Programmed cell death-1 receptor-mediated regulation of Tbet
            <sup>+</sup>
            NK1.1
            <sup>−</sup>
            innate lymphoid cells within the tumor microenvironment

Lim, Jing Xuan; Lai, Chester; Mallett, Grace; McDonald, David; Hulme, Gillian; Laba, Stephanie; Shapanis, Andrew; Payne, Megan; Patterson, Warren; Alexander, Michael; Coxhead, Jonathan; Filby, Andrew; Plummer, Ruth; Lovat, Penny; Sciumé, Giuseppe; Healy, Eugene; Amarnath, Shoba

doi:10.1073/pnas.2216587120

Cited by 5 publications

(5 citation statements)

References 66 publications

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“…Nevertheless, tumor-derived lactate has been found to enhance the expression of PD1 on a subset of ILCs that are T-bet + NK1.1 − within the tumor microenvironment ( Figure 1 ), which led to diminished signaling of mammalian target of rapamycin (mTOR) together with elevated uptake of fatty acids. Consistent with the metabolic alterations, PD1-deficient T-bet + NK1.1 − ILCs have been characterized by an increased expression of IFN-γ and granzyme B and K. In addition, the presence of PD1-deficient T-bet + NK1.1 − ILCs has been associated with inhibited growth of melanomas in mice ( 45 ). Although further studies are necessary to fully understand the impact of tumor-derived lactate on ILCs, these findings pave the way for exploring strategies aimed at regulating the lactate levels within the tumor microenvironment.…”

Section: Lactic Acid and Ilcsmentioning

confidence: 86%

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

Marciniak,

Wagner

2023

Front. Immunol.

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Aerobic glycolysis, also known as the Warburg effect, has for a prolonged period of time been perceived as a defining feature of tumor metabolism. The redirection of glucose utilization towards increased production of lactate by cancer cells enables their rapid proliferation, unceasing growth, and longevity. At the same time, it serves as a significant contributor to acidification of the tumor microenvironment, which, in turn, imposes substantial constraints on infiltrating immune cells. Here, we delve into the influence of tumor-derived lactic acid on innate lymphoid cells (ILCs) and discuss potential therapeutic approaches. Given the abundance of ILCs in barrier tissues such as the skin, we provide insights aimed at translating this knowledge into therapies that may specifically target skin cancer.

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Section: Lactic Acid and Ilcsmentioning

confidence: 86%

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

Marciniak,

Wagner

2023

Front. Immunol.

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“…In certain cancers such as pancreatic cancer, breast cancer and gastrointestinal tumour, these malignancies infiltrate various ILC subsets, including ILC2s, Tbet + NK1.1 À and ILC3. The expression of PD-1 in ILCs increases, thereby promoting tumour development [66,67]. When PD-1 is absent, ILC2 metabolism shifts towards glycolysis, glutamine breakdown, and methionine catabolism.…”

Section: Pd-1 In Innate Lymphoid Cells (Ilcs)mentioning

confidence: 99%

PD‐1: A critical player and target for immune normalization

Liu,

Zhao,

Xiao

et al. 2024

Immunology

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Immune system imbalances contribute to the pathogenesis of several different diseases, and immunotherapy shows great therapeutic efficacy against tumours and infectious diseases with immune‐mediated derivations. In recent years, molecules targeting the programmed cell death protein 1 (PD‐1) immune checkpoint have attracted much attention, and related signalling pathways have been studied clearly. At present, several inhibitors and antibodies targeting PD‐1 have been utilized as anti‐tumour therapies. However, increasing evidence indicates that PD‐1 blockade also has different degrees of adverse side effects, and these new explorations into the therapeutic safety of PD‐1 inhibitors contribute to the emerging concept that immune normalization, rather than immune enhancement, is the ultimate goal of disease treatment. In this review, we summarize recent advancements in PD‐1 research with regard to immune normalization and targeted therapy.

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“…Secondly, lactate represses T cell by modulating the expression of immune checkpoint molecules PD-1 and PD-L1, which causes immune escape. Lactate restrains PD-1 expression on effector T cells to suppress T cell cytotoxicity, which causes immune escape and even affects the effectiveness of tumor immunotherapy [236][237][238]. Lactate in the tumor microenvironment also acts as an upstream molecule for the transcription factor NF-κB, and synergistically affect tumor angiogenesis [239].…”

Section: Tme Metabolism and Cell Deathmentioning

confidence: 99%

Crosstalk between metabolism and cell death in tumorigenesis

Yang,

Hu,

Chen

et al. 2024

Mol Cancer

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It is generally recognized that tumor cells proliferate more rapidly than normal cells. Due to such an abnormally rapid proliferation rate, cancer cells constantly encounter the limits of insufficient oxygen and nutrient supplies. To satisfy their growth needs and resist adverse environmental events, tumor cells modify the metabolic pathways to produce both extra energies and substances required for rapid growth. Realizing the metabolic characters special for tumor cells will be helpful for eliminating them during therapy. Cell death is a hot topic of long-term study and targeting cell death is one of the most effective ways to repress tumor growth. Many studies have successfully demonstrated that metabolism is inextricably linked to cell death of cancer cells. Here we summarize the recently identified metabolic characters that specifically impact on different types of cell deaths and discuss their roles in tumorigenesis.

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Programmed cell death-1 receptor-mediated regulation of Tbet ⁺ NK1.1 ⁻ innate lymphoid cells within the tumor microenvironment

Cited by 5 publications

References 66 publications

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

PD‐1: A critical player and target for immune normalization

Crosstalk between metabolism and cell death in tumorigenesis

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Programmed cell death-1 receptor-mediated regulation of Tbet + NK1.1 − innate lymphoid cells within the tumor microenvironment

Cited by 5 publications

References 66 publications

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

Innate lymphoid cells and tumor-derived lactic acid: novel contenders in an enduring game

PD‐1: A critical player and target for immune normalization

Crosstalk between metabolism and cell death in tumorigenesis

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Product

Resources

About

Programmed cell death-1 receptor-mediated regulation of Tbet ⁺ NK1.1 ⁻ innate lymphoid cells within the tumor microenvironment