CD30

From Wikipedia, the free encyclopedia

Tumor necrosis factor receptor superfamily, member 8

Identifiers

TNFRSF8; CD30; D1S166E; KI-1

External IDs

Gene ontology
Molecular Function:	• transmembrane receptor activity • protein binding
Cellular Component:	• membrane • integral to membrane
Biological Process:	• signal transduction • negative regulation of cell proliferation

RNA expression pattern

More reference expression data

Orthologs

Human

Mouse

Refseq

NM_001243 (mRNA)
NP_001234 (protein)

NM_009401 (mRNA)
NP_033427 (protein)

Location

Chr 1: 12.05 - 12.13 Mb

Chr 4: 144.54 - 144.58 Mb

Pubmed search

[1]

[2]

CD30, also known as TNFRSF8, is a cell membrane protein of the tumor necrosis factor receptor family and tumor marker.

This receptor is expressed by activated, but not by resting, T and B cells. TRAF2 and TRAF5 can interact with this receptor, and mediate the signal transduction that leads to the activation of NF-kappaB. It is a positive regulator of apoptosis, and also has been shown to limit the proliferative potential of autoreactive CD8 effector T cells and protect the body against autoimmunity. Two alternatively spliced transcript variants of this gene encoding distinct isoforms have been reported.^[1]

CD30 is associated with anaplastic large cell lymphoma. It is expressed in embryonal carcinoma but not in seminoma and is thus is a useful marker in distinguishing between these germ cell tumors.^[2]

[edit] References

^ Entrez Gene: TNFRSF8 tumor necrosis factor receptor superfamily, member 8.
^ Teng LH, Lu DH, Xu QZ, Fu YJ, Yang H, He ZL (2005). "[Expression and diagnostic significance of OCT4, CD117 and CD30 in germ cell tumors]" (in Chinese). Zhonghua Bing Li Xue Za Zhi 34 (11): 711–5. PMID 16536313.

