Cancer Immune Evasion Through Loss of MHC Class I Antigen Presentation

Dhatchinamoorthy, Karthik; Colbert, Jeff D.; Rock, Kenneth L.

doi:10.3389/fimmu.2021.636568

Cited by 559 publications

(400 citation statements)

References 409 publications

(281 reference statements)

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“…This may be the case, for example, in the HLA locus. Within this locus our analysis highlighted class I MHC genes, hypermethylation of which has previously been reported to impair anti-tumor immune responses in multiple cancer types by reducing presentation of tumor-specific peptides [31]. We also found some nearby class II MHC genes had methylation associated with shorter survival.…”

Section: Survival-associated Genes Are Enriched For the Immune System Cell Activation And Adhesionmentioning

confidence: 55%

Pan-Cancer Analysis of DNA Methylation Identifies Genes and Biological Functions Associated with Overall Survival

Rg¹,

P²,

Gl³

2021

Preprint

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DNA methylation influences gene expression and is altered in many cancers, but the relationship between DNA methylation and cancer outcomes is not yet fully understood. If methylation of specific genes is associated with better or worse outcomes, it could implicate genes in driving cancer and suggest therapeutic strategies. To advance our understanding of DNA methylation in cancer biology, we conducted a pan-cancer analysis of the relationship between methylation and overall survival. Using data on 28 tumor types from The Cancer Genome Atlas (TCGA), we identified genes and genomic regions whose methylation was recurrently associated with survival across multiple cancer types. While global DNA methylation levels are associated with outcome in some cancers, we found that the gene-specific associations were largely independent of these global effects. Genes with recurrent associations across cancer types were enriched for certain biological functions, such as immunity and cell-cell adhesion. While these recurrently associated genes were found throughout the genome, they were enriched in certain genomic regions, which may further implicate certain gene families and gene clusters in affecting survival. By finding common features across cancer types, our results link DNA methylation to patient outcomes, identify biological mechanisms that could explain survival differences, and support the potential value of treatments that modulate the methylation of tumor DNA.

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Section: Survival-associated Genes Are Enriched For the Immune System Cell Activation And Adhesionmentioning

confidence: 55%

Pan-Cancer Analysis of DNA Methylation Identifies Genes and Biological Functions Associated with Overall Survival

Rg¹,

P²,

Gl³

2021

Preprint

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“…Another reason for immune evasion is the lack of recognition of tumor cells by T lymphocytes due to inadequate or low presentation of antigens. This is often due to the fact that cancer cells often lose class I and/or II histocompatibility antigens required for antigen presentation [70]. To stimulate the differentiation of precursor T cells to cytotoxic T lymphocytes, it may be necessary to express not only antigens for binding to T cell receptors by tumor cells, but also ligands to ensure the adhesion of T cells to tumor cells for their co-stimulation [71].…”

Section: Immune Evasionmentioning

confidence: 99%

Molecular Mechanisms of Drug Resistance in Glioblastoma

Дымова

Kuligina

Richter

2021

IJMS

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Glioblastoma multiforme (GBM) is the most common and fatal primary brain tumor, is highly resistant to conventional radiation and chemotherapy, and is not amenable to effective surgical resection. The present review summarizes recent advances in our understanding of the molecular mechanisms of therapeutic resistance of GBM to already known drugs, the molecular characteristics of glioblastoma cells, and the barriers in the brain that underlie drug resistance. We also discuss the progress that has been made in the development of new targeted drugs for glioblastoma, as well as advances in drug delivery across the blood–brain barrier (BBB) and blood–brain tumor barrier (BBTB).

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“…Downregulation or loss of classical MHC-I molecules is frequently observed and is considered the most common mechanism of tumor immune escape, as it leads to poor tumor recognition and limited killing by cytotoxic T cells. In contrast, tumors infiltrated by CD8 T cells often demonstrate higher MHC-I expression compared to the adjacent tissue, an increase that has been linked mechanistically to IFNγ secreted by activated T cells in the tumor microenvironment [40,48]. While the significance of loss or downregulation of MHC-I expression in tumors has long been recognized [48][49][50][51], the precise molecular mechanisms underlying this loss have only recently been fully explored.…”

Section: Mhc-i Expression In Cancer: Implications For Immunotherapymentioning

confidence: 99%

“…These unique immunoproteasome components replace the standard β1, β2 and β5 proteasome subunits to enhance the generation of MHC-I-compatible peptides [45]. This effect is mediated by several transcription factors, including the p50 and p65 subunits of the nuclear factor kappa-light-chain-enhancer of activated B cells (NK-kB) and interferon regulatory factor 1 (IRF1) that bind to the Enhancer A and the interferon-stimulated response element (ISRE), respectively, in the MHC-I promoter to stimulate the expression of MHC-I heavy chains and the APM genes (Figure 1) [40,46]. In addition, IFNγ stimulates expression of NLRC5 that assembles the CITA enhanceosome with transcription factors binding to W/S, X1, X2 and Y1 boxes in the MHC-I promoter (Figure 1) [47].…”

Section: Introductionmentioning

confidence: 99%

MHC Class I Deficiency in Solid Tumors and Therapeutic Strategies to Overcome It

Shklovskaya

Rizos

2021

IJMS

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It is now well accepted that the immune system can control cancer growth. However, tumors escape immune-mediated control through multiple mechanisms and the downregulation or loss of major histocompatibility class (MHC)-I molecules is a common immune escape mechanism in many cancers. MHC-I molecules present antigenic peptides to cytotoxic T cells, and MHC-I loss can render tumor cells invisible to the immune system. In this review, we examine the dysregulation of MHC-I expression in cancer, explore the nature of MHC-I-bound antigenic peptides recognized by immune cells, and discuss therapeutic strategies that can be used to overcome MHC-I deficiency in solid tumors, with a focus on the role of natural killer (NK) cells and CD4 T cells.

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Cancer Immune Evasion Through Loss of MHC Class I Antigen Presentation

Cited by 559 publications

References 409 publications

Pan-Cancer Analysis of DNA Methylation Identifies Genes and Biological Functions Associated with Overall Survival

Pan-Cancer Analysis of DNA Methylation Identifies Genes and Biological Functions Associated with Overall Survival

Molecular Mechanisms of Drug Resistance in Glioblastoma

MHC Class I Deficiency in Solid Tumors and Therapeutic Strategies to Overcome It

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