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Wikipedia

Cytokine

March 14, 2023

Not to be confused with Cytokinin, a class of plant hormones promoting cell division.

Cytokines are a broad and loose category of small proteins (~5–25 kDa[1]) important in cell signaling. Cytokines are peptides and cannot cross the lipid bilayer of cells to enter the cytoplasm. Cytokines have been shown to be involved in autocrine, paracrine and endocrine signaling as immunomodulating agents.

3D medical animation still showing secretion of cytokines

Cytokines include chemokines, interferons, interleukins, lymphokines, and tumour necrosis factors, but generally not hormones or growth factors (despite some overlap in the terminology). Cytokines are produced by a broad range of cells, including immune cells like macrophages, B lymphocytes, T lymphocytes and mast cells, as well as endothelial cells, fibroblasts, and various stromal cells; a given cytokine may be produced by more than one type of cell.[2][3] They act through cell surface receptors and are especially important in the immune system; cytokines modulate the balance between humoral and cell-based immune responses, and they regulate the maturation, growth, and responsiveness of particular cell populations. Some cytokines enhance or inhibit the action of other cytokines in complex ways. They are different from hormones, which are also important cell signaling molecules. Hormones circulate in higher concentrations, and tend to be made by specific kinds of cells. Cytokines are important in health and disease, specifically in host immune responses to infection, inflammation, trauma, sepsis, cancer, and reproduction.

The word comes from the ancient Greek language: cyto, from Greek κύτος, kytos, 'cavity, cell' + kines, from Greek κίνησις, kinēsis, 'movement'.

Discovery

Interferon-alpha, an interferon type I, was identified in 1957 as a protein that interfered with viral replication.[4] The activity of interferon-gamma (the sole member of the interferon type II class) was described in 1965; this was the first identified lymphocyte-derived mediator.[5] Macrophage migration inhibitory factor (MIF) was identified simultaneously in 1966 by John David and Barry Bloom.[6][7]

In 1969, Dudley Dumonde proposed the term "lymphokine" to describe proteins secreted from lymphocytes and later, proteins derived from macrophages and monocytes in culture were called "monokines".[8] In 1974, pathologist Stanley Cohen, M.D. (not to be confused with the Nobel laureate) published an article describing the production of MIF in virus-infected allantoic membrane and kidney cells, showing its production is not limited to immune cells. This led to his proposal of the term cytokine.[9] Ogawa described the early acting growth factors, intermediate acting growth factors and late acting growth factors.[10]

Difference from hormones

Classic hormones circulate in aqueous solution in nanomolar (10-9 M) concentrations that usually vary by less than one order of magnitude. In contrast, some cytokines (such as IL-6) circulate in picomolar (10-12 M) concentrations that can increase up to 1,000 times during trauma or infection. The widespread distribution of cellular sources for cytokines may be a feature that differentiates them from hormones. Virtually all nucleated cells, but especially endo/epithelial cells and resident macrophages (many near the interface with the external environment) are potent producers of IL-1, IL-6, and TNF-α.[11] In contrast, classic hormones, such as insulin, are secreted from discrete glands such as the pancreas.[12] The current terminology refers to cytokines as immunomodulating agents.

A contributing factor to the difficulty of distinguishing cytokines from hormones is that some immunomodulating effects of cytokines are systemic (i.e., affecting the whole organism) rather than local. For instance, to accurately utilize hormone terminology, cytokines may be autocrine or paracrine in nature, and chemotaxis, chemokinesis and endocrine as a pyrogen. Essentially, cytokines are not limited to their immunomodulatory status as molecules.

 
Cytokines typically activate second messenger systems, like JAK-STAT pathways, as illustrated on the left side of the diagram. Conversely, hormones typically activate different signaling pathways, like G protein-coupled receptors, seen at the top of the figure.

Nomenclature

Cytokines have been classed as lymphokines, interleukins, and chemokines, based on their presumed function, cell of secretion, or target of action. Because cytokines are characterised by considerable redundancy and pleiotropism, such distinctions, allowing for exceptions, are obsolete.

