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Synergistic effect of bovine cateslytin-loaded nanoparticles combined with ultrasound against Candida albicans biofilm. Future Med Chem 2023; 15:43-55. [PMID: 36660946 DOI: 10.4155/fmc-2022-0062] [Citation(s) in RCA: 0] [Impact Index Per Article: 0] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 01/21/2023] Open
Abstract
Purpose: To investigate the synergistic effect of bovine cateslytin-loaded nanoparticles (bCAT-NPs) combined with ultrasound against Candida albicans biofilm and uncover the underlying mechanism. Methods: bCAT-NPs were prepared by the double emulsion method, and toxicity was observed by the hemolysis ratio. The metabolic activity and viable cell biomass, morphology and membrane permeability of C. albicans biofilm were observed. The expression of ALS3 mRNA, the content of reactive oxygen species, was detected. Finally, bCAT structure was analyzed. Results & conclusion: The hemolysis ratio of the bCAT-NPs group was significantly lower than that of the bCAT group. bCAT-NPs combined with ultrasound significantly reduced biofilm metabolic activity, inhibited the formation of hyphae, decreased the expression of ALS3 mRNA and increased the intracellular reactive oxygen species content. In the in vivo experiments, the colony-forming units/ml in the ultrasound+bCAT-NPs group decreased, and a few planktonic fungal cells were observed.
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D-Cateslytin: a new antifungal agent for the treatment of oral Candida albicans associated infections. Sci Rep 2018; 8:9235. [PMID: 29915284 PMCID: PMC6006364 DOI: 10.1038/s41598-018-27417-x] [Citation(s) in RCA: 14] [Impact Index Per Article: 2.3] [Reference Citation Analysis] [Abstract] [Track Full Text] [Download PDF] [Figures] [Journal Information] [Subscribe] [Scholar Register] [Received: 01/08/2018] [Accepted: 05/25/2018] [Indexed: 01/22/2023] Open
Abstract
The excessive use of antifungal agents, compounded by the shortage of new drugs being introduced into the market, is causing the accumulation of multi-resistance phenotypes in many fungal strains. Consequently, new alternative molecules to conventional antifungal agents are urgently needed to prevent the emergence of fungal resistance. In this context, Cateslytin (Ctl), a natural peptide derived from the processing of Chromogranin A, has already been described as an effective antimicrobial agent against several pathogens including Candida albicans. In the present study, we compared the antimicrobial activity of two conformations of Ctl, L-Ctl and D-Ctl against Candida albicans. Our results show that both D-Ctl and L-Ctl were potent and safe antifungal agents. However, in contrast to L-Ctl, D-Ctl was not degraded by proteases secreted by Candida albicans and was also stable in saliva. Using video microscopy, we also demonstrated that D-Ctl can rapidly enter C. albicans, but is unable to spread within a yeast colony unless from a mother cell to a daughter cell during cellular division. Besides, we revealed that the antifungal activity of D-Ctl could be synergized by voriconazole, an antifungal of reference in the treatment of Candida albicans related infections. In conclusion, D-Ctl can be considered as an effective, safe and stable antifungal and could be used alone or in a combination therapy with voriconazole to treat Candida albicans related diseases including oral candidosis.
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Dev NB, Mir SA, Gayen JR, Siddiqui JA, Mustapic M, Vaingankar SM. Cardiac electrical activity in a genomically "humanized" chromogranin a monogenic mouse model with hyperadrenergic hypertension. J Cardiovasc Transl Res 2014; 7:483-493. [PMID: 24821335 DOI: 10.1007/s12265-014-9563-7] [Citation(s) in RCA: 4] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Received: 03/21/2014] [Accepted: 04/06/2014] [Indexed: 12/16/2022]
Abstract
The prohormone chromogranin A (CHGA) is ubiquitously found in vesicles of adrenal chromaffin cells and adrenergic neurons, and it is processed to the hypotensive hormone peptide catestatin (CST). Both CHGA and CST regulate blood pressure and cardiac function. This study addresses their role in cardiac electrical activity. We have generated two genomically "humanized" transgenic mouse strains (Tg31CHGA+/+; Chga-/- (HumCHGA31) and Tg19CHGA+/+; Chga-/- (HumCHGA19)) with varied CHGA expression and the ability to rescue the Chga-/- phenotype (hypertensive, hyperadrenergic with dilated cardiomyopathy). The normotensive HumCHGA31 mice express CHGA at levels comparable to wild-type. In contrast, the hypertensive HumCHGA19 mice have low levels of CHGA. EKG recordings revealed that the QT interval, R-amplitude, and QRS time-voltage integral are markedly longer in HumCHGA19 compared to wild-type and HumCHGA31 mice. These differences are accompanied by increased heart rate and QT variability, indicating that ventricular assault happens in a status of low levels of circulating CST.
