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4. MicroRNA-22 and promoter motif polymorphisms at the Chga locus in genetic hypertension: functional and therapeutic implications for gene expression and the pathogenesis of hypertension

Author

Friese, R. S., primary, Altshuler, A. E., additional, Zhang, K., additional, Miramontes-Gonzalez, J. P., additional, Hightower, C. M., additional, Jirout, M. L., additional, Salem, R. M., additional, Gayen, J. R., additional, Mahapatra, N. R., additional, Biswas, N., additional, Cale, M., additional, Vaingankar, S. M., additional, Kim, H.-S., additional, Courel, M., additional, Taupenot, L., additional, Ziegler, M. G., additional, Schork, N. J., additional, Pravenec, M., additional, Mahata, S. K., additional, Schmid-Schonbein, G. W., additional, and O'Connor, D. T., additional

Published
2013
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7. Secretoneurin and chemoattractant receptor interactions

Author

Kong, C, primary, Gill, B.M, additional, Rahimpour, R, additional, Xu, L, additional, Feldman, R.D, additional, Xiao, Q, additional, McDonald, T.J, additional, Taupenot, L, additional, Mahata, S.K, additional, Singh, B, additional, O'Connor, D.T, additional, and Kelvin, D.J, additional

Published
1998
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14. Proteolytic cleavage of chromogranin A (CgA) by plasmin. Selective liberation of a specific bioactive CgA fragment that regulates catecholamine release.

Author

Jiang, Q, Taupenot, L, Mahata, S K, Mahata, M, O'Connor, D T, Miles, L A, and Parmer, R J

Abstract

Chromogranin A (CgA), the major soluble protein in catecholamine storage vesicles, serves as a prohormone that is cleaved into bioactive peptides that inhibit catecholamine release, providing an autocrine, negative feedback mechanism for regulating catecholamine responses during stress. However, the proteases responsible for the processing of CgA and release of bioactive peptides have not been established. Recently, we found that chromaffin cells express components of the plasmin(ogen) system, including tissue plasminogen activator, which is targeted to catecholamine storage vesicles and released with CgA and catecholamines in response to sympathoadrenal stimulation, and high affinity cell surface receptors for plasminogen, to promote plasminogen activation at the cell surface. In the present study, we investigated processing of CgA by plasmin and sought to identify specific bioactive CgA peptides produced by plasmin proteolysis. Highly purified human CgA (hCgA) was produced by expression in Escherichia coli and purification using metal affinity chromatography. hCgA was digested with plasmin. Matrix-assisted laser desorption/ionization mass spectrometry identified a major peptide produced with a mass/charge ratio (m/z) of 1546, corresponding uniquely to hCgA-(360-373), the identity of which was confirmed by reverse phase high pressure liquid chromatography and amino-terminal microsequencing. hCgA-(360-373) was selectively liberated by plasmin from hCgA at early time points and was stable even after prolonged exposure to plasmin. The corresponding synthetic peptide markedly inhibited nicotine-induced catecholamine release from pheochromocytoma cells. These results identify plasmin as a protease, present in the local environment of the chromaffin cell, that selectively cleaves CgA to generate a bioactive fragment, hCgA-(360-373), that inhibits nicotinic-mediated catecholamine release. These results suggest that the plasminogen/plasmin system through its interaction with CgA may play a major role in catecholaminergic function and suggest a specific mechanism as well as a discrete CgA peptide through which this effect is mediated.

Published
2001
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17. Chromogranin A induces a neurotoxic phenotype in brain microglial cells.

Author

Ciesielski-Treska, J, Ulrich, G, Taupenot, L, Chasserot-Golaz, S, Corti, A, Aunis, D, and Bader, M F

Abstract

Chromogranin A (CGA) belongs to a multifunctional protein family widely distributed in secretory vesicles in neurons and neuroendocrine cells. Within the brain, CGA is localized in neurodegenerative areas associated with reactive microglia. By using cultured rodent microglia, we recently described that CGA induces an activated phenotype and the generation of nitric oxide. These findings led us to examine whether CGA might affect neuronal survival, expression of neurofilaments, and high affinity gamma-aminobutyric acid uptake in neurons cultured in the presence or absence of microglial cells. We found that CGA was unable to exert a direct toxic effect on neurons but provoked neuronal injury and degeneration in the presence of microglial cells. These effects were observed with natural and recombinant CGA and with a recombinant N-terminal fragment corresponding to residues 1-78. CGA stimulated microglial cells to secrete heat-stable diffusible neurotoxic agents. CGA also induced a marked accumulation of nitric oxide and tumor necrosis factor-alpha by microglia, but we could not establish a direct correlation between the levels of nitric oxide and tumor necrosis factor-alpha and the neuronal damage. The possibility that CGA represents an endogenous factor that triggers the microglial responses responsible for the pathogenesis of neuronal degeneration is discussed.

Published
1998

18. Stimulus-transcription coupling in pheochromocytoma cells. Promoter region-specific activation of chromogranin a biosynthesis.

Author

Tang, K, Wu, H, Mahata, S K, Taupenot, L, Rozansky, D J, Parmer, R J, and O'Connor, D T

Abstract

To explore stimulus-transcription coupling in pheochromocytoma cells, we studied the biosynthetic response of chromogranin A, the major soluble protein co-stored and co-released with catecholamines, to chromaffin cells' physiologic nicotinic cholinergic secretory stimulation. Chromogranin A mRNA showed a time-dependent 3.87-fold response to nicotinic stimulation, and a nuclear run-off experiment indicated that the response occurred at a transcriptional level. Transfected chromogranin A promoter/luciferase reporter constructs were activated by nicotinic stimulation, in time- and dose-dependent fashions, in both rat PC12 pheochromocytoma cells and bovine chromaffin cells. Cholinergic subtype agents indicated that nicotinic stimulation was required. Promoter deletions established both positive and negative nicotinic response domains. Transfer of candidate promoter domains to a heterologous (thymidine kinase) promoter conferred region-specific nicotinic responses onto that promoter. A proximal promoter domain (from -93 to -62 base pairs) was activated in copy number- and distance-dependent fashion, and thus displayed features of a promoter element. Its activation was sufficient to account for the overall positive response to nicotine. Within this proximal region, a cAMP response element (CRE) was implicated as a major nicotinic response element, since a CRE point-gap mutation decreased nicotinic induction, transfer of CRE to a thymidine kinase promoter augmented the promoter's response to nicotine, and nicotine activated the CRE-binding protein CREB through phosphorylation at serine 133. We conclude that secretory stimulation of pheochromocytoma cells also activates the biosynthesis of the major secreted protein (chromogranin A), that the activation is transcriptional, and that a small proximal domain, including the CRE box, is, at least in part, both necessary and sufficient to account for the positive response to nicotine.

Published
1996

20. Naturally occurring human genetic variation in the 3'-untranslated region of the secretory protein chromogranin A is associated with autonomic blood pressure regulation and hypertension in a sex-dependent fashion.

Author

Chen Y, Rao F, Rodriguez-Flores JL, Mahata M, Fung MM, Stridsberg M, Vaingankar SM, Wen G, Salem RM, Das M, Cockburn MG, Schork NJ, Ziegler MG, Hamilton BA, Mahata SK, Taupenot L, O'Connor DT, Chen, Yuqing, Rao, Fangwen, and Rodriguez-Flores, Juan L

Abstract

Objectives: We aimed to determine whether the common variation at the chromogranin A (CHGA) locus increases susceptibility to hypertension.Background: CHGA regulates catecholamine storage and release. Previously we systematically identified genetic variants across CHGA.Methods: We carried out dense genotyping across the CHGA locus in >1,000 individuals with the most extreme blood pressures (BPs) in the population, as well as twin pairs with autonomic phenotypes. We also characterized the function of a trait-associated 3'-untranslated region (3'-UTR) variant with transfected CHGA 3'-UTR/luciferase reporter plasmids.Results: CHGA was overexpressed in patients with hypertension, especially hypertensive men, and CHGA predicted catecholamines. In individuals with extreme BPs, CHGA genetic variants predicted BP, especially in men, with a peak association occurring in the 3'-UTR at C+87T, accounting for up to approximately 12/ approximately 9 mm Hg. The C+87T genotype predicted CHGA secretion in vivo, with the +87T allele (associated with lower BP) also diminishing plasma CHGA by approximately 10%. The C+87T 3'-UTR variant also predicted the BP response to environmental (cold) stress; the same allele (+87T) that diminished basal BP in the population also decreased the systolic BP response to stress by approximately 12 mm Hg, and the response was smaller in women (by approximately 6 mm Hg). In a chromaffin cell-transfected CHGA 3'-UTR/luciferase reporter plasmid, the +87T allele associated with lower BP also decreased reporter expression by approximately 30%. In cultured chromaffin cells, reducing endogenous CHGA expression by small interfering ribonucleic acid caused approximately two-thirds depletion of catecholamine storage vesicles.Conclusions: Common variant C+87T in the CHGA 3'-UTR is a functional polymorphism causally associated with hypertension especially in men of the population, and we propose steps ("intermediate phenotypes") whereby in a sex-dependent fashion this genetic variant influences the ultimate disease trait. These observations suggest new molecular strategies to probe the pathophysiology, risk, and rational treatment of hypertension. [ABSTRACT FROM AUTHOR]

Published
2008
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21. Chromogranin A induces a neurotoxic phenotype in brain microglial cells

Author

Marie-France Bader, Angelo Corti, Gabrielle Ulrich, Dominique Aunis, Jaroslava Ciesielski-Treska, Sylvette Chasserot-Golaz, Laurent Taupenot, Ciesielski Treska, J, Ulrich, G, Taupenot, L, Chasserot Golaz, S, Corti, Angelo, Aunis, D, and Bader, Mf

