Hypoxia: a key player in antitumor immune response. A Review in the Theme: Cellular Responses to Hypoxia

Noman, Muhammad Zaeem; Hasmim, Meriem; Messai, Yosra; Terry, Stéphane; Kiéda, Claudine; Janji, Bassam; Chouaı̈b, Salem

doi:10.1152/ajpcell.00207.2015

Cited by 330 publications

(340 citation statements)

References 129 publications

(122 reference statements)

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“…Hypoxic zones within tumors have been shown to: 1) foster localized accumulation and differentiation of immune inhibitory cell lines ( e.g. Treg, TAM, MDSC) [37]; 2) promote immunosuppressive activity such as selective upregulation of PD-L1 expression on MDSCs and tumor cells [38, 39]; 3) decrease production of IFN-gamma and IL-2 [40, 41]; 4) diminish cytotoxic T-cell performance with tumor microenvironments in vivo [42–46]. Indeed, accumulation of intracellular hypoxia-inducible factors ( e.g.…”

Section: Introductionmentioning

confidence: 99%

Focused ultrasound for immuno-adjuvant treatment of pancreatic cancer: An emerging clinical paradigm in the era of personalized oncotherapy

Maloney

Khokhlova

Pillarisetty

et al. 2017

International Reviews of Immunology

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Current clinical treatment regimens, including many emergent immune strategies (e.g. checkpoint inhibitors) have done little to affect the devastating course of pancreatic ductal adenocarcinoma (PDA). Clinical trials for PDA often employ multi-modal treatment, and have started to incorporate stromal-targeted therapies, which have shown promising results in early reports. Focused ultrasound (FUS) is one such therapy that is uniquely equipped to address local and systemic limitations of conventional cancer therapies as well as emergent immune therapies for PDA. FUS methods can non-invasively generate mechanical and/or thermal effects that capitalize on the unique oncogenomic/proteomic signature of a tumor. Potential benefits of FUS therapy for PDA include: 1) emulsification of targeted tumor into undenatured antigens in situ, increasing dendritic cell maturation, and increasing intra-tumoral CD8+/ T regulatory cell ratio and CD8+ T cell activity; 2) reduction in intra-tumoral hypoxic stress; 3) modulation of tumor cell membrane protein localization to enhance immunogenicity; 4) modulation of the local cytokine milieu toward a Th1-type inflammatory profile; 5) up-regulation of local chemoattractants; 6) remodeling the tumor stroma; 7) localized delivery of exogenously packaged immune-stimulating antigens, genes and therapeutic drugs. While not all of these results have been studied in experimental PDA models to date, the principles garnered from other solid tumor and disease models have direct relevance to the design of optimal FUS protocols for PDA. In this review, we address the pertinent limitations in current and emergent immune therapies that can be improved with FUS therapy for PDA.

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Section: Introductionmentioning

confidence: 99%

Focused ultrasound for immuno-adjuvant treatment of pancreatic cancer: An emerging clinical paradigm in the era of personalized oncotherapy

Maloney

Khokhlova

Pillarisetty

et al. 2017

International Reviews of Immunology

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“…Hypoxia induces the breast cancer stem cell (CSC) phenotype (19,20) through functional and physical interactions of HIF-1 with the coactivator TAZ (20,21) and by HIF-dependent expression of pluripotency factors (22). Hypoxia also induces immune evasion by several HIF-dependent mechanisms (23,24). A major mechanism by which cancer cells evade the innate immune system is by expression of CD47, which is a cell-surface protein that interacts with signal regulatory protein α (SIRPα) on the surface of macrophages to block phagocytosis (25,26).…”

mentioning

confidence: 99%

HIF-1 regulates CD47 expression in breast cancer cells to promote evasion of phagocytosis and maintenance of cancer stem cells

Zhang

Xiang

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

324

256

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Increased expression of CD47 has been reported to enable cancer cells to evade phagocytosis by macrophages and to promote the cancer stem cell phenotype, but the molecular mechanisms regulating CD47 expression have not been determined. Here we report that hypoxia-inducible factor 1 (HIF-1) directly activates transcription of the CD47 gene in hypoxic breast cancer cells. Knockdown of HIF activity or CD47 expression increased the phagocytosis of breast cancer cells by bone marrow-derived macrophages. CD47 expression was increased in mammosphere cultures, which are enriched for cancer stem cells, and CD47 deficiency led to cancer stem cell depletion. Analysis of datasets derived from thousands of patients with breast cancer revealed that CD47 expression was correlated with HIF target gene expression and with patient mortality. Thus, CD47 expression contributes to the lethal breast cancer phenotype that is mediated by HIF-1.

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“…[62] Therefore, a deep understanding of the molecular mechanism by which hypoxia induces tumor resistance may contribute to the development of more effective tumor immunotherapies.…”

Section: The Clinical Significance Of Targeting Hypoxiamentioning

confidence: 99%

The Critical Role of Hypoxia in Tumor-Mediated Immunosuppression

Aouali¹,

Bosseler²,

Sauvage³

et al. 2017

Hypoxia and Human Diseases

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Underestimated for a long time, the involvement of the microenvironment has been proven essential for a better understanding of the cancer development. In keeping with this, the tumor is not considered anymore as a mass of malignant cells, but rather as an organ composed of various malignant and nonmalignant cell populations interacting with each other to create the tumor microenvironment. The tumor immune contexture plays a critical role in shaping the tumor immune response, and it is now well supported that such an immune response is impacted by the hypoxic stress within the tumor microenvironment. Tumor hypoxia is closely linked to tumor progression, metastasis, treatment failure, and escape from immune surveillance. Thus, hypoxia seems to be a key factor involved in creating an immune-suppressive tumor by multiple overlapping mechanisms, including the impairment of the function of cytotoxic immune cells, increasing the immunosuppressive properties of immunosuppressive cells, and activating resistance mechanism in the tumor cells. In this chapter, we review some recent findings describing how hypoxic stress in the tumor microenvironment hijacks the antitumor immune response.

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Hypoxia: a key player in antitumor immune response. A Review in the Theme: Cellular Responses to Hypoxia

Cited by 330 publications

References 129 publications

Focused ultrasound for immuno-adjuvant treatment of pancreatic cancer: An emerging clinical paradigm in the era of personalized oncotherapy

Focused ultrasound for immuno-adjuvant treatment of pancreatic cancer: An emerging clinical paradigm in the era of personalized oncotherapy

HIF-1 regulates CD47 expression in breast cancer cells to promote evasion of phagocytosis and maintenance of cancer stem cells

The Critical Role of Hypoxia in Tumor-Mediated Immunosuppression

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