Dynasore inhibition on productive infection of HIV-1 in commonly used cell lines is independent of transferrin endocytosis.

Matters Pub Date : 2018-01-01 Epub Date: 2018-05-30 DOI:10.19185/matters.201805000001

Hanna Song, Michael DeSantis, Chunjuan Tian, Wei Cheng

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引用次数: 2

Abstract

The route of HIV-1 entry for productive infection in CD₄₊ host cells is a fundamental question for the molecular understanding of HIV-1 infection and transmission. Although direct fusion has long been thought to be the mode of entry, recent studies have suggested that productive entry of HIV-1 may actually occur through dynamin-dependent endocytosis. In several of these studies, dynasore, a noncompetitive inhibitor of the GTPase activity of dynamin, has been used to support this conclusion. Here we show that dynasore does produce inhibitory effects on the productive infection of HIV-1 in several commonly used cell lines. This effect is present regardless of the methods used to facilitate the infection of HIV-1. However, transferrin uptake remains fully functional in these cell lines upon dynasore treatment. Therefore, the inhibition on HIV-1 infection by dynasore in these cell lines is due to an effect that is independent of transferrin endocytosis. The use of dynasore in probing the role of endocytosis in HIV-1 infection should be corroborated by other methods.

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在常用细胞系中，对HIV-1多产性感染的王朝抑制与转铁蛋白内吞作用无关。

HIV-1进入CD4+宿主细胞产生性感染的途径是了解HIV-1感染和传播的分子基础问题。虽然直接融合一直被认为是进入模式，但最近的研究表明，HIV-1的有效进入实际上可能是通过动力蛋白依赖的内吞作用发生的。在这些研究中，dynamin的GTPase活性的非竞争性抑制剂dynasore已被用于支持这一结论。本研究表明，在几种常用细胞系中，dynasore确实对HIV-1的生产性感染产生抑制作用。无论使用何种方法促进HIV-1感染，这种效应都是存在的。然而，在这些细胞系中，转铁蛋白摄取在王朝处理后仍然完全起作用。因此，在这些细胞系中，王朝对HIV-1感染的抑制是由于一种独立于转铁蛋白内吞作用的作用。在探讨内吞作用在HIV-1感染中的作用时，需要其他方法的证实。

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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