24 results on '"Hindmarch, C."'
Search Results
2. Hypothalamic Transcriptome Plasticity in Two Rodent Species Reveals Divergent Differential Gene Expression But Conserved Pathways
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Stewart, L., Hindmarch, C. C. T., Qiu, J., Tung, Y.-C. L., Yeo, G. S. H., and Murphy, D.
- Published
- 2011
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3. The Transcriptome of the Rat Hypothalamic-Neurohypophyseal System is Highly Strain-Dependent
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Hindmarch, C., Yao, S., Hesketh, S., Jessop, D., Harbuz, M., Paton, J., and Murphy, D.
- Published
- 2007
4. Correction: A RNA-Seq Analysis of the Rat Supraoptic Nucleus Transcriptome: Effects of Salt Loading on Gene Expression
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Johnson, Kory R., primary, Hindmarch, C. C. T., additional, Salinas, Yasmmyn D., additional, Shi, YiJun, additional, Greenwood, Michael, additional, Hoe, See Ziau, additional, Murphy, David, additional, and Gainer, Harold, additional
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- 2015
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5. A RNA-Seq Analysis of the Rat Supraoptic Nucleus Transcriptome: Effects of Salt Loading on Gene Expression
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Johnson, Kory R., primary, Hindmarch, C. C. T., additional, Salinas, Yasmmyn D., additional, Shi, YiJun, additional, Greenwood, Michael, additional, Hoe, See Ziau, additional, Murphy, David, additional, and Gainer, Harold, additional
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- 2015
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6. 209 TRANSCRIPTOME ANALYSIS IDENTIFIES A NOVEL MECHANISM OF CAMP-MEDIATED GROWTH ARREST IN VSMC: PKA AND EPAC SYNERGISE TO SUPPRESS EGR1 EXPRESSION
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Kimura, T, primary, Hindmarch, C, additional, Newby, A, additional, and Bond, M, additional
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- 2013
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7. The Hypothalamic-Neurohypophyseal System: From Genome to Physiology
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Murphy, D., primary, Konopacka, A., additional, Hindmarch, C., additional, Paton, J. F. R., additional, Sweedler, J. V., additional, Gillette, M. U., additional, Ueta, Y., additional, Grinevich, V., additional, Lozic, M., additional, and Japundzic-Zigon, N., additional
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- 2012
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8. Transcription Factor Expression in the Hypothalamo-Neurohypophyseal System of the Dehydrated Rat: Upregulation of Gonadotrophin Inducible Transcription Factor 1 mRNA Is Mediated by cAMP-Dependent Protein Kinase A
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Qiu, J., primary, Yao, S., additional, Hindmarch, C., additional, Antunes, V., additional, Paton, J., additional, and Murphy, D., additional
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- 2007
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9. Secondary losses for siblings
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Hindmarch, C, primary
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- 1995
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10. Whole transcriptome organisation in the dehydrated supraoptic nucleus.
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Hindmarch, C. C. T., Franses, P., Goodwin, B., and Murphy, D.
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- 2013
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11. On being open and letting go.
