J F Habener scite author profile

J F Habener

3Publications

90Citation Statements Received

76Citation Statements Given

How they've been cited

192

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Affiliations

Massachusetts General Hospital, Howard Hughes Medical Institute, Harvard University

Publications

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A role for Ca2+-sensitive nonselective cation channels in regulating the membrane potential of pancreatic beta-cells.

Leech

Habener

1998

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The incretin hormones, glucagon-like peptide 1 and pituitary adenylyl cyclase-activating polypeptide, are proposed to activate a maitotoxin (MTX)-sensitive, Ca2+-dependent nonselective cation current in pancreatic beta-cells and insulinoma cells. This MTX-sensitive current is present in human beta-cells as well as in mouse and rat beta-cells, and is accompanied by a rise in cytosolic Ca2+ in voltage-clamped cells in which the activation of voltage-dependent Ca2+ channels is prevented. Activation of the nonselective cation current is inhibited by reduction of disulfide bonds with intracellular, but not extracellular, dithiothreitol, and is also abolished by intracellular dialysis with trypsin. The nonselective cation channels that carry this current have a conductance of about 30 pS, with Na+ as the major extracellular cation. We estimate that these cation channels are expressed on beta-cells at a density similar to that of ATP-sensitive potassium channels (K(ATP) channels) and exhibit spontaneous activity at basal glucose concentrations. We propose that this spontaneous cation channel activity constitutes at least part of the depolarizing background conductance that permits changes in the activity of K(ATP) channels to regulate the resting potential of beta-cells.

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Parathyroid hormone biosynthesis. Correlation of conversion of biosynthetic precursors with intracellular protein migration as determined by electron microscope autoradiography.

Habener¹,

Amherdt²,

Ravazzola³

et al. 1979

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The formation of parathyroid hormone (PTH) in the parathyroid gland occurs via two successive proteolytic cleavages from larger biosynthetic precursors. The initial product coded for by PTH mRNA is pre-proparathyroid hormone (PreProPTH), a polypeptide of 115 amino acids. Within 1 min of synthesis, the polypeptide, proparathyroid hormone (ProPTH), is formed as a result of the proteolytic removal of the NH2-terminal 25 amino acids from Pre-ProPTH. After a delay of 15-20 min, the NH2-terminal six-amino acid sequence of ProPTH is removed to give PTH of 84 amino acids. To investigate the subcellular sites in the parathyroid cell where the biosynthetic precursors undergo specific proteolytic cleavages, we examined, by electron microscope autoradiography, the spatiotemporal migration of autoradiographic grains and, by electrophoresis, the kinetics of the disappearance of labeled Pre-ProPTH and the conversion of labeled ProPTH to PTH in bovine parathyroid gland slices incubated with [3H]leucine for 5 min (pulse incubation) followed by incubations with unlabeled leucine for periods up to 85 min (chase incubations). By 5 rain, 85% of the autoradiographic grains were confined to the rough endoplasmic reticulum (RER). Autoradiographic grains increased rapidly in number in the Golgi region after 15 min of incubation; from 15 to 30 min they migrated within secretory vesicles still in the Golgi region and then migrated to mature secretory granules outside the Golgi area. Electrophoretic analyses showed that Pre-ProPTH disappeared rapidly (by 5 min) and that conversion of ProPTH to PTH was first detectable at 15 rain and was completed by 30 min. At later times of incubation (30-90 min), autoradiographic grains within the secretion granules migrated to the periphery of the cell and to the plasma membrane, in correlation with the release of PTH first detected by 30 min. We conclude that proteolytic conversion of Pre-ProPTH to ProPTH takes place in the RER and that subsequent conversion of ProPTH to PTH occurs in the Golgi complex. J. CELL BIOLOGY 9The Rockefeller University Press

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Pre - proparathyroid hormone identified by cell - free translation of messenger RNA from hyperplastic human parathyroid tissue.

Habener¹,

Kemper²,

Potts³

et al. 1975

J. Clin. Invest.

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A B S T R A C T An 8-15S fraction of RNA isolated from hyperplastic human parathyroid tissue (primary chiefcell hyperplasia) and translated in a cell-free extract of wheat germ directs the synthesis of a protein that shares antigenic determinants and tryptic peptides with parathyroid hormone and its previously recognized immediate precursor, proparathyroid hormone. In addition, the protein contains tryptic peptides not found in proparathyroid hormone and migrates more slowly than does proparathyroid hormone on both urea-acid and urea-sodium dodecyl sulfate polyacrylamide gels, indicating that it is more acidic and larger than proparathyroid hormone. Sequential Edman degradation of the cell-free protein, radiolabeled with ["S]methionine, for 25 cycles released ['3S]methionine at cycles 1, 7, 11, and 14, indicating that the NH2-terminal peptide sequence of the protein differs from that of both proparathyroid hormone and parathyroid hormone. We propose that this protein is an early biosynthetic precursor of human parathyroid hormone, pre-proparathyroid hormone, analogous to that identified recently by in vitro translation of bovine parathyroid mRNA.

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J F Habener

A role for Ca2+-sensitive nonselective cation channels in regulating the membrane potential of pancreatic beta-cells.

Parathyroid hormone biosynthesis. Correlation of conversion of biosynthetic precursors with intracellular protein migration as determined by electron microscope autoradiography.

Pre - proparathyroid hormone identified by cell - free translation of messenger RNA from hyperplastic human parathyroid tissue.

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