The Experts below are selected from a list of 33 Experts worldwide ranked by ideXlab platform
Gary Thomas - One of the best experts on this subject based on the ideXlab platform.
-
Processing of proopiomelanocortin by insulin secretory granule proinsulin processing endopeptidases.
The Journal of biological chemistry, 1993Co-Authors: Christopher J. Rhodes, Barbara A. Thorne, Beth Lincoln, Egon Nielsen, John C. Hutton, Gary ThomasAbstract:Abstract A lysed preparation of isolated insulin secretory granules efficiently cleaved murine proopiomelanocortin (mPOMC) at physiologically important Lys-Arg processing sites. This processing was mostly attributed to an activity that co-eluted with the proinsulin processing type-II endopeptidase from anion exchange chromatography (Lys-Arg-directed; Davidson, H. W., Rhodes, C. J., and Hutton, J. C. (1988) Nature 333, 93-96). The principal peptide hormone products generated by the insulin secretory granule lysate were identified by specific radioimmunoassay and NH2-terminal microsequencing analysis of high performance liquid chromatography-separated products as alpha-melanocyte-stimulating hormone, corticotropin-like intermediate, Gamma-Lipotropin, beta-endorphin-(1-31), 18-kDa NH2-terminal fragment and, to a lesser extent, adrenocorticotrophin and beta-Lipotropin. This processing had an acidic pH optimum (pH 5-5.5) and was Ca(2+)-dependent (K0.5 activation = 5-80 microM). With increasing Ca2+ concentrations there was an increase in the extent to which mPOMC was processed. The in vitro processing of mPOMC by the insulin secretory granule endopeptidase activity reported here is in excellent agreement with the in vivo processing of this prohormone by a combination of PC2 and PC3, candidates of prohormone endpeptidase, in gene transfer studies with cells that express the regulated secretory pathway (Thomas, L., Leduc, R., Thorne, B. A., Smeekens, S. S., Steiner, D. F., and Thomas, G. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 5297-5301).
-
Expression and processing of mouse proopiomelanocortin in bovine adrenal chromaffin cells. A model system to study tissue-specific prohormone processing.
The Journal of biological chemistry, 1991Co-Authors: Barbara A. Thorne, O H Viveros, Gary ThomasAbstract:Many neuroendocrine precursor proteins, such as proopiomelanocortin (POMC), are cleaved in a tissue specific manner at distinct pairs of basic amino acids. Elucidating the specificity of the prohormone endoprotease(s) is essential to understanding cleavage specificity. However, isolation of these enzymes has been difficult, due to the inability to distinguish authentic maturation enzyme from the many other trypsin-like activities present in tissue homogenates. Recently, a "signature" of the insulin cell endoprotease(s) was defined in vivo by assessing the processing of a series of mutant cleavage sites in a model prohormone, mouse POMC (mPOMC) (Thorne, B. A., and Thomas, G. (1990) J. Biol. Chem. 265, 8436-8443. To investigate mechanisms of tissue-specific processing, we sought to identify the endoprotease signature of a cell having a processing phenotype distinct from insulinoma cells. In this report, the cleavage site specificity of the endoprotease(s) expressed in bovine adrenal chromaffin cells is examined. High levels of mPOMC (1.6 pmol/10(6) cells) were expressed in these cells using a vaccinia virus vector, and the precursor was targeted to the regulated secretory pathway. Analysis of POMC-derived peptides revealed that chromaffin cells processed the prohormone to a set of peptides highly similar to anterior pituitary corticotrophs, including adrenocorticotropin hormone (ACTH) and beta-Lipotropin, Gamma-Lipotropin, and beta-endorphin. This processing contrasted with the pattern of cleavage site utilization in Rin m5F insulinoma cells, which more closely resembled that of the intermediate pituitary melanotrophs. However, the processing preference for the sequences of pairs of basic amino acids (as tested using the entire series of mutant cleavage sites; -LysArg- (native), -ArgArg-, -ArgLys-, -LysLys-, -HisArg-, -MetArg- at the ACTH/beta-Lipotropin junction and -LysLys- (native), -LysArg-, -ArgArg-, -ArgLys- in beta-endorphin) was the same in both insulinoma and adrenal chromaffin cells, suggesting recognition and cleavage by similar enzymes in both cell types. The cell-specific processing of mPOMC may thus result from expression of a common core set of processing enzymes and factors unique to each cell type affecting the enzyme accessibility to precursor cleavage sites.
Barbara A. Thorne - One of the best experts on this subject based on the ideXlab platform.
-
Processing of proopiomelanocortin by insulin secretory granule proinsulin processing endopeptidases.