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Hindmarch C
- Published
- 2009
12. Multi-omic and multispecies analysis of right ventricular dysfunction.
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Mendelson JB, Sternbach JD, Doyle MJ, Mills L, Hartweck LM, Tollison W, Carney JP, Lahti MT, Bianco RW, Kalra R, Kazmirczak F, Hindmarch C, Archer SL, Prins KW, and Martin CM
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- Humans, Rats, Animals, Swine, Multiomics, Proteomics, Hypertrophy, Right Ventricular diagnostic imaging, Hypertrophy, Right Ventricular etiology, Hypertrophy, Right Ventricular pathology, Ventricular Function, Right, Disease Models, Animal, Ventricular Remodeling physiology, Ventricular Dysfunction, Right, Heart Failure
- Abstract
Background: Right ventricular failure (RVF) is a leading cause of morbidity and mortality in multiple cardiovascular diseases, but there are no treatments for RVF as therapeutic targets are not clearly defined. Contemporary transcriptomic/proteomic evaluations of RVF are predominately conducted in small animal studies, and data from large animal models are sparse. Moreover, a comparison of the molecular mediators of RVF across species is lacking., Methods: Transcriptomics and proteomics analyses defined the pathways associated with cardiac magnetic resonance imaging (MRI)-derived values of RV hypertrophy, dilation, and dysfunction in control and pulmonary artery banded (PAB) pigs. Publicly available data from rat monocrotaline-induced RVF and pulmonary arterial hypertension patients with preserved or impaired RV function were used to compare molecular responses across species., Results: PAB pigs displayed significant right ventricle/ventricular (RV) hypertrophy, dilation, and dysfunction as quantified by cardiac magnetic resonance imaging. Transcriptomic and proteomic analyses identified pathways associated with RV dysfunction and remodeling in PAB pigs. Surprisingly, disruptions in fatty acid oxidation (FAO) and electron transport chain (ETC) proteins were different across the 3 species. FAO and ETC proteins and transcripts were mostly downregulated in rats but were predominately upregulated in PAB pigs, which more closely matched the human response. All species exhibited similar dysregulation of the dilated cardiomyopathy and arrhythmogenic right ventricular cardiomyopathy pathways., Conclusions: The porcine metabolic molecular signature was more similar to human RVF than rodents. These data suggest there may be divergent molecular responses of RVF across species, and pigs may more accurately recapitulate metabolic aspects of human RVF., (Copyright © 2023 International Society for the Heart and Lung Transplantation. Published by Elsevier Inc. All rights reserved.)
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- 2024
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13. BDNF gene Val66Met polymorphisms as a predictor for clinical presentation in schizophrenia - recent findings.
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Farcas A, Hindmarch C, and Iftene F
- Abstract
Schizophrenia is a highly heritable, severe psychiatric disorder that involves dysfunctions in thinking, emotions, and behavior, with a profound impact on a person's ability to function normally in their daily life. Research efforts continue to focus on elucidating possible genetic underlying mechanisms of the disorder. Although the genetic loci identified to date to be significantly associated with schizophrenia risk do not represent disease-causing factors, each one of them could be seen as a possible incremental contributor. Considering the importance of finding new and more efficient pharmacological approaches to target the complex symptomatology of this disorder, in this scoping review, we are focusing on the most recent findings in studies aiming to elucidate the contribution of one of the genetic factors involved - the BDNF gene Val66Met polymorphisms. Here we performed a systematic search in Pubmed, Embase, and Web of Science databases with the search terms: (BDNF gene polymorphism) AND (schizophrenia) for articles published in the last 5 years. To be selected for this review, articles had to report on studies where genotyping for the BDNF Val66Met polymorphism was performed in participants diagnosed with schizophrenia (or schizophrenia spectrum disorders or first-episode psychosis). The search provided 35 results from Pubmed, 134 results from Embase, and 118 results from the Web of Science database. Twenty-two articles were selected to be included in this review, all reporting on studies where an implication of the BDNF Val66Met polymorphisms in the disorder's pathophysiology was sought to be elucidated. These studies looked at BDNF gene Val66Met polymorphism variants, their interactions with other genes of interest, and different facets of the illness. The Met/Met genotype was found to be associated with higher PANSS positive scores. Furthermore, Met/Met homozygous individuals appear to present with worse cognitive function and lower levels of serum BDNF. In the Val/Val genotype carriers, increased BDNF levels were found to correlate with weight gain under Risperidone treatment. However, due to heterogeneous results, the diversity in study populations and studies' small sample sizes, generalizations cannot be made. Our findings emphasize the need for further research dedicated to clarifying the role of gene polymorphisms in antipsychotic treatment to enhance specificity and efficacy in the treatment of schizophrenia., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Farcas, Hindmarch and Iftene.)
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- 2023
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14. A Multi-omic and Multi-Species Analysis of Right Ventricular Failure.
