PDCD1LG2

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Template:Short description Template:Infobox gene Programmed cell death 1 ligand 2 (also known as PD-L2, B7-DC) is a protein that in humans is encoded by the PDCD1LG2 gene.[1][2] PDCD1LG2 has also been designated as CD273 (cluster of differentiation 273). PDCD1LG2 is an immune checkpoint receptor ligand which plays a role in negative regulation of the adaptive immune response.[1][3] PD-L2 is one of two known ligands for Programmed cell death protein 1 (PD-1).[1]

Structure

File:Highaffinity pdl2 pd1 tang kim.gif
X-ray crystallography structure of high affinity mutant hPDL2-hPD1 complex (1.986 Å) reported in Tang and Kim, PNAS 2019. hPD-1: green/blue, hPD-L2: red/orange/yellow

PD-L2 is a cell surface receptor belonging to the B7 protein family.[4] It consists of both an immunoglobulin-like variable domain and an immunoglobulin-like constant domain in the extracellular region, a transmembrane domain, and a cytoplasmic domain.[4] PD-L2 shares considerable sequence homology with other B7 proteins,[5] but it does not contain the putative binding sequence for CD28/CTLA4, namely SQDXXXELY or XXXYXXRT.[5]

The crystal structure of murine PD-L2 bound to murine PD-1 has been determined.[6] as well as the structure of the hPD-L2/mutant hPD-1 complex.[7]

Expression

Profile

PD-L2 is primarily expressed on professional antigen presenting cells including dendritic cells (DCs) and macrophages.[8] Others have shown PD-L2 expression in certain T helper cell subsets and cytotoxic T cells.[9][10] PD-L2 protein is widely expressed in many healthy tissues including the GI tract tissues, skeletal muscles, tonsils, and pancreas.[11] Additionally, PD-L2 has moderate to high expression in triple-negative breast cancer and gastric cancer and low expression in renal cell carcinoma.[12] PD-L2 mRNA is widely expressed and not enriched in any particular tissue.[11]

Regulation

Interleukin-4 (IL-4) and granulocyte-macrophage colony stimulating factor (GMCSF) both upregulate PD-L2 expression in DCs in vitro.[8] IFN-α, IFN-β, and IFN-γ induce moderate upregulation of PD-L2 expression.[8]

Function

PD-L2 binds to its receptor PD-1 with dissociation constant Kd of 11.3 nM.[13] Binding to PD-1 can activate pathways inhibiting TCR/BCR-mediated immune cell activation[8] (for a more detailed discussion see PD-1 signaling). PD-L2 plays an important role in immune tolerance and autoimmunity.[14] Both PD-L1 and PD-L2 can inhibit T cell proliferation and inflammatory cytokine production.[13] Blocking PD-L2 has been shown to exacerbate experimental autoimmune encephalomyelitis.[14] Unlike PD-L1, PD-L2 has been shown activate the immune system. PD-L2 triggers IL-12 production in murine dendritic cells leading to T cell activation.[13] Others have shown that treatment with PD-L2 Ig led to T helper cell proliferation.[14]

Clinical significance

PD-L2, PD-L1, and PD-1 expressions are important in the immune response to certain cancers. Due to their role in suppressing the adaptive immune system, efforts have been made to block PD-1 and PD-L1, resulting in FDA approved inhibitors for both (see pembrolizumab, nivolumab, atezolizumab). There are still no FDA approved inhibitors for PD-L2 as of 2019.[15]

The direct role of PD-L2 in cancer progression and immune-tumor microenvironment regulation is not as well studied as the role of PD-L1.[12] In mouse cell cultures, PD-L2 expression on tumor cells suppressed cytotoxic T cell-mediated immune responses.[16]

Indirectly, PD-L2 may have utility as a biomarker or prognostic indicator. PD-L2 expression has been shown to predict response to PD-1 blockade with pembrolizumab independently of PD-L1 expression.[12] However, PD-L2 does not putatively predict outcome in cancer, with some studies suggesting it predicts negative prognoses[17][18][19] and other studies suggesting it predicts positive prognoses.[20]

References

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Further reading

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External links

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