Affiliation:
1. Pituitary Research Unit (M.B., K.-C.L., K.K.Y.H.), Sydney New South Wales 2010, Australia
2. Department of Medicine, Clinical Sciences Center (R.J.M.R.), Sheffield University, Sheffield S5 7AU, United Kingdom
3. Neurobiology Research Program (T.P.I.), Garvan Institute of Medical Research, St. Vincent’s Hospital, Sydney New South Wales 2010, Australia
Abstract
Two alternatively spliced exon 9 variants of human GH receptor (GHR) messenger ribonucleic acid (mRNA), GHR-(1–279) and GHR-(1–277), were recently identified in liver. They encode receptor proteins lacking most of the intracellular domain and inhibit GH action in a dominant negative manner. Little is known about tissue distribution and abundance of these GHR isoforms. We have developed quantitative RT-PCR assays specific for the full-length and truncated GHRs and investigated their expression in various human tissues and cell lines.
The mRNA of full-length GHR and GHR-(1–279) were readily detectable in all tissues investigated, with liver, fat, muscle, and kidney showing high levels of expression. These two receptor isoforms were also detected in a range of human cell lines, with strongest expression in IM9, a lymphoblastoid cell line. In contrast, GHR-(1–277) message was expressed at low levels in liver, fat, muscle, kidney, and prostate and in trace amount in IM9 cells.
Full-length GHR was the most abundant isoform, accounting for over 90% of total receptor transcripts in liver, fat, and muscle for quantitative RT-PCR. However, liver had 2- to 4-fold more full-length receptor mRNA and 16- to 40-fold more GHR-(1–277) mRNA than fat and muscle, whereas the mRNA levels of GHR-(1–279) were similar in the three tissues. GHR-(1–279) constituted less than 4% in liver and 7–10% in fat and muscle. GHR-(1–277) accounted for 0.5% of total GHR transcripts in liver and less than 0.1% in the other two tissues. These data suggest that the absolute and relative abundance of mRNA of the three GHR isoforms may be tissue specific. The regulation of expression of exon 9 alternatively spliced GHR variants may provide a potential mechanism for modulation of GH sensitivity at the tissue level.
Subject
Biochemistry, medical,Clinical Biochemistry,Endocrinology,Biochemistry,Endocrinology, Diabetes and Metabolism
Cited by
3 articles.
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