  • The term interleukin was initially used by researchers for those cytokines whose presumed targets are principally white blood cells (leukocytes). It is now used largely for designation of newer cytokine molecules and bears little relation to their presumed function. The vast majority of these are produced by T-helper cells.
  • Lymphokines: produced by lymphocytes
  • Monokines: produced exclusively by monocytes
  • Interferons: involved in antiviral responses
  • Colony stimulating factors: support the growth of cells in semisolid media
  • Chemokines: mediate chemoattraction (chemotaxis) between cells.

Classification

Structural

Structural homogeneity has been able to partially distinguish between cytokines that do not demonstrate a considerable degree of redundancy so that they can be classified into four types:

Functional

A classification that proves more useful in clinical and experimental practice outside of structural biology divides immunological cytokines into those that enhance cellular immune responses, type 1 (TNFα, IFN-γ, etc.), and those that enhance antibody responses, type 2 (TGF-β, IL-4, IL-10, IL-13, etc.). A key focus of interest has been that cytokines in one of these two sub-sets tend to inhibit the effects of those in the other. Dysregulation of this tendency is under intensive study for its possible role in the pathogenesis of autoimmune disorders. Several inflammatory cytokines are induced by oxidative stress.[16][17] The fact that cytokines themselves trigger the release of other cytokines [18][19][20] and also lead to increased oxidative stress makes them important in chronic inflammation, as well as other immunoresponses, such as fever and acute phase proteins of the liver (IL-1,6,12, IFN-a). Cytokines also play a role in anti-inflammatory pathways and are a possible therapeutic treatment for pathological pain from inflammation or peripheral nerve injury.[21] There are both pro-inflammatory and anti-inflammatory cytokines that regulate this pathway.

Receptors

Main article: Cytokine receptor

In recent years, the cytokine receptors have come to demand the attention of more investigators than cytokines themselves, partly because of their remarkable characteristics and partly because a deficiency of cytokine receptors has now been directly linked to certain debilitating immunodeficiency states. In this regard, and also because the redundancy and pleomorphism of cytokines are, in fact, a consequence of their homologous receptors, many authorities think that a classification of cytokine receptors would be more clinically and experimentally useful.

A classification of cytokine receptors based on their three-dimensional structure has, therefore, been attempted. Such a classification, though seemingly cumbersome, provides several unique perspectives for attractive pharmacotherapeutic targets.

  • Immunoglobulin (Ig) superfamily, which are ubiquitously present throughout several cells and tissues of the vertebrate body, and share structural homology with immunoglobulins (antibodies), cell adhesion molecules, and even some cytokines. Examples: IL-1 receptor types.
  • Hemopoietic Growth Factor (type 1) family, whose members have certain conserved motifs in their extracellular amino-acid domain. The IL-2 receptor belongs to this chain, whose γ-chain (common to several other cytokines) deficiency is directly responsible for the x-linked form of Severe Combined Immunodeficiency (X-SCID).
  • Interferon (type 2) family, whose members are receptors for IFN β and γ.
  • Tumor necrosis factors (TNF) (type 3) family, whose members share a cysteine-rich common extracellular binding domain, and includes several other non-cytokine ligands like CD40, CD27 and CD30, besides the ligands on which the family is named.
  • Seven transmembrane helix family, the ubiquitous receptor type of the animal kingdom. All G protein-coupled receptors (for hormones and neurotransmitters) belong to this family. Chemokine receptors, two of which act as binding proteins for HIV (CD4 and CCR5), also belong to this family.[citation needed]
  • Interleukin-17 receptor (IL-17R) family, which shows little homology with any other cytokine receptor family. Structural motifs conserved between members of this family include: an extracellular fibronectin III-like domain, a transmembrane domain and a cytoplasmic SERIF domain. The known members of this family are as follows: IL-17RA, IL-17RB, IL-17RC, IL17RD and IL-17RE.[22]

