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CCR5和CXCR4的生物学特性。

The biology of CCR5 and CXCR4.

作者信息

Alkhatib Ghalib

机构信息

Department of Microbiology and Immunology, Indiana University School of Medicine, Indianapolis, IN 46202, USA.

出版信息

Curr Opin HIV AIDS. 2009 Mar;4(2):96-103. doi: 10.1097/COH.0b013e328324bbec.

DOI:10.1097/COH.0b013e328324bbec
PMID:19339947
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2718543/
Abstract

PURPOSE OF REVIEW

We discuss the current knowledge concerning the biology of CXCR4 and CCR5 and their roles in HIV-1 infection.

RECENT FINDINGS

Important research findings reported in the last 2 years have advanced our knowledge in the field of HIV coreceptors and pathogenesis. Novel methods have been used to crystallize two new members of the G-protein coupled receptors. It has been demonstrated that expression and stability of the naturally occurring truncated CCR5 protein is critical for resistance to HIV-1. The first stem cell transplantation of donor cells with the CCR5 mutation provided proof of principle. The Food and Drug Administration approved the first CCR5-based entry inhibitor. New CXCL12 isoforms were discovered, one isoform is a potent X4 inhibitor with weak chemotaxis activity.

SUMMARY

The coreceptor discoveries revealed new insights into host and viral factors influencing HIV transmission and disease. The HIV/coreceptor interaction has become a major target for the development of novel antiviral strategies to treat and prevent HIV infection. The first CCR5-based entry inhibitor has been recently approved. New drugs that promote CCR5 and CXCR4 internalization, independent of cellular signaling, might provide clinical benefits with minimum side effects.

摘要

综述目的

我们讨论了目前关于CXCR4和CCR5生物学特性及其在HIV-1感染中作用的知识。

最新发现

过去两年报道的重要研究结果推进了我们在HIV共受体和发病机制领域的知识。已使用新方法使G蛋白偶联受体的两个新成员结晶。已证明天然存在的截短型CCR5蛋白的表达和稳定性对HIV-1抗性至关重要。首次对具有CCR5突变的供体细胞进行干细胞移植提供了原理证明。美国食品药品监督管理局批准了首个基于CCR5的进入抑制剂。发现了新的CXCL12异构体,一种异构体是具有弱趋化活性的强效X4抑制剂。

总结

共受体的发现揭示了对影响HIV传播和疾病的宿主及病毒因素的新见解。HIV/共受体相互作用已成为开发治疗和预防HIV感染的新型抗病毒策略的主要靶点。首个基于CCR5的进入抑制剂最近已获批准。促进CCR5和CXCR4内化且不依赖细胞信号传导的新药可能以最小的副作用提供临床益处。