gurrola, Georgina B.; Zhang, Jing; Martin, Mario San; Zamudio, Fernando Z.; Possani, Lourival D.; Valdivia, Héctor H. (2014-01-28). "Structure-Function Relationship of Calcins, a Family of High-Affinity Peptide Ligands of Ryanodine Receptors". Biophysical Journal. 106 (2). Cell: 106–13. Bibcode:2014BpJ...106..106X. doi:10.1016/j.bpj.2013.11.656. PMC 3907369. PMID 24411242.
  2. ^ Fet, V., Sissom, W. D., Lowe, G., & Braunwalder, M. E. (2000). Catalog of the scorpions of the world (1758-1998). New York Entomological Society.
  3. ^ Koch, C.L. (1836) Die Arachniden. Nürnberg: C. H. Zeh'sche Buchhandlung, 3 (1–5), 17–104.
  4. ^ Vargas-Jaimes, L., Xiao, L., Zhang, J., Possani, L. D., Valdivia, H. H., & Quintero-Hernández, V. (2017). Recombinant expression of Intrepicalcin from the scorpion Vaejovis intrepidus and its effect on skeletal ryanodine receptors. Biochimica et Biophysica Acta (BBA) - General Subjects, 1861(4), 936-946. PMID 28159581 PMCID: PMC5329131 DOI: 10.1016/j.bbagen.2017.01.032
  5. ^ a b c Ramos-Franco, J., & Fill, M. (2016). Approaching ryanodine receptor therapeutics from the calcin angle. The Journal of general physiology, 147(5), 369-373. PMID 27114611 PMCID: PMC4845691 DOI: 10.1085/jgp.201611599
  6. ^ a b c “Vejocalcin.” UniProt, 3 July 2019, www.uniprot.org/uniprot/P0DPT1.
  7. ^ a b Shahbazzadeh, D., Srairi-Abid, N., Feng, W., Ram, N., Borchani, L., Ronjat, M., … El Ayeb, M. (2007). Hemicalcin, a new toxin from the Iranian scorpion Hemiscorpius lepturus which is active on ryanodine-sensitive Ca2+ channels. The Biochemical journal, 404(1), 89–96. PMID 17291197 PMCID: PMC1868827 DOI: 10.1042/BJ20061404
  8. ^ Fajloun, Z., Kharrat, R., Chen, L., Lecomte, C., Di Luccio, E., Bichet, D., ... & De Waard, M. (2000). Chemical synthesis and characterization of maurocalcine, a scorpion toxin that activates Ca2+ release channel/ryanodine receptors. FEBS letters, 469(2-3), 179-185.Chicago PMID 10713267 DOI: 10.1016/s0014-5793(00)01239-4
  9. ^ Schwartz, E.F., E.M. Capes, E. Diego-García, F.Z. Zamudio, O. Fuentes, L.D. Possani, and H.H. Valdivia. 2009. Characterization of hadrucalcin, a peptide from Hadrurus gertschi scorpion venom with pharmacological activity on ryanodine receptors. Br. J. Pharmacol. 157:392–403. PMID 19389159 PMCID: PMC2707986 DOI: 10.1111/j.1476-5381.2009.00147.x
  10. ^ Altafaj, X., W. Cheng, E. Estève, J. Urbani, D. Grunwald, J.M. Sabatier, R. Coronado, M. De Waard, and M. Ronjat. 2005. Maurocalcine and domain A of the II-III loop of the dihydropyridine receptor Cav 1.1 subunit share common binding sites on the skeletal ryanodine receptor. J. Biol. Chem. 280:4013–4016. hPMID 15591063 PMCID: PMC2712624 DOI: 10.1074/jbc.C400433200
  11. ^ Boisseau, S., K. Mabrouk, N. Ram, N. Garmy, V. Collin, A. Tadmouri, M. Mikati, J.M. Sabatier, M. Ronjat, J. Fantini, and M. De Waard. 2006. Cell penetration properties of maurocalcine, a natural venom peptide active on the intracellular ryanodine receptor. Biochim. Biophys. Acta. 1758:308–319. PMID 16545341 DOI: 10.1016/j.bbamem.2006.02.007
  12. ^ Benkusky, N.A., E.F. Farrell, and H.H. Valdivia. 2004. Ryanodine receptor channelopathies. Biochem. Biophys. Res. Commun. 322:1280–1285. PMID 15336975 DOI: 10.1016/j.bbrc.2004.08.033

External links edit

  • Knottin Database
  • UniProt Vejocalcin

January 01, 1970
vejocalcin, vjca, also, called, toxin, from, venom, mexican, scorpion, vaejovis, mexicanus, member, calcin, family, toxins, acts, cell, penetrating, peptide, binds, with, high, affinity, specificity, skeletal, ryanodine, receptor, ryr1, sarcoplasmic, reticulum. Vejocalcin VjCa also called Vejocalcine is a toxin from the venom of the Mexican scorpion Vaejovis mexicanus Vejocalcin is a member of the calcin family of toxins It acts as a cell penetrating peptide CPP it binds with high affinity and specificity to skeletal ryanodine receptor 1 RYR1 of the sarcoplasmic reticulum thereby triggering calcium release from intracellular Ca2 stores Vejocalcin3 dimensional modelling of Vejocalcin toxin 1 Names and TaxonomyRecommended nameVejocalcinShort nameVjCaOrganismVaejovis mexicanusTaxonomic Identifier993612 NCBI Taxonomic LineageVaejovisFamily and DomainsDomainKnottinSequence SimilaritiesScorpion Calcin FamilyInterProIPR012632PfamPF08099PROSITEPS60028IdentifiersUniProtP0DPT1vte Contents 1 Source and etymology 2 Chemistry 2 1 Homology and family 2 2 Structure 3 Target 4 Mode of action 5 Toxicity 6 Therapeutic use 7 References 8 External