Subjects
Ornithine, Cell Survival, Endogeny, Nitric Oxide, Biochemistry, Chromogranins, medicine, Animals, Humans, Secretion, Senile plaques, Molecular Biology, Cells, Cultured, gamma-Aminobutyric Acid, Neurons, biology, Microglia, Tumor Necrosis Factor-alpha, Chromogranin A, Neurodegenerative Diseases, Cell Biology, Immunohistochemistry, Phenotype, Coculture Techniques, Peptide Fragments, Recombinant Proteins, Cell biology, medicine.anatomical_structure, nervous system, Culture Media, Conditioned, Immunology, biology.protein, Cattle, Signal transduction, Signalling cascades, Thymidine
Abstract

Chromogranin A (CGA) belongs to a multifunctional protein family widely distributed in secretory vesicles in neurons and neuroendocrine cells. Within the brain, CGA is localized in neurodegenerative areas associated with reactive microglia. By using cultured rodent microglia, we recently described that CGA induces an activated phenotype and the generation of nitric oxide. These findings led us to examine whether CGA might affect neuronal survival, expression of neurofilaments, and high affinity gamma-aminobutyric acid uptake in neurons cultured in the presence or absence of microglial cells. We found that CGA was unable to exert a direct toxic effect on neurons but provoked neuronal injury and degeneration in the presence of microglial cells. These effects were observed with natural and recombinant CGA and with a recombinant N-terminal fragment corresponding to residues 1-78. CGA stimulated microglial cells to secrete heat-stable diffusible neurotoxic agents. CGA also induced a marked accumulation of nitric oxide and tumor necrosis factor-alpha by microglia, but we could not establish a direct correlation between the levels of nitric oxide and tumor necrosis factor-alpha and the neuronal damage. The possibility that CGA represents an endogenous factor that triggers the microglial responses responsible for the pathogenesis of neuronal degeneration is discussed.

Published
1998

22. Genetic variation at the delta-sarcoglycan (SGCD) locus elevates heritable sympathetic nerve activity in human twin pairs.

Author

Hightower CM, Zhang K, Miramontes-González JP, Rao F, Wei Z, Schork AJ, Nievergelt CM, Biswas N, Mahata M, Elkelis N, Taupenot L, Stridsberg M, Ziegler MG, and O'Connor DT

Subjects
Adolescent, Adult, Aged, Animals, Chromogranin A metabolism, Exocytosis, Genetic Pleiotropy, Humans, Middle Aged, Norepinephrine blood, Norepinephrine metabolism, PC12 Cells, Protein Transport, Quantitative Trait Loci, Quantitative Trait, Heritable, Rats, Sarcoglycans metabolism, Young Adult, Genetic Loci, Inheritance Patterns, Polymorphism, Single Nucleotide, Sarcoglycans genetics, Sympathetic Nervous System physiology
Abstract

The Syrian Cardiomyopathic Hamster (BIO-14.6/53.58 strains) model of cardiac failure, resulting from naturally occurring deletion at the SGCD (delta-sarcoglycan) locus, displays widespread disturbances in catecholamine metabolism. Rare Mendelian myopathy disorders of human SGCD occur, although common naturally occurring SGCD genetic variation has not been evaluated for effects on human norepinephrine (NE) secretion. This study investigated the effect of SGCD genetic variation on control of NE secretion in healthy twin pairs. Genetic associations profiled SNPs across the SGCD locus. Trait heritability (h(2)) and genetic covariance (pleiotropy; shared h(2)) were evaluated. Sympathochromaffin exocytosis in vivo was probed in plasma by both catecholamines and Chromogranin B (CHGB). Plasma NE is substantially heritable (p = 3.19E-16, at 65.2 ± 5.0% of trait variance), sharing significant (p < 0.05) genetic determination with circulating and urinary catecholamines, CHGB, eGFR, and several cardio-metabolic traits. Participants with higher pNE showed significant (p < 0.05) differences in several traits, including increased BP and hypertension risk factors. Peak SGCD variant rs1835919 predicted elevated systemic vascular compliance, without changes in specifically myocardial traits. We used a chimeric-regulated secretory pathway photoprotein (CHGA-EAP) to evaluate the effect of SGCD on the exocytotic pathway in transfected PC12 cells; in transfected cells, expression of SGCD augmented CHGA trafficking into the exocytotic regulated secretory pathway. Thus, our investigation determined human NE secretion to be a highly heritable trait, influenced by common genetic variation within the SGCD locus. Circulating NE aggregates with BP and hypertension risk factors. In addition, coordinate NE and CHGB elevation by rs1835919 implicates exocytosis as the mechanism of release., (© 2013 International Society for Neurochemistry.)

Published
2013
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23. Human cathepsin V protease participates in production of enkephalin and NPY neuropeptide neurotransmitters.

Author

Funkelstein L, Lu WD, Koch B, Mosier C, Toneff T, Taupenot L, O'Connor DT, Reinheckel T, Peters C, and Hook V

Subjects
Aged, Amino Acid Sequence, Animals, Blotting, Western, Cathepsins genetics, Cell Line, Tumor, Cerebral Cortex enzymology, Chromaffin Granules enzymology, Cysteine Endopeptidases genetics, Enkephalins genetics, Hippocampus enzymology, Humans, Male, Microscopy, Confocal, Molecular Sequence Data, PC12 Cells, Protein Precursors genetics, Protein Precursors metabolism, RNA Interference, Rats, Transfection, Cathepsins metabolism, Cysteine Endopeptidases metabolism, Enkephalins metabolism, Neuropeptide Y metabolism, Neurotransmitter Agents metabolism
Abstract

Proteases are required for processing precursors into active neuropeptides that function as neurotransmitters for cell-cell communication. This study demonstrates the novel function of human cathepsin V protease for producing the neuropeptides enkephalin and neuropeptide Y (NPY). Cathepsin V is a human-specific cysteine protease gene. Findings here show that expression of cathepsin V in neuroendocrine PC12 cells and human neuronal SK-N-MC cells results in production of (Met)enkephalin from proenkephalin. Gene silencing of cathepsin V by siRNA in human SK-N-MC cells results in reduction of (Met)enkephalin by more than 80%, illustrating the prominent role of cathepsin V for neuropeptide production. In vitro processing of proenkephalin by cathepsin V occurs at dibasic residue sites to generate enkephalin-containing peptides and an ∼24-kDa intermediate present in human brain. Cathepsin V is present in human brain cortex and hippocampus where enkephalin and NPY are produced and is present in purified human neuropeptide secretory vesicles. Colocalization of cathepsin V with enkephalin and NPY in secretory vesicles of human neuroblastoma cells was illustrated by confocal microscopy. Furthermore, expression of cathepsin V with proNPY results in NPY production. These findings indicate the unique function of human cathepsin V for producing enkephalin and NPY neuropeptides required for neurotransmission in health and neurological diseases.

Published
2012
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24. The protein architecture of human secretory vesicles reveals differential regulation of signaling molecule secretion by protein kinases.

Author

Bark SJ, Wegrzyn J, Taupenot L, Ziegler M, O'Connor DT, Ma Q, Smoot M, Ideker T, and Hook V

Subjects
Humans, Models, Molecular, Proteins chemistry, Proteomics, Protein Kinases metabolism, Proteins metabolism, Signal Transduction
Abstract

Secretory vesicles are required for release of chemical messengers to mediate intercellular signaling among human biological systems. It is necessary to define the organization of the protein architecture of the 'human' dense core secretory vesicles (DCSV) to understand mechanisms for secretion of signaling molecules essential for cellular regulatory processes. This study, therefore, conducted extensive quantitative proteomics and systems biology analyses of human DCSV purified from human pheochromocytoma. Over 600 human DCSV proteins were identified with quantitative evaluation of over 300 proteins, revealing that most proteins participate in producing peptide hormones and neurotransmitters, enzymes, and the secretory machinery. Systems biology analyses provided a model of interacting DCSV proteins, generating hypotheses for differential intracellular protein kinases A and C signaling pathways. Activation of cellular PKA and PKC pathways resulted in differential secretion of neuropeptides, catecholamines, and β-amyloid of Alzheimer's disease for mediating cell-cell communication. This is the first study to define a model of the protein architecture of human DCSV for human disease and health.

Published
2012
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25. A common genetic variant in the 3'-UTR of vacuolar H+-ATPase ATP6V0A1 creates a micro-RNA motif to alter chromogranin A processing and hypertension risk.

Author

Wei Z, Biswas N, Wang L, Courel M, Zhang K, Soler-Jover A, Taupenot L, and O'Connor DT

Subjects
Binding Sites, Exocytosis, Humans, 3' Untranslated Regions genetics, Chromogranin A metabolism, Genetic Variation, Hypertension genetics, MicroRNAs, Vacuolar Proton-Translocating ATPases genetics
Abstract

Background: The catecholamine release-inhibitor catestatin and its precursor chromogranin A (CHGA) may constitute "intermediate phenotypes" in the analysis of genetic risk for cardiovascular disease such as hypertension. Previously, the vacuolar H(+)-ATPase subunit gene ATP6V0A1 was found within the confidence interval for linkage with catestatin secretion in a genome-wide study, and its 3'-UTR polymorphism T+3246C (rs938671) was associated with both catestatin processing from CHGA and population blood pressure. We explored the molecular mechanism of this effect by experiments with transfected chimeric photoproteins in chromaffin cells., Methods and Results: Placing the ATP6V0A1 3'-UTR downstream of a luciferase reporter, we found that the C (variant) allele decreased overall gene expression. The 3'-UTR effect was verified by coupled in vitro transcription/translation of the entire/intact human ATP6V0A1 mRNA. Chromaffin granule pH, monitored by fluorescence of CHGA/EGFP chimera during vesicular H(+)-ATPase inhibition by bafilomycin A1, was more easily perturbed during coexpression of the ATP6V0A1 3'-UTR C-allele than the T-allele. After bafilomycin A1 treatment, the ratio of CHGA precursor to its catestatin fragments in PC12 cells was substantially diminished, though the qualitative composition of such fragments was not affected (on immunoblot or matrix-assisted laser desorption ionization (MALDI) mass spectrometry). Bafilomycin A1 treatment also decreased exocytotic secretion from the regulated pathway, monitored by a CHGA chimera tagged with embryonic alkaline phosphatase. 3'-UTR T+3246C created a binding motif for micro-RNA hsa-miR-637; cotransfection of hsa-miR-637 precursor or antagomir/inhibitor oligonucleotides yielded the predicted changes in expression of luciferase reporter/ATP6V0A1-3'-UTR plasmids varying at T+3246C., Conclusions: The results suggest a series of events whereby ATP6V0A1 3'-UTR variant T+3246C functioned: ATP6V0A1 expression probably was affected through differential micro-RNA effects, altering vacuolar pH and consequently CHGA processing and exocytotic secretion.

