Abstract
The purpose of these experiments was to determine whether insulin-related peptides, larger than proinsulin, could be detected in pancreatic islet cells. Catfish pancreatic islets were incubated with radiolabeled amino acids. After 15- to 60-min incubation, two acid-alcohol-extractable peptides, larger than proinsulin, were detected which were approximately of Mr = 12,000 and 11,000 (12 K and 11K, respectively). They migrated as single polypeptide chains by sodium dodecyl sulfate-urea polyacrylamide gel electrophoresis under reducing conditions, and were therefore not aggregates of insulin or proinsulin. The 12 K protein had identical mobility with catfish preoproinsulin synthesized in a wheat germ cell-free system. On standard electrophoresis at pH 8.9, the 12 K protein migrated separately from proinsulin and was at least 65% one protein with two to three minor contaminants. The 12 K and 11 K proteins were chemically related to insulin and proinsulin as shown by tryptic peptide analysis, using cation exchange resin chromatography, and by two-dimensional tryptic peptide maps. Analysis of the tryptic digest of the 12 K protein, compared to proinsulin after leucine aminopeptidase treatment, suggested that the NH2 terminus of the larger protein was different from that of proinsulin. These peptides were specifically bound to anti-insulin antibody. The binding was only 5 to 8% of the protein added, but was specific for the 12 K and 11 K proteins when the immunoprecipitates were examined by electrophoresis and not from contaminating proinsulin. During the continuous incubation of the islets with [3H]leucine, 12 K and 11 K proteins were synthesized in the cell before proinsulin. When islets were first incubated with [3H]leucine for 30 min followed by incubation with excess unlabeled leucine, the 12 K and 11 K proteins appeared to show a precursor-product relationship to proinsulin and insulin. Even when total islet protein synthesis was inhibited by cycloheximide (100 microgram/ml), proinsulin continued to be synthesized for up to 2 h. This suggested that the conversion of the proinsulin precursors to proinsulin in the fish is a post-translational event.
Highlights
The purpose of these experiments was to determine whether insulin-related peptides, larger than proinsulin, could be detected in pancreatic islet cells
An acid-alcohol-soluble protein slightly larger than proinsulin has been detected in intact catfish pancreatic islet cells
Evidence that it is a proinsulin precursor is as follows: 1) it was a single polypeptide chain under reduced conditions on SDS-urea polyacrylamide gels with an estimated molecular weight of 12,000, identical in mobility to preproinsulin synthesized in a cell-free system
Summary
Incubation and Extraction of Catfish Islets-Catfish islets Gel Filtration and Zon Exchange Chromatography-The lyophilized acid-alcohol extract was dissolved in 0.5 ml of propionic acid The gels were destained overnight in 5% methanol, 7% acetic acid and dehydrated with four exchanges of dimethyl sulfoxide (grade I, Sigma) for 30 min each time. Bio-Gel column chromatography of acid-alcohol extract of fish islet incubation. The extract was dissolved in 500 81 of 2.5 M propionic acid and chromatographed on a Bio-Gel P-60 column (100 to 200 mesh) using molecular weight markers cytochrome c (M, = 12,300), bovine proinsulin Was chromatographed on a Bio-Gel P-2 (100 to 200 mesh) column (IO x 0.9 cm) and eluted with 2.5 M propionic acid; the peptides eluting in the void volume were collected and lyophilized. Lowry et al [44]
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