Your search keyword '"Uruno, Takehito"' showing total 3 results

1. Cancer-derived cholesterol sulfate is a key mediator to prevent tumor infiltration by effector T cells.

Author

Tatsuguchi, Takaaki, Uruno, Takehito, Sugiura, Yuki, Sakata, Daiji, Izumi, Yoshihiro, Sakurai, Tetsuya, Hattori, Yuko, Oki, Eiji, Kubota, Naoto, Nishimoto, Koshiro, Oyama, Masafumi, Kunimura, Kazufumi, Ohki, Takuto, Bamba, Takeshi, Tahara, Hideaki, Sakamoto, Michiie, Nakamura, Masafumi, Suematsu, Makoto, and Fukui, Yoshinori

Subjects

*T cells, *HYDROXYCHOLESTEROLS, *CHOLESTEROL, *IMMUNE checkpoint proteins, *CANCER cells, *SULFATES

Abstract

Effective tumor immunotherapy requires physical contact of T cells with cancer cells. However, tumors often constitute a specialized microenvironment that excludes T cells from the vicinity of cancer cells, and its underlying mechanisms are still poorly understood. DOCK2 is a Rac activator critical for migration and activation of lymphocytes. We herein show that cancer-derived cholesterol sulfate (CS), a lipid product of the sulfotransferase SULT2B1b, acts as a DOCK2 inhibitor and prevents tumor infiltration by effector T cells. Using clinical samples, we found that CS was abundantly produced in certain types of human cancers such as colon cancers. Functionally, CS-producing cancer cells exhibited resistance to cancer-specific T-cell transfer and immune checkpoint blockade. Although SULT2B1b is known to sulfate oxysterols and inactivate their tumor-promoting activity, the expression levels of cholesterol hydroxylases, which mediate oxysterol production, are low in SULT2B1b-expressing cancers. Therefore, SULT2B1b inhibition could be a therapeutic strategy to disrupt tumor immune evasion in oxysterol-non-producing cancers. Thus, our findings define a previously unknown mechanism for tumor immune evasion and provide a novel insight into the development of effective immunotherapies. [ABSTRACT FROM AUTHOR]

Published

2022

2. DOCK8 controls survival of group 3 innate lymphoid cells in the gut through Cdc42 activation.

Author

Aihara, Ryosuke, Kunimura, Kazufumi, Watanabe, Mayuki, Uruno, Takehito, Yamane, Nana, Sakurai, Tetsuya, Sakata, Daiji, Nishimura, Fusanori, and Fukui, Yoshinori

Subjects

INNATE lymphoid cells, FETAL liver cells, STEM cell factor, TRANSCRIPTION factors, STROMAL cells

Abstract

Innate lymphoid cells (ILCs) are a family of developmentally related leukocytes that rapidly secrete polarized sets of cytokines to combat infection and promote tissue repair at mucosal barriers. Among them, group 3 ILCs (ILC3s) play an important role in maintenance of the gut homeostasis by producing IL-22, and their development and function critically depend on the transcription factor RORγt. Although recent evidence indicates that RORγt+ ILC3s are reduced in the gut in the absence of the Cdc42 activator DOCK8 (dedicator of cytokinesis 8), the underlying mechanism remains unclear. We found that genetic deletion of Dock8 in RORγt+-lineage cells markedly reduced ILC3s in the lamina propria of the small intestine. By analyzing BrdU incorporation, it was revealed that DOCK8 deficiency did not affect the cell proliferation. Furthermore, when lineage marker-negative (Lin–) α4β7+ CD127+ RORγt– fetal liver cells were cultured with OP9 stromal cells in the presence of stem cell factor (SCF) and IL-7 in vitro , RORγt+ ILC3s normally developed irrespective of DOCK8 expression. However, DOCK8-deficient ILC3s exhibited a severe defect in survival of ILC3s under the condition with or without IL-7. Similar defects were observed when we analyzed Dock8 VAGR mice having mutations in the catalytic center of DOCK8, thereby failing to activate Cdc42. Thus, DOCK8 acts in cell-autonomous manner to control survival of ILC3s in the gut through Cdc42 activation. [ABSTRACT FROM AUTHOR]

Published

2021

3. DOCK family proteins: key players in immune surveillance mechanisms.

Author

Kunimura, Kazufumi, Uruno, Takehito, and Fukui, Yoshinori

Subjects

*SIGNAL recognition particle receptor, *GUANINE nucleotide exchange factors, *T helper cells, *SEVERE combined immunodeficiency, *RHO GTPases

Abstract

Dedicator of cytokinesis (DOCK) proteins constitute a family of evolutionarily conserved guanine nucleotide exchange factors (GEFs) for the Rho family of GTPases. Although DOCK family proteins do not contain the Dbl homology domain typically found in other GEFs, they mediate the GTP–GDP exchange reaction through the DOCK homology region-2 (DHR-2) domain. In mammals, this family consists of 11 members, each of which has unique functions depending on the expression pattern and the substrate specificity. For example, DOCK2 is a Rac activator critical for migration and activation of leukocytes, whereas DOCK8 is a Cdc42-specific GEF that regulates interstitial migration of dendritic cells. Identification of DOCK2 and DOCK8 as causative genes for severe combined immunodeficiency syndromes in humans has highlighted their roles in immune surveillance. In addition, the recent discovery of a naturally occurring DOCK2-inhibitory metabolite has uncovered an unexpected mechanism of tissue-specific immune evasion. On the other hand, GEF-independent functions have been shown for DOCK8 in antigen-induced IL-31 production in helper T cells. This review summarizes multifaced functions of DOCK family proteins in the immune system. [ABSTRACT FROM AUTHOR]

Published

2020