The Journal of biological chemistry, 1993Co-Authors: Christopher J. Rhodes, Barbara A. Thorne, Beth Lincoln, Egon Nielsen, John C. Hutton, Gary ThomasAbstract:Abstract A lysed preparation of isolated insulin secretory granules efficiently cleaved murine proopiomelanocortin (mPOMC) at physiologically important Lys-Arg processing sites. This processing was mostly attributed to an activity that co-eluted with the proinsulin processing type-II endopeptidase from anion exchange chromatography (Lys-Arg-directed; Davidson, H. W., Rhodes, C. J., and Hutton, J. C. (1988) Nature 333, 93-96). The principal peptide hormone products generated by the insulin secretory granule lysate were identified by specific radioimmunoassay and NH2-terminal microsequencing analysis of high performance liquid chromatography-separated products as alpha-melanocyte-stimulating hormone, corticotropin-like intermediate, Gamma-Lipotropin, beta-endorphin-(1-31), 18-kDa NH2-terminal fragment and, to a lesser extent, adrenocorticotrophin and beta-Lipotropin. This processing had an acidic pH optimum (pH 5-5.5) and was Ca(2+)-dependent (K0.5 activation = 5-80 microM). With increasing Ca2+ concentrations there was an increase in the extent to which mPOMC was processed. The in vitro processing of mPOMC by the insulin secretory granule endopeptidase activity reported here is in excellent agreement with the in vivo processing of this prohormone by a combination of PC2 and PC3, candidates of prohormone endpeptidase, in gene transfer studies with cells that express the regulated secretory pathway (Thomas, L., Leduc, R., Thorne, B. A., Smeekens, S. S., Steiner, D. F., and Thomas, G. (1991) Proc. Natl. Acad. Sci. U.S.A. 88, 5297-5301).
-
Expression and processing of mouse proopiomelanocortin in bovine adrenal chromaffin cells. A model system to study tissue-specific prohormone processing.
The Journal of biological chemistry, 1991Co-Authors: Barbara A. Thorne, O H Viveros, Gary ThomasAbstract:Many neuroendocrine precursor proteins, such as proopiomelanocortin (POMC), are cleaved in a tissue specific manner at distinct pairs of basic amino acids. Elucidating the specificity of the prohormone endoprotease(s) is essential to understanding cleavage specificity. However, isolation of these enzymes has been difficult, due to the inability to distinguish authentic maturation enzyme from the many other trypsin-like activities present in tissue homogenates. Recently, a "signature" of the insulin cell endoprotease(s) was defined in vivo by assessing the processing of a series of mutant cleavage sites in a model prohormone, mouse POMC (mPOMC) (Thorne, B. A., and Thomas, G. (1990) J. Biol. Chem. 265, 8436-8443. To investigate mechanisms of tissue-specific processing, we sought to identify the endoprotease signature of a cell having a processing phenotype distinct from insulinoma cells. In this report, the cleavage site specificity of the endoprotease(s) expressed in bovine adrenal chromaffin cells is examined. High levels of mPOMC (1.6 pmol/10(6) cells) were expressed in these cells using a vaccinia virus vector, and the precursor was targeted to the regulated secretory pathway. Analysis of POMC-derived peptides revealed that chromaffin cells processed the prohormone to a set of peptides highly similar to anterior pituitary corticotrophs, including adrenocorticotropin hormone (ACTH) and beta-Lipotropin, Gamma-Lipotropin, and beta-endorphin. This processing contrasted with the pattern of cleavage site utilization in Rin m5F insulinoma cells, which more closely resembled that of the intermediate pituitary melanotrophs. However, the processing preference for the sequences of pairs of basic amino acids (as tested using the entire series of mutant cleavage sites; -LysArg- (native), -ArgArg-, -ArgLys-, -LysLys-, -HisArg-, -MetArg- at the ACTH/beta-Lipotropin junction and -LysLys- (native), -LysArg-, -ArgArg-, -ArgLys- in beta-endorphin) was the same in both insulinoma and adrenal chromaffin cells, suggesting recognition and cleavage by similar enzymes in both cell types. The cell-specific processing of mPOMC may thus result from expression of a common core set of processing enzymes and factors unique to each cell type affecting the enzyme accessibility to precursor cleavage sites.
George Thomas - One of the best experts on this subject based on the ideXlab platform.
-
kex2 like endoproteases pc2 and pc3 accurately cleave a model prohormone in mammalian cells evidence for a common core of neuroendocrine processing enzymes
Proceedings of the National Academy of Sciences of the United States of America, 1991Co-Authors: Laurel Thomas, B A Thorne, Richard Leduc, S P Smeekens, D F Steiner, George ThomasAbstract:Abstract Two mammalian gene products, PC2 and PC3, have been proposed as candidate neuroendocrine-precursor processing enzymes based on the structural similarity of their catalytic domains to that of the yeast precursor-processing endoprotease Kex2. In this report we demonstrate that these two proteases can cleave proopiomelanocortin (POMC) in the secretory pathway of mammalian cells. Similarly to pituitary corticotrophs, PC3 expressed in processing-deficient BSC-40 cells cleaved native mouse POMC at the -Lys-Arg- sites flanking corticotropin. The -Lys-Arg- within beta-Lipotropin was less efficiently cleaved to release beta-endorphin. Expression of PC2 together with PC3 resulted in efficient conversion of beta-Lipotropin, as occurs in pituitary melanotrophs. Furthermore, coexpression of PC2 together with mouse POMC in bovine adrenomedullary chromaffin cells resulted in conversion of beta-Lipotropin to Gamma-Lipotropin and beta-endorphin in the regulated secretory pathway. Finally, the processing selectivities of PC3 and PC2 expressed together in BSC-40 cells were determined by using a series of mutant mouse POMCs containing all possible pairs of basic residues at certain sites. The observed pattern of cleavage site selectivities mimicked that of the endogenous endoproteases of the insulinoma and bovine adrenomedullary chromaffin cells, suggesting that PC2 and PC3 may represent important core endoproteases in the catalysis of prohormone processing in many neuroendocrine cell types.