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Affiliation(s)
- Nagendu B Dev
- Department of Medicine, University of California at San Diego, USA
| | - Saiful A Mir
- Department of Medicine, University of California at San Diego, USA
| | | | - Jawed A Siddiqui
- Department of Medicine, University of California at San Diego, USA
| | - Maja Mustapic
- Department of Medicine, University of California at San Diego, USA
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4
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[Chromogranin A and neuroendocrine tumors]. ACTA ACUST UNITED AC 2012; 60:386-95. [PMID: 23271036 DOI: 10.1016/j.endonu.2012.10.003] [Citation(s) in RCA: 6] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [Key Words] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 07/12/2012] [Revised: 10/20/2012] [Accepted: 10/23/2012] [Indexed: 11/21/2022]
Abstract
Chromogranin A (CgA) is the most abundant granin in gastroenteropancreatic neuroendocrine tumors (GEP-NETs). As a tumor marker is moderately sensitive and nonspecific. Despite the limitations of testing methods, which require careful interpretation, especially in the case of gastrinomas, patients treated with somatostatin analogues, and poorly differentiated tumors, it is the best tumor marker in GEP-NETs and may be of value in other tumors with neuroendocrine differentiation. CgA may be used as a marker in blood or tissue samples through immunohistochemical techniques. CgA levels correlate with tumor burden and extension and may be used for diagnosis and monitoring of GEP-NETs, especially midgut carcinoids and endocrine pancreatic tumors. It is also useful as a prognostic marker for detection of recurrence and monitoring of response to different treatments.
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Gaede AH, Pilowsky PM. Catestatin, a chromogranin A-derived peptide, is sympathoinhibitory and attenuates sympathetic barosensitivity and the chemoreflex in rat CVLM. Am J Physiol Regul Integr Comp Physiol 2011; 302:R365-72. [PMID: 22129620 DOI: 10.1152/ajpregu.00409.2011] [Citation(s) in RCA: 23] [Impact Index Per Article: 1.8] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 12/15/2022]
Abstract
Hypertension is a major cause of morbidity. The neuropeptide catestatin [human chromogranin A-(352-372)] is a peptide product of the vesicular protein chromogranin A. Studies in the periphery and in vitro studies show that catestatin blocks nicotine-stimulated catecholamine release and interacts with β-adrenoceptors and histamine receptors. Catestatin immunoreactivity is present in the rostral ventrolateral medulla (RVLM), a key site for blood pressure control in the brain stem. Recently, we reported that microinjection of catestatin into the RVLM is sympathoexcitatory and increases barosensitivity. Here, we report the effects of microinjection of catestatin (1 mM, 50 nl) into the caudal ventrolateral medulla (CVLM) in urethane-anesthetized, bilaterally vagotomized, artificially ventilated Sprague-Dawley rats (n = 8). We recorded resting arterial pressure, splanchnic sympathetic nerve activity, phrenic nerve activity, heart rate, and measured cardiovascular homeostatic reflexes. Homeostatic reflexes were evaluated by measuring cardiovascular responses to carotid baroreceptor and peripheral chemoreceptor activation. Catestatin decreased basal levels of arterial pressure (-23 ± 4 mmHg), sympathetic nerve activity (-26.6 ± 5.7%), heart rate (-19 ± 5 bpm), and phrenic nerve amplitude (-16.8 ± 3.3%). Catestatin caused a 15% decrease in phrenic inspiratory period (T(i)) and a 16% increase in phrenic expiratory period (T(e)) but had no net effect on the phrenic interburst interval (T(tot)). Catestatin decreased sympathetic barosensitivity by 63.6% and attenuated the peripheral chemoreflex (sympathetic nerve response to brief hypoxia; range decreased 39.9%; slope decreased 30.1%). The results suggest that catestatin plays an important role in central cardiorespiratory control.