Published
2011
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26. Catecholamine biosynthesis and secretion: physiological and pharmacological effects of secretin.

Author

Mahata M, Zhang K, Gayen JR, Nandi S, Brar BK, Ghosh S, Mahapatra NR, Taupenot L, O'Connor DT, and Mahata SK

Subjects
Animals, Calcium pharmacology, Calcium Channels metabolism, Cell Membrane drug effects, Cell Membrane metabolism, Cyclic AMP biosynthesis, Cyclic AMP Response Element-Binding Protein metabolism, Cyclic AMP-Dependent Protein Kinases metabolism, Egtazic Acid analogs & derivatives, Egtazic Acid pharmacology, Gene Expression Regulation, Enzymologic drug effects, Humans, Inositol 1,4,5-Trisphosphate metabolism, Mitogen-Activated Protein Kinases metabolism, PC12 Cells, Phosphorylation drug effects, Promoter Regions, Genetic genetics, Protein Binding drug effects, Rats, Signal Transduction drug effects, Transcription, Genetic drug effects, Transcriptional Activation drug effects, Transcriptional Activation genetics, Type C Phospholipases metabolism, Tyrosine 3-Monooxygenase genetics, Tyrosine 3-Monooxygenase metabolism, Catecholamines biosynthesis, Catecholamines metabolism, Secretin pharmacology
Abstract

Pituitary adenylyl cyclase activating polypeptide (PACAP) and vasoactive intestinal polypeptide (VIP) augment the biosynthesis of tyrosine hydroxylase (TH). We tested whether secretin belonging to the glucagon/PACAP/VIP superfamily would increase transcription of the tyrosine hydroxylase (Th) gene and modulate catecholamine secretion. Secretin activated transcription of the endogenous Th gene and its transfected promoter (EC(50) ∼4.6 nM) in pheochromocytoma (PC12) cells. This was abolished by pre-treatment with a secretin receptor (SCTR) antagonist and by inhibition of protein kinase A (PKA), mitogen-activated protein kinase, or CREB (cAMP response element-binding protein). In agreement, secretin increased PKA activity and induced phosphorylation of CREB and binding to Th CRE, suggesting secretin signaling to transcription via a PKA-CREB pathway. Secretin stimulated catecholamine secretion (EC(50) ∼3.5 μM) from PC12 cells, but this was inhibited by pre-treatment with VIP-preferring receptor (VPAC1)/PACAP-preferring receptor (PAC1) antagonists. Secretin-evoked secretion occurred without extracellular Ca(2+) and was abolished by intracellular Ca(2+) chelation. Secretin augmented phospholipase C (PLC) activity and increased inositol-1,4,5-triphosphate (IP(3)) levels in PC12 cells; PLC-β inhibition blocked secretin-induced catecholamine secretion, indicating the participation of intracellular Ca(2+) from a phospholipase pathway in secretion. Like PACAP, secretin evoked long-lasting catecholamine secretion, even after only a transient exposure. Thus, transcription is triggered by nanomolar concentrations of the peptide through SCTR, with signaling along the cAMP-PKA and extracellular-signal-regulated kinase 1/2 pathways and through CREB. By contrast, secretion is triggered only by micromolar concentrations of peptide through PAC1/VPAC receptors and by utilizing a PLC/intracellular Ca(2+) pathway.

Published
2011
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27. Human tyrosine hydroxylase natural allelic variation: influence on autonomic function and hypertension.

Author

Rao F, Zhang K, Zhang L, Rana BK, Wessel J, Fung MM, Rodriguez-Flores JL, Taupenot L, Ziegler MG, and O'Connor DT

Subjects
Blood Pressure genetics, Humans, Hypertension enzymology, Microsatellite Repeats genetics, Promoter Regions, Genetic genetics, Transcription, Genetic, Alleles, Autonomic Nervous System enzymology, Autonomic Nervous System physiopathology, Genetic Variation, Hypertension genetics, Hypertension physiopathology, Tyrosine 3-Monooxygenase genetics
Abstract

The catecholamine biosynthetic pathway consists of several enzymatic steps in series, beginning with the amino acids phenylalanine and tyrosine, and eventuating in the catecholamines norepinephrine (noradrenaline) and epinephrine (adrenaline). Since the enzyme tyrosine hydroxylase (TH; tyrosine 3-mono-oxygenase; EC 1.14.16.2; chromosome 11p15.5) is generally considered to be rate-limiting in this pathway, probed as to whether common genetic variation at the TH gene occurred, and whether such variants contributed to inter-individual alterations in autonomic function, either biochemical or physiological. We began with sequencing a tetranucleotide (TCAT) repeat in the first intron, and found that the two most common versions, (TCAT)(6) and (TCAT)(10i), predicted heritable autonomic traits in twin pairs. We then conducted systematic polymorphism discovery across the ~8 kbp locus, and discovered numerous variants, principally non-coding. The proximal promoter block contained four common variants, and its haplotypes and SNPs (especially C-824T, rs10770141) predicted catecholamine secretion, environmental stress-induced BP increments, and hypertension. Finally, we found that two of the common promoter variants, C-824T (rs10770141) and A-581G (rs10770140), were functional in that they differentially affected transcriptional activity of the isolated promoter, disrupted recognition motifs for specific transcription factor binding, altered the promoter responses to the co-transfected (exogenous) factors, and bound the endogenous factors in the chromatin fraction of the nucleus. We concluded that common variation in the proximal TH promoter is functional, giving rise to changes in autonomic function and consequently cardiovascular risk.

Published
2010
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28. Mass spectrometry-based neuropeptidomics of secretory vesicles from human adrenal medullary pheochromocytoma reveals novel peptide products of prohormone processing.

Author

Gupta N, Bark SJ, Lu WD, Taupenot L, O'Connor DT, Pevzner P, and Hook V

Subjects
Adrenal Gland Neoplasms pathology, Adrenal Medulla metabolism, Adrenal Medulla pathology, Amino Acid Sequence, Cell Communication, Chromaffin Granules metabolism, Chromatography, Liquid, Enkephalins metabolism, Humans, Molecular Sequence Data, Peptides metabolism, Pheochromocytoma pathology, Secretogranin II metabolism, Adrenal Gland Neoplasms metabolism, Mass Spectrometry methods, Neuropeptides metabolism, Pheochromocytoma metabolism, Protein Precursors metabolism, Proteomics methods, Secretory Vesicles metabolism
Abstract

Neuropeptides are required for cell-cell communication in the regulation of physiological and pathological processes. While selected neuropeptides of known biological activities have been studied, global analyses of the endogenous profile of human peptide products derived from prohormones by proteolytic processing in vivo are largely unknown. Therefore, this study utilized the global, unbiased approach of mass spectrometry-based neuropeptidomics to define peptide profiles in secretory vesicles, isolated from human adrenal medullary pheochromocytoma of the sympathetic nervous system. The low molecular weight pool of secretory vesicle peptides was subjected to nano-LC-MS/MS with ion trap and QTOF mass spectrometry analyzed by different database search tools (InsPecT and Spectrum Mill). Peptides were generated by processing of prohormones at dibasic cleavage sites as well as at nonbasic residues. Significantly, peptide profiling provided novel insight into newly identified peptide products derived from proenkephalin, pro-NPY, proSAAS, CgA, CgB, and SCG2 prohormones. Previously unidentified intervening peptide domains of prohormones were observed, thus providing new knowledge of human neuropeptidomes generated from precursors. The global peptidomic approach of this study demonstrates the complexity of diverse neuropeptides present in human secretory vesicles for cell-cell communication.

Published
2010
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29. Neuroendocrine nicotinic receptor activation increases susceptibility to bacterial infections by suppressing antimicrobial peptide production.

Author

Radek KA, Elias PM, Taupenot L, Mahata SK, O'Connor DT, and Gallo RL

Subjects
Animals, Antimicrobial Cationic Peptides immunology, Chromogranin A deficiency, Methicillin-Resistant Staphylococcus aureus growth & development, Methicillin-Resistant Staphylococcus aureus immunology, Mice, Mice, Inbred C57BL, Nicotinic Agonists pharmacology, Nicotinic Antagonists pharmacology, Streptococcus growth & development, Streptococcus immunology, Cathelicidins, Antimicrobial Cationic Peptides biosynthesis, Down-Regulation, Nicotinic Agonists immunology, Nicotinic Antagonists immunology, Receptors, Nicotinic drug effects, Skin Diseases, Bacterial immunology
Abstract

Stress mobilizes elements from the neuroendocrine system to modulate immune responses. Cholinergic stimulation via nicotinic receptor (nAchR) is a major neuroendocrine signaling axis associated with the stress response whose specific effects on the immune system are unknown. Here, we show that nAchR activation by topical agonist application or deletion of the nAChR antagonist catestatin (Chga(-/-)) reduced antimicrobial peptide (AMP) activity in skin extracts and increased susceptibility to methicillin-resistant Staphylococcus aureus and Group A Streptococcus infections. The adverse effects on AMP expression and infection were rescued by topical application of a nAChR antagonist. Stress-induced nAChR activation increased infection in wild-type, but not Chga(-/-) or cathelicidin-deficient, mice. These data identify a mechanism for the negative regulation of host-innate AMP response to infection through cholinergic activation and indicate nAChR-mediated cathelicidin dysregulation as a potential mechanism for increased susceptibility to infection following prolonged stress or nicotine use., (Copyright 2010 Elsevier Inc. All rights reserved.)

