Yuze Wu scite author profile

The clinical responses observed following treatment with immune checkpoint inhibitors (ICIs) support immunotherapy as a potential anticancer treatment. However, a large proportion of patients cannot benefit from it due to resistance or relapse, which is most likely attributable to the multiple immunosuppressive cells in the tumor microenvironment (TME). Myeloid-derived suppressor cells (MDSCs), a heterogeneous array of pathologically activated immature cells, are a chief component of immunosuppressive networks. These cells potently suppress T-cell activity and thus contribute to the immune escape of malignant tumors. New findings indicate that targeting MDSCs might be an alternative and promising target for immunotherapy, reshaping the immunosuppressive microenvironment and enhancing the efficacy of cancer immunotherapy. In this review, we focus primarily on the classification and inhibitory function of MDSCs and the crosstalk between MDSCs and other myeloid cells. We also briefly summarize the latest approaches to therapies targeting MDSCs.

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The intestinal metal transporter ZIP14 maintains systemic manganese homeostasis

Scheiber

Morgan

et al. 2019

Journal of Biological Chemistry

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ZIP14 (encoded by the solute carrier 39 family member 14 [SLC39A14] gene) is a manganese (Mn) transporter that is abundantly expressed in the liver and small intestine. Loss-of-function mutations in SLC39A14 cause severe hypermanganesemia. As the liver is regarded as the main regulatory organ involved in Mn homeostasis, impaired hepatic Mn uptake for subsequent biliary excretion has been proposed as the underlying disease mechanism. However, liver-specific Zip14 knock-out (KO)

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Roles of tumor-associated macrophages in tumor progression: implications on therapeutic strategies

Zhu

et al. 2021

Exp Hematol Oncol

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Macrophages are heterogeneous cells that present as different functional phenotypes due to their plasticity. They can be classified into two categories, namely M1- and M2-like macrophages, which are involved in processes as diverse as anti-tumor activity and immunosuppressive tumor promotion. Tumor-associated macrophages (TAMs) are defined as being of an M2-type and are considered as the active component in tumor microenvironment. TAMs are involved in multiple processes of tumor progression through the expression of cytokines, chemokines, growth factors, protein hydrolases and more, which lead to enhance tumor cell proliferation, angiogenesis, and immunosuppression, which in turn supports invasion and metastasis. It is assumed that the abundance of TAMs in major solid tumors is correlated to a negative patient prognosis. Because of the currently available data of the TAMs’ role in tumor development, these cells have emerged as a promising target for novel cancer treatment strategies. In this paper, we will briefly describe the origins and types of TAMs and will try to comprehensively show how TAMs contribute to tumorigenesis and disease progression. Finally, we will present the main TAM-based therapeutic strategies currently available.

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Yuze Wu

Myeloid-derived suppressor cells: an emerging target for anticancer immunotherapy

The intestinal metal transporter ZIP14 maintains systemic manganese homeostasis

Roles of tumor-associated macrophages in tumor progression: implications on therapeutic strategies

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