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Mendelson JB, Sternbach JD, Doyle MJ, Mills L, Hartweck LM, Tollison W, Carney JP, Lahti MT, Bianco RW, Kalra R, Kazmirczak F, Hindmarch C, Archer SL, Prins KW, and Martin CM
- Abstract
Right ventricular failure (RVF) is a leading cause of morbidity and mortality in multiple cardiovascular diseases, but there are no approved treatments for RVF as therapeutic targets are not clearly defined. Contemporary transcriptomic/proteomic evaluations of RVF are predominately conducted in small animal studies, and data from large animal models are sparse. Moreover, a comparison of the molecular mediators of RVF across species is lacking. Here, we used transcriptomics and proteomics analyses to define the molecular pathways associated with cardiac MRI-derived values of RV hypertrophy, dilation, and dysfunction in pulmonary artery banded (PAB) piglets. Publicly available data from rat monocrotaline-induced RVF and pulmonary arterial hypertension patients with preserved or impaired RV function were used to compare the three species. Transcriptomic and proteomic analyses identified multiple pathways that were associated with RV dysfunction and remodeling in PAB pigs. Surprisingly, disruptions in fatty acid oxidation (FAO) and electron transport chain (ETC) proteins were different across the three species. FAO and ETC proteins and transcripts were mostly downregulated in rats, but were predominately upregulated in PAB pigs, which more closely matched the human data. Thus, the pig PAB metabolic molecular signature was more similar to human RVF than rodents. These data suggest there may be divergent molecular responses of RVF across species, and that pigs more accurately recapitulate the metabolic aspects of human RVF.
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- 2023
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15. Transcriptomic analysis of Macrobrachium rosenbergii (giant fresh water prawn) post-larvae in response to M. rosenbergii nodavirus (MrNV) infection: de novo assembly and functional annotation.
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Pasookhush P, Hindmarch C, Sithigorngul P, Longyant S, Bendena WG, and Chaivisuthangkura P
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- Animals, Aquaculture, Fresh Water virology, Gene Expression Profiling, Gene Ontology, Immunity genetics, Molecular Sequence Annotation, Palaemonidae immunology, RNA Virus Infections genetics, RNA Virus Infections immunology, Transcriptome, Nodaviridae physiology, Palaemonidae genetics, Palaemonidae virology, RNA Virus Infections veterinary
- Abstract
Background: Macrobrachium rosenbergii, is one of a major freshwater prawn species cultured in Southeast Asia. White tail disease (WTD), caused by Macrobrachium rosenbergii nodavirus (MrNV), is a serious problem in farm cultivation and is responsible for up to 100% mortality in the post larvae stage. Molecular data on how M. rosenbergii post-larvae launches an immune response to an infection with MrNV is not currently available. We therefore compared the whole transcriptomic sequence of M. rosenbergii post-larvae before and after MrNV infection., Results: Transcriptome for M. rosenbergii post-larvae demonstrated high completeness (BUSCO Complete: 83.4%, fragmentation: 13%, missing:3.3%, duplication:16.2%; highest ExN50 value: 94%). The assembled transcriptome consists of 96,362 unigenes with N
50 of 1308 bp. The assembled transcriptome was successfully annotated against the NCBI non-redundant arthropod database (33.75%), UniProt database (26.73%), Gene Ontology (GO) (18.98%), Evolutionary Genealogy of Genes: Non-supervised Orthologous Groups (EggNOG) (20.88%), and Kyoto Encyclopedia of Genes and Genome pathway (KEGG) (20.46%). GO annotations included immune system process, signaling, response to stimulus, and antioxidant activity. Differential abundance analysis using EdgeR showed 2413 significantly up-regulated genes and 3125 significantly down-regulated genes during the infection of MrNV., Conclusions: This study reported a highly complete transcriptome from the post-larvae stage of giant river prawn, M. rosenbergii. Differential abundant transcripts during MrNV infection were identified and validated by qPCR, many of these differentially abundant transcripts as key players in antiviral immunity. These include known members of the innate immune response with the largest expression change occurring in the M. rosenbergii post-larvae after MrNV infection such as antiviral protein, C-type lectin, prophenol oxidase, caspase, ADP ribosylation factors, and dicer.- Published
- 2019
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16. Epigenetic Dysregulation of the Dynamin-Related Protein 1 Binding Partners MiD49 and MiD51 Increases Mitotic Mitochondrial Fission and Promotes Pulmonary Arterial Hypertension: Mechanistic and Therapeutic Implications.