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Affiliation(s)
- Andrea H Gaede
- Australian School of Advanced Medicine, Macquarie University, North Ryde, NSW, Australia
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6
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Catestatin attenuates the effects of intrathecal nicotine and isoproterenol. Brain Res 2009; 1305:86-95. [DOI: 10.1016/j.brainres.2009.09.088] [Citation(s) in RCA: 21] [Impact Index Per Article: 1.4] [Reference Citation Analysis] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 08/27/2009] [Revised: 09/17/2009] [Accepted: 09/22/2009] [Indexed: 02/07/2023]
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Ait-Ali D, Stroth N, Sen JM, Eiden LE. PACAP-cytokine interactions govern adrenal neuropeptide biosynthesis after systemic administration of LPS. Neuropharmacology 2009; 58:208-14. [PMID: 19647754 DOI: 10.1016/j.neuropharm.2009.07.034] [Citation(s) in RCA: 16] [Impact Index Per Article: 1.1] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 05/23/2009] [Revised: 07/10/2009] [Accepted: 07/27/2009] [Indexed: 01/08/2023]
Abstract
We have examined induction of neuropeptide expression in adrenal medulla after treatment of mice with lipopolysaccharide (LPS), a model for septic shock, which activates both immune and stress responses in vivo. Messenger RNAs encoding vasoactive intestinal polypeptide (VIP) and galanin, both modulators of steroidogenesis in neighboring adrenal cortex, are up-regulated at 24 h (eight-fold for VIP and two-fold for galanin) after LPS injection, and remain elevated for the following 24 h. Up-regulation of VIP and galanin by LPS is abrogated in pituitary adenylate cyclase-activating polypeptide (PACAP)-deficient mice, suggesting an interaction between LPS, or LPS-induced cytokines, and PACAP released in adrenal medulla from the splanchnic nerve. Treatment of cultured chromaffin cells with 100 nM PACAP and 10 nM tumor necrosis factor-alpha (TNF-alpha), a cytokine whose production is elevated by LPS, results in long-term synergistic up-regulation of VIP and galanin mRNA. PACAP blocks the earlier induction by TNF-alpha of mRNA encoding inhibitor of NF-kappaB alpha (I kappaB alpha), normally a negative autoregulator of TNF-alpha signaling through nuclear factor-kappaB (NF-kappaB), without affecting the induction of TNF-alpha-induced protein 3 (TNFAIP3), another NF-kappaB-dependent gene induced by TNF-alpha in chromaffin cells. By acting downstream of NF-kappaB to inhibit I kappaB alpha gene induction by TNF-alpha, PACAP may block I kappaB alpha-dependent negative autoregulation of TNF-alpha signaling through NF-kappaB, prolonging TNF-alpha-dependent signaling to neuropeptide-encoding genes in chromaffin cells. This mechanism may also underlie PACAP-dependent neuropeptide gene induction by LPS in vivo.
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Affiliation(s)
- Djida Ait-Ali
- Section on Molecular Neuroscience, Laboratory of Cellular and Molecular Regulation, National Institute of Mental Health, Bethesda, MD 20892, USA
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8
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Egger M, Beer AGE, Theurl M, Schgoer W, Hotter B, Tatarczyk T, Vasiljevic D, Frauscher S, Marksteiner J, Patsch JR, Schratzberger P, Djanani AM, Mahata SK, Kirchmair R. Monocyte migration: a novel effect and signaling pathways of catestatin. Eur J Pharmacol 2008; 598:104-11. [PMID: 18834877 DOI: 10.1016/j.ejphar.2008.09.016] [Citation(s) in RCA: 72] [Impact Index Per Article: 4.5] [Reference Citation Analysis] [Abstract] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Received: 12/18/2007] [Revised: 08/09/2008] [Accepted: 09/04/2008] [Indexed: 12/17/2022]
Abstract
Several members of the neuropeptide family exert chemotactic actions on blood monocytes consistent with neurogenic inflammation. Furthermore, chromogranin A (CgA) containing Alzheimer plaques are characterized by extensive microglia activation and such activation induces neuronal damage. We therefore hypothesized that the catecholamine release inhibitory peptide catestatin (hCgA(352-372)) would induce directed monocyte migration. We demonstrate that catestatin dose-dependently stimulates chemotaxis of human peripheral blood monocytes, exhibiting its maximal effect at a concentration of 1 nM comparable to the established chemoattractant formylated peptide Met-Leu-Phe (fMLP). The naturally occurring catestatin variants differed in their chemotactic property insofar as that the Pro370Leu variant was even more potent than wild type, whereas the Gly364Ser variant was less effective. Specificity of this effect was shown by inhibition of catestatin-induced chemotaxis by a specific neutralizing antibody. In addition, catestatin mediated effect was blocked by dimethylsphingosine and treatment with endothelial differentiation gene (Edg)-1 and Edg-3 antisense RNA as well as by incubation with pertussis toxin and genistein indicating involvement of tyrosine kinase receptor-, G-protein- and sphingosine-1-phosphate signaling. Catestatin also stimulated Akt- and extracellular signal related kinase (ERK)-phosphorylation and catestatin-induced chemotaxis was blocked by blockers of phosphoinositide-3 (PI-3) kinase and nitric oxide as well as by inhibition of the mitogen-activated protein kinases (MAPK) system indicating involvement of these signal transduction pathways. In summary, our data indicate that catestatin induces monocyte chemotaxis by activation of a variety of signal transduction pathways suggesting a role of this peptide as an inflammatory cytokine.
