孕鼠子宫磷脂绞合酶异构体的表达。

Mark Phillippe, Diana F Bradley, Huiling Ji, Karen H Oppenheimer, Edward K Chien
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引用次数: 9

摘要

目的:磷脂重组酶(phosphollipid scramblases, PLSCRs)是一类新型膜蛋白,可促进细胞膜内叶向外叶的氨基磷脂转运。PLSCR的四种亚型(plsc1 -4)已在小鼠和人体内报道。本报告中描述的研究旨在描述PLSCR异构体在近期怀孕大鼠子宫表达的特征。方法:取Sprague-Dawley大鼠定时妊娠子宫组织。提取总RNA,用dna酶处理,并利用PLCSR异构体PCR引物进行定性和定量逆转录聚合酶链反应(RT-PCR)研究。以大鼠脾脏cDNA噬菌体文库为模板,进行pcr测序,确定大鼠表达的PLSCR3和PLSCR4同源物的cDNA和翻译氨基酸序列。利用5′和3′快速扩增cDNA Ends (RACE)技术获得5′和3′非翻译区。结果:RT-PCR研究证实PLSCR3和PLSCR4在妊娠大鼠子宫内膜和子宫肌层表达;而PLSCR1和PLSCR2在子宫组织中未见表达。大鼠PLSCR3同源基因cDNA序列为1642个核苷酸,与小鼠的同源性为92%,与人的同源性为80%。大鼠PLSCR4同源物全长1879个核苷酸,与小鼠同源物同源性89%,与人同源物同源性72%。结论:PLSCR3和PLSCR4的宫内表达提供了一种动态机制,可以调节氨基磷脂易位,从而调节参与炎症和凝血相关事件的各种膜蛋白的活性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Phospholipid scramblase isoform expression in pregnant rat uterus.

Objective: Phospholipid scramblases (PLSCRs), a family of novel membrane proteins, facilitate the translocation of aminophospholipids from the inner to the exterior leaf of the cell membrane. Four isoforms of PLSCR (PLSCR1-4) have been reported in mouse and human. The studies described in this report sought to characterize the uterine expression of the PLSCR isoforms in the near-term pregnant rat.

Methods: Uterine tissue was obtained from timed-pregnant Sprague-Dawley rats. Total RNA was isolated, treated with DNase, and used in qualitative and quantitative reverse transcriptase-polymerase chain reaction (RT-PCR) studies utilizing PLCSR isoform PCR primers. A rat spleen cDNA bacteriophage library was used as a template for PCR-based sequencing to determine the cDNA and translated amino acid sequences for the PLSCR3 and PLSCR4 homologs expressed in rats. The 5' and 3' untranslated regions were obtained using 5' and 3' Rapid Amplification of cDNA Ends (RACE) techniques.

Results: RT-PCR studies confirmed expression of PLSCR3 and PLSCR4 in the endometrial and myometrial layers of the pregnant rat uterus; in contrast, PLSCR1 and PLSCR2 were not found in uterine tissues. The cDNA sequence for the rat PLSCR3 homolog was found to be 1642 nucleotides, having 92% identity with mouse and 80% with human PLSCR3. The rat PLSCR4 homolog has a cDNA sequence of 1879 nucleotides, having an 89% identity with mouse and 72% identity with human PLSCR4 homologs.

Conclusion: The intrauterine expression of PLSCR3 and PLSCR4 provides a dynamic mechanism by which aminophospholipid translocation can be regulated, thereby modulating the activity of various membrane proteins that are involved in inflammation and coagulation-related events.

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