CD160

CD160
Identifiers
Aliases	CD160, BY55, NK1, NK28, CD160 molecule
External IDs	OMIM: 604463 MGI: 1860383 HomoloGene: 5122 GeneCards: CD160
Gene location (Human)
Chr.	Chromosome 1 (human)[1]
End	145,739,288 bp[1]
Gene location (Mouse)
Chr.	Chromosome 3 (mouse)[2]
End	96,829,351 bp[2]
RNA expression pattern
	More reference expression data
Gene ontology
Molecular function	• receptor binding; • GO:0001948 protein binding; • MHC class I receptor activity; • signaling receptor activity;
Cellular component	• anchored component of membrane; • anchored component of plasma membrane; • cell membrane; • membrane;
Biological process	• cellular defense response; • cell surface receptor signaling pathway; • cellular proliferation; • defense response to Gram-negative bacterium; • regulation of immune response; • negative regulation of angiogenesis; • positive regulation of endothelial cell apoptotic process;
	Sources:Amigo / QuickGO
Orthologs
	11126
	54215
	ENSG00000117281
	ENSMUSG00000038304
	O95971
	O88875
	NM_007053
	NM_001163496; NM_001163497; NM_018767
	NP_008984
	NP_001156968; NP_001156969; NP_061237
	Wikidata
View/Edit Human	View/Edit Mouse

CD160 antigen is a protein that in humans is encoded by the CD160 gene.[5][6][7]

CD160 is a 27 kDa glycoprotein which was initially identified with the monoclonal antibody BY55. Its expression is tightly associated with peripheral blood NK cells and CD8 T lymphocytes with cytolytic effector activity. The cDNA sequence of CD160 predicts a cysteine-rich, glycosylphosphatidylinositol-anchored protein of 181 amino acids with a single Ig-like domain weakly homologous to KIR2DL4 molecule. CD160 is expressed at the cell surface as a tightly disulfide-linked multimer. RNA blot analysis revealed CD160 mRNAs of 1.5 and 1.6 kb whose expression was highly restricted to circulating NK and T cells, spleen and small intestine. Within NK cells CD160 is expressed by CD56dimCD16+ cells whereas among circulating T cells its expression is mainly restricted to TCRgd bearing cells and to TCRab+CD8brightCD95+CD56+CD28-CD27-cells. In tissues, CD160 is expressed on all intestinal intraepithelial lymphocytes. CD160 shows a broad specificity for binding to both classical and nonclassical MHC class I molecules.[7]

Clinical significance

CD160 is a ligand for HVEM, and considered a proposed immune checkpoint inhibitor with anti-cancer activity along with anti- PD-1 antibodies.[8] CD160 has also been proposed as a potential new target in cases of human pathological ocular and tumor neoangiogenesis that do not respond or become resistant to existing antiangiogenic drugs.[9]

References

GRCh38: Ensembl release 89: ENSG00000117281 - Ensembl, May 2017
GRCm38: Ensembl release 89: ENSMUSG00000038304 - Ensembl, May 2017
"Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
"Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.
Anumanthan A, Bensussan A, Boumsell L, Christ AD, Blumberg RS, Voss SD, Patel AT, Robertson MJ, Nadler LM, Freeman GJ (Oct 1998). "Cloning of BY55, a novel Ig superfamily member expressed on NK cells, CTL, and intestinal intraepithelial lymphocytes". J Immunol. 161 (6): 2780–90. PMID 9743336.
Agrawal S, Marquet J, Freeman GJ, Tawab A, Bouteiller PL, Roth P, Bolton W, Ogg G, Boumsell L, Bensussan A (Apr 1999). "Cutting edge: MHC class I triggering by a novel cell surface ligand costimulates proliferation of activated human T cells". J Immunol. 162 (3): 1223–6. PMID 9973372.
"Entrez Gene: CD160 CD160 molecule".
Stecher, Carmen; Battin, Claire; Leitner, Judith; Zettl, Markus; Grabmeier-Pfistershammer, Katharina; H?ller, Christoph; Zlabinger, Gerhard J.; Steinberger, Peter (22 May 2017). "PD-1 Blockade Promotes Emerging Checkpoint Inhibitors in Enhancing T Cell Responses to Allogeneic Dendritic Cells". Frontiers in Immunology. 8. doi:10.3389/fimmu.2017.00572. PMC 5439058. PMID 28588576.
Chabot, Sophie; Jabrane-Ferrat, Nabila; Bigot, Karine; Tabiasco, Julie; Provost, Alexandra; Golzio, Muriel; Noman, Muhammad Zaeem; Giustiniani, J?r?me; Bellard, Elisabeth; Brayer, St?phanie; Aguerre-Girr, Maryse; Meggetto, Fabienne; Giuriato, Sylvie; Malecaze, Fran?ois; Galiacy, St?phane; Ja?s, Jean-Philippe; Chose, Olivier; Kadouche, Jean; Chouaib, Salem; Teissi?, Justin; Abitbol, Marc; Bensussan, Armand; Le Bouteiller, Philippe (9 May 2011). "A novel antiangiogenic and vascular normalization therapy targeted against human CD160 receptor". The Journal of Experimental Medicine. 208 (5): 973–986. doi:10.1084/jem.20100810. PMC 3092350. PMID 21482699.
Klopocki E, Schulze H, Strauss G, et al. (February 2007). "Complex inheritance pattern resembling autosomal recessive inheritance involving a microdeletion in thrombocytopenia-absent radius syndrome". Am. J. Hum. Genet. 80 (2): 232–40. doi:10.1086/510919. PMC 1785342. PMID 17236129.