Cellular effects

Each cytokine has a matching cell-surface receptor. Subsequent cascades of intracellular signaling then alter cell functions. This may include the upregulation and/or downregulation of several genes and their transcription factors, resulting in the production of other cytokines, an increase in the number of surface receptors for other molecules, or the suppression of their own effect by feedback inhibition. The effect of a particular cytokine on a given cell depends on the cytokine, its extracellular abundance, the presence and abundance of the complementary receptor on the cell surface, and downstream signals activated by receptor binding; these last two factors can vary by cell type. Cytokines are characterized by considerable redundancy, in that many cytokines appear to share similar functions. It seems to be a paradox that cytokines binding to antibodies have a stronger immune effect than the cytokine alone. This may lead to lower therapeutic doses.

It has been shown that inflammatory cytokines cause an IL-10-dependent inhibition of[23] T-cell expansion and function by up-regulating PD-1 levels on monocytes, which leads to IL-10 production by monocytes after binding of PD-1 by PD-L.[23] Adverse reactions to cytokines are characterized by local inflammation and/or ulceration at the injection sites. Occasionally such reactions are seen with more widespread papular eruptions.[24]

Roles in health and disease

Cytokines are involved in several developmental processes during embryonic development.[25][nb 1][26][nb 2] Cytokines are released from the blastocyst, and are also expressed in the endometrium, and have critical roles in the stages of zona hatching, and implantation.[27] Cytokines are crucial for fighting off infections and in other immune responses.[28] However, they can become dysregulated and pathological in inflammation, trauma, sepsis,[28] and hemorrhagic stroke.[29] Dysregulated cytokine secretion in the aged population can lead to inflammaging, and render these individuals more vulnerable to age-related diseases like neurodegenerative diseases and type 2 diabetes.[30]

Adverse effects

Adverse effects of cytokines have been linked to many disease states and conditions ranging from schizophrenia, major depression[31] and Alzheimer's disease[32] to cancer.[33] T regulatory cells (Tregs) and related-cytokines are effectively engaged in the process of tumor immune escape and functionally inhibit immune response against the tumor. Forkhead box protein 3 (Foxp3) as a transcription factor is an essential molecular marker of Treg cells. Foxp3 polymorphism (rs3761548) might be involved in cancer progression like gastric cancer through influencing Tregs function and the secretion of immunomodulatory cytokines such as IL-10, IL-35, and TGF-β.[34] Normal tissue integrity is preserved by feedback interactions between diverse cell types mediated by adhesion molecules and secreted cytokines; disruption of normal feedback mechanisms in cancer threatens tissue integrity.[35]

Over-secretion of cytokines can trigger a dangerous cytokine storm syndrome. Cytokine storms may have been the cause of severe adverse events during a clinical trial of TGN1412. Cytokine storms are also suspected to be the main cause of death in the 1918 "Spanish Flu" pandemic. Deaths were weighted more heavily towards people with healthy immune systems, because of their ability to produce stronger immune responses, with dramatic increases in cytokine levels. Another example of cytokine storm is seen in acute pancreatitis. Cytokines are integral and implicated in all angles of the cascade, resulting in the systemic inflammatory response syndrome and multi-organ failure associated with this intra-abdominal catastrophe.[36] In the COVID-19 pandemic, some deaths from COVID-19 have been attributable to cytokine release storms.[37][38][39] Current data suggest cytokine storms may be the source of extensive lung tissue damage and dysfunctional coagulation in COVID-19 infections.[40]

Medical use as drugs

Some cytokines have been developed into protein therapeutics using recombinant DNA technology.[41] Recombinant cytokines being used as drugs as of 2014 include:[42]

See also

Notes

  1. ^ Saito explains "much evidence has suggested that cytokines and chemokines play a very important role in the reproduction, i.e. embryo implantation, endometrial development, and trophoblast growth and differentiation by modulating the immune and endocrine systems."(15)
  2. ^ Chen explains the regulatory activity of LIF in human and murine embryos: "In conclusion, human preimplantation embryos express LIF and LIF-R mRNA. The expression of these transcripts indicates that preimplantation embryos may be responsive to LIF originating either from the surrounding environment or from the embryos themselves and exerting its function in a paracrine or autocrine manner."(719)

