Your search keyword '"Harrison K. Rhee"' showing total 3 results

1. Accumulation of Synaptosomal-Associated Protein of 25 kDa (SNAP-25) and Other Proteins Associated with the Secretory Pathway in GH4C1 Cells Upon Treatment with Estradiol, Insulin, and Epidermal Growth Factor*

Author

Min S. Lee, Yong Lian Zhu, Zhenyu Sun, Priscilla S. Dannies, John C. Roder, Andreas Jeromin, and Harrison K. Rhee

Subjects

Synaptosomal-Associated Protein 25, Synaptobrevin, Nerve Tissue Proteins, Biology, Cytoplasmic Granules, Cell Line, Endocrinology, Epidermal growth factor, Calnexin, Protein biosynthesis, Animals, Insulin, Secretory pathway, Microscopy, Confocal, Epidermal Growth Factor, Estradiol, Endoplasmic reticulum, Synaptotagmin I, Membrane Proteins, Proteins, Endoplasmic Reticulum, Smooth, Blotting, Northern, Molecular biology, Rats, Cell biology, Membrane protein, Pituitary Gland, Protein Biosynthesis, Synaptic Vesicles

Abstract

Treatment of rat pituitary GH4C1 cells with estradiol, insulin, and epidermal growth factor induces secretory granule accumulation, PRL storage, and stabilization of ICA512, a membrane protein associated with secretory granules. In these investigations we found that the same treatment induced accumulation over 2-fold of other proteins in the secretory pathway, including synaptosomal-associated protein of 25 kDa (SNAP-25), synaptotagmin III, synaptobrevin, synaptophysin, and cyclophilin B, and did not affect accumulation of others, including synaptotagmin I, calnexin, and glucose-regulated protein 94. The induction of proteins was not a coordinate event, because epidermal growth factor alone maximally stimulated SNAP-25 accumulation, but not that of synaptotagmin III. Induction of SNAP-25 accumulation occurred without an increase in its synthesis, and induction of cyclophilin B occurred without an increase in its messenger RNA accumulation, suggesting that accumulation may be caused by stabilization of the proteins. SNAP-25 immunofluorescence was located in the cytoplasm and on the plasma membrane and sometimes was heavily concentrated in protrusions from the cell surface, especially in hormone-treated cells. Frequenin immunofluorescence was also sometimes concentrated in intense patches, but did not colocalize with SNAP-25. Growth hormone and prolactin immunofluorescence was not found in the protrusions and sometimes did not colocalize with each other when they were present in the same cell. Hormone treatment of GH4C1 cells therefore induces accumulation of specific proteins in all parts of the secretory pathway and causes morphological changes in addition to accumulating secretory granules.

Published

2000

2. Biological activity and immunological reactivity of human prolactin mutants

Author

Zhenyu Sun, Vincent Goffin, Harrison K. Rhee, Steve S. Kim, Priscilla S. Dannies, and Joseph Martial

Subjects

endocrine system, medicine.medical_specialty, endocrine system diseases, Molecular Sequence Data, Mutant, Sequence Homology, Mutagenesis (molecular biology technique), Biology, Transfection, medicine.disease_cause, Binding, Competitive, Protein Structure, Secondary, Cell Line, Serine, Endocrinology, Drug Stability, Internal medicine, medicine, Animals, Humans, Amino Acid Sequence, Mutation, Base Sequence, Circular Dichroism, Wild type, Hydrogen Bonding, Biological activity, Hydrogen-Ion Concentration, Molecular biology, Recombinant Proteins, Prolactin, Rats, Mutagenesis, Cell culture, hormones, hormone substitutes, and hormone antagonists

Abstract

We examined the biological activity and immunological reactivity of four mutants of human PRL. Two were mutants that changed the ability of human PRL to inhibit rat PRL storage when transfected into a rat pituitary cell line:mutations S34A and N31T. Two mutations were in regions of PRL that are highly conserved. One, des(3-11)-PRL, removed the N-terminal cystine loop that most PRLs, except those from certain fish, have, and no GHs have. The other, S90A, mutated a serine that is present in all PRLs but those from some fish and in all GHs. The immunological properties of des(3-11)-PRL were reduced 10-fold compared to those of wildtype human PRL in a RIA using NIH antihuman PRL-3, AFP C11580; the others were similar to those of wild-type PRL. The biological activity of des(3-11)-PRL was the most affected; activity was reduced about 8-fold compared to that of wild-type PRL in the Nb2 cell assay. The activities of the others were similar to that of the wild type. Serine 90 may be partially buried by loops connecting the alpha-helixes. The mutation of serine 90 did not affect the stability of the molecule in vitro, determined by comparing the red shift in tryptophan fluorescence that occurs with increasing concentrations of urea in S90A and wild-type PRL. The activity of S34A and N31T mutations indicates there is no correlation between biological activity and ability to affect storage. The N-terminal cystine loop may be conserved because it is needed for biological activity, but the conservation of serine 90 in GH and PRL must be determined by other properties, such as spacial requirements.

Published

1995

3. Inefficient secretion of human H27A-prolactin, a mutant that does not bind Zn2+

Author

Joanne M. Arrandale, Min S. Lee, Harrison K. Rhee, Priscilla S. Dannies, and Zhenyu Sun

Subjects

endocrine system, endocrine system diseases, Mutant, Biology, Transfection, Polymerase Chain Reaction, Cell Line, Endocrinology, Mutant protein, Animals, Humans, Secretion, Receptor, Molecular Biology, Messenger RNA, Wild type, General Medicine, Molecular biology, Prolactin, Rats, Zinc, Cell culture, Pituitary Gland, Mutation, hormones, hormone substitutes, and hormone antagonists, Protein Binding, Signal Transduction

Abstract

Human PRL binds Zn2+, but the function of the binding is not known. We investigated the effect on PRL production in pituitary cells by obtaining clones of GH4C1 cells stably transfected with human H27A-PRL, a mutant that does not bind Zn2+. Unexpectedly, clones transfected with the mutant human PRL made little rat PRL. Untransfected GH4C1 cells made between 0.5 to 10 μg rat PRL/105 cells in 24 h. Clones transfected with vector alone (four of four), wild type human PRL (six of six), or with human K69A-PRL (two of two) made amounts of rat PRL in the same range. Clones transfected with human H27A-PRL (five of five) made 0.003–0.1 μg rat PRL/105 cells in 24 h, and the production of rat PRL mRNA was reduced. Human H27A-PRL was not efficiently secreted; 20–40% newly synthesized H27A-PRL was degraded by 60 min, and there was usually a delay in release of newly synthesized H27A-PRL. Reduction of rat PRL production is not mediated through the PRL receptor, because no sequences for the receptor in GH4C1 cells were detected by RT-PCR. Proteins involved in folding, such as BiP, were not specifically elevated in the H27A-PRL clones. In transient transfections, in which cells have not undergone selection, we found no evidence for disulfide-bonded aggregates of the mutant protein. The results indicate that Zn2+ binding stabilizes PRL in the secretory pathway; the instablility of the mutant protein may trigger effects that suppress rat PRL production directly or that indirectly result in selection of clones with low rat PRL production.

Published

1997