Kathy Klein scite author profile

Kathy Klein

5Publications

75Citation Statements Received

0Citation Statements Given

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105

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Emory University, Northwestern University

Publications

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Processing of Mouse Proglucagon by Recombinant Prohormone Convertase 1 and Immunopurified Prohormone Convertase 2 in Vitro

Rothenberg

Eilertson

Klein

et al. 1995

Journal of Biological Chemistry

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The mouse tumor cell line alpha TC1-6 was used as a model system to examine the post-translational processing of proglucagon. Determination of the mouse preproglucagon cDNA sequence and comparison with the published sequences of rat and human preproglucagons revealed nucleic acid homologies of 89.1 and 84%, respectively, and amino acid homologies of 94 and 89.4%, respectively. Immunohistochemical analyses with antibodies directed against PC2 and glucagon colocalized both the enzyme and substrate within the same secretory granules. PC1 was also immunolocalized in secretory granules. Cells were metabolically labeled with [3H]tryptophan, and extracts were analyzed by reverse-phase high pressure liquid chromatography. Radioactive peptides with retention times identical to those of synthetic peptide standards were recovered and subjected to peptide mapping to verify their identities. To determine the potential role of PC1 and PC2 in proglucagon processing, 3H-labeled proglucagon was incubated in vitro with recombinant PC1 and/or immunopurified PC2. Both enzymes cleaved proglucagon to yield the major proglucagon fragment, glicentin, and oxyntomodulin, whereas only PC1 released glucagon-like peptide-I from the major proglucagon fragment. Neither PC1 nor PC2 processed glucagon from proglucagon in vitro. These results suggest a potential role for PC1 and/or PC2 in cleaving several of the normal products, excluding glucagon, from the mouse proglucagon precursor.

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Evidence for redundancy in propeptide/prohormone convertase activities in processing proglucagon: an antisense study.

Rothenberg

Eilertson

Klein

et al. 1996

Molecular Endocrinology

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To further examine the physiological roles of the neuroendocrine prohormone convertases (PCs) in proglucagon processing, alpha TC1-6 cells were transiently transfected with PC1/3 and PC2 expression vectors containing either antisense or sense encoding cDNAs. PC1/3- and PC2-directed RIAs were used to determine that the PC1/3 antisense transfections lowered endogenous levels of PC1/3 by 40 +/- 7.9% but did not alter the levels of PC2. The PC2 antisense transfections decreased the endogenous levels of PC2 by 91 +/- 11.7% without affecting the levels of PC1/3. To quantitate the levels of proglucagon and proglucagon-derived products, transfected cells were metabolically labeled with [3H]tryptophan, and extracts were chromatographed by reversed-phase HPLC. Recovered peptides were then subjected to peptide mapping analyses, allowing precise quantification of 3H-radioactivity incorporated into proglucagon and its cleavage products. Product-precursor ratios were determined, and percent change in the proportion of products generated in antisense-transfected vs. sense-transfected cells was calculated. The decrease in PC1/3 after antisense treatment significantly reduced the amounts of glicentin produced and partially reduced the levels of all other proglucagon cleavage products. PC2 antisense treatment significantly reduced the levels of glicentin and 9K glucagon generated but had no significant effect on the remainder of the proglucagon-derived peptides. These results suggest the existence of redundant mechanisms that ensure the production of each of the intermediate and product peptides derived from proglucagon. PC1/3 is potentially an important enzyme in the processing of most proglucagon-derived peptides, whereas PC2-processing activity appears to predominate at only two of the four potential cleavage sites.

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A Rapid Method for Protein Localization in Trypanosomes

Tibbetts

Klein

Engman

1995

Experimental Parasitology

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Distribution of peptidyl-glycine alpha-amidating monooxygenase immunoreactivity in the brain, pituitary and islet organ of the anglerfish ( Lophius americanus )

McDonald¹,

Klein²,

Noe³

1995

Cell and Tissue Research

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Distribution of peptidyl-glycine alpha-amidating monooxygenase immunoreactivity in the brain, pituitary and islet organ of the anglerfish (Lophius americanus)

1995

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Peptidyl-glycine alpha-amidating monooxygenase (PAM; EC 1.14.17.3) is an enzyme that catalyzes conversion of glycine-extended peptides to alpha-amidated bioactive peptides. Two peptides that are processed at their carboxyl-termini by this enzyme are neuropeptide Y and anglerfish peptide Y, both of which possess a C-terminal glycine that is used as a substrate for amidation. Results from previous reports have demonstrated that neuropeptide Y-like and anglerfish peptide Y-like immunoreactivities are present in the brain of anglerfish (Lophius americanus). Furthermore, neuropeptide Y-like peptides, namely anglerfish peptide Y and anglerfish peptide YG (the homologues of pancreatic polypeptide) are present in the islet organ of this species. Neuropeptide Y has also been localized in the anterior, intermediate and posterior lobes of the pituitary gland in a variety of species. In order to learn more about the distribution of the enzyme responsible for alpha amidation of these peptides in the brain and pituitary and to specifically investigate the relationship of this enzyme to peptide synthesizing endocrine cells of the anglerfish islet, we performed an immunohistochemical study using several antisera generated against different peptide sequences of the enzyme. PAM antisera labeled cells in the islet organ, pituitary and brain, and fibers in the brain and pituitary gland. The PAM staining pattern in the brain was remarkably similar to the distribution of neuropeptide Y immunoreactivity reported previously. Clusters of cells adjacent to vessels in the anterior pituitary displayed punctate PAM immunoreactivity while varicose fibers were observed in the pituitary stalk and neurohypophysis. Endocrine cells of the islet organ were differentially labeled with different PAM antisera. Comparison of the staining patterns of insulin, glucagon, and anglerfish peptide Y in the islet organ to PAM immunoreactivity suggests a distribution of forms of PAM enzyme in insulin and anglerfish peptide Y-containing cells, but no overlap with glucagon-producing cells. The results also indicate that PAM immunoreactivity is widely distributed in the brain, pituitary and islet organ of anglerfish in cells, that contain peptides that require presence of a C-terminal glycine for amidation.

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Kathy Klein

Processing of Mouse Proglucagon by Recombinant Prohormone Convertase 1 and Immunopurified Prohormone Convertase 2 in Vitro

Evidence for redundancy in propeptide/prohormone convertase activities in processing proglucagon: an antisense study.

A Rapid Method for Protein Localization in Trypanosomes

Distribution of peptidyl-glycine alpha-amidating monooxygenase immunoreactivity in the brain, pituitary and islet organ of the anglerfish ( Lophius americanus )

Distribution of peptidyl-glycine alpha-amidating monooxygenase immunoreactivity in the brain, pituitary and islet organ of the anglerfish (Lophius americanus)

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