Published
2010
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30. Common functional genetic variants in catecholamine storage vesicle protein promoter motifs interact to trigger systemic hypertension.

Author

Zhang K, Rao F, Wang L, Rana BK, Ghosh S, Mahata M, Salem RM, Rodriguez-Flores JL, Fung MM, Waalen J, Tayo B, Taupenot L, Mahata SK, and O'Connor DT

Subjects
Adult, Female, Gene Expression Regulation, Humans, Male, Risk Factors, Chromogranin B genetics, Hypertension genetics, Promoter Regions, Genetic genetics
Abstract

Objectives: The purpose of this study is to understand whether naturally occurring genetic variation in the promoter of chromogranin B (CHGB), a major constituent of catecholamine storage vesicles, is functional and confers risk for cardiovascular disease., Background: CHGB plays a necessary (catalytic) role in catecholamine storage vesicle biogenesis. Previously, we found that genetic variation at CHGB influenced autonomic function, with association maximal toward the 5' region., Methods: Here we explored transcriptional mechanisms of such effects, characterizing 2 common variants in the proximal promoter, A-296C and A-261T, using transfection/cotransfection, electrophoretic mobility shift assay (EMSA), and chromatin immunoprecipitation (ChIP). We then tested the effects of promoter variation on cardiovascular traits., Results: The A-296C disrupted a c-FOS motif, exhibiting differential mobility shifting to chromaffin cell nuclear proteins during EMSA, binding of endogenous c-FOS on ChIP, and differential response to exogenous c-FOS. The A-261T disrupted motifs for SRY and YY1, with similar consequences for EMSA, endogenous factor binding, and responses to exogenous factors. The 2-SNP CHGB promoter haplotypes had a profound (p=3.16E-20) effect on blood pressure (BP) in the European ancestry population, with a rank order of CT

Published
2010
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31. Human tyrosine hydroxylase natural genetic variation: delineation of functional transcriptional control motifs disrupted in the proximal promoter.

Author

Zhang K, Zhang L, Rao F, Brar B, Rodriguez-Flores JL, Taupenot L, and O'Connor DT

Subjects
Alleles, Animals, Base Sequence, Catecholamines biosynthesis, Catecholamines metabolism, Cell Line, Tumor, Chromatin Immunoprecipitation, Early Growth Response Protein 1 genetics, Early Growth Response Protein 1 metabolism, Fatty Acid-Binding Proteins genetics, Fatty Acid-Binding Proteins metabolism, Female, Forkhead Transcription Factors genetics, Forkhead Transcription Factors metabolism, Genetic Predisposition to Disease, Humans, Linkage Disequilibrium, Male, Molecular Sequence Data, Myogenic Regulatory Factors genetics, Myogenic Regulatory Factors metabolism, Phenotype, Rats, Sp1 Transcription Factor genetics, Sp1 Transcription Factor metabolism, Transcription, Genetic, Polymorphism, Single Nucleotide, Promoter Regions, Genetic, Tyrosine 3-Monooxygenase genetics
Abstract

Background: Tyrosine hydroxylase (TH) is the rate-limiting enzyme in catecholamine biosynthesis. Common genetic variation at the human TH promoter predicts alterations in autonomic activity and blood pressure, but how such variation influences human traits and, specifically, whether such variation affects transcription are not yet known., Methods and Results: Pairwise linkage disequilibrium across the TH locus indicated that common promoter variants (C-824T, G-801C, A-581G, and G-494A) were located in a single 5' linkage disequilibrium block in white, black, Hispanic, and Asian populations. Polymorphisms C-824T and A-581G were located in highly conserved regions and were predicted to disrupt known transcriptional control motifs myocyte enhancer factor-2 (MEF2), sex-determining region Y (SRY), and forkhead box D1 (FOXD1) at C-824T and G/C-rich binding factors specificity protein 1 (SP1), activating enhancer-binding protein 2 (AP2)], early growth response protein 1 (EGR1) at A-581G. At C-824T and A-581G, promoter and luciferase reporter plasmids indicated differential allele strength (T>C at C-824T; G>A at A-581G) under both basal circumstances and secretory stimulation. C-824T and A-581G displayed the most pronounced effects on both transcription in cella and catecholamine secretion in vivo. We further probed the functional significance of C-824T and A-581G by cotransfection of trans-activating factors in cella; MEF2, SRY, and FOXD1 differentially activated C-824T, whereas the G/C-rich binding factors SP1, AP2, and EGR1 differentially activated A-581G. At C-824T, factor MEF2 acted in a directionally coordinate fashion (at T>C) to explain the in vivo trait associations, whereas at A-581G, factors SP1, AP2, and EGR1 displayed similar differential actions (at G>A). Finally, chromatin immunoprecipitation demonstrated that the endogenous factors bound to the motifs in cella., Conclusions: We conclude that common genetic variants in the proximal TH promoter, especially at C-824T and A-581G, are functional in cella and alter transcription so as to explain promoter marker-on-trait associations in vivo. MEF2, FOXD1, and SRY contribute to functional differences in C-824T expression, whereas SP1, AP2, and EGR1 mediate those of A-581G. The SRY effect on TH transcription suggests a mechanism whereby male and female sex may differ in sympathetic activity and hence blood pressure. These results point to new strategies for diagnostic and therapeutic intervention into disorders of human autonomic function and their cardiovascular consequences.

Published
2010
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32. Pro-hormone secretogranin II regulates dense core secretory granule biogenesis in catecholaminergic cells.

Author

Courel M, Soler-Jover A, Rodriguez-Flores JL, Mahata SK, Elias S, Montero-Hadjadje M, Anouar Y, Giuly RJ, O'Connor DT, and Taupenot L

Subjects
Animals, COS Cells, Chlorocebus aethiops, Chromaffin Granules metabolism, Gene Silencing, Genetic Vectors, Hydrogen-Ion Concentration, Neuroendocrine Cells metabolism, PC12 Cells, RNA, Small Interfering metabolism, Rats, Recombinant Fusion Proteins metabolism, Catecholamines metabolism, Secretogranin II metabolism, Secretory Vesicles metabolism
Abstract

Processes underlying the formation of dense core secretory granules (DCGs) of neuroendocrine cells are poorly understood. Here, we present evidence that DCG biogenesis is dependent on the secretory protein secretogranin (Sg) II, a member of the granin family of pro-hormone cargo of DCGs in neuroendocrine cells. Depletion of SgII expression in PC12 cells leads to a decrease in both the number and size of DCGs and impairs DCG trafficking of other regulated hormones. Expression of SgII fusion proteins in a secretory-deficient PC12 variant rescues a regulated secretory pathway. SgII-containing dense core vesicles share morphological and physical properties with bona fide DCGs, are competent for regulated exocytosis, and maintain an acidic luminal pH through the V-type H(+)-translocating ATPase. The granulogenic activity of SgII requires a pH gradient along this secretory pathway. We conclude that SgII is a critical factor for the regulation of DCG biogenesis in neuroendocrine cells, mediating the formation of functional DCGs via its pH-dependent aggregation at the trans-Golgi network.

Published
2010
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33. Natural variation within the neuronal nicotinic acetylcholine receptor cluster on human chromosome 15q24: influence on heritable autonomic traits in twin pairs.

Author

Rana BK, Wessel J, Mahboubi V, Rao F, Haeller J, Gayen JR, Eskin E, Valle AM, Das M, Mahata SK, Taupenot L, Stridsberg M, Talley TT, Ziegler MG, Smith DW, Schork NJ, O'Connor DT, and Taylor P

Subjects
Acetylcholinesterase blood, Alleles, Catecholamines blood, Chromogranin A genetics, Chromogranins genetics, Ethnicity, Exocytosis drug effects, Gene Frequency, Haplotypes, Humans, Linkage Disequilibrium genetics, Models, Molecular, Multigene Family, Neurons physiology, Peptide Fragments genetics, Phenotype, Phylogeny, Polymorphism, Single Nucleotide genetics, Reverse Transcriptase Polymerase Chain Reaction, United States epidemiology, Autonomic Nervous System physiology, Chromosomes, Human, Pair 15 genetics, Neurons metabolism, Receptors, Nicotinic genetics, Receptors, Nicotinic physiology
Abstract

Nicotinic acetylcholine receptors (nAChRs) are combinations of subunits arranged as pentamers encircling a central cation channel. At least nine alpha and four beta subunits are expressed in the central and peripheral nervous systems; their presence in autonomic ganglia, the adrenal medulla, and central nervous system, with accompanying responses elicited by nicotinic agonists, point to their involvement in cardiovascular homeostasis. nAChRs formed by alpha3, alpha5, and beta4 subunits may regulate blood pressure (BP) by mediating release of catestatin, the endogenous nicotinic antagonist fragment of chromogranin A (CHGA) and potent inhibitor of catecholamine secretion. Genes encoding these subunits (CHRNA3, CHRNA5, and CHRNB4) are clustered on human chromosome 15q24. Because variation in this cluster may alter autonomic regulation of BP, we sequenced approximately 15 kilobase pairs in 15q24 containing their coding and 5'- and 3'-untranslated regions in 80 individuals. We identified 63 variants: 25 in coding regions of CHRNA3, CHRNA5, and CHRNB4 and 48 noncoding single-nucleotide polymorphisms (SNPs). Haplotype frequencies varied across ethnic populations. We assessed the contribution of six SNPs in the putative catestatin binding region of CHRNA3 and CHRNB4 to autonomic traits. In twins, catestatin and BP were heritable. CHRNA3 SNPs and haplotypes containing K95K (G285A) associated with circulating plasma catestatin, epinephrine levels, as well as systolic BP, suggesting altered coupling of the nAChRs to BP. Studies of chromaffin cells in vitro reveal that nicotinic agonist stimulation releases catecholamines and CHGA, a process augmented by overexpression of CHRNA3 and blocked by catestatin. These cellular events suggest a homeostatic mechanism underlying the pleiotropic actions of CHRNA3 genetic variation on autonomic function observed in twins.

