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CD274

Official Full Name
CD274 molecule
Organism
Homo sapiens
Gene ID
29126
Background
This gene encodes an immune inhibitory receptor ligand that is expressed by hematopoietic and non-hematopoietic cells, such as T cells and B cells and various types of tumor cells. The encoded protein is a type I transmembrane protein that has immunoglobulin V-like and C-like domains. Interaction of this ligand with its receptor inhibits T-cell activation and cytokine production. During infection or inflammation of normal tissue, this interaction is important for preventing autoimmunity by maintaining homeostasis of the immune response. In tumor microenvironments, this interaction provides an immune escape for tumor cells through cytotoxic T-cell inactivation. Expression of this gene in tumor cells is considered to be prognostic in many types of human malignancies, including colon cancer and renal cell carcinoma. Alternative splicing results in multiple transcript variants. [provided by RefSeq, Sep 2015]
Synonyms
B7-H; B7H1; PDL1; PD-L1; hPD-L1; PDCD1L1; PDCD1LG1
Bio Chemical Class
mRNA target
Protein Sequence
MRIFAVFIFMTYWHLLNAFTVTVPKDLYVVEYGSNMTIECKFPVEKQLDLAALIVYWEMEDKNIIQFVHGEEDLKVQHSSYRQRARLLKDQLSLGNAALQITDVKLQDAGVYRCMISYGGADYKRITVKVNAPYNKINQRILVVDPVTSEHELTCQAEGYPKAEVIWTSSDHQVLSGKTTTTNSKREEKLFNVTSTLRINTTTNEIFYCTFRRLDPEENHTAELVIPELPLAHPPNERTHLVILGAILLCLGVALTFIFRLRKGRMMDVKKCGIQDTNSKKQSDTHLEET
Open
Disease
Hepatitis virus infection
Approved Drug
6 +
Clinical Trial Drug
37 +
Discontinued Drug
0

Cat.No. Product Name Price
CSC-DC002726 Panoply™ Human CD274 Knockdown Stable Cell Line Inquiry
CSC-RT2726 Mouse CD274 Knockout Cell Line-S91 Inquiry
CSC-RT2727 Mouse CD274 Knockout Cell Line-B16-F10 Inquiry
CSC-RO0897 Human CD274 Stable Cell Line - HepG2 Inquiry
CSC-RO0899 Human CD274 Stable Cell Line - NCI-H146 Inquiry
CSC-RO0909 Human CD274 Stable Cell Line - MIA PaCa-2 Inquiry
CSC-RO0912 Human CD274 Stable Cell Line - Raji Inquiry
CSC-RO1026 Human CD274 Stable Cell Line-A375 Inquiry
CSC-RH0094M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0067M Humanized CD274 Murine Tumor Cell Line - LL/2 (LLC1) Inquiry
CSC-RH0064M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0066M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0060M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0101M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0126M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0134M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0141M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RH0144M Humanized CD274 Murine Tumor Cell Line Inquiry
CSC-RO0609 Human CD274 Stable Cell Line - CT26 Inquiry
CSC-RO02508 Cat CD274 Stable Cell Line - CHO-K1 Inquiry
CSC-RO0608 Human CD274 Stable Cell Line - PC3 Inquiry
CSC-RO0576 Mouse Cd274 Stable Cell Line - HEK293T Inquiry
CSC-SC002726 Panoply™ Human CD274 Over-expressing Stable Cell Line Inquiry
CSC-RT1751 Human CD274 Knockout Cell Line-HeLa Inquiry
CSC-RT2164 Human CD274 Knockout Cell Line-A549 Inquiry
CSC-RO0011 Human CD274 Stable Cell Line-CHO-K1 Inquiry
CSC-RO0012 Human CD274 Stable Cell Line-HEK293T Inquiry
CSC-RO0050 Mouse Cd274 Stable Cell Line-CHO-K1 Inquiry
CSC-RO0112 Human CD274 Stable Cell Line-HEK293T Inquiry
CLOE-1749 Human CD274(His) HEK293 Cell Lysate Inquiry
CLOE-1750 Human CD274(Fc) HEK293 Cell Lysate Inquiry
CLOE-1890 Rat Cd274 (Fc) HEK293 Cell Lysate Inquiry
CLOE-1891 Rat Cd274 (His) HEK293 Cell Lysate Inquiry
CLOE-2993 Mouse Cd274 (Fc) HEK293 Cell Lysate Inquiry
CLOE-2998 Mouse Cd274 (His) HEK293 Cell Lysate Inquiry
CLOE-2999 Mouse Cd274 (His+Fc) HEK293 Cell Lysate Inquiry
CLKO-1598 CD274 KO Cell Lysate-HeLa Inquiry
CSC-RT2630 Human CD274 Knockout Cell Line-786-O Inquiry
CSC-RO0271 Human CD274 Stable Cell Line - MC38 Inquiry
CSC-RO0606 Human CD274 Stable Cell Line - DLD-1 Inquiry
CSC-RO02509 Canine CD274 Stable Cell Line - CHO-K1 Inquiry
Cat.No. Product Name Price
CDCB156623 Cynomolgus CD274 ORF clone Inquiry
CDCG013764 Mouse CD274 ORF clone(NM_021893.3) Inquiry
CDCR044120 Human CD274 ORF clone (NM_001267706.1) Inquiry
CDCS413501 Human CD274 ORF Clone (BC113734) Inquiry
MiUTR4H-TG01878 CD274 miRNA 3'UTR clone Inquiry
CDCB157342 Mouse CD274 ORF clone (NM_021893.2) Inquiry
CDCB183663 Rabbit CD274 ORF clone (XM_008255121.1) Inquiry
CDCG013768 Rat CD274 ORF clone(NM_001191954.1) Inquiry

Detailed Information

The CD274 gene is located on chromosome 9p24.1 and was first discovered by Chinese scientist Professor Chen Lieping in 1999. This gene codes for a 290 amino acid protein with a significant structure including one IgV-like domain and one IgC-like domain. PD-L1, a member of the B7 family, is structurally like other proteins that control immune responses but serves as a negative regulator of immune activation alone.