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Affiliation(s)
- Margot Egger
- Department of Internal Medicine 1, Medical University of Innsbruck, Innsbruck, Austria
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9
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Wen G, Wessel J, Zhou W, Ehret GB, Rao F, Stridsberg M, Mahata SK, Gent PM, Das M, Cooper RS, Chakravarti A, Zhou H, Schork NJ, O’Connor DT, Hamilton BA. An ancestral variant of Secretogranin II confers regulation by PHOX2 transcription factors and association with hypertension. Hum Mol Genet 2007; 16:1752-64. [PMID: 17584765 PMCID: PMC2695823 DOI: 10.1093/hmg/ddm123] [Citation(s) in RCA: 26] [Impact Index Per Article: 1.5] [Reference Citation Analysis] [Abstract] [MESH Headings] [Grants] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/14/2022] Open
Abstract
Granins regulate secretory vesicle formation in neuroendocrine cells and granin-derived peptides are co-released with neurotransmitters as modulatory signals at sympathetic sites. We report evidence for association between a regulatory polymorphism in Secretogranin II (SCG2) and hypertension in African-American subjects. The minor allele is ancestral in the human lineage and is associated with disease risk in two case-control studies and with elevated blood pressure in a separate familial study. Mechanistically, the ancestral allele acts as a transcriptional enhancer in cells that express endogenous Scg2, whereas the derived allele does not. ARIX (PHOX2A) and PHOX2B are identified as potential transactivating factors by oligonucleotide affinity chromatography and mass spectrometry and confirmed by chromatin immunoprecipitation. Each of these transcription factors preferentially binds the risk allele, both in vitro and in vivo. Population genetic considerations suggest positive selection of the protective allele within the human lineage. These results identify a common regulatory variation in SCG2 and implicate granin gene expression in the control of human blood pressure and susceptibility to hypertension.
