Serendipitous Discovery of T Cell-Produced KLK1b22 as a Regulator of Systemic Metabolism.

ImmunoHorizons Pub Date : 2023-06-01 DOI:10.4049/immunohorizons.2300016

Matthew L Arwood, Im-Hong Sun, Chirag H Patel, Im-Meng Sun, Min-Hee Oh, Ian A Bettencourt, Michael D Claiborne, Yee Chan-Li, Liang Zhao, Adam T Waickman, Orestes Mavrothalassitis, Jiayu Wen, Susan Aja, Jonathan D Powell

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Abstract

In order to study mechanistic/mammalian target of rapamycin's role in T cell differentiation, we generated mice in which Rheb is selectively deleted in T cells (T-Rheb-/- C57BL/6J background). During these studies, we noted that T-Rheb-/- mice were consistently heavier but had improved glucose tolerance and insulin sensitivity as well as a marked increase in beige fat. Microarray analysis of Rheb-/- T cells revealed a marked increase in expression of kallikrein 1-related peptidase b22 (Klk1b22). Overexpression of KLK1b22 in vitro enhanced insulin receptor signaling, and systemic overexpression of KLK1b22 in C57BL/6J mice also enhances glucose tolerance. Although KLK1B22 expression was markedly elevated in the T-Rheb-/- T cells, we never observed any expression in wild-type T cells. Interestingly, in querying the mouse Immunologic Genome Project, we found that Klk1b22 expression was also increased in wild-type 129S1/SVLMJ and C3HEJ mice. Indeed, both strains of mice demonstrate exceptionally improved glucose tolerance. This prompted us to employ CRISPR-mediated knockout of KLK1b22 in 129S1/SVLMJ mice, which in fact led to reduced glucose tolerance. Overall, our studies reveal (to our knowledge) a novel role for KLK1b22 in regulating systemic metabolism and demonstrate the ability of T cell-derived KLK1b22 to regulate systemic metabolism. Notably, however, further studies have revealed that this is a serendipitous finding unrelated to Rheb.

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偶然发现T细胞产生KLK1b22作为系统代谢的调节因子。

为了研究雷帕霉素在T细胞分化中作用的机制/哺乳动物靶点，我们产生了Rheb在T细胞中选择性缺失的小鼠（T-Rheb-/-CC57BL/6J背景）。在这些研究中，我们注意到T-Rheb-/-小鼠体重一直较重，但糖耐量和胰岛素敏感性有所改善，米色脂肪显著增加。Rheb-/-T细胞的微阵列分析显示激肽释放酶1相关肽酶b22（Klk1b22）的表达显著增加。KLK1b22在体外的过表达增强了胰岛素受体信号传导，并且在C57BL/6J小鼠中KLK1b22的系统性过表达也增强了葡萄糖耐受性。尽管KLK1B22在T-Rheb-/-T细胞中的表达显著升高，但我们从未在野生型T细胞中观察到任何表达。有趣的是，在查询小鼠免疫基因组计划时，我们发现野生型129S1/SVLMJ和C3HEJ小鼠中Klk1b22的表达也增加。事实上，这两种小鼠都表现出异常改善的葡萄糖耐量。这促使我们在129S1/SVLMJ小鼠中使用CRISPR介导的KLK1b22敲除，这实际上导致了糖耐量的降低。总的来说，我们的研究揭示了（据我们所知）KLK1b22在调节系统代谢中的新作用，并证明了T细胞衍生的KLK1b22调节系统代谢的能力。然而，值得注意的是，进一步的研究表明，这是一个与Rheb无关的偶然发现。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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