Shuisheng Wei scite author profile

Shuisheng Wei

4Publications

6Citation Statements Received

61Citation Statements Given

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Affiliations

Guangdong General Hospital, Northeastern University, Northeastern University

Publications

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Arg972 insulin receptor substrate-1 inhibits endothelial nitric oxide synthase expression in human endothelial cells by upregulating microRNA-155

Huang

Dong

et al. 2015

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The dysregulation of nitric oxide (NO) synthesis attributable to the abnormal expression/activity of endothelial NO synthase (eNOS) is considered to be a major characteristic of insulin-resistant states, as well as an essential contributor to the pathogenesis of cardiovascular diseases. The Arg972 insulin receptor substrate-1 (IRS-1) is associated with insulin resistance. In the present study, we investigated the association between Arg972 IRS-1 and eNOS expression/activity in human subjects and in primary cultures of human endothelial cells. Data from 832 human subjects revealed that heterozygous and homozygous Arg972 IRS-1 carriers had significantly lower levels of plasma eNOS and nitrite/nitrate than the homozygous wild-type (WT) IRS-1 carriers. Human umbilical vein endothelial cells (HUVECs) established from delivering mothers expressing heterozygous Arg972 IRS-1 had significantly lower eNOS expression/activity and higher miR-155 levels than those expressing WT homozygous IRS-1. The overexpression of IRS-1 and Arg972 IRS-1 in the HUVECs, respectively, decreased and increased the miR-155 expression level. In addition, the overexpression of IRS-1 in the HUVECs significantly increased eNOS expression; this effect was reversed by transfection with mature miR-155 mimic or treatment with the selective phosphatidylinositol-3 kinase (PI3K) inhibitor, BKM120. On the other hand, the overexpression of Arg972 IRS-1 markedly decreased eNOS expression and this effect was reversed by transfection with antagomir-155. On the whole, our in vivo data demonstrate that Arg972 IRS-1 is associated with decreased plasma eNOS and nitrite/nitrate levels in human subjects. Our in vitro data demonstrate that Arg972 IRS-1 inhibits eNOS expression in human endothelial cells by upregulating miR-155 expression through the impairment of PI3K signaling. The present study provides new insight into the pathophysiological role of Arg972 IRS-1 in cardiovascular diseases.

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A Reconfigurable RTOS with HW/SW Co-scheduling for SOPC

Deng

Wei

Xia

et al.

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An Embedded SOPC System Using Automation Design

Deng

Xia

Wei

et al.

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A Remote Wire/Wireless Video Monitor System Using HW/SW Co-scheduling RTOS

Xia

Han

Wei

et al.

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The remote wire/wireless video monitor system (RWVMS) is a video monitor and control system developed successfully by NEUINFO. RWVMS consists of several sub-systems each of them forming a complex independent component. RWVMS covers the task controlling, configuring and monitoring of the system. Since the experiment will be running in a radiation environment, fault tolerance, error correction and system stability in general are major concerns. A system consisting of independently running layers has been designed and runs on a large number of nodes. An autonomous single-board computer, the RWVMS board, has been developed which enables one to run the HW/SW co-scheduling operating system designed by NEUINFO in an embedded environment, and to perform hardware tasks related to the hardware devices. Further custom hardware devices have been developed covering specific tasks and dynamic HW/SW tasks. These devices together with standard computers in higher control layers form a distributed system. This paper will focus on the concept and architecture of the RWVMS and present results and experiences from the system integration tests.

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Shuisheng Wei

Arg972 insulin receptor substrate-1 inhibits endothelial nitric oxide synthase expression in human endothelial cells by upregulating microRNA-155

A Reconfigurable RTOS with HW/SW Co-scheduling for SOPC

An Embedded SOPC System Using Automation Design

A Remote Wire/Wireless Video Monitor System Using HW/SW Co-scheduling RTOS

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