linksSource and etymology editVejocalcin is produced by Vaejovis mexicanus a scorpion endemic to North and Central America 2 While Vaejovis mexicanus was originally described in 1836 3 vejocalcin was only isolated in 2016 This toxin was named after the scorpion that produces the peptide as well as its structural similarity to other toxins of the scorpion calcin family 1 Chemistry editHomology and family edit On the basis of its amino acid structure vejocalcin belongs to the family of scorpion calcin toxins a group of selective high affinity membrane permeable ligands of RyRs Vejocalcin shares significant sequence similarity with other members of this family 1 Structure edit Vejocalcin has a molecular mass of approximately 3 8 kDa and an isoelectric point of 9 3 1 Physical and chemical characteristics of vejocalcin 1 Formula Amino Acids Molecular Mass Molecular Volume Negatively charged residues Positively charged residues C149H254N56O47S6 33 3 774 4 2 692 7 3 9 9 27 It is a relatively small protein consisting of only 33 amino acids Ala Asp Cys Leu Ala His Leu Lys Leu Cys Lys Lys Asn Asn Asp Cys Cys Ser Lys Lys Cys Ser Arg Arg Gly Thr Asn Pro Glu Glu Arg Cys Arg Notably two calcins produced by two closely related scorpions vejocalcin from Vaejovis mexicanus and intrepicalcin from Vaejovis intrepidus display a 97 similarity in their primary sequence differing in only one amino acid at position 14 Asn and Lys respectively Despite this marked similarity vejocalcin exhibits a binding affinity to RyR1 that is 4 7 fold higher than that of intrepicalcin 1 Vejocalcin shows an arrangement of charged residues in which most of the positively charged residues are segregated on one side of the molecule whereas neutral and negatively charged residues are clustered on the opposite side 1 This arrangement generates a discrete dipole moment DM and appears to be a prevalent feature across all toxins of the calcin family 4 Interestingly vejocalcin has the smallest charge segregation among peptides in the calcin family However comparisons among different calcins show that for each peptide there appears to be no correlation between DM binding affinity and subconductance state attributes 1 5 Maturation of vejocalcin involves post translational modification of its tertiary structure Specifically three disulfide bonds are formed between cysteine residues in positions 3 17 10 21 and 16 32 1 These three disulfide bonds arrange themselves spatially to form a disulfide through disulfide knot which is an evolutionary conserved structural motif known as the inhibitor cystine knot motif ICK motif thus defining the whole protein as a knottin 6 This three dimensional arrangement confers the protein remarkable stability and builds the structural core of its pharmacological active site ICK motifs have also been shown to be characteristic of calcium channel blocking toxins produced by snails and spiders 1 Target editThough the exact target of vejocalcin on RyR1 remains unclear it is thought that calcins bind to RyR1 at a binding site different from that of ryanodine as the combination of calcins and ryanodine can have a cumulative effect on RyR1 1 5 Like most calcins vejocalcin shows a fast association rate as well as a reversible effect due to free dissociation from the binding site 1 Single channel experiments and modeling of the kinetics and gating of RyR1 during calcin exposure suggest that the RyR1 transits between closed and open states and a single calcin molecule binds to the channel when the channel is in the open state 1 It is hypothesized that globular calcins such as vejocalcin can affect RyR1 channels by entering the cytosolic opening and accessing the binding site in the core of the channel 1 The precise mechanism by which calcins bind to their target however remains controversial 5 Mode of action editUsing single channel electrophysiological recordings it was found that RyR1 channels exposed to vejocalcin move from an open state to a subconductance open state with the latter conducting approximately 60 of the full conductance level 1 6 Evidence from 3H ryanodine binding assays shows that vejocalcin is able to enhance 3H ryanodine binding to RyR1 This effect of vejocalcin is dose dependent and happens at all Ca2 levels with an apparent dissociation constant Kd 3 7 0 4 nM 1 Mechanistically vejocalcin is thought to promote this action by increasing the openness of the channel in a long lasting reversible and transient manner 