质膜通道在免疫中的新老作用及与管状通道的相似性。

New and old roles of plasmodesmata in immunity and parallels to tunneling nanotubes.

机构信息

Department of Plant and Soil Sciences, Delaware Biotechnology Institute, University of Delaware, Newark, DE 19711, USA.

出版信息

Plant Sci. 2014 May;221-222:13-20. doi: 10.1016/j.plantsci.2014.01.006. Epub 2014 Jan 30.

DOI:10.1016/j.plantsci.2014.01.006

PMID:24656331

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4147083/

Abstract

Effective cell-to-cell communication is critical for the survival of both unicellular and multicellular organisms. In multicellular plants, direct cell coupling across the cell wall boundaries is mediated by long membrane-lined cytoplasmic bridges, the plasmodesmata. Exciting recent discoveries suggest that the occurrence of such membrane-lined intercellular channels is not unique to plant lineages but more prevalent across biological kingdoms than previously assumed. Striking functional analogies exist among those channels, in that not only do they all facilitate the exchange of various forms of macromolecules, but also they are exploited by some opportunistic pathogens to spread infection from one host cell to another. However, host cells may have also evolved strategies to offset such exploitation of the critical cellular infrastructure by the pathogen. Indeed, recent studies support an emerging paradigm that cellular connectivity via plasmodesmata plays an important role in innate immune responses. Preliminary hypotheses are proposed as to how various regulatory mechanisms integrating plasmodesmata into immune signaling pathways may have evolved.

摘要

有效的细胞间通讯对于单细胞和多细胞生物的生存都是至关重要的。在多细胞植物中，通过细胞膜衬里的细胞质桥（胞间连丝）进行的直接细胞偶联，是由长的膜衬里细胞质桥介导的。令人兴奋的最近的发现表明，这种膜衬里的细胞间通道的发生并不仅限于植物谱系，而是比以前假设的更为普遍地存在于生物界。这些通道之间存在着惊人的功能相似性，不仅它们都促进各种形式的大分子的交换，而且一些机会性病原体也利用它们将感染从一个宿主细胞传播到另一个宿主细胞。然而，宿主细胞也可能已经进化出了一些策略，以抵消病原体对关键细胞基础设施的这种利用。事实上，最近的研究支持了一个新兴的范例，即通过胞间连丝的细胞连接在先天免疫反应中起着重要作用。初步提出了假设，即整合胞间连丝到免疫信号通路中的各种调节机制是如何进化的。

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