References

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  3. ^ "Cytokine". Stedman's Medical Dictionary (28th ed.). Wolters Kluwer Health, Lippincott Williams & Wilkins. 2006. ISBN 978-0-7817-6450-6.
  4. ^ Isaacs A, Lindenmann J (September 1957). "Virus interference. I. The interferon". Proc. R. Soc. Lond. B Biol. Sci. 147 (927): 258–67. Bibcode:1957RSPSB.147..258I. doi:10.1098/rspb.1957.0048. PMID 13465720. S2CID 202574492.
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  14. ^ Rozwarski DA, Gronenborn AM, Clore GM, Bazan JF, Bohm A, Wlodawer A, et al. (March 1994). "Structural comparisons among the short-chain helical cytokines". Structure. 2 (3): 159–73. doi:10.1016/s0969-2126(00)00018-6. PMID 8069631.
  15. ^ Reche PA (April 2019). "The tertiary structure of γc cytokines dictates receptor sharing". Cytokine. 116: 161–168. doi:10.1016/j.cyto.2019.01.007. PMID 30716660. S2CID 73449371.
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  18. ^ Chokkalingam V, Tel J, Wimmers F, Liu X, Semenov S, Thiele J, Figdor CG, Huck WT (December 2013). "Probing cellular heterogeneity in cytokine-secreting immune cells using droplet-based microfluidics". Lab Chip. 13 (24): 4740–44. doi:10.1039/c3lc50945a. PMID 24185478.
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  27. ^ Seshagiri, Polani B.; Vani, Venkatappa; Madhulika, Pathak (March 2016). "Cytokines and Blastocyst Hatching". American Journal of Reproductive Immunology. 75 (3): 208–217. doi:10.1111/aji.12464. PMID 26706391. S2CID 11540123. Retrieved 2 November 2022.
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  34. ^ Ezzeddini R, Somi MH, Taghikhani M, Moaddab SY, Masnadi Shirazi K, Shirmohammadi M, Eftekharsadat AT, Sadighi Moghaddam B, Salek Farrokhi A (February 2021). "Association of Foxp3 rs3761548 polymorphism with cytokines concentration in gastric adenocarcinoma patients". Cytokine. 138: 155351. doi:10.1016/j.cyto.2020.155351. ISSN 1043-4666. PMID 33127257. S2CID 226218796.
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External links