1 Noteworthy vejocalcin triggers dose dependent Ca2 release from skeletal sarcoplasmic vesicles High concentrations of vejocalcin drive incomplete submaximal depletion of Ca2 load through the process of calcium induced calcium release CICR from intracellular Ca2 stores 1 These functional effects are also characteristic of other calcins as detected in structure function relationship assays 1 Toxicity editWhile the effects of vejocalcin have not yet been studied in vivo toxicity testing of hemicalcin has shown that the peptide induces neurotoxic symptoms in mice followed by death 7 The comparable activity of vejocalcin and hemicalcin on RyR1 suggests a similar toxicity of vejocalcin 6 However given the high variability in RyR affinity between various calcins the LD50 may vary significantly 7 8 Therapeutic use editDespite their highly ionized nature calcins are able to penetrate cell membranes with high efficiency 9 Thus they act as cell penetrating peptides CPPs and can transport large membrane impermeable cargos across the plasma membrane directly into the cell 10 11 This property of calcins combined with their high affinity and specificity to RyRs may have positive implications for intracellular drug delivery particularly for the treatment of RyR channelopathies 12 References edit a b c d e f g h i j k l m n o p q r s Xiao Liang Gurrola Georgina B Zhang Jing Martin Mario San Zamudio Fernando Z Possani Lourival D Valdivia Hector H 2014 01 28 Structure Function Relationship of Calcins a Family of High Affinity Peptide Ligands of Ryanodine Receptors Biophysical Journal 106 2 Cell 106 13 Bibcode 2014BpJ 106 106X doi 10 1016 j bpj 2013 11 656 PMC 3907369 PMID 24411242 Fet V Sissom W D Lowe G amp Braunwalder M E 2000 Catalog of the scorpions of the world 1758 1998 New York Entomological Society Koch C L 1836 Die Arachniden Nurnberg C H Zeh sche Buchhandlung 3 1 5 17 104 Vargas Jaimes L Xiao L Zhang J Possani L D Valdivia H H amp Quintero Hernandez V 2017 Recombinant expression of Intrepicalcin from the scorpion Vaejovis intrepidus and its effect on skeletal ryanodine receptors Biochimica et Biophysica Acta BBA General Subjects 1861 4 936 946 PMID 28159581 PMCID PMC5329131 DOI 10 1016 j bbagen 2017 01 032 a b c Ramos Franco J amp Fill M 2016 Approaching ryanodine receptor therapeutics from the calcin angle The Journal of general physiology 147 5 369 373 PMID 27114611 PMCID PMC4845691 DOI 10 1085 jgp 201611599 a b c Vejocalcin UniProt 3 July 2019 www uniprot org uniprot P0DPT1 a b Shahbazzadeh D Srairi Abid N Feng W Ram N Borchani L Ronjat M El Ayeb M 2007 Hemicalcin a new toxin from the Iranian scorpion Hemiscorpius lepturus which is active on ryanodine sensitive Ca2 channels The Biochemical journal 404 1 89 96 PMID 17291197 PMCID PMC1868827 DOI 10 1042 BJ20061404 Fajloun Z Kharrat R Chen L Lecomte C Di Luccio E Bichet D amp De Waard M 2000 Chemical synthesis and characterization of maurocalcine a scorpion toxin that activates Ca2 release channel ryanodine receptors FEBS letters 469 2 3 179 185 Chicago PMID 10713267 DOI 10 1016 s0014 5793 00 01239 4 Schwartz E F E M Capes E Diego Garcia F Z Zamudio O Fuentes L D Possani and H H Valdivia 2009 Characterization of hadrucalcin a peptide from Hadrurus gertschi scorpion venom with pharmacological activity on ryanodine receptors Br J Pharmacol 157 392 403 PMID 19389159 PMCID PMC2707986 DOI 10 1111 j 1476 5381 2009 00147 x Altafaj X W Cheng E Esteve J Urbani D Grunwald J M Sabatier R Coronado M De Waard and M Ronjat 2005 Maurocalcine and domain A of the II III loop of the dihydropyridine receptor Cav 1 1 subunit share common binding sites on the skeletal ryanodine receptor J Biol Chem 280 4013 4016 hPMID 15591063 PMCID PMC2712624 DOI 10 1074 jbc C400433200 Boisseau S K Mabrouk N Ram N Garmy V Collin A Tadmouri M Mikati J M Sabatier M Ronjat J Fantini and M De Waard 2006 Cell penetration properties of maurocalcine a natural venom peptide active on the intracellular ryanodine receptor Biochim Biophys Acta 1758 308 319 PMID 16545341 DOI 10 1016 j bbamem 2006 02 007 Benkusky N A E F Farrell and H H Valdivia 2004 Ryanodine receptor channelopathies Biochem Biophys Res Commun 322 1280 1285 PMID 15336975 DOI 10 1016 j bbrc 2004 08 033External links editKnottin Database UniProt Vejocalcin Retrieved from https en wikipedia org w index php title Vejocalcin amp oldid 1149011201, wikipedia, wiki, book, books, library,

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