Published
2009
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34. Cathepsin L colocalizes with chromogranin a in chromaffin vesicles to generate active peptides.

Author

Biswas N, Rodriguez-Flores JL, Courel M, Gayen JR, Vaingankar SM, Mahata M, Torpey JW, Taupenot L, O'Connor DT, and Mahata SK

Subjects
Animals, Catecholamines metabolism, Cathepsin L, Cells, Cultured, Electrophoresis, Polyacrylamide Gel, Female, Fluorescent Antibody Technique, Humans, Immunoblotting, PC12 Cells, Peptides chemical synthesis, Peptides chemistry, Peptides metabolism, Rats, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Cathepsins metabolism, Chromaffin Cells metabolism, Chromogranin A metabolism, Cysteine Endopeptidases metabolism
Abstract

Chromogranin A (CgA), the major soluble protein in chromaffin granules, is proteolytically processed to generate biologically active peptides including the catecholamine release inhibitory peptide catestatin. Here we sought to determine whether cysteine protease cathepsin L (CTSL), a novel enzyme for proteolytic processing of neuropeptides, acts like the well-established serine proteases [prohormone convertase (PC)1/3 or PC2] to generate catestatin by proteolytic processing of CgA. We found that endogenous CTSL colocalizes with CgA in the secretory vesicles of primary rat chromaffin cells. Transfection of PC12 cells with an expression plasmid encoding CTSL directed expression of CTSL toward secretory vesicles. Deconvolution fluorescence microscopy suggested greater colocalization of CTSL with CgA than the lysosomal marker LGP110. The overexpression of CTSL in PC12 cells caused cleavage of full-length CgA. CTSL also cleaved CgA in vitro, in time- and dose-dependent fashion, and specificity of the process was documented through E64 (thiol reagent) inhibition. Mass spectrometry on CTSL-digested recombinant CgA identified a catestatin-region peptide, corresponding to CgA(360-373). The pool of peptides generated from the CTSL cleavage of CgA inhibited nicotine-induced catecholamine secretion from PC12 cells. CTSL processing in the catestatin region was diminished by naturally occurring catestatin variants, especially Pro370Leu and Gly364Ser. Among the CTSL-generated peptides, a subset matched those found in the catestatin region in vivo. These findings indicate that CgA can be a substrate for the cysteine protease CTSL both in vitro and in cella, and their colocalization within chromaffin granules in cella suggests the likelihood of an enzyme/substrate relationship in vivo.

Published
2009
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35. Chromogranin A regulates renal function by triggering Weibel-Palade body exocytosis.

Author

Chen Y, Mahata M, Rao F, Khandrika S, Courel M, Fung MM, Zhang K, Stridsberg M, Ziegler MG, Hamilton BA, Lipkowitz MS, Taupenot L, Nievergelt C, Mahata SK, and O'Connor DT

Subjects
Animals, Cells, Cultured, Chromogranin A genetics, Chromogranin A pharmacology, Chronic Disease, Coculture Techniques, Dose-Response Relationship, Drug, Endothelins metabolism, Endothelium cytology, Endothelium drug effects, Humans, Kidney Diseases metabolism, Kidney Diseases pathology, Kidney Failure, Chronic metabolism, Kidney Failure, Chronic pathology, Kidney Glomerulus cytology, Kidney Glomerulus drug effects, Mice, Polymorphism, Genetic genetics, Risk Factors, Time Factors, Transforming Growth Factor beta1 metabolism, Chromogranin A metabolism, Endothelium metabolism, Exocytosis physiology, Glomerular Filtration Rate physiology, Kidney Glomerulus metabolism, Weibel-Palade Bodies metabolism
Abstract

Chromogranin A (CHGA), a protein released from secretory granules of chromaffin cells and sympathetic nerves, triggers endothelin-1 release from endothelial cells. CHGA polymorphisms associate with an increased risk for ESRD, but whether altered CHGA-endothelium interactions may explain this association is unknown. Here, CHGA led to the release of endothelin-1 and Weibel-Palade body exocytosis in cultured human umbilical vein endothelial cells. In addition, CHGA triggered secretion of endothelin-1 from glomerular endothelial cells and TGF-beta1 from mesangial cells cocultured with glomerular endothelial cells. In humans, plasma CHGA correlated positively with endothelin-1 and negatively with GFR. GFR was highly heritable in twin pairs, and common promoter haplotypes of CHGA predicted GFR. In patients with progressive hypertensive renal disease, a CHGA haplotype predicted rate of GFR decline. In conclusion, these data suggest that CHGA acts through the glomerular endothelium to regulate renal function.

Published
2009
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36. Determinants for chromogranin A sorting into the regulated secretory pathway are also sufficient to generate granule-like structures in non-endocrine cells.

Author

Stettler H, Beuret N, Prescianotto-Baschong C, Fayard B, Taupenot L, and Spiess M

Subjects
Animals, Biomarkers, Cell Line, Chlorocebus aethiops, Chromogranin A genetics, Endocrine Cells ultrastructure, Epitopes immunology, Gene Deletion, Mice, Microscopy, Immunoelectron, Rats, Recombinant Proteins genetics, Recombinant Proteins metabolism, Chromogranin A metabolism, Endocrine Cells metabolism, Secretory Pathway, Secretory Vesicles metabolism
Abstract

In endocrine cells, prohormones and granins are segregated in the TGN (trans-Golgi network) from constitutively secreted proteins, stored in concentrated form in dense-core secretory granules, and released in a regulated manner on specific stimulation. The mechanism of granule formation is only partially understood. Expression of regulated secretory proteins, both peptide hormone precursors and granins, had been found to be sufficient to generate structures that resemble secretory granules in the background of constitutively secreting, non-endocrine cells. To identify which segment of CgA (chromogranin A) is important to induce the formation of such granule-like structures, a series of deletion constructs fused to either GFP (green fluorescent protein) or a short epitope tag was expressed in COS-1 fibroblast cells and analysed by fluorescence and electron microscopy and pulse-chase labelling. Full-length CgA as well as deletion constructs containing the N-terminal 77 residues generated granule-like structures in the cell periphery that co-localized with co-expressed SgII (secretogranin II). These are essentially the same segments of the protein that were previously shown to be required for granule sorting in wild-type PC12 (pheochromocytoma cells) cells and for rescuing a regulated secretory pathway in A35C cells, a variant PC12 line deficient in granule formation. The results support the notion that self-aggregation is at the core of granule formation and sorting into the regulated pathway.

Published
2009
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37. Autonomic function in hypertension; role of genetic variation at the catecholamine storage vesicle protein chromogranin B.

Author

Zhang K, Rao F, Rana BK, Gayen JR, Calegari F, King A, Rosa P, Huttner WB, Stridsberg M, Mahata M, Vaingankar S, Mahboubi V, Salem RM, Rodriguez-Flores JL, Fung MM, Smith DW, Schork NJ, Ziegler MG, Taupenot L, Mahata SK, and O'Connor DT

Subjects
Alleles, Animals, Catecholamines metabolism, Chromogranin B deficiency, Chromogranin B metabolism, Disease Susceptibility, Female, Genetic Variation, Haplotypes, Humans, Male, Mice, Mice, Knockout, Mutagenesis, Site-Directed, Phenotype, Promoter Regions, Genetic, Secretory Vesicles metabolism, Twins genetics, Chromogranin B genetics, Hypertension genetics, Polymorphism, Single Nucleotide
Published
2009
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38. Adrenergic polymorphism and the human stress response.

Author

Rao F, Zhang L, Wessel J, Zhang K, Wen G, Kennedy BP, Rana BK, Das M, Rodriguez-Flores JL, Smith DW, Cadman PE, Salem RM, Mahata SK, Schork NJ, Taupenot L, Ziegler MG, and O'Connor DT

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Animals, Autonomic Nervous System physiology, Blood Pressure genetics, Catecholamines genetics, Catecholamines metabolism, Female, Genotype, Haplotypes, Humans, Hypertension genetics, Hypertension physiopathology, Linkage Disequilibrium, Middle Aged, PC12 Cells, Physiological Phenomena genetics, Promoter Regions, Genetic, Rats, Twins genetics, Tyrosine 3-Monooxygenase metabolism, Young Adult, Cardiovascular Diseases genetics, Genetic Predisposition to Disease, Polymorphism, Genetic, Stress, Psychological, Tyrosine 3-Monooxygenase genetics
Abstract

Tyrosine hydroxylase (TH) is the rate-limiting enzyme in catecholamine biosynthesis. Does common genetic variation at human TH alter autonomic activity and predispose to cardiovascular disease? We undertook systematic polymorphism discovery at the TH locus, and then tested variants for contributions to sympathetic function and blood pressure. We resequenced 80 ethnically diverse individuals across the TH locus. One hundred seventy-two twin pairs were evaluated for sympathetic traits, including catecholamine production and environmental (cold) stress responses. To evaluate hypertension, we genotyped subjects selected from the most extreme diastolic blood pressure percentiles in the population. Human TH promoter haplotype/reporter plasmids were transfected into chromaffin cells. Forty-nine single nucleotide polymorphisms (SNPs) and one tetranucleotide repeat were discovered, but coding region polymorphism did not account for common phenotypic variation. A block of linkage disequilibrium spanned four common variants in the proximal promoter. Catecholamine secretory traits were significantly heritable, as were stress-induced blood pressure changes. In the TH promoter, significant associations were found for urinary catecholamine excretion, as well as blood pressure response to stress. TH promoter haplotype #2 (TGGG) showed pleiotropy, increasing both norepinephrine excretion and blood pressure during stress. In hypertension, a case-control study (1266 subjects, 53% women) established the effect of C-824T in determination of blood pressure. We conclude that human catecholamine secretory traits are heritable, displaying joint genetic determination (pleiotropy) with autonomic activity and finally with blood pressure in the population. Catecholamine secretion is influenced by genetic variation in the adrenergic pathway encoding catecholamine synthesis, especially at the classically rate-limiting step, TH. The results suggest novel pathophysiological links between a key adrenergic locus, catecholamine metabolism, and blood pressure, and suggest new strategies to approach the mechanism, diagnosis, and treatment of systemic hypertension.