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Affiliation(s)
- Gen Wen
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Jennifer Wessel
- Department of Psychiatry, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Department of Family and Preventive Medicine, UCSD and Graduate School of Public Health, San Diego State University Joint Doctoral Program in Public Health Epidemiology
- Scripps Genomic Medicine and The Scripps Research Institute, La Jolla, CA
| | - Weidong Zhou
- Ludwig Institute for Cancer Research, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Department of Cellular and Molecular Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Georg B. Ehret
- McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205
| | - Fangwen Rao
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Mats Stridsberg
- Department of Medical Sciences, University Hospital, Uppsala, Sweden
| | - Sushil K. Mahata
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- VA San Diego Healthcare System
| | - Peter M. Gent
- Biomedical Sciences Graduate Program, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Madhusudan Das
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Richard S. Cooper
- Department of Preventive Medicine and Epidemiology, Loyola University Chicago Stritch School of Medicine, Maywood, Illinois 60153
| | - Aravinda Chakravarti
- McKusick-Nathans Institute of Genetic Medicine, Johns Hopkins University School of Medicine, Baltimore, Maryland 21205
| | - Huilin Zhou
- Ludwig Institute for Cancer Research, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Department of Cellular and Molecular Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Biomedical Sciences Graduate Program, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Moores UCSD Cancer Center, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Nicholas J. Schork
- Department of Psychiatry, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Biomedical Sciences Graduate Program, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Center for Human Genetics and Genomics, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Scripps Genomic Medicine and The Scripps Research Institute, La Jolla, CA
| | - Daniel T. O’Connor
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Biomedical Sciences Graduate Program, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Center for Human Genetics and Genomics, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Moores UCSD Cancer Center, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
| | - Bruce A. Hamilton
- Department of Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Department of Cellular and Molecular Medicine, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Biomedical Sciences Graduate Program, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- Moores UCSD Cancer Center, University of California, San Diego School of Medicine 9500 Gilman Drive, La Jolla, California 92093
- author for correspondence Telephone: (858) 822-1055
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10
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Peinado JR, Vazquez-Martinez R, Cruz-García D, Ruiz-Navarro A, Anouar Y, Tonon MC, Vaudry H, Gracia-Navarro F, Castano JP, Malagón MM. Differential expression and processing of chromogranin A and secretogranin II in relation to the secretory status of endocrine cells. Endocrinology 2006; 147:1408-18. [PMID: 16357044 DOI: 10.1210/en.2005-0975] [Citation(s) in RCA: 11] [Impact Index Per Article: 0.6] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Submit a Manuscript] [Subscribe] [Scholar Register] [Indexed: 11/19/2022]
Abstract
Chromogranin A (CgA) and secretogranin II (SgII) are neuroendocrine secretory proteins that participate in regulation of the secretory pathway and also serve as precursors of biologically active peptides. To investigate whether there is a relationship between the expression, distribution, and processing of CgA and SgII and the degree of secretory activity, we employed two melanotrope subpopulations of the pituitary intermediate lobe that exhibit opposite secretory phenotypes. Thus, although one of the melanotrope subtypes shows high secretory activity, the other exhibits characteristics of a hormone storage phenotype. Our data show that SgII expression levels were higher in secretory melanotropes, whereas CgA expression showed similar rates in both cell subsets. The use of various antibodies revealed the presence of the unprocessed proteins as well as three CgA-derived peptides (67, 45, and 30 kDa) and six SgII-derived peptides (81, 66, 55, 37, 32, and 30 kDa) in both subpopulations. However, the smallest molecular forms of both granins predominated in secretory melanotropes, whereas the largest SgII- and CgA-immunoreactive peptides were more abundant in storage melanotropes, which is suggestive of a more extensive processing of granins in the secretory subset. Confocal microscopy studies showed that CgA immunoreactivity was higher in storage cells, but SgII immunoreactivity was higher in secretory melanotropes. Taken together, our results indicate that SgII and CgA are differentially regulated in melanotrope subpopulations. Thus, SgII expression is strongly related to the secretory activity of melanotrope cells, whereas CgA expression may not be related to secretory rate, but, rather, to hormone storage in this endocrine cell type.
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Affiliation(s)
- J R Peinado
- Department of Cell Biology, Physiology, and Immunology, Campus de Rabanales. Edificio Severo Ochoa, Planta 3, University of Cordoba, E-14014 Cordoba, Spain
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11
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Oubre CM, Zhang X, Clements KE, Porter TE, Berghman LR. Immunohistochemical assessment of the neurosecretory cells of the chicken thymus using a novel monoclonal antibody against avian chromogranin A. DEVELOPMENTAL AND COMPARATIVE IMMUNOLOGY 2004; 28:337-345. [PMID: 14698219 DOI: 10.1016/j.dci.2003.08.008] [Citation(s) in RCA: 2] [Impact Index Per Article: 0.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 05/24/2023]
Abstract
An immunocytochemical approach to the identification of neuroendocrine cells in the thymus of the chicken was taken based on a novel monoclonal antibody against turkey chromogranin A (CgA), a classic marker protein for neuroendocrine cells. CgA-immunoreactive cells were readily observed in the thymus, and were typically confined to the medullary side of the corticomedullary junction of the thymic lobules. Reversed transcription PCR confirmed local production of CgA in the thymus. The majority of CgA+ cells were small and round or oval in shape but some cells were larger and had conspicuous extensions. Immunofluorescent double staining experiments with antibodies against Neuron-specific enolase and with a neural crest marker (HNK-1) indicated no demonstrable overlap between the CgA-positive cells and either of the above cell populations, demonstrating the existence of three distinct neuronal/neuroendocrine cell populations in the avian thymus.
