siglece基因敲除小鼠结肠直肠癌模型中的加速肿瘤发生

Brandon Lee Maniaci, D. J. Friedman, S. Crotts, Matthew J. Rajcula, Brady Hammer, Elissa Mai, V. Shapiro
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摘要

在美国,结直肠癌的终生风险约为4%。患有炎症性肠病的人,包括溃疡性结肠炎和克罗恩病,患结肠直肠癌的风险大大增加。由于炎症增强而加速肿瘤发生的机制尚未完全确定。Siglecs(唾液酸免疫球蛋白凝集素样蛋白)是一类抑制受体,是免疫反应的负调节因子。siglece是一种抑制受体,由先天免疫细胞表达,包括单核细胞、巨噬细胞、中性粒细胞和树突状细胞。有趣的是,在自发性结直肠癌小鼠模型(TS4-cre LSL-KRas G12DAPClox 468/wt)中,siglece缺失的小鼠加速了肿瘤的发展,降低了生存率。在siglece基因敲除小鼠中,肿瘤大约在6个月后发展,而在siglece基因敲除小鼠中,肿瘤大约在2个月后发展。初步结果表明,与WT小鼠相比,siglece敲除小鼠在DSS结肠炎模型中也加速了肠道炎症。目前的研究正在检查siglece基因敲除小鼠肿瘤发生过程中发生的炎症。生物医学发现中心NIH R01 CA243545-01A1到VSS梅奥诊所生物医学科学研究生院院长奖学金:最大化学生发展倡议(IMSD) R25 GM055252-26 Doyon基金会
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Accelerated tumorigenesis in a colorectal cancer model in Siglec-E knockout mice
The lifetime risk for colorectal cancer in the United States is approximately 4%. Individuals with Inflammatory Bowel Disease, including Ulcerative Colitis and Crohn’s Disease, have a substantially increased risk of developing colorectal cancer. The mechanisms for accelerated tumorigenesis due to enhanced inflammation are not fully characterized. Siglecs (sialic acid immunoglobulin lectin-like proteins) are a family of inhibitory receptors that are negative regulators of the immune response. Siglec-E is an inhibitory receptor that is expressed by innate immune cells, including monocytes, macrophages, neutrophils and dendritic cells. Interestingly, mice deficient in Siglec-E have accelerated development of tumors and reduced survival in a spontaneous mouse model of colorectal cancer (TS4-cre LSL-KRas G12DAPClox 468/wt). While tumors develop at approximately six months in mice with Siglec-E, tumors develop at approximately two months in Siglec-E knockout mice. Initial results indicate that Siglec-E knockout mice also have accelerated gut inflammation using the DSS colitis model as compared to WT mice. Current studies are examining inflammation that develops during tumorigenesis in Siglec-E knockout mice. Center for Biomedical Discovery NIH R01 CA243545-01A1 to VSS Mayo Clinic Graduate School of Biomedical Sciences Deans fellowship: Initiative for maximizing student development (IMSD) R25 GM055252-26 Doyon Foundation
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