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Full-Text Articles in Medical Genetics
Characterization Of Hard2, A Processed Hard1 Gene Duplicate, Encoding A Human Protein N-Alpha-Acetyltransferase., Thomas Arnesen, Matthew J Betts, Frédéric Pendino, David A Liberles, Dave Anderson, Jaime Caro, Xianguo Kong, Jan E Varhaug, Johan R Lillehaug
Characterization Of Hard2, A Processed Hard1 Gene Duplicate, Encoding A Human Protein N-Alpha-Acetyltransferase., Thomas Arnesen, Matthew J Betts, Frédéric Pendino, David A Liberles, Dave Anderson, Jaime Caro, Xianguo Kong, Jan E Varhaug, Johan R Lillehaug
Department of Medicine Faculty Papers
BACKGROUND: Protein acetylation is increasingly recognized as an important mechanism regulating a variety of cellular functions. Several human protein acetyltransferases have been characterized, most of them catalyzing epsilon-acetylation of histones and transcription factors. We recently described the human protein acetyltransferase hARD1 (human Arrest Defective 1). hARD1 interacts with NATH (N-Acetyl Transferase Human) forming a complex expressing protein N-terminal alpha-acetylation activity. RESULTS: We here describe a human protein, hARD2, with 81 % sequence identity to hARD1. The gene encoding hARD2 most likely originates from a eutherian mammal specific retrotransposition event. hARD2 mRNA and protein are expressed in several human cell lines. …
Molecular Cloning And Expression Of A Unique Receptor-Like Protein-Tyrosine-Phosphatase In The Leucocyte-Common-Antigen-Related Phosphatase Family, Wei-Ren Zhang, Naotake Hashimoto, Faiyaz Ahmad, Wendi Ding, Barry J. Goldstein
Molecular Cloning And Expression Of A Unique Receptor-Like Protein-Tyrosine-Phosphatase In The Leucocyte-Common-Antigen-Related Phosphatase Family, Wei-Ren Zhang, Naotake Hashimoto, Faiyaz Ahmad, Wendi Ding, Barry J. Goldstein
Department of Medicine Faculty Papers
Protein-tyrosine-phosphatases (PTPases) have been implicated in the regulation of certain tyrosine kinase growth factor receptors in that they dephosphorylate the activated (autophosphorylated) form of the receptors. In order to identify PTPases that potentially act on receptor targets in liver, we used the human leucocyte common antigen-related PTPase (LAR) cDNA [Streuli, Krueger, Hall, Schlossman and Saito (1988) J. Exp. Med. 168, 1523-1530] and isolated two closely related transmembrane PTPase homologues from a rat hepatic cDNA library. Both PTPases had large extracellular domains that contained three immunoglobulin-like repeats and eight type-III fibronectin repeats. Both enzymes had tandem homologous PTPase domains following a …
Insulin Receptor And Epidermal Growth Factor Receptor Dephosphorylation By Three Major Rat Liver Protein-Tyrosine Phosphatases Expressed In A Recombinant Bacterial System, Naotake Hashimoto, Wei-Ren Zhang, Barry J. Goldstein
Insulin Receptor And Epidermal Growth Factor Receptor Dephosphorylation By Three Major Rat Liver Protein-Tyrosine Phosphatases Expressed In A Recombinant Bacterial System, Naotake Hashimoto, Wei-Ren Zhang, Barry J. Goldstein
Department of Medicine Faculty Papers
Protein-tyrosine phosphatases (PTPases) play an essential role in the regulation of signal transduction mediated by reversible protein-tyrosine phosphorylation. In order to characterize individual rat hepatic PTPases that might have specificity for autophosphorylated receptor tyrosine kinases, we isolated cDNA segments encoding three PTPases (PTPase 1B, LAR and LRP) that are expressed in insulin-sensitive liver and skeletal muscle tissue, and evaluated their catalytic activity in vitro. The intrinsic PTPase activities of the full-length PTPase 1B protein and the cytoplasmic domains of LAR and LRP were studied by expression of recombinant cDNA constructs in the inducible bacterial vector pKK233-2 using extracts of …
Identification Of Persistent Defects In Insulin Receptor Structure And Function In Capillary Endothelial Cells From Diabetic Rats, Ching Fai Kwok, Barry J. Goldstein, Dirk Muller-Wieland, Tian-Shing Lee, C. Ronald Kahn, George L. King
Identification Of Persistent Defects In Insulin Receptor Structure And Function In Capillary Endothelial Cells From Diabetic Rats, Ching Fai Kwok, Barry J. Goldstein, Dirk Muller-Wieland, Tian-Shing Lee, C. Ronald Kahn, George L. King
Department of Medicine Faculty Papers
Insulin actions and receptors were studied in capillary endothelial cells cultured from diabetic BB rats and their nondiabetic colony mates. The endothelial cells from diabetic rats of 2 mo duration had persistent biological and biochemical defects in culture. Compared with normal rats, endothelial cells from diabetic rats grew 44% more slowly. Binding studies of insulin and insulin-like growth factor I (IGF-I) showed that cells from diabetic rats had 50% decrease of insulin receptor binding (nondiabetic: 4.6 +/- 0.7; diabetic: 2.6 +/- 0.4% per milligram protein, P < 0.01), which was caused by a 50% decrease in the number of binding sites per milligram protein, whereas IGF-I binding was not changed. Insulin stimulation of 2-deoxy-glucose uptake and alpha-aminoisobutyric acid uptake were also severely impaired with a 80-90% decrease in maximal stimulation, in parallel with a 62% decrease in insulin-stimulated autophosphorylation (P < 0.05). 125I-insulin cross-linking revealed an 140-kD alpha subunit of the insulin receptor similar to …
Insulin Degradation By Adipose Tissue. Studies At Several Levels Of Cellular Organization, Barry J. Goldstein, James N. Livingston
Insulin Degradation By Adipose Tissue. Studies At Several Levels Of Cellular Organization, Barry J. Goldstein, James N. Livingston
Department of Medicine Faculty Papers
A systematic study of the degradation of physiological concentrations of 125I-labelled insulin was performed in intact fat-pads, isolated adipocytes and subcellular fractions of isolated adipocytes. The findings indicate that insulin is rapidly degraded to low-molecular-weight peptides and/or amino acids by the intact tissue and isolated cells. Of the total insulin-degradation products present after incubation with an intact fat-pad, 94% is recovered in the medium, indicating that these products are not retained by the cells or tissue. The plasma membranes do not degrade insulin significantly in the absence of reduced glutathione, and over 99% of the cellular degradative capacity is …