Published
2008
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39. The trans-Golgi proteins SCLIP and SCG10 interact with chromogranin A to regulate neuroendocrine secretion.

Author

Mahapatra NR, Taupenot L, Courel M, Mahata SK, and O'Connor DT

Subjects
Animals, Chromaffin Cells metabolism, Chromaffin Granules metabolism, Chromogranin B metabolism, Down-Regulation, Gene Silencing, Genes, Dominant, Growth Hormone metabolism, Humans, Immunoprecipitation, Intracellular Space metabolism, Mutant Proteins metabolism, PC12 Cells, Protein Binding, Protein Transport, RNA, Small Interfering metabolism, Rats, Recombinant Fusion Proteins metabolism, Transfection, Chromogranin A metabolism, Membrane Proteins metabolism, Neurosecretory Systems metabolism, Stathmin metabolism, trans-Golgi Network metabolism
Abstract

Secretion of proteins and peptides from eukaryotic cells takes place by both constitutive and regulated pathways. Regulated secretion may involve interplay of proteins that are currently unknown. Recent studies suggest an important role of chromogranin A (CHGA) in the regulated secretory pathway in neuroendocrine cells, but the mechanism by which CHGA enters the regulated pathway, or even triggers the formation of the pathway, remains unclear. In this study, we used a transcriptome/proteome-wide approach, to discover binding partners for CHGA, by employing a phage display cDNA library method. Several proteins within or adjacent to the secretory pathway were initially detected as binding partners of recombinant human CHGA. We then focused on the trans-Golgi protein SCLIP (STMN3) and its stathmin paralog SCG10 (STMN2) for functional study. Co-immunoprecipitation experiments confirmed the interaction of each of these two proteins with CHGA in vitro. SCLIP and SCG10 were colocalized to the Golgi apparatus of chromaffin cells in vivo and shared localization with CHGA as it transited the Golgi. Downregulation of either SCLIP or SCG10 by synthetic siRNAs virtually abolished chromaffin cell secretion of a transfected CHGA-EAP chimera (expressing CHGA fused to an enzymatic reporter, and trafficked to the regulated pathway). SCLIP siRNA also decreased the level of secretion of endogenous CHGA and SCG2, as well as transfected human growth hormone, while SCG10 siRNA decreased the level of regulated secretion of endogenous CHGB. Moreover, a dominant negative mutant of SCG10 (Cys 22,Cys 24-->Ala 22,Ala 24) significantly blocked secretion of the transfected CHGA-EAP chimera. A decrease in the buoyant density of chromaffin granules was observed after downregulation of SCG10 by siRNA, suggesting participation of these stathmins in granule formation or maturation. We conclude that SCLIP and SCG10 interact with CHGA, share partial colocalization in the Golgi apparatus, and may be necessary for typical transmitter storage and release from chromaffin cells.

Published
2008
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40. The neuroendocrine peptide catestatin is a cutaneous antimicrobial and induced in the skin after injury.

Author

Radek KA, Lopez-Garcia B, Hupe M, Niesman IR, Elias PM, Taupenot L, Mahata SK, O'Connor DT, and Gallo RL

Subjects
Animals, Chromogranin A metabolism, Chromogranin A pharmacology, Chromogranin B chemistry, Epidermis metabolism, Humans, Keratinocytes cytology, Mice, Peptide Fragments pharmacology, Peptides chemistry, Secretogranin II chemistry, Skin immunology, Skin injuries, Wound Healing, Antimicrobial Cationic Peptides pharmacology, Chromogranin A chemistry, Gene Expression Regulation, Peptide Fragments chemistry, Skin pathology
Abstract

Epithelia establish a microbial barrier against infection through the production of antimicrobial peptides (AMPs). In this study, we investigated whether catestatin (Cst), a peptide derived from the neuroendocrine protein chromogranin A (CHGA), is a functional AMP and is present in the epidermis. We show that Cst is antimicrobial against relevant skin microbes, including gram-positive and gram-negative bacteria, yeast, and fungi. The antimicrobial mechanism of Cst was found to be similar to other AMPs, as it was dependent on bacterial charge and growth conditions, and induced membrane disruption. The potential relevance of Cst against skin pathogens was supported by the observation that CHGA was expressed in keratinocytes. In human skin, CHGA was found to be proteolytically processed into the antimicrobial fragment Cst, thus enabling its AMP function. Furthermore, Cst expression in murine skin increased in response to injury and infection, providing potential for increased protection against infection. These data demonstrate that a neuroendocrine peptide has antimicrobial function against a wide assortment of skin pathogens and is upregulated upon injury, thus demonstrating a direct link between the neuroendocrine and cutaneous immune systems. JID JOURNAL CLUB ARTICLE: For questions, answers, and open discussion about this article please go to http://network.nature.com/group/jidclub.

Published
2008
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41. Sorting of the neuroendocrine secretory protein Secretogranin II into the regulated secretory pathway: role of N- and C-terminal alpha-helical domains.

Author

Courel M, Vasquez MS, Hook VY, Mahata SK, and Taupenot L

Subjects
Alkaline Phosphatase metabolism, Animals, Cell Membrane metabolism, Exocytosis, Golgi Apparatus metabolism, Green Fluorescent Proteins metabolism, PC12 Cells, Protein Conformation, Protein Structure, Secondary, Protein Structure, Tertiary, Rats, Recombinant Fusion Proteins chemistry, Signal Transduction, Gene Expression Regulation, Secretogranin II metabolism
Abstract

Secretogranin II (SgII) belongs to the granin family of prohormones widely distributed in dense-core secretory granules (DCGs) of endocrine, neuroendocrine, and neuronal cells, including sympathoadrenal chromaffin cells. The mechanisms by which secretory proteins, and granins in particular, are sorted into the regulated secretory pathway are unsettled. We designed a strategy based on novel chimeric forms of human SgII fused to fluorescent (green fluorescent protein) or chemiluminescent (embryonic alkaline phosphatase) reporters to identify trafficking determinants mediating DCG targeting of SgII in sympathoadrenal cells. Three-dimensional deconvolution fluorescence microscopy and secretagogue-stimulated release studies demonstrate that SgII chimeras are correctly targeted to DCGs and released by exocytosis in PC12 and primary chromaffin cells. Results from a Golgi-retained mutant form of SgII suggest that sorting of SgII into DCGs depends on a saturable sorting machinery at the trans-Golgi/trans-Golgi network. Truncation analyses reveal the presence of DCG-targeting signals within both the N- and C-terminal regions of SgII, with the putative alpha-helix-containing SgII-(25-41) and SgII-(334-348) acting as sufficient, independent sorting domains. This study defines sequence features of SgII mediating vesicular targeting in sympathoadrenal cells and suggests a mechanism by which discrete domains of the molecule function in sorting, perhaps by virtue of a particular arrangement in tertiary structure and/or interaction with a specific component of the DCG membrane.

Published
2008
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42. Proteolytic cleavage of human chromogranin a containing naturally occurring catestatin variants: differential processing at catestatin region by plasmin.

Author

Biswas N, Vaingankar SM, Mahata M, Das M, Gayen JR, Taupenot L, Torpey JW, O'Connor DT, and Mahata SK

Subjects
Amino Acid Sequence, Animals, Catecholamines metabolism, Chromogranin A chemistry, Humans, Hypertension epidemiology, Molecular Sequence Data, PC12 Cells, Peptide Fragments chemistry, Point Mutation, Protein Structure, Secondary, Protein Structure, Tertiary, Rats, Recombinant Proteins chemistry, Recombinant Proteins genetics, Recombinant Proteins metabolism, Risk Factors, Spectrum Analysis, Chromogranin A genetics, Chromogranin A metabolism, Fibrinolysin metabolism, Genetic Variation, Hypertension genetics, Peptide Fragments genetics, Peptide Fragments metabolism
Abstract

The plasma level of chromogranin A (CgA) is elevated in genetic hypertension. Conversely, the plasma level of the CgA peptide catestatin is diminished in individuals with established hypertension and those with a genetic risk of this disease. Resequencing of the human CHGA gene identified three naturally occurring variants of catestatin (Gly364Ser, Pro370Leu, and Arg374Gln) that exhibit different potencies in inhibiting catecholamine secretion. Here, we have examined whether there is any differential processing of the three CHGA variants to catestatin by the endoproteolytic enzyme plasmin. Plasmin digestion of the purified CgA proteins generated a stable biologically active 14-amino acid peptide (human CgA(360-373)) from the wild-type, Gly364Ser, and Arg374Gln proteins despite the disruption of the dibasic site (Arg(373)Arg(374)) in the Arg374Gln variant. Unexpectedly, the action of plasmin in generating the catestatin peptide from the Pro370Leu protein was less efficient. The efficiency of cleavage at the dibasic Arg(373) downward arrowArg(374) site in synthetic human CgA(360-380) was 3- to 4-fold less in Pro370Leu CgA, compared with the wild type. Circular dichroism of the synthetic CgA(352-372) suggested a difference in the amount of alpha-helix and beta-sheet between the wild-type and Pro370Leu CgA peptides. Because the Pro(370) residue is in the P4 position, the local secondary structure in the vicinity of the cleavage site may enforce the specificity or accessibility to plasmin. The less efficient proteolytic processing of the Pro370Leu protein by plasmin, coupled with the strong association of this variant with ethnicity, suggests that the Pro370Leu CHGA gene variant may contribute to the differential prevalence of cardiovascular disease across ethnic groups.