External links

CD160+Antigen at the US National Library of Medicine Medical Subject Headings (MeSH)
Human CD160 genome location and CD160 gene details page in the UCSC Genome Browser.

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[refGRCh38Ensembl-1] GRCh38: Ensembl release 89: ENSG00000117281 - Ensembl, May 2017

[refGRCm38Ensembl-2] GRCm38: Ensembl release 89: ENSMUSG00000038304 - Ensembl, May 2017

[3] "Human PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.

[4] "Mouse PubMed Reference:". National Center for Biotechnology Information, U.S. National Library of Medicine.

[pmid9743336-5] Anumanthan A, Bensussan A, Boumsell L, Christ AD, Blumberg RS, Voss SD, Patel AT, Robertson MJ, Nadler LM, Freeman GJ (Oct 1998). "Cloning of BY55, a novel Ig superfamily member expressed on NK cells, CTL, and intestinal intraepithelial lymphocytes". J Immunol. 161 (6): 2780–90. PMID 9743336.

[pmid9973372-6] Agrawal S, Marquet J, Freeman GJ, Tawab A, Bouteiller PL, Roth P, Bolton W, Ogg G, Boumsell L, Bensussan A (Apr 1999). "Cutting edge: MHC class I triggering by a novel cell surface ligand costimulates proliferation of activated human T cells". J Immunol. 162 (3): 1223–6. PMID 9973372.

[entrez-7] "Entrez Gene: CD160 CD160 molecule".

[8] Stecher, Carmen; Battin, Claire; Leitner, Judith; Zettl, Markus; Grabmeier-Pfistershammer, Katharina; H?ller, Christoph; Zlabinger, Gerhard J.; Steinberger, Peter (22 May 2017). "PD-1 Blockade Promotes Emerging Checkpoint Inhibitors in Enhancing T Cell Responses to Allogeneic Dendritic Cells". Frontiers in Immunology. 8. doi:10.3389/fimmu.2017.00572. PMC 5439058. PMID 28588576.

[9] Chabot, Sophie; Jabrane-Ferrat, Nabila; Bigot, Karine; Tabiasco, Julie; Provost, Alexandra; Golzio, Muriel; Noman, Muhammad Zaeem; Giustiniani, J?r?me; Bellard, Elisabeth; Brayer, St?phanie; Aguerre-Girr, Maryse; Meggetto, Fabienne; Giuriato, Sylvie; Malecaze, Fran?ois; Galiacy, St?phane; Ja?s, Jean-Philippe; Chose, Olivier; Kadouche, Jean; Chouaib, Salem; Teissi?, Justin; Abitbol, Marc; Bensussan, Armand; Le Bouteiller, Philippe (9 May 2011). "A novel antiangiogenic and vascular normalization therapy targeted against human CD160 receptor". The Journal of Experimental Medicine. 208 (5): 973–986. doi:10.1084/jem.20100810. PMC 3092350. PMID 21482699.

[pmid17236129-10] Klopocki E, Schulze H, Strauss G, et al. (February 2007). "Complex inheritance pattern resembling autosomal recessive inheritance involving a microdeletion in thrombocytopenia-absent radius syndrome". Am. J. Hum. Genet. 80 (2): 232–40. doi:10.1086/510919. PMC 1785342. PMID 17236129.

Proteins: clusters of differentiation (see also list of human clusters of differentiation)
1–50	CD1 a-c 1A 1B 1D 1E CD2 CD3 γ δ ε CD4 CD5 CD6 CD7 CD8 a CD9 CD10 CD11 a b c d 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 A B C CD66 a b c d e f CD68 CD69 CD70 CD71 CD72 CD73 CD74 CD78 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 CD96 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 CD180 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 CD240D CD241 CD243 CD244 CD246 CD247 - CD248 CD249
251–300	CD252 CD253 CD254 CD256 CD257 CD258 CD261 CD262 CD263 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 CD301 CD302 CD303 CD304 CD305 CD306 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

CD160

Clinical significance

Related gene problems

See also

References

Further reading

External links