 
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March 14, 2023
cytokine, confused, with, cytokinin, class, plant, hormones, promoting, cell, division, broad, loose, category, small, proteins, important, cell, signaling, peptides, cannot, cross, lipid, bilayer, cells, enter, cytoplasm, have, been, shown, involved, autocrin. Not to be confused with Cytokinin a class of plant hormones promoting cell division Cytokines are a broad and loose category of small proteins 5 25 kDa 1 important in cell signaling Cytokines are peptides and cannot cross the lipid bilayer of cells to enter the cytoplasm Cytokines have been shown to be involved in autocrine paracrine and endocrine signaling as immunomodulating agents 3D medical animation still showing secretion of cytokines Cytokines include chemokines interferons interleukins lymphokines and tumour necrosis factors but generally not hormones or growth factors despite some overlap in the terminology Cytokines are produced by a broad range of cells including immune cells like macrophages B lymphocytes T lymphocytes and mast cells as well as endothelial cells fibroblasts and various stromal cells a given cytokine may be produced by more than one type of cell 2 3 They act through cell surface receptors and are especially important in the immune system cytokines modulate the balance between humoral and cell based immune responses and they regulate the maturation growth and responsiveness of particular cell populations Some cytokines enhance or inhibit the action of other cytokines in complex ways They are different from hormones which are also important cell signaling molecules Hormones circulate in higher concentrations and tend to be made by specific kinds of cells Cytokines are important in health and disease specifically in host immune responses to infection inflammation trauma sepsis cancer and reproduction The word comes from the ancient Greek language cyto from Greek kytos kytos cavity cell kines from Greek kinhsis kinesis movement Contents 1 Discovery 2 Difference from hormones 3 Nomenclature 4 Classification 4 1 Structural 4 2 Functional 5 Receptors 6 Cellular effects 7 Roles in health and disease 8 Adverse effects 9 Medical use as drugs 10 See also 11 Notes 12 References 13 External linksDiscovery EditInterferon alpha an interferon type I was identified in 1957 as a protein that interfered with viral replication 4 The activity of interferon gamma the sole member of the interferon type II class was described in 1965 this was the first identified lymphocyte derived mediator 5 Macrophage migration inhibitory factor MIF was identified simultaneously in 1966 by John David and Barry Bloom 6 7 In 1969 Dudley Dumonde proposed the term lymphokine to describe proteins secreted from lymphocytes and later proteins derived from macrophages and monocytes in culture were called monokines 8 In 1974 pathologist Stanley Cohen M D not to be confused with the Nobel laureate published an article describing the production of MIF in virus infected allantoic membrane and kidney cells showing its production is not limited to immune cells This led to his proposal of the term cytokine 9 Ogawa described the early acting growth factors intermediate acting growth factors and late acting growth factors 10 Difference from hormones EditClassic hormones circulate in aqueous solution in nanomolar 10 9 M concentrations that usually vary by less than one order of magnitude In contrast some cytokines such as IL 6 circulate in picomolar 10 12 M concentrations that can increase up to 1 000 times during trauma or infection The widespread distribution of cellular sources for cytokines may be a feature that differentiates them from hormones Virtually all nucleated cells but especially endo epithelial cells and resident macrophages many near the interface with the external environment are potent producers of IL 1 IL 6 and TNF a 11 In contrast classic hormones such as insulin are secreted from discrete glands such as the pancreas 12 The current terminology refers to cytokines as immunomodulating agents A contributing factor to the difficulty of distinguishing cytokines from hormones is that some immunomodulating effects of cytokines are systemic i e affecting the whole organism rather than local For instance to accurately utilize hormone terminology cytokines may be autocrine or paracrine in nature and chemotaxis chemokinesis and endocrine as a pyrogen Essentially cytokines are not limited to their immunomodulatory status as molecules Cytokines typically activate second messenger systems like JAK STAT pathways as illustrated on the left side of the diagram Conversely hormones typically activate different signaling pathways like G protein coupled receptors seen at the top of the figure Nomenclature EditCytokines have been classed as lymphokines interleukins and chemokines based on their presumed function cell of secretion or target of action Because