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与前列环素受体形成异二聚体可触发血栓素受体向脂筏的重定位。

Heterodimerization with the prostacyclin receptor triggers thromboxane receptor relocation to lipid rafts.

机构信息

Institute for Translational Medicine, University of Pennsylvania, Philadelphia, PA, USA.

出版信息

Arterioscler Thromb Vasc Biol. 2013 Jan;33(1):60-6. doi: 10.1161/ATVBAHA.112.300536. Epub 2012 Nov 15.

DOI:10.1161/ATVBAHA.112.300536
PMID:23162015
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3533363/
Abstract

OBJECTIVE

Prostacyclin and thromboxane mediate opposing cardiovascular actions through receptors termed IP and TP, respectively. When dimerized with IP, the TP shifts to IP-like function. IP localizes to cholesterol-enriched membrane rafts, but TP and IPTP heterodimer localization is not defined. We examined these receptors' membrane localization and the role of rafts in receptor function.

METHODS AND RESULTS

Microdomain distribution of IP, TP, and IPTP heterodimers was examined in COS-7 cells by measuring energy transfer from renilla luciferase-fused receptors to fluorescently labeled rafts. IP raft association was confirmed. TP was raft excluded, but redistributed to rafts upon dimerization with IP. Signaling of the IP and IPTP heterodimer, but not TP alone, was suppressed after raft disruption by cholesterol depletion. Cholesterol enrichment also selectively suppressed IP and IPTP function. Native IP and IPTP signaling in smooth muscle cells and macrophages were similarly sensitive to cholesterol manipulation, whereas macrophages from hypercholesterolemic mice displayed suppressed IP and IPTP function.

CONCLUSIONS

IP and TP function within distinct microdomains. Raft incorporation of TP in the IPTP heterodimer likely facilitates its signaling shift. We speculate that changes in IP and IPTP signaling after perturbation of membrane cholesterol may contribute to cardiovascular disease associated with hypercholesterolemia.

摘要

目的

前列环素和血栓素通过分别称为 IP 和 TP 的受体介导相反的心血管作用。当与 IP 二聚化时,TP 向 IP 样功能转变。IP 定位于富含胆固醇的膜筏,但 TP 和 IPTP 异二聚体的定位尚未确定。我们研究了这些受体的膜定位以及筏在受体功能中的作用。

方法和结果

通过测量荧光标记的筏从荧光素酶融合受体到 renilla 荧光素酶融合受体的能量转移,在 COS-7 细胞中检查了 IP、TP 和 IPTP 异二聚体的微域分布。证实了 IP 与筏的关联。TP 被排除在筏之外,但与 IP 二聚化后重新分布到筏上。在用胆固醇耗竭破坏筏后,IP 和 IPTP 异二聚体的信号转导被抑制,而单独的 TP 则不受影响。胆固醇的富集也选择性地抑制了 IP 和 IPTP 的功能。平滑肌细胞和巨噬细胞中天然的 IP 和 IPTP 信号对胆固醇操纵同样敏感,而来自高胆固醇血症小鼠的巨噬细胞显示出抑制的 IP 和 IPTP 功能。

结论

IP 和 TP 在不同的微域中发挥作用。TP 在 IPTP 异二聚体中的筏结合可能促进其信号转导转变。我们推测,胆固醇膜扰动后 IP 和 IPTP 信号的变化可能导致与高胆固醇血症相关的心血管疾病。

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