Published
2008
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43. Biogenesis of the secretory granule: chromogranin A coiled-coil structure results in unusual physical properties and suggests a mechanism for granule core condensation.

Author

Mosley CA, Taupenot L, Biswas N, Taulane JP, Olson NH, Vaingankar SM, Wen G, Schork NJ, Ziegler MG, Mahata SK, and O'Connor DT

Subjects
Algorithms, Animals, Catecholamines metabolism, Chromaffin Granules physiology, Chromogranin A chemistry, Chromogranin A metabolism, Circular Dichroism, Crystallography, X-Ray, Humans, Mice, Microscopy, Electron, Scanning Transmission, Models, Biological, Models, Chemical, Molecular Weight, Peptide Fragments chemistry, Peptide Fragments metabolism, Protein Conformation, Protein Structure, Secondary physiology, Protein Structure, Tertiary physiology, RNA, Small Interfering, Secretory Vesicles physiology, Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization, Structure-Activity Relationship, Catecholamines chemistry, Chromaffin Granules ultrastructure, Chromogranin A ultrastructure, Exocytosis, Secretory Vesicles ultrastructure
Abstract

The secretory pro-hormone chromogranin A (CHGA) is densely packed into storage granules along with catecholamines, playing a catalytic role in granule biogenesis. 3-Dimensional structural data on CHGA are lacking. We found a superfamily structural homology for CHGA in the tropomyosin family of alpha-helical coiled-coils, even in mid-molecule regions where primary sequence identity is only modest. The assignment was confirmed by an independent algorithm, suggesting approximately 6-7 such domains spanning CHGA. We provide additional physiochemical evidence (chromatographic, spectral, microscopic) consistent with this unusual structure. Alpha-helical secondary structure (at up to approximately 45%) was confirmed by circular dichroism. CHGA molecular mass was estimated by MALDI-TOF mass spectrometry at approximately 50 kDa and by denaturing gel filtration at approximately 50-61 kDa, while its native Stokes radius was approximately 84.8 A, as compared to an expected approximately 30 A; the increase gave rise to an apparent native molecular weight of approximately 578 kDa, also consistent with the extended conformation of a coiled-coil. Small-angle X-ray scattering (SAXS) on CHGA in solution best fit an elongated cylindrical conformation in the monodisperse region with a radius of gyration of the rod cross-section (Rt) of approximately 52 A, compatible with a coiled-coil in the hydrated, aqueous state, or a multimeric coiled-coil. Electron microscopy with negative staining revealed an extended, filamentous CHGA structure with a diameter of approximately 94 +/- 4.5 A. Extended, coiled-coil conformation is likely to permit protein "packing" in the secretory granule at approximately 50% higher density than a globular/spherical conformation. Natural allelic variation in the catestatin region was predicted to disrupt the coiled-coil. Chromaffin granule ultrastructure revealed a approximately 108 +/- 6.3 A periodicity of electron density, suggesting nucleation of a binding complex by the CHGA core. Inhibition of CHGA expression, by siRNA, disrupted regulated secretory protein traffic by approximately 65%, while targeted ablation of the CHGA gene in the mouse reduced chromaffin granule cotransmitter concentrations by approximately 40-80%. These results suggest new roles for secretory protein tertiary structure in hormone and transmitter storage, with implications for secretory cargo condensation (or dense core "packing" structure) within the regulated pathway.

Published
2007
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44. Analysis of regulated secretion using PC12 cells.

Author

Taupenot L

Subjects
Alkaline Phosphatase genetics, Animals, Calcium Signaling physiology, Cell Culture Techniques methods, Chromogranin A genetics, Cytoplasmic Granules metabolism, Genes, Reporter, Human Growth Hormone genetics, Human Growth Hormone metabolism, Humans, Indicators and Reagents, Isotope Labeling methods, Luminescent Measurements, Rats, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Transfection, Tritium analysis, Exocytosis physiology, Norepinephrine metabolism, PC12 Cells metabolism
Abstract

The catecholamine-secreting PC12 cell line derived from the rat adrenal medulla has long been considered a model system for neurosecretion and neuronal differentiation. PC12 cells contain a large number of secretory granules (otherwise known as large dense-core vesicles) for storage of small molecules, processing enzymes, neuropeptides, and peptide hormones. Secretory granule exocytosis in PC12 cells is tightly regulated by calcium and occurs in response to a secretagogue. This unit provides protocols for maintenance and transfection of PC12 cells. Several secretion assays are described to measure the release of secretory granule cargo molecules by detection of radioactive catecholamine, or by immunochemical or chemiluminescence detection of transfected regulated secretory proteins., ((c) 2007 by John Wiley & Sons, Inc.)

Published
2007
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45. Cox-2 promotes chromogranin A expression and bioactivity: evidence for a prostaglandin E2-dependent mechanism and the involvement of a proximal cyclic adenosine 5'-monophosphate-responsive element.

Author

Connolly R, Gates D, Loh N, Baban D, Thakker R, Johnston B, McCance D, Ardill J, O'Connor DT, Taupenot L, and McGinty A

Subjects
Animals, Cyclic AMP, Gene Expression Regulation, Neoplastic drug effects, Oligonucleotide Array Sequence Analysis, PC12 Cells, Polymerase Chain Reaction, RNA, Neoplasm genetics, Rats, Transfection, Chromogranin A genetics, Chromogranin A metabolism, Cyclooxygenase 2 genetics, Dinoprostone pharmacology, Dinoprostone physiology
Abstract

The prostanoid biosynthetic enzyme cyclooxygenase-2 (Cox-2) is up-regulated in several neuroendocrine tumors. The aim of the current study was to employ a neuroendocrine cell (PC12) model of Cox-2 overexpression to identify gene products that might be implicated in the oncogenic and/or inflammatory actions of this enzyme in the setting of neuroendocrine neoplasia. Expression array and real-time PCR analysis demonstrated that levels of the neuroendocrine marker chromogranin A (CGA) were 2- and 3.2-fold higher, respectively, in Cox-2 overexpressing cells (PCXII) vs. their control (PCMT) counterparts. Immunocytochemical and immunoblotting analyses confirmed that both intracellular and secreted levels of CGA were elevated in response to Cox-2 induction. Moreover, exogenous addition of prostaglandin E(2) (1 microm) mimicked this effect in PCMT cells, whereas treatment of PCXII cells with the Cox-2 selective inhibitor NS-398 (100 nm) reduced CGA expression levels, thereby confirming the biospecificity of this finding. Levels of neuron-specific enolase were similar in the two cell lines, suggesting that the effect of Cox-2 on CGA expression was specific and not due to a global enhancement of neuroendocrine marker expression/differentiation. Cox-2-dependent CGA up-regulation was associated with significantly increased chromaffin granule number and intracellular and secreted levels of dopamine. CGA promoter-driven reporter gene expression studies provided evidence that prostaglandin E(2)-dependent up-regulation required a proximal cAMP-responsive element (-71 to -64 bp). This study is the first to demonstrate that Cox-2 up-regulates both CGA expression and bioactivity in a neuroendocrine cell line and has major implications for the role of this polypeptide in the pathogenesis of neuroendocrine cancers in which Cox-2 is up-regulated.

Published
2007
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46. Tyrosine hydroxylase, the rate-limiting enzyme in catecholamine biosynthesis: discovery of common human genetic variants governing transcription, autonomic activity, and blood pressure in vivo.

Author

Rao F, Zhang L, Wessel J, Zhang K, Wen G, Kennedy BP, Rana BK, Das M, Rodriguez-Flores JL, Smith DW, Cadman PE, Salem RM, Mahata SK, Schork NJ, Taupenot L, Ziegler MG, and O'Connor DT

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Algorithms, Cardiovascular Diseases epidemiology, Genetic Predisposition to Disease, Genetic Variation, Humans, Kinetics, Middle Aged, Polymorphism, Single Nucleotide, Twins, Dizygotic, Twins, Monozygotic, Autonomic Nervous System physiology, Blood Pressure, Cardiovascular Diseases genetics, Catecholamines biosynthesis, Transcription, Genetic, Tyrosine 3-Monooxygenase genetics
Abstract

Background: Tyrosine hydroxylase (TH) is the rate-limiting enzyme in catecholamine biosynthesis. Does common genetic variation at human TH alter autonomic activity and predispose to cardiovascular disease? We undertook systematic polymorphism discovery at the TH locus and then tested variants for contributions to sympathetic function and blood pressure., Methods and Results: We resequenced 80 ethnically diverse individuals across the TH locus. One hundred seventy-two twin pairs were evaluated for sympathetic traits, including catecholamine production, reflex control of the circulation, and environmental (cold) stress responses. To evaluate hypertension, we genotyped subjects selected from the most extreme diastolic blood pressure percentiles in the population. Human TH promoter haplotype/reporter plasmids were transfected into chromaffin cells. Forty-nine single-nucleotide polymorphisms were discovered, but coding region polymorphism did not account for common phenotypic variation. A block of linkage disequilibrium spanned 4 common variants in the proximal promoter. Catecholamine secretory traits were significantly heritable (h2), as were stress-induced blood pressure changes. In the TH promoter, significant associations were found for urinary catecholamine excretion and for blood pressure response to stress. TH promoter haplotype 2 (TGGG) showed pleiotropy, increasing both norepinephrine excretion and blood pressure during stress. Coalescent simulations suggest that TH haplotype 2 likely arose approximately 380,000 years ago. In hypertension, 2 independent case-control studies (1266 subjects with 53% women and 927 subjects with 24% women) replicated the effect of C-824T in the determination of blood pressure., Conclusions: We conclude that human catecholamine secretory traits are heritable, displaying joint genetic determination (pleiotropy) with autonomic activity and finally with blood pressure in the population. Catecholamine secretion is influenced by genetic variation in the adrenergic pathway encoding catecholamine synthesis, especially at the classically rate-limiting step, TH. The results suggest novel pathophysiological links between a key adrenergic locus, catecholamine metabolism, and blood pressure and suggest new strategies to approach the mechanism, diagnosis, and treatment of systemic hypertension.