cytokines are characterised by considerable redundancy and pleiotropism such distinctions allowing for exceptions are obsolete The term interleukin was initially used by researchers for those cytokines whose presumed targets are principally white blood cells leukocytes It is now used largely for designation of newer cytokine molecules and bears little relation to their presumed function The vast majority of these are produced by T helper cells Lymphokines produced by lymphocytes Monokines produced exclusively by monocytes Interferons involved in antiviral responses Colony stimulating factors support the growth of cells in semisolid media Chemokines mediate chemoattraction chemotaxis between cells Classification EditStructural Edit Structural homogeneity has been able to partially distinguish between cytokines that do not demonstrate a considerable degree of redundancy so that they can be classified into four types The four a helix bundle family InterPro IPR009079 member cytokines have three dimensional structures with a bundle of four a helices This family in turn is divided into three sub families the IL 2 subfamily This is the largest family It contains several non immunological cytokines including erythropoietin EPO and thrombopoietin TPO 13 They can be grouped into long chain and short chain cytokines by topology 14 Some members share the common gamma chain as part of their receptor 15 the interferon IFN subfamily the IL 10 subfamily The IL 1 family which primarily includes IL 1 and IL 18 The cysteine knot cytokines IPR029034 include members of the transforming growth factor beta superfamily including TGF b1 TGF b2 and TGF b3 The IL 17 family which has yet to be completely characterized though member cytokines have a specific effect in promoting proliferation of T cells that cause cytotoxic effects Functional Edit A classification that proves more useful in clinical and experimental practice outside of structural biology divides immunological cytokines into those that enhance cellular immune responses type 1 TNFa IFN g etc and those that enhance antibody responses type 2 TGF b IL 4 IL 10 IL 13 etc A key focus of interest has been that cytokines in one of these two sub sets tend to inhibit the effects of those in the other Dysregulation of this tendency is under intensive study for its possible role in the pathogenesis of autoimmune disorders Several inflammatory cytokines are induced by oxidative stress 16 17 The fact that cytokines themselves trigger the release of other cytokines 18 19 20 and also lead to increased oxidative stress makes them important in chronic inflammation as well as other immunoresponses such as fever and acute phase proteins of the liver IL 1 6 12 IFN a Cytokines also play a role in anti inflammatory pathways and are a possible therapeutic treatment for pathological pain from inflammation or peripheral nerve injury 21 There are both pro inflammatory and anti inflammatory cytokines that regulate this pathway Receptors EditMain article Cytokine receptor In recent years the cytokine receptors have come to demand the attention of more investigators than cytokines themselves partly because of their remarkable characteristics and partly because a deficiency of cytokine receptors has now been directly linked to certain debilitating immunodeficiency states In this regard and also because the redundancy and pleomorphism of cytokines are in fact a consequence of their homologous receptors many authorities think that a classification of cytokine receptors would be more clinically and experimentally useful A classification of cytokine receptors based on their three dimensional structure has therefore been attempted Such a classification though seemingly cumbersome provides several unique perspectives for attractive pharmacotherapeutic targets Immunoglobulin Ig superfamily which are ubiquitously present throughout several cells and tissues of the vertebrate body and share structural homology with immunoglobulins antibodies cell adhesion molecules and even some cytokines Examples IL 1 receptor types Hemopoietic Growth Factor type 1 family whose members have certain conserved motifs in their extracellular amino acid domain The IL 2 receptor belongs to this chain whose g chain common to several other cytokines deficiency is directly responsible for the x linked form of Severe Combined Immunodeficiency X SCID Interferon type 2 family whose members are receptors for IFN b and g Tumor necrosis factors TNF type 3 family whose members share a cysteine rich common extracellular binding domain and includes several other non cytokine ligands like CD40 CD27 and CD30 besides the ligands on which the family is named Seven transmembrane helix family the ubiquitous receptor type of the animal kingdom All G protein coupled receptors for hormones and neurotransmitters belong to this family Chemokine receptors two of which act as binding proteins for