Abstract
The biosynthesis and post-translational modifications, including proteolytic processing and core glycosylation, of the human renin precursor have been studied in vitro in a cell-free system. For this purpose, highly enriched renin mRNA was isolated from a renin-producing juxtaglomerular cell tumor and translated in rabbit reticulocyte lysate containing [35S]methionine in the presence or absence of dog pancreas microsomal membranes. Fluorographic analysis of the radioactive translation products, immunoprecipitated and then resolved on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, revealed that the primary translation product, preprorenin (Mr = 45,000), is initially processed to glycosylated prorenin (Mr = 47,000) during or shortly after its sequestration into the lumen of the microsomal membranes. The vectorial translocation across the membrane was confirmed by the observation that the proform was resistant to digestion with trypsin while preprorenin was sensitive. Radiosequencing and the use of prorenin-specific antibodies established the cleavage points of the pre- and profragment and showed that the in vitro precursor of human renin contains a 23-residue signal peptide and a 43-residue prosegment. The post-translational modification which, despite the removal of signal peptide, resulted in an increase in apparent Mr, reflects the glycosylation as examined using Xenopus oocytes microinjected with renin mRNA in the presence of tunicamycin, an inhibitor of protein glycosylation. Four anti-peptide antibodies which specifically recognize the NH2 terminus (Pro 1), two middle parts (Pro 2A and Pro 2B), and COOH terminus (Pro 3) of the prosegment, respectively, have been raised and used to characterize plasma prorenin. Renin precursors (pre- and prorenin) synthesized in vitro or in the kidney reacted with these antibodies (anti-Pro 1, anti-Pro 2A, anti-Pro 2B, and anti-Pro 3). However, quite unexpectedly, human plasma prorenin was recognized only by anti-Pro 3, indicating that plasma prorenin is a truncated version of intact prorenin, which lacks a large portion of the NH2 terminus of the prosegment and may represent an activation intermediate. This somewhat surprising result may lead to a better understanding of the exact roles and activation mechanisms of plasma prorenin existing in a relatively large amount.
Highlights
From the Institute of Applied ~ ~ o c ~ mU~niv~ersrity o,f Tsukuba,Ibaraki 305, Japan and the $Department of ChPmistry, Tokyo Imtitute of Technology, Ookayam, Megumku, Tokyo 152,Japan
Highly enriched renin mRNA was isolated .from a renin-producing juxtaglomerularcell tumor andtrans- Renin, an aspartyl proteinase, catalyzes the first step in a lated in rabbit reticulocyte lysate containin[g55SJme- series of enzymic reactions that leads to the genthionine in the presence or absence of dog pancreas eration of angiotensin 11, a potent vasoconstrictor and stimmicrosomal membranes
The mary translationproduct, preprorenin (Mr= 45,000), amino acid sequence of human renin deduced from its cDNA is initially processed to glycosylated prorenin
Summary
Cell-free Synthesis andProcessing of Human Renin-Study of the biosynthesis of renin and the regulatory mechanisms involved requires relatively large amounts of mRNA for in vitro translation; its low abundance and thelimited availability of human kidney, in which the renin-producing ' The abbreviations used are: SDS, sodium dodecyl sulfate; PAGE, polyacrylamide gel electrophoresis; JGC, juxtaglomerular cell; ACTH, corticotropin. The same band was selected by immunoprecipitation using anti-human renin antibody. These resultsindicate thatrenin mRNA is highly enriched and comprises well over half the total translatable mRNA in the tumor tissue. Northerntransfer analysis of the isolated poly(A)+ RNA using 32P-labeled human renin cDNA as a probealso indicated a high abundance of renin message, coincidingwith the biochemical and immunohistochemical observations (31) that the tumotirssue contains a tremendous amount of renin activity (more than 1000 times higher than the normal kidney) and is strongly stained with anti-renin antibody. The products obtainedin the presence of microsomal membranes included a newly appearing M , = 47,000 polypeptide inadditiontothe M , = 45,000 species corresponding to preprorenin (Fig. 1A). =47,000 band was sensitive to glycopeptidase A and converted to 43,000 species that may represent deglycosylated prorenin
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