Published
2007
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47. Heredity of endothelin secretion: human twin studies reveal the influence of polymorphism at the chromogranin A locus, a novel determinant of endothelial function.

Author

Lillie EO, Mahata M, Khandrika S, Rao F, Bundey RA, Wen G, Chen Y, Taupenot L, Smith DW, Mahata SK, Ziegler MG, Cockburn M, Schork NJ, and O'Connor DT

Subjects
Adult, Chromogranin A blood, Endothelin-1 blood, Female, Genetic Variation, Haplotypes, Humans, Male, Phenotype, Polymorphism, Single Nucleotide, Promoter Regions, Genetic genetics, Sex Factors, Sympathetic Nervous System physiology, Chromogranin A genetics, Endothelin-1 metabolism, Endothelium, Vascular metabolism, Hypertension genetics, Hypertension metabolism
Abstract

Background: Endothelial dysfunction predisposes to vascular injury in association with hypertension. Endothelin (ET-1) is a potent vasoactive peptide that is synthesized and released by the vascular endothelium and is a marker of endothelial function. Chromogranin A (CHGA) regulates the storage and release of catecholamines and may have direct actions on the microvasculature. CHGA, a candidate gene for intermediate phenotypes that contribute to hypertension, shows a pattern of single nucleotide polymorphism variations that alter the expression and function of this gene both in vivo and in vitro., Methods and Results: In a study of twins (n=238 pairs), plasma ET-1 was 58+/-5% (P<0.0001) heritable. Plasma ET-1 was both correlated and associated with chromogranin fragment levels, and the 2 were influenced by shared genetic determination (pleiotropy [rhoG]; for the CHGA precursor, rhoG=0.318+/-0.105; P=0.0032). We therefore hypothesized that variation in the CHGA gene may influence ET-1 secretion. Carriers of the CHGA promoter -988G, -462A, and -89A minor alleles showed significantly higher mean plasma ET-1 than their major allele homozygote counterparts (P=0.02, P=0.006, P=0.03, respectively). Analysis of a linkage disequilibrium block that spans these 3 single nucleotide polymorphisms showed a significant association between the GATACA haplotype and plasma ET-1 (P=0.0075). In cultured human umbilical vein endothelial cells, CHGA caused dose-dependent secretion of ET-1 over a brief (<1 hour) time course at relatively low concentrations of CHGA (10 to 100 nmol/L) with a threshold concentration (10 nmol/L) in the range found circulating in humans in vivo., Conclusions: These results suggest that common, heritable variation in expression of the human CHGA gene influences endothelial ET-1 secretion in vivo, explained by a CHGA stimulus/ET-1 secretion coupling in endothelial cells in vitro. The findings document a previously unsuspected interaction between the sympathochromaffin system and the endothelium and suggest novel genetic and cell biological approaches to the prediction, diagnosis, and mechanism of endothelial dysfunction in human disease.

Published
2007
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48. Granulogenesis in non-neuroendocrine COS-7 cells induced by EGFP-tagged chromogranin A gene transfection: identical and distinct distribution of CgA and EGFP.

Author

Inomoto C, Umemura S, Egashira N, Minematsu T, Takekoshi S, Itoh Y, Itoh J, Taupenot L, O'Connor DT, and Osamura RY

Subjects
Animals, COS Cells, Chlorocebus aethiops, Chromogranin A genetics, Cytoplasmic Granules metabolism, Green Fluorescent Proteins genetics, Humans, Immunoblotting, Microscopy, Confocal, Recombinant Fusion Proteins biosynthesis, Recombinant Fusion Proteins genetics, Transfection, Chromogranin A biosynthesis, Cytoplasmic Granules physiology, Green Fluorescent Proteins biosynthesis
Abstract

We examined whether an enhanced green fluorescent protein (EGFP)-tagged chromogranin A (CgA) gene construct could serve as a marker protein to follow the synthesis of CgA and the process of granulogenesis in non-neuroendocrine (NE) cells. We transfected a CgA-EGFP expression vector into non-NE COS-7 cells and investigated the localization of a chimeric CgA-EGFP protein using confocal laser scanning microscopy (CLSM). The fluorescent signal of CgA-EGFP was distributed granularly in the cytoplasm. An immunocytochemical study using anti-CgA antibody with a quantum dot (Qd)525 shows colocalization of fluorescent signal of chimeric CgA-EGFP and CgA-Qd525 signals in granular structures, particularly at the periphery of the cytoplasm. We interpreted granules that were immunoreactive to CgA in electron micrographs as secretory. Spectral analysis of EGFP fluorescence revealed distinct EGFP signals without CgA colocalization. This is the first report to show that a granular structure can be induced by transfecting the EGFP-tagged human CgA gene into non-NE cells. The EGFP-tagged CgA gene could be a useful tool to investigate processes of the regulatory pathway. A more precise analysis of the fluorescence signal of EGFP by combination with the Qd system or by spectral analysis with CLSM can provide insight into biological phenomena.

Published
2007
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49. Nerve growth factor-stimulated neuronal differentiation induces changes in P2 receptor expression and nucleotide-stimulated catecholamine release.

Author

Arthur DB, Taupenot L, and Insel PA

Subjects
Adenosine Triphosphate analogs & derivatives, Adenosine Triphosphate pharmacology, Animals, Cell Differentiation, Neurons metabolism, PC12 Cells, Purinergic P2 Receptor Agonists, Purinergic P2 Receptor Antagonists, Pyridoxal Phosphate analogs & derivatives, Pyridoxal Phosphate pharmacology, RNA, Messenger biosynthesis, Rats, Sympathetic Nervous System cytology, Sympathetic Nervous System physiology, Uridine Diphosphate pharmacology, Uridine Triphosphate pharmacology, Nerve Growth Factor pharmacology, Neurons physiology, Norepinephrine metabolism, Nucleotides pharmacology, Receptors, Purinergic P2 biosynthesis
Abstract

Extracellular nucleotides modulate synaptic transmission and neuronal communication by activating purinergic 2 (P2) (nucleotide) receptors. Here, we assessed changes in the regulation by nucleotides and their receptors of an important physiological response - release and uptake of catecholamines - that accompanies sympathoadrenal neuronal differentiation. Nerve growth factor (NGF)-promoted differentiation of pheochromocytoma 12 (PC12) cells enhanced the ability of the non-hydrolyzable ATP analog, ATPgammaS, to stimulate catecholamine (norepinephrine, NE) release and this enhancement occurred without a significant alteration in NE uptake. In addition to ATPgammaS, 2-MeSATP and alphabetaMeATP, P2X receptor-selective agonists, caused greater NE release from NGF-differentiated than from undifferentiated PC12 cells. NGF-differentiated PC12 cells had altered mRNA expression of several P2Y and P2X receptors but protein expression was only increased for P2X, in particular P2X(1-4,) receptors and P2X, but not P2Y, receptor inhibitors blunted the NGF-promoted enhancement in nucleotide-regulated catecholamine release. Surprisingly, siRNA directed against P2X(2), the receptor with the highest expression, failed to alter NE release by ATPgammaS. These findings indicate that sympathetic neuronal differentiation by NGF increases both the expression of P2X receptor sub-types and their regulation of catecholamine release. NGF-promoted increased expression of P2X receptors thus appears to be a physiologically important response that characterizes sympathetic neuronal differentiation.

Published
2007
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50. Primary culture of bovine chromaffin cells.

Author

O'Connor DT, Mahata SK, Mahata M, Jiang Q, Hook VY, and Taupenot L

Subjects
Animals, Cattle, Adrenal Glands cytology, Cell Culture Techniques methods, Chromaffin Cells cytology
Abstract

This protocol describes the primary culture of individual chromaffin cells derived by enzymatic digestion from the adrenal medulla of the bovine adrenal gland. Since the late 1970s, such cells have provided a useful model system to study neurotransmitter biosynthesis, storage and release in the catecholaminergic system. The protocol can be divided into three stages: isolation of cells (4-6 h), determination of viable cell numbers (approximately 30 min) and growth in culture (3-7 d). An alternative procedure is to perform studies in a continuous chromaffin (pheochromocytoma) cell line, such as PC12, although such transformed cells are typically less highly differentiated than primary cells. The bovine chromaffin cell procedure should yield approximately 10-20 million cells, suitable for several experiments over the subsequent 3-7 d. Typical experiments involve transmitter biosynthesis, vesicular storage, exocytotic release, stimulus coupling (signal transduction) toward secretion or transcription, or morphology, including ultrastructure. The total time, from adrenal gland harvest until functional experiments, is typically 4-8 d.

Published
2007
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