HIV CD4 and CCR5 also belong to this family citation needed Interleukin 17 receptor IL 17R family which shows little homology with any other cytokine receptor family Structural motifs conserved between members of this family include an extracellular fibronectin III like domain a transmembrane domain and a cytoplasmic SERIF domain The known members of this family are as follows IL 17RA IL 17RB IL 17RC IL17RD and IL 17RE 22 Cellular effects EditEach cytokine has a matching cell surface receptor Subsequent cascades of intracellular signaling then alter cell functions This may include the upregulation and or downregulation of several genes and their transcription factors resulting in the production of other cytokines an increase in the number of surface receptors for other molecules or the suppression of their own effect by feedback inhibition The effect of a particular cytokine on a given cell depends on the cytokine its extracellular abundance the presence and abundance of the complementary receptor on the cell surface and downstream signals activated by receptor binding these last two factors can vary by cell type Cytokines are characterized by considerable redundancy in that many cytokines appear to share similar functions It seems to be a paradox that cytokines binding to antibodies have a stronger immune effect than the cytokine alone This may lead to lower therapeutic doses It has been shown that inflammatory cytokines cause an IL 10 dependent inhibition of 23 T cell expansion and function by up regulating PD 1 levels on monocytes which leads to IL 10 production by monocytes after binding of PD 1 by PD L 23 Adverse reactions to cytokines are characterized by local inflammation and or ulceration at the injection sites Occasionally such reactions are seen with more widespread papular eruptions 24 Roles in health and disease EditCytokines are involved in several developmental processes during embryonic development 25 nb 1 26 nb 2 Cytokines are released from the blastocyst and are also expressed in the endometrium and have critical roles in the stages of zona hatching and implantation 27 Cytokines are crucial for fighting off infections and in other immune responses 28 However they can become dysregulated and pathological in inflammation trauma sepsis 28 and hemorrhagic stroke 29 Dysregulated cytokine secretion in the aged population can lead to inflammaging and render these individuals more vulnerable to age related diseases like neurodegenerative diseases and type 2 diabetes 30 Adverse effects EditAdverse effects of cytokines have been linked to many disease states and conditions ranging from schizophrenia major depression 31 and Alzheimer s disease 32 to cancer 33 T regulatory cells Tregs and related cytokines are effectively engaged in the process of tumor immune escape and functionally inhibit immune response against the tumor Forkhead box protein 3 Foxp3 as a transcription factor is an essential molecular marker of Treg cells Foxp3 polymorphism rs3761548 might be involved in cancer progression like gastric cancer through influencing Tregs function and the secretion of immunomodulatory cytokines such as IL 10 IL 35 and TGF b 34 Normal tissue integrity is preserved by feedback interactions between diverse cell types mediated by adhesion molecules and secreted cytokines disruption of normal feedback mechanisms in cancer threatens tissue integrity 35 Over secretion of cytokines can trigger a dangerous cytokine storm syndrome Cytokine storms may have been the cause of severe adverse events during a clinical trial of TGN1412 Cytokine storms are also suspected to be the main cause of death in the 1918 Spanish Flu pandemic Deaths were weighted more heavily towards people with healthy immune systems because of their ability to produce stronger immune responses with dramatic increases in cytokine levels Another example of cytokine storm is seen in acute pancreatitis Cytokines are integral and implicated in all angles of the cascade resulting in the systemic inflammatory response syndrome and multi organ failure associated with this intra abdominal catastrophe 36 In the COVID 19 pandemic some deaths from COVID 19 have been attributable to cytokine release storms 37 38 39 Current data suggest cytokine storms may be the source of extensive lung tissue damage and dysfunctional coagulation in COVID 19 infections 40 Medical use as drugs EditSome cytokines have been developed into protein therapeutics using recombinant DNA technology 41 Recombinant cytokines being used as drugs as of 2014 include 42 Bone morphogenetic protein BMP used to treat bone related conditions Erythropoietin EPO used to treat anemia Granulocyte colony stimulating factor G CSF used to treat neutropenia in cancer patients Granulocyte macrophage colony stimulating factor GM CSF used to treat neutropenia and fungal infections in cancer patients Interferon alfa used to treat hepatitis C and