Structurally, PD-L1 is a type I transmembrane protein—that is, one that can send signals into the cell via spanning the cellular membrane Mostly expressed on activated T-cells, B-cells, and macrophages, binding to PD-1 causes a cascade of inhibitory signals to reduce immune activity. This suppression lowers the risk of immune cells attacking the body's own tissues, therefore preserving peripheral tolerance and preventing autoimmunity.

Mechanism of PD-L1/PD-1 Interaction

Maintaining immunological equilibrium depends on the PD-L1/PD-1 interaction, however when taken over by tumors it becomes a double-edged blade. On the surface of effector T-cells, which target either malignant or infected cells—PD-L1 hooks themselves to PD-1. Tyrosine residues in the immunoreceptor tyrosine-based switch motif (ITSM) in PD-1's cytoplasmic domain phosphorylated upon PD-L1's interaction to PD-1. This phosphorylation process attracts the phosphatase SHP-2, which dephosphorylates important proteins engaged in the T-cell activation pathway, hence producing T-cell inhibition.

Within the framework of cancer, this inhibition helps tumors to avoid the immune response as T-cells meant to target and destroy tumor cells become inactive. By upregulating PD-L1 expression, tumor cells often use this pathway to improve their capacity to quell T-cell responses. Many different forms of tumors, including melanoma, gastric cancer, ovarian cancer, renal cell carcinoma, and NSCLC, have shown this overexpression.

Figure 1 describes the mechanism by which blocking the PD-1/PD-L1/PD-L2 pathway using monoclonal antibodies can enhance the immune system ability to fight cancer.Figure 1. Human cancer immunotherapy with anti-PD-1 and anti-PD-L1/L2 antibodies. (Ohaegbulam KC, et al., 2015)

Clinical Implications

In many malignancies, the expression of PD-L1 on tumor cells has evolved into a crucial indicator of prognosis and therapeutic choice. For instance, poor prognosis in melanoma and NSCLC as well as various other cancers has been linked to high degrees of PD-L1 expression. Studies have shown that PD-L1 expression predicts patient outcomes and links with tumor aggressiveness.

Early-stage tumors often display high levels of PD-L1 expression on tumor cells, according to a study included melanoma patients. This implies that PD-L1 is component of an adaptive strategy tumors adopt to escape the immune system. Studies by Taube et al. and Massi et al., for example, showed that PD-L1-positive melanoma cells are more invasive and multiply more quickly than PD-L1-negative cells, therefore confirming the significance of PD-L1 as a major actor in tumor development.

In NSCLC, PD-L1 expression has been linked to more advanced disease stages and worse patient outcomes. Patients with PD-L1-positive tumors often had worse overall survival rates when compared to those with PD-L1-negative tumors, Zhang et al. noted. PD-L1 immunohistochemistry is becoming increasingly used as a predictive technique as it gives oncologists important information to direct therapy choices.

Immunotherapy and PD-L1 Targeted Treatments

Cancer immunotherapy has advanced remarkably since the PD-L1/PD-1 pathway was identified as a mechanism of tumour immune evasion. Blocking this pathway has showed promise for treating a range of malignancies, including those with high levels of PD-L1 expression, using checkpoint inhibitors as pembrolizumab and nivolumab.

Anti-PD-1/PD-L1 treatments have greatly improved general survival rates and progression-free survival in melanoma. Clinical studies where anti-PD-L1 antibodies were used to treat metastatic melanoma suggest that patients with high PD-L1 expression react more favourably to these therapies. Further underlining the therapeutic worth of targeting this pathway, a 2015 research by Freeman-Keller found that high PD-L1 expression was an independent risk factor for reduced overall survival in patients with melanoma.

Clinical studies conducted in NSCLC have revealed individuals treated with pembrolizumab enjoy longer progression-free survival (PFS) and overall survival than those treated with conventional treatment. With better objective response rates (ORR) and less adverse effects, a seminal research by Reck found that pembrolizumab was much more successful than platinum-based chemotherapy in patients with PD-L1-positive tumors. Other trials, like those by Garon, which revealed an ORR of 19.4% and a median PFS of 6.3 months in patients treated with pembrolizumab, have validated these results.

References:

  1. MCLAUGHLIN J, HAN G, SCHALPER K A, et al. Quantitative assessment of the heterogeneity of PD- L1 expression in non-small cell lung cancer. JAMA Oncol, 2016, 2(1):46-54.
  2. Reck M, Rodríguez-Abreu D, Robinson AG, et al. Pembrolizumab versus chemotherapy for PD-L1-positive nonsmall-cell lung cancer. N Engl J Med, 2016, 375: 1823-1833.
  3. Zhang MH, Dong YD, Liu HT, et al. The clinicopathological and prognostic significance of PD-L1 expression in gastric cancer: a meta-analysis of 10 studies with 1, 901 patients. Sci Rep, 2016 6: 37933.
  4. Ohaegbulam KC, Assal A, Lazar-Molnar E, et al. Human cancer immunotherapy with antibodies to the PD-1 and PD-L1 pathway. Trends Mol Med. 2015;21(1):24-33.
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