Enhancement of epidermal growth factor (EGF) and insulin-stimulated tyrosine phosphorylation of endogenous substrates by sodium selenate.

Sodium selenate stimulated tyrosine phosphorylation of the epidermal growth factor (EGF) receptor in A431 cells and enhanced the tyrosine phosphorylation of endogenous proteins in response to EGF in A431 cells and insulin in NIH 3T3 HIR3.5 cells. These effects occurred without changes in ligand binding, were not abolished by mercaptoethanol in the case of the EGF receptor, and appeared distinct from the effects of vanadate.

Plasmacyte-reticulum cell satellitism in multiple myeloma associated with amyloidosis.

A novel morphological feature is described in a patient with myeloma and associated amyloidosis: characteristic clustering (satellitism) of neoplastic plasma cells around macrophages in bone marrow aspirates. Although described in myeloma cell culture, as far as is known, this is the first description of this phenomenon in a patient. This unique association may partly explain the origin of amyloid deposition in tissues and organs.

Insulin-stimulated serine/threonine phosphorylation of the insulin receptor: paucity of threonine 1348 phosphorylation in vitro indicates the involvement of more than one serine/threonine kinase in vivo.

Immunoaffinity-purified insulin receptors were used to analyse and compare the serine/threonine sites phosphorylated on the insulin receptor in vitro (isolated receptor) with the insulin-stimulated phosphorylation in vivo (intact cells in culture). In vivo, insulin-stimulation resulted in the appearance of three phosphoserine-containing phosphopeptides and a distinct phosphothreonine peptide (threonine 1348). In vitro, similar phosphoserine peptides were observed but the phosphothreonine peptide was absent.

Multisite serine phosphorylation of the insulin and IGF-I receptors in transfected cells.

Serine phosphorylation of insulin/IGF-I receptors in transfected fibroblasts was analysed by peptide mapping. PMA stimulated the phosphorylation of 5 distinct insulin receptor phosphopeptides: a single major phosphothreonine peptide containing Thr-1348, one major and 3 minor phosphoserine peptides. The major insulin-stimulated phosphoserine peptides were the same as those after PMA, with the exception of 2 minor phosphoserine peptides.

Molecular mechanisms of insulin resistance.

This review discusses recent advances in understanding of the structure and function of the insulin receptor and insulin action, and how these relate to the clinical aspects of insulin resistance associated with non-insulin-dependent diabetes and other disorders. Improved understanding of the molecular basis of insulin resistance could ultimately lead to a better understanding of the causation of these conditions and the design of rational therapy to ameliorate them. Here, particular attention is devoted to the initial events that follow the binding of insulin to its receptor, including changes in insulin receptor phosphorylation.

TURBOLYTIK: a peptide cleavage program for personal computers.

A microcomputer program that simulates the cleavage of polypeptides by various chemical and enzymic means is described. The program is written in Turbo Basic, a new dialect of Basic, and is compiled to run on personal computers using the MS-DOS operating system. The program generates all the possible cleavage fragments that can arise when a protein of known primary structure is cleaved at susceptible sites.