multiple sclerosis Interferon beta used to treat multiple sclerosis Interleukin 2 IL 2 used to treat cancer Interleukin 11 IL 11 used to treat thrombocytopenia in cancer patients Interferon gamma is used to treat chronic granulomatous disease 43 and osteopetrosis 44 See also EditAdipokines Apoptosis Cytokine redundancy Cytokine release syndrome Cytokine secretion assay ELISA assays Myokine Signal transduction Thymic stromal lymphopoietin VirokineNotes Edit Saito explains much evidence has suggested that cytokines and chemokines play a very important role in the reproduction i e embryo implantation endometrial development and trophoblast growth and differentiation by modulating the immune and endocrine systems 15 Chen explains the regulatory activity of LIF in human and murine embryos In conclusion human preimplantation embryos express LIF and LIF R mRNA The expression of these transcripts indicates that preimplantation embryos may be responsive to LIF originating either from the surrounding environment or from the embryos themselves and exerting its function in a paracrine or autocrine manner 719 References Edit Janeway s Immunobiology Garland Science 2017 p 107 ISBN 978 0 8153 4551 0 Lackie J 2010 Cytokines A Dictionary of Biomedicine Oxford University Press ISBN 978 0 19 954935 1 Cytokine Stedman s Medical Dictionary 28th ed Wolters Kluwer Health Lippincott Williams amp Wilkins 2006 ISBN 978 0 7817 6450 6 Isaacs A Lindenmann J September 1957 Virus interference I The interferon Proc R Soc Lond B Biol Sci 147 927 258 67 Bibcode 1957RSPSB 147 258I doi 10 1098 rspb 1957 0048 PMID 13465720 S2CID 202574492 Wheelock EF July 1965 Interferon Like Virus Inhibitor Induced in Human Leukocytes by Phytohemagglutinin Science 149 3681 310 11 Bibcode 1965Sci 149 310W doi 10 1126 science 149 3681 310 PMID 17838106 S2CID 1366348 Bloom BR Bennett B July 1966 Mechanism of a reaction in vitro associated with delayed type hypersensitivity Science 153 3731 80 82 Bibcode 1966Sci 153 80B doi 10 1126 science 153 3731 80 PMID 5938421 S2CID 43168526 David JR July 1966 Delayed hypersensitivity in vitro its mediation by cell free substances formed by lymphoid cell antigen interaction Proc Natl Acad Sci U S A 56 1 72 77 Bibcode 1966PNAS 56 72D doi 10 1073 pnas 56 1 72 PMC 285677 PMID 5229858 Dumonde DC Wolstencroft RA Panayi GS Matthew M Morley J Howson WT October 1969 Lymphokines non antibody mediators of cellular immunity generated by lymphocyte 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Surgery 9 4 401 10 doi 10 1007 s005340200049 PMID 12483260 Cron Randy Chatham W Winn 12 March 2020 How doctors can potentially significantly reduce the number of deaths from Covid 19 Vox Retrieved 14 March 2020 Ruan Q Yang K Wang W Jiang L Song J May 2020 Clinical predictors of mortality due to COVID 19 based on an analysis of data of 150 patients from Wuhan China Intensive Care Medicine 46 5 846 848 doi 10 1007 s00134 020 05991 x PMC 7080116 PMID 32125452 Mehta P McAuley DF Brown M Sanchez E Tattersall RS Manson JJ March 2020 COVID 19 consider cytokine storm syndromes and immunosuppression Lancet 395 10229 1033 1034 doi 10 1016 S0140 6736 20 30628 0 PMC 7270045 PMID 32192578 Cascella M Rajnik M Cuomo A et al 4 October 2020 Features Evaluation and Treatment of Coronavirus StatPearls Publishing PMID 32150360 Retrieved 4 December 2020 a href Template Cite journal html title Template Cite journal cite journal a Cite journal requires journal help Anne S De Root David W Scott November 2007 Immunogenicity of protein therapeutics Trends in Immunology 28 11 482 490 doi 10 1016 j it 2007 07 011 PMID 17964218 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint uses authors parameter link Dimitrov DS 2012 Therapeutic Proteins Methods in Molecular Biology Vol 899 pp 1 26 doi 10 1007 978 1 61779 921 1 1 ISBN 978 1 61779 920 4 PMC 6988726 PMID 22735943 a href Template Cite book html title Template Cite book cite book a Missing or empty title help Woodman RC Erickson RW Rae J Jaffe HS Curnutte JT March 1992 Prolonged recombinant interferon gamma therapy in chronic granulomatous disease evidence against enhanced neutrophil oxidase activity Blood 79 6 1558 62 doi 10 1182 blood v79 6 1558 bloodjournal7961558 PMID 1312372 Key LL Rodriguiz RM Willi SM Wright NM Hatcher HC Eyre DR Cure JK Griffin PP Ries WL June 1995 Long term treatment of osteopetrosis with recombinant human interferon gamma N Engl J Med 332 24 1594 99 doi 10 1056 NEJM199506153322402 PMID 7753137 External links Edit Wikimedia Commons has media related to Cytokines Cytokine Signalling Forum Cytokine Tutorial Cytokine Gene Summary Ontology Pathways and More Immunology Database and Analysis Portal ImmPort Reperfusion Injury in Stroke at eMedicine Portal Biology Retrieved from https en wikipedia org w index php title Cytokine amp oldid 1136156791, wikipedia, wiki, book, books, library,

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