Laurel Thomas - One of the best experts on this subject based on the ideXlab platform.
-
kex2 like endoproteases pc2 and pc3 accurately cleave a model prohormone in mammalian cells evidence for a common core of neuroendocrine processing enzymes
Proceedings of the National Academy of Sciences of the United States of America, 1991Co-Authors: Laurel Thomas, B A Thorne, Richard Leduc, S P Smeekens, D F Steiner, George ThomasAbstract:Abstract Two mammalian gene products, PC2 and PC3, have been proposed as candidate neuroendocrine-precursor processing enzymes based on the structural similarity of their catalytic domains to that of the yeast precursor-processing endoprotease Kex2. In this report we demonstrate that these two proteases can cleave proopiomelanocortin (POMC) in the secretory pathway of mammalian cells. Similarly to pituitary corticotrophs, PC3 expressed in processing-deficient BSC-40 cells cleaved native mouse POMC at the -Lys-Arg- sites flanking corticotropin. The -Lys-Arg- within beta-Lipotropin was less efficiently cleaved to release beta-endorphin. Expression of PC2 together with PC3 resulted in efficient conversion of beta-Lipotropin, as occurs in pituitary melanotrophs. Furthermore, coexpression of PC2 together with mouse POMC in bovine adrenomedullary chromaffin cells resulted in conversion of beta-Lipotropin to Gamma-Lipotropin and beta-endorphin in the regulated secretory pathway. Finally, the processing selectivities of PC3 and PC2 expressed together in BSC-40 cells were determined by using a series of mutant mouse POMCs containing all possible pairs of basic residues at certain sites. The observed pattern of cleavage site selectivities mimicked that of the endogenous endoproteases of the insulinoma and bovine adrenomedullary chromaffin cells, suggesting that PC2 and PC3 may represent important core endoproteases in the catalysis of prohormone processing in many neuroendocrine cell types.
O H Viveros - One of the best experts on this subject based on the ideXlab platform.
-
Expression and processing of mouse proopiomelanocortin in bovine adrenal chromaffin cells. A model system to study tissue-specific prohormone processing.
The Journal of biological chemistry, 1991Co-Authors: Barbara A. Thorne, O H Viveros, Gary ThomasAbstract:Many neuroendocrine precursor proteins, such as proopiomelanocortin (POMC), are cleaved in a tissue specific manner at distinct pairs of basic amino acids. Elucidating the specificity of the prohormone endoprotease(s) is essential to understanding cleavage specificity. However, isolation of these enzymes has been difficult, due to the inability to distinguish authentic maturation enzyme from the many other trypsin-like activities present in tissue homogenates. Recently, a "signature" of the insulin cell endoprotease(s) was defined in vivo by assessing the processing of a series of mutant cleavage sites in a model prohormone, mouse POMC (mPOMC) (Thorne, B. A., and Thomas, G. (1990) J. Biol. Chem. 265, 8436-8443. To investigate mechanisms of tissue-specific processing, we sought to identify the endoprotease signature of a cell having a processing phenotype distinct from insulinoma cells. In this report, the cleavage site specificity of the endoprotease(s) expressed in bovine adrenal chromaffin cells is examined. High levels of mPOMC (1.6 pmol/10(6) cells) were expressed in these cells using a vaccinia virus vector, and the precursor was targeted to the regulated secretory pathway. Analysis of POMC-derived peptides revealed that chromaffin cells processed the prohormone to a set of peptides highly similar to anterior pituitary corticotrophs, including adrenocorticotropin hormone (ACTH) and beta-Lipotropin, Gamma-Lipotropin, and beta-endorphin. This processing contrasted with the pattern of cleavage site utilization in Rin m5F insulinoma cells, which more closely resembled that of the intermediate pituitary melanotrophs. However, the processing preference for the sequences of pairs of basic amino acids (as tested using the entire series of mutant cleavage sites; -LysArg- (native), -ArgArg-, -ArgLys-, -LysLys-, -HisArg-, -MetArg- at the ACTH/beta-Lipotropin junction and -LysLys- (native), -LysArg-, -ArgArg-, -ArgLys- in beta-endorphin) was the same in both insulinoma and adrenal chromaffin cells, suggesting recognition and cleavage by similar enzymes in both cell types. The cell-specific processing of mPOMC may thus result from expression of a common core set of processing enzymes and factors unique to each cell type affecting the enzyme accessibility to precursor cleavage sites.