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Affiliation(s)
- Cherie M Oubre
- Department of Biology, Texas A & M University, 77843, College Station, TX, USA
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12
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Krüger PG, Mahata SK, Helle KB. Catestatin (CgA344-364) stimulates rat mast cell release of histamine in a manner comparable to mastoparan and other cationic charged neuropeptides. REGULATORY PEPTIDES 2003; 114:29-35. [PMID: 12763637 DOI: 10.1016/s0167-0115(03)00069-7] [Citation(s) in RCA: 66] [Impact Index Per Article: 3.1] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Subscribe] [Scholar Register] [Indexed: 12/17/2022]
Abstract
Catestatin (bovine CgA(344-364)) is a cationic peptide, which besides reducing catecholamine secretion from chromaffin cells in vitro also acts a potent vasodilator in the rat in vivo. The alleged histamine releasing effect of catestatin was tested in vitro in rat mast cells. The most active domain of catestatin (bovine CgA(344-358): RSMRLSFRARGYGFR) caused concentration-dependent (0.01-5 microM) release of histamine from peritoneal and pleural mast cells. The potency and efficacy of catestatin was higher than for the wasp venom peptide, mastoparan. Only in the pleural cells was neurotensin (NT) more potent than catestatin, mastoparan and substance P (SP), consistent with a receptor-mediated histamine release by neurotensin. Amongst these cationic peptides, substance P was least effective. The acidic CgA peptide (WE-14, bovine CgA (324-337)) neither stimulated nor modulated histamine release by the cationic peptides. The catestatin and neurotensin evoked histamine release were suppressed by pertussis toxin (PTX), suggesting involvement of a G(i) subunit. Electron micrographs of rat pleural mast cells responding to catestatin revealed a concentration-dependent discharge of granular material. We propose that catestatin activates histamine release from rat mast cells by a mechanism analogous to that already established for mastoparan and other amphiphilic cationic neuropeptides (the peptidergic pathway) and distinct from the mechanism of inhibition of catecholamine release from chromaffin cells.
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13
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Krüuger PG, Mahata SK, Helle KB. Catestatin (chromogranin A344-358) stimulates release of histamine from rat pleural and peritoneal mast cells. Ann N Y Acad Sci 2002; 971:349-51. [PMID: 12438149 DOI: 10.1111/j.1749-6632.2002.tb04493.x] [Citation(s) in RCA: 8] [Impact Index Per Article: 0.4] [Reference Citation Analysis] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/30/2022]
Affiliation(s)
- P-G Krüuger
- Department of Anatomy and Cell Biology, University of Bergen, Bergen, Norway
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14
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Hill RM, Coates LC, Parmar PK, Mezey E, Pearson JF, Birch NP. Expression and functional characterization of the serine protease inhibitor neuroserpin in endocrine cells. Ann N Y Acad Sci 2002; 971:406-15. [PMID: 12438159 DOI: 10.1111/j.1749-6632.2002.tb04503.x] [Citation(s) in RCA: 12] [Impact Index Per Article: 0.5] [Reference Citation Analysis] [Abstract] [MESH Headings] [Track Full Text] [Journal Information] [Subscribe] [Scholar Register] [Indexed: 11/30/2022]
Abstract
Serine proteases play essential roles in a wide variety of cellular processes in endocrine cells. There is a growing interest in the roles of serine protease inhibitors, or serpins, as key regulators of their activity. We have cloned two neuroserpin cDNAs from a rat pituitary cDNA library and confirmed tissue plasminogen activator as a potential target for this inhibitor. We show that neuroserpin transcripts are expressed by endocrine cells in the adrenal and pituitary glands and that immunoreactive neuroserpin is stored in densely cored secretory granules in these cells. Overexpression of neuroserpin in an anterior pituitary corticotroph cell line results in the extension of neurite-like processes, suggesting that neuroserpin may play a role in cell communication, cell adhesion, and/or cell migration.
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Affiliation(s)
- Rena M Hill
- Molecular Neuroendocrinology Laboratory, School of Biological Sciences, The University of Auckland, Auckland, New Zealand
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