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前列环素受体mRNA在各种小鼠器官中表达的原位杂交研究。

In situ hybridization studies of prostacyclin receptor mRNA expression in various mouse organs.

作者信息

Oida H, Namba T, Sugimoto Y, Ushikubi F, Ohishi H, Ichikawa A, Narumiya S

机构信息

Department of Pharmacology, Faculty of Medicine, Kyoto University, Japan.

出版信息

Br J Pharmacol. 1995 Dec;116(7):2828-37. doi: 10.1111/j.1476-5381.1995.tb15933.x.

DOI:10.1111/j.1476-5381.1995.tb15933.x
PMID:8680713
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1909220/
Abstract
  1. Expression of prostacyclin receptor (IP receptor) mRNA was examined in various mouse organs, and the cells expressing IP receptor mRNA were identified by in situ hybridization studies. Co-localization of mRNA for the IP receptor with that for preprotachykinin A (PPTA), a precursor protein for substance P, with mRNA for the prostaglandin E receptor subtypes (EP1, EP3 and EP4), and with renin mRNA, was examined by double in situ hybridization studies in the dorsal root ganglion and kidney, respectively. 2. IP receptor mRNA was expressed in the thymus and spleen. Expression in the thymus was found exclusively in the medulla, where mature thymocytes expressed transcripts for the IP receptor. Expression in the spleen was found as scattered signals over the white pulp and as punctate signals in the red pulp. The former was found in splenic lymphocytes and the latter in megakaryocytes. 3. IP receptor mRNA was also expressed in the vascular tissues of various organs such as the aorta, coronary arteries, pulmonary arteries and the cerebral arteries, where its expression was confined to smooth muscle cells. No expression was found in veins. In the kidney, IP receptor mRNA was detected in the interlobular arteries and glomerular arterioles but not in the juxtaglomerular (JG) cells which were labelled with the renin mRNA probe. 4. IP receptor mRNA was expressed in about 40% of the neurones in the dorsal root ganglion. Both small- and large-sized neurones were labelled but no labelling was found in the glia. Expression of PPTA mRNA was found in about 30% of total neurones. About 70% of these neurones expressed IP receptor mRNA, and about half of the IP receptor-positive neurones expressed PPTA mRNA. In addition to IP mRNA, mRNAs for EP1, EP3 and EP4 receptors were expressed in about 30%, 50% and 20%, respectively, of the dorsal root ganglion neurones. About 25%, 41% and 24% of the IP receptor-positive neurons co-expressed the EP1, EP3 and EP4 receptor, respectively. 5. These results not only verified IP receptor expression in various cells and tissues known to be sensitive to prostacyclin, but also revealed its expression in other systems, which urges the study of the actions of prostacyclin in these tissues. They also indicated that the actions of prostacyclin on blood vessels and platelets are mediated by the same type of receptor. Absence of IP receptor mRNA in the JG cells suggests that the action of prostacyclin on renin release may be indirect.
摘要
  1. 检测了前列环素受体(IP受体)mRNA在多种小鼠器官中的表达,并通过原位杂交研究鉴定了表达IP受体mRNA的细胞。分别在背根神经节和肾脏中通过双重原位杂交研究检测了IP受体mRNA与速激肽原A(PPTA,P物质的前体蛋白)mRNA、前列腺素E受体亚型(EP1、EP3和EP4)mRNA以及肾素mRNA的共定位情况。2. IP受体mRNA在胸腺和脾脏中表达。在胸腺中,仅在髓质中发现表达,成熟胸腺细胞在此处表达IP受体的转录本。在脾脏中,表达表现为白髓上的散在信号以及红髓中的点状信号。前者见于脾淋巴细胞,后者见于巨核细胞。3. IP受体mRNA也在各种器官的血管组织中表达,如主动脉、冠状动脉、肺动脉和脑动脉,其表达局限于平滑肌细胞。在静脉中未发现表达。在肾脏中,在小叶间动脉和肾小球小动脉中检测到IP受体mRNA,但在用肾素mRNA探针标记的球旁(JG)细胞中未检测到。4. IP受体mRNA在背根神经节约40%的神经元中表达。大小神经元均被标记,但在神经胶质细胞中未发现标记。PPTA mRNA在约30%的总神经元中表达。这些神经元中约70%表达IP受体mRNA,约一半的IP受体阳性神经元表达PPTA mRNA。除IP mRNA外,EP1、EP3和EP4受体的mRNA分别在约30%、50%和20%的背根神经节神经元中表达。约25%、41%和24%的IP受体阳性神经元分别共表达EP1、EP3和EP4受体。5. 这些结果不仅证实了IP受体在已知对前列环素敏感的各种细胞和组织中的表达,还揭示了其在其他系统中的表达,这促使人们研究前列环素在这些组织中的作用。它们还表明前列环素对血管和血小板的作用是由同一类型的受体介导的。JG细胞中缺乏IP受体mRNA表明前列环素对肾素释放的作用可能是间接的。
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/cb96fa3d9cb7/brjpharm00180-0055-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/f899a61e8dec/brjpharm00180-0050-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/aa37e952e41c/brjpharm00180-0051-a.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/5b9a6f163c3b/brjpharm00180-0053-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/4b5e7e2ac5b1/brjpharm00180-0054-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/cb96fa3d9cb7/brjpharm00180-0055-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/f899a61e8dec/brjpharm00180-0050-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/aa37e952e41c/brjpharm00180-0051-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/adaa78d5059e/brjpharm00180-0052-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/5b9a6f163c3b/brjpharm00180-0053-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/4b5e7e2ac5b1/brjpharm00180-0054-a.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ec2e/1909220/cb96fa3d9cb7/brjpharm00180-0055-a.jpg

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