[edit] Further reading

Schneider C, Hübinger G (2003). "Pleiotropic signal transduction mediated by human CD30: a member of the tumor necrosis factor receptor (TNFR) family.". Leuk. Lymphoma 43 (7): 1355–66. PMID 12389614.
Horie R, Higashihara M, Watanabe T (2003). "Hodgkin's lymphoma and CD30 signal transduction.". Int. J. Hematol. 77 (1): 37–47. PMID 12568298.
Tarkowski M (2004). "Expression and a role of CD30 in regulation of T-cell activity.". Curr. Opin. Hematol. 10 (4): 267–71. PMID 12799531.
Granados S, Hwang ST (2004). "Roles for CD30 in the biology and treatment of CD30 lymphoproliferative diseases.". J. Invest. Dermatol. 122 (6): 1345–7. doi:10.1111/j.0022-202X.2004.22616.x. PMID 15175022.
Dürkop H, Latza U, Hummel M, et al. (1992). "Molecular cloning and expression of a new member of the nerve growth factor receptor family that is characteristic for Hodgkin's disease.". Cell 68 (3): 421–7. PMID 1310894.
Fonatsch C, Latza U, Dürkop H, et al. (1992). "Assignment of the human CD30 (Ki-1) gene to 1p36.". Genomics 14 (3): 825–6. PMID 1330892.
Josimovic-Alasevic O, Dürkop H, Schwarting R, et al. (1989). "Ki-1 (CD30) antigen is released by Ki-1-positive tumor cells in vitro and in vivo. I. Partial characterization of soluble Ki-1 antigen and detection of the antigen in cell culture supernatants and in serum by an enzyme-linked immunosorbent assay.". Eur. J. Immunol. 19 (1): 157–62. PMID 2537734.
Stein H, Gerdes J, Schwab U, et al. (1983). "Identification of Hodgkin and Sternberg-reed cells as a unique cell type derived from a newly-detected small-cell population.". Int. J. Cancer 30 (4): 445–59. PMID 6754630.
Jung W, Krueger S, Renner C, et al. (1995). "Opposite effects of the CD30 ligand are not due to CD30 mutations: results from cDNA cloning and sequence comparison of the CD30 antigen from different sources.". Mol. Immunol. 31 (17): 1329–34. PMID 7527901.
Shiota M, Fujimoto J, Semba T, et al. (1994). "Hyperphosphorylation of a novel 80 kDa protein-tyrosine kinase similar to Ltk in a human Ki-1 lymphoma cell line, AMS3.". Oncogene 9 (6): 1567–74. PMID 8183550.
Lee SY, Park CG, Choi Y (1996). "T cell receptor-dependent cell death of T cell hybridomas mediated by the CD30 cytoplasmic domain in association with tumor necrosis factor receptor-associated factors.". J. Exp. Med. 183 (2): 669–74. PMID 8627180.
Gedrich RW, Gilfillan MC, Duckett CS, et al. (1996). "CD30 contains two binding sites with different specificities for members of the tumor necrosis factor receptor-associated factor family of signal transducing proteins.". J. Biol. Chem. 271 (22): 12852–8. PMID 8662842.
Horie R, Ito K, Tatewaki M, et al. (1996). "A variant CD30 protein lacking extracellular and transmembrane domains is induced in HL-60 by tetradecanoylphorbol acetate and is expressed in alveolar macrophages.". Blood 88 (7): 2422–32. PMID 8839832.
Ansieau S, Scheffrahn I, Mosialos G, et al. (1997). "Tumor necrosis factor receptor-associated factor (TRAF)-1, TRAF-2, and TRAF-3 interact in vivo with the CD30 cytoplasmic domain; TRAF-2 mediates CD30-induced nuclear factor kappa B activation.". Proc. Natl. Acad. Sci. U.S.A. 93 (24): 14053–8. PMID 8943059.
Aizawa S, Nakano H, Ishida T, et al. (1997). "Tumor necrosis factor receptor-associated factor (TRAF) 5 and TRAF2 are involved in CD30-mediated NFkappaB activation.". J. Biol. Chem. 272 (4): 2042–5. PMID 8999898.
Lee SY, Lee SY, Choi Y (1997). "TRAF-interacting protein (TRIP): a novel component of the tumor necrosis factor receptor (TNFR)- and CD30-TRAF signaling complexes that inhibits TRAF2-mediated NF-kappaB activation.". J. Exp. Med. 185 (7): 1275–85. PMID 9104814.
Boucher LM, Marengère LE, Lu Y, et al. (1997). "Binding sites of cytoplasmic effectors TRAF1, 2, and 3 on CD30 and other members of the TNF receptor superfamily.". Biochem. Biophys. Res. Commun. 233 (3): 592–600. doi:10.1006/bbrc.1997.6509. PMID 9168896.
Duckett CS, Thompson CB (1997). "CD30-dependent degradation of TRAF2: implications for negative regulation of TRAF signaling and the control of cell survival.". Genes Dev. 11 (21): 2810–21. PMID 9353251.
Mizushima S, Fujita M, Ishida T, et al. (1998). "Cloning and characterization of a cDNA encoding the human homolog of tumor necrosis factor receptor-associated factor 5 (TRAF5).". Gene 207 (2): 135–40. PMID 9511754.
Kurts C, Carbone FR, Krummel MF, et al. (1999). "Signalling through CD30 protects against autoimmune diabetes mediated by CD8 T cells.". Nature 398 (6725): 341–4. doi:10.1038/18692. PMID 10192335.

[edit] External links

MeSH CD30+Antigens

This article incorporates text from the United States National Library of Medicine, which is in the public domain.

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v • d • e Proteins: clusters of differentiation (see also list of human clusters of differentiation)

1-50	CD1 (a-c, 1A, 1D, 1E) - CD2 - CD3 (γ, δ, ε) - CD4 - CD5 - CD6 - CD7 - CD8 (a) - CD9 - CD10 - CD11 (a, b, c) - CD13 - CD14 - CD15 - CD16 (A, B) - CD18 - CD19 - CD20 - CD21 - CD22 - CD23 - CD24 - CD25 - CD26 - CD27 - CD28 - CD29 - CD30 - CD31 - CD32 (A, B) - CD33 - CD34 - CD35 - CD36 - CD37 - CD38 - CD39 - CD40 - CD41- CD42 (a, b, c, d) - CD43 - CD44 - CD45 - CD46 - CD47 - CD48 - CD49 (a, b, c, d, e, f) - CD50

51-100	CD51 - CD52 - CD53 - CD54 - CD55 - CD56 - CD57- CD58 - CD59 - CD61 - CD62 (E, L, P) - CD63 - CD64 - CD66 (a, b, c, d, e, f) - CD68 - CD69 - CD70 - CD71 - CD72 - CD73 - CD74 - CD79 (a, b) - CD80 - CD81 - CD82 - CD83 - CD84 - CD85 (a, d, e, h, j, k) - CD86 - CD87 - CD88 - CD89 - CD90 - CD91- CD92 - CD93 - CD94 - CD95 - CD97 - CD98 - CD99 - CD100

