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在原发性人肝细胞中进行与 2 型糖尿病全基因组关联研究相关基因的 RNAi 筛选,确定了 CAMK1D 和 CDKAL1 等基因在肝葡萄糖调节中的作用。

RNAi screening in primary human hepatocytes of genes implicated in genome-wide association studies for roles in type 2 diabetes identifies roles for CAMK1D and CDKAL1, among others, in hepatic glucose regulation.

机构信息

Target Generation Unit, Pfizer Research Technology Center, Cambridge, Massachusetts, USA.

出版信息

PLoS One. 2013 Jun 20;8(6):e64946. doi: 10.1371/journal.pone.0064946. Print 2013.

DOI:10.1371/journal.pone.0064946
PMID:23840313
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3688709/
Abstract

Genome-wide association (GWA) studies have described a large number of new candidate genes that contribute to of Type 2 Diabetes (T2D). In some cases, small clusters of genes are implicated, rather than a single gene, and in all cases, the genetic contribution is not defined through the effects on a specific organ, such as the pancreas or liver. There is a significant need to develop and use human cell-based models to examine the effects these genes may have on glucose regulation. We describe the development of a primary human hepatocyte model that adjusts glucose disposition according to hormonal signals. This model was used to determine whether candidate genes identified in GWA studies regulate hepatic glucose disposition through siRNAs corresponding to the list of identified genes. We find that several genes affect the storage of glucose as glycogen (glycolytic response) and/or affect the utilization of pyruvate, the critical step in gluconeogenesis. Of the genes that affect both of these processes, CAMK1D, TSPAN8 and KIF11 affect the localization of a mediator of both gluconeogenesis and glycolysis regulation, CRTC2, to the nucleus in response to glucagon. In addition, the gene CDKAL1 was observed to affect glycogen storage, and molecular experiments using mutant forms of CDK5, a putative target of CDKAL1, in HepG2 cells show that this is mediated by coordinate regulation of CDK5 and PKA on MEK, which ultimately regulates the phosphorylation of ribosomal protein S6, a critical step in the insulin signaling pathway.

摘要

全基因组关联 (GWA) 研究描述了大量新的候选基因,这些基因与 2 型糖尿病 (T2D) 有关。在某些情况下,涉及的是小簇基因,而不是单个基因,而且在所有情况下,遗传贡献都不是通过对特定器官(如胰腺或肝脏)的影响来定义的。因此,非常有必要开发和使用基于人类细胞的模型来研究这些基因可能对葡萄糖调节的影响。我们描述了一种原发性人肝细胞模型的开发,该模型根据激素信号来调整葡萄糖的分布。该模型用于确定 GWA 研究中鉴定的候选基因是否通过与鉴定出的基因列表相对应的 siRNA 来调节肝葡萄糖分布。我们发现,有几个基因影响葡萄糖作为糖原的储存(糖酵解反应)和/或影响丙酮酸的利用,这是糖异生的关键步骤。在影响这两个过程的基因中,CAMK1D、TSPAN8 和 KIF11 响应胰高血糖素将糖异生和糖酵解调节的中介物 CRTC2 定位到细胞核中。此外,观察到基因 CDKAL1 影响糖原储存,并且在 HepG2 细胞中使用 CDK5 的突变形式进行的分子实验,一种假定的 CDKAL1 靶标,表明这是通过 CDK5 和 PKA 对 MEK 的协调调节介导的,这最终调节核糖体蛋白 S6 的磷酸化,这是胰岛素信号通路中的一个关键步骤。

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