Qindong Zhang scite author profile

Classical non-homologous end joining (NHEJ) is a molecular pathway that detects, processes, and ligates DNA double-strand breaks (DSBs) throughout the cell cycle. Mutations in several NHEJ genes result in neurological abnormalities and immunodeficiency both in humans and mice. The NHEJ pathway is required for V(D)J recombination in developing B and T lymphocytes, and for class switch recombination in mature B cells. The Ku heterodimer formed by Ku70 and Ku80 recognizes DSBs and facilitates the recruitment of accessory factors (e.g., DNA-PKcs, Artemis, Paxx and Mri/Cyren) and downstream core factor subunits X-ray repair cross-complementing group 4 (XRCC4), XRCC4-like factor (XLF), and DNA ligase 4 (Lig4). Accessory factors might be dispensable for the process, depending on the genetic background and DNA lesion type. To determine the physiological role of Mri in DNA repair and development, we introduced a frame-shift mutation in the Mri gene in mice. We then analyzed the development of Mri-deficient mice as well as wild type and immunodeficient controls. Mice lacking Mri possessed reduced levels of class switch recombination in B lymphocytes and slow proliferation of neuronal progenitors when compared to wild type littermates. Human cell lines lacking Mri were as sensitive to DSBs as the wild type controls. Overall, we concluded that Mri/Cyren is largely dispensable for DNA repair and mouse development.

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Leaky severe combined immunodeficiency in mice lacking non-homologous end joining factors XLF and MRI

Castañeda‐Zegarra

Zhang

Alirezaylavasani

et al. 2020

Preprint

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AbstractNon-homologous end joining (NHEJ) is a DNA repair pathway that is required to detect, process, and ligate DNA double-stranded breaks (DSBs) throughout the cell cycle. The NHEJ pathway is necessary for V(D)J recombination in developing B and T lymphocytes. During NHEJ, core factors Ku70 and Ku80 form a heterodimer called Ku, which recognizes DSBs and promotes recruitment and function of downstream factors PAXX, Mri, DNA-PKcs, Artemis, XLF, XRCC4, and Lig4. Mutations in several known NHEJ genes can result in immunodeficient phenotypes, including severe combined immunodeficiency (SCID). Inactivation of Mri, Paxx or Xlf in mice results in normal or mild phenotype, while combined inactivation of Xlf/Mri, Xlf/Paxx, or Xlf/Dna-pkcs leads to late embryonic lethality. Here, we demonstrated that deletion of pro-apoptotic factor Trp53 rescues embryonic lethality in mice with combined deficiency of Xlf and Mri. Furthermore, Xlf−/−Mri−/−Trp53+/− mice possessed reduced body weight, severely reduced mature B and T cell counts in the spleen and thymus, and accumulation of progenitor B cells in the bone marrow. Therefore, we conclude that Mri is functionally redundant with XLF during B and T lymphocyte development in vivo, and that Xlf−/−Mri−/−Trp53+/− mice possess a leaky SCID phenotype.

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Generation of a Mouse Model Lacking the Non-Homologous End-Joining Factor Mri/Cyren

Castañeda‐Zegarra¹,

Huse²,

Røsand³

et al. 2019

Preprint

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Classical non-homologous end joining (NHEJ) is a molecular pathway that detects, processes and ligates DNA double-strand breaks (DSBs) throughout the cell cycle. Mutations in several NHEJ genes result in neurological abnormalities and immunodeficiency both in humans and mice. The NHEJ pathway is required for the V(D)J recombination in developing B and T lymphocytes, and for class switch recombination in mature B cells. Ku heterodimer formed by Ku70 and Ku80 recognizes DSBs and facilitates the recruitment of accessory factors (e.g., DNA-PKcs, Artemis, Paxx and Mri/Cyren) and downstream core factors subunits XLF, XRCC4 and Lig4. Accessory factors might be dispensable for the process depending on the genetic background and DNA lesion type. To determine the physiological role of Mri in DNA repair and development, we introduced frame-shift mutation in the Mri gene in mice. We then analyzed the development of Mri-deficient mice as well as wild type and immunodeficient controls. Mice lacking Mri possessed reduced levels of class switch recombination in B lymphocytes and slow proliferation of neuronal progenitors when compared to wild type littermates. Human cell lines lacking Mri were as sensitive to DSBs as WT controls. Overall, we concluded that Mri/Cyren is largely dispensable for DNA repair and mouse development.

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Tumor-Associated Macrophage Subsets: Shaping Polarization and Targeting

Zhang

Sioud

2023

IJMS

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The tumor microenvironment (TME) is a critical regulator of tumor growth, progression, and metastasis. Among the innate immune cells recruited to the tumor site, macrophages are the most abundant cell population and are present at all stages of tumor progression. They undergo M1/M2 polarization in response to signals derived from TME. M1 macrophages suppress tumor growth, while their M2 counterparts exert pro-tumoral effects by promoting tumor growth, angiogenesis, metastasis, and resistance to current therapies. Several subsets of the M2 phenotype have been observed, often denoted as M2a, M2b, M2c, and M2d. These are induced by different stimuli and differ in phenotypes as well as functions. In this review, we discuss the key features of each M2 subset, their implications in cancers, and highlight the strategies that are being developed to harness TAMs for cancer treatment.

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Qindong Zhang

Generation of a Mouse Model Lacking the Non-Homologous End-Joining Factor Mri/Cyren

Leaky severe combined immunodeficiency in mice lacking non-homologous end joining factors XLF and MRI

Generation of a Mouse Model Lacking the Non-Homologous End-Joining Factor Mri/Cyren

Tumor-Associated Macrophage Subsets: Shaping Polarization and Targeting

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