101-150	CD101 - CD102 - CD103 - CD104 - CD105 - CD106 - CD107 (a, b) - CD108 - CD109 - CD110 - CD111 - CD112 - CD113 - CD114 - CD115 - CD116 - CD117 - CD118 - CD119 - CD120 (a, b) - CD121 (a, b) - CD122 - CD123 - CD124 - CD125 - CD126 - CD127 - CD129 - CD130 - CD131 - CD132 - CD133 - CD134 - CD135 - CD136 - CD137 - CD138 - CD140b - CD141 - CD142 - CD143 - CD144 - CD146 - CD147 - CD148 - CD150

151-200	CD151 - CD152 - CD153 - CD154 - CD155 - CD156 (a, b, c) - CD157 - CD158 (a, d, e, i, k) - CD159 (a, c) - CD160 - CD161 - CD162 - CD163 - CD164 - CD166 - CD167 (a, b) - CD168 - CD169 - CD170 - CD171 - CD172 (a, b, g) - CD174 - CD177 - CD178 - CD179 (a, b) - CD181 - CD182 - CD183 - CD184 - CD185 - CD186 - CD191 - CD192 - CD193 - CD194 - CD195 - CD196 - CD197 - CDw198 - CDw199 - CD200

201-250	CD201 - CD202b - CD204 - CD205 - CD206 - CD207 - CD208 - CD209 - CDw210 (a, b) - CD212 - CD213a (1, 2) - CD217 - CD218 (a, b) - CD220 - CD221 - CD222 - CD223 - CD224 - CD225 - CD226 - CD227 - CD228 - CD229 - CD230 - CD233 - CD234 - CD235 (a, b) - CD236 - CD238 - CD239 - CD240CE - CD241 - CD243 - CD244 - CD246 - CD247- CD248 - CD249

251-300	CD252 - CD253 - CD254 - CD256 - CD257 - CD258 - CD261 - CD262 - CD264 - CD265 - CD266 - CD267 - CD268 - CD269 - CD271 - CD272 - CD273 - CD274 - CD275 - CD276 - CD278 - CD279 - CD280 - CD281 - CD282 - CD283 - CD284 - CD286 - CD288 - CD289 - CD290 - CD292 - CDw293 - CD294 - CD295 - CD297 - CD298 - CD299

301-350	CD300A - CD304 - CD305 - CD307 - CD309 - CD312 - CD314 - CD315 - CD316 - CD317 - CD318 - CD320 - CD321 - CD322 - CD324 - CD325 - CD326 - CD328 - CD329 - CD331 - CD332 - CD333 - CD334 - CD335 - CD336 - CD337 - CD338 - CD339 - CD340 - CD344 - CD349 - CD350

v • d • e Cytokine receptors: tumor necrosis factor receptor superfamily

1-10	TNFRSF1 (CD120) - TNFRSF1A (CD120a) - TNFRSF1B (CD120b) - TNFRSF3 (Lymphotoxin beta receptor) - TNFRSF4 (CD134) - TNFRSF5 (CD40) - TNFRSF6 (FAS) - TNFRSF6B - TNFRSF7 (CD27) - TNFRSF8 (CD30) - TNFRSF9 (CD137)

11-20	TNFRSF10A (CD261) - TNFRSF10B (CD262) - TNFRSF10C (CD263) - TNFRSF10D (CD264) - TNFRSF11A (CD265/RANK) - TNFRSF11B (Osteoprotegerin) - TNFRSF12A (CD266) - TNFRSF13B (CD267) - TNFRSF13C (CD268) - TNFRSF14 - TNFRSF16 (Nerve growth factor receptor) - TNFRSF17 (CD269) - TNFRSF18 - TNFRSF19

21-25	TNFRSF21 - TNFRSF25

v • d • e Tumor markers

Peptide	Alpha-fetoprotein/AFP-L3 - CA-125 - CA 19-9 - CD30 - Autocrine motility factor - Carcinoembryonic antigen - βHCG - erbB-2 receptor - erbB-3 receptor - NANOG - Neprilysin - PCNA - Prostate specific antigen - Synaptophysin

Other	Normetanephrine