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Chen KH, Dasgupta A, Lin J, Potus F, Bonnet S, Iremonger J, Fu J, Mewburn J, Wu D, Dunham-Snary K, Theilmann AL, Jing ZC, Hindmarch C, Ormiston ML, Lawrie A, and Archer SL
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- Animals, Apoptosis, Cell Proliferation, Disease Models, Animal, Dynamins, Epigenesis, Genetic, Humans, MicroRNAs genetics, Mitochondrial Dynamics, Protein Binding, Pulmonary Arterial Hypertension, RNA, Small Interfering genetics, Rats, Telangiectasis genetics, GTP Phosphohydrolases genetics, Hypertension, Pulmonary genetics, Microtubule-Associated Proteins genetics, Mitochondria genetics, Mitochondrial Proteins genetics, Myocytes, Smooth Muscle physiology, Peptide Elongation Factors genetics, Pulmonary Artery pathology, Telangiectasis congenital
- Abstract
Background: Mitotic fission is increased in pulmonary arterial hypertension (PAH), a hyperproliferative, apoptosis-resistant disease. The fission mediator dynamin-related protein 1 (Drp1) must complex with adaptor proteins to cause fission. Drp1-induced fission has been therapeutically targeted in experimental PAH. Here, we examine the role of 2 recently discovered, poorly understood Drp1 adapter proteins, mitochondrial dynamics protein of 49 and 51 kDa (MiD49 and MiD51), in normal vascular cells and explore their dysregulation in PAH., Methods: Immunoblots of pulmonary artery smooth muscle cells (control, n=6; PAH, n=8) and immunohistochemistry of lung sections (control, n=6; PAH, n=6) were used to assess the expression of MiD49 and MiD51. The effects of manipulating MiDs on cell proliferation, cell cycle, and apoptosis were assessed in human and rodent PAH pulmonary artery smooth muscle cells with flow cytometry. Mitochondrial fission was studied by confocal imaging. A microRNA (miR) involved in the regulation of MiD expression was identified using microarray techniques and in silico analyses. The expression of circulatory miR was assessed with quantitative reverse transcription-polymerase chain reaction in healthy volunteers (HVs) versus patients with PAH from Sheffield, UK (plasma: HV, n=29, PAH, n=27; whole blood: HV, n=11, PAH, n=14) and then confirmed in a cohort from Beijing, China (plasma: HV, n=19, PAH, n=36; whole blood: HV, n=20, PAH, n=39). This work was replicated in monocrotaline and Sugen 5416-hypoxia, preclinical PAH models. Small interfering RNAs targeting MiDs or an miR mimic were nebulized to rats with monocrotaline-induced PAH (n=4-10)., Results: MiD expression is increased in PAH pulmonary artery smooth muscle cells, which accelerates Drp1-mediated mitotic fission, increases cell proliferation, and decreases apoptosis. Silencing MiDs (but not other Drp1 binding partners, fission 1 or mitochondrial fission factor) promotes mitochondrial fusion and causes G1-phase cell cycle arrest through extracellular signal-regulated kinases 1/2- and cyclin-dependent kinase 4-dependent mechanisms. Augmenting MiDs in normal cells causes fission and recapitulates the PAH phenotype. MiD upregulation results from decreased miR-34a-3p expression. Circulatory miR-34a-3p expression is decreased in both patients with PAH and preclinical models of PAH. Silencing MiDs or augmenting miR-34a-3p regresses experimental PAH., Conclusions: In health, MiDs regulate Drp1-mediated fission, whereas in disease, epigenetic upregulation of MiDs increases mitotic fission, which drives pathological proliferation and apoptosis resistance. The miR-34a-3p-MiD pathway offers new therapeutic targets for PAH., (© 2018 American Heart Association, Inc.)
- Published
- 2018
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17. Over-expression of V1A receptors in PVN modulates autonomic cardiovascular control.
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Lozić M, Tasić T, Martin A, Greenwood M, Šarenac O, Hindmarch C, Paton JF, Murphy D, and Japundžić-Žigon N
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- Animals, Baroreflex, Male, Rats, Wistar, Receptors, Vasopressin genetics, Up-Regulation, Blood Pressure, Heart Rate, Paraventricular Hypothalamic Nucleus physiology, Receptors, Vasopressin metabolism, Stress, Physiological
- Abstract
The hypothalamic paraventricular nucleus (PVN) is a key integrative site for the neuroendocrine control of the circulation and of the stress response. It is also a major source of the neuropeptide hormone vasopressin (VP), and co-expresses V1a receptors (V1aR). We thus sought to investigate the role of V1aR in PVN in cardiovascular control in response to stress. Experiments were performed in male Wistar rats equipped with radiotelemetric device. The right PVN was transfected with adenoviral vectors (Ads) engineered to over-express V1aR along with an enhanced green fluorescent protein (eGFP) tag. Control groups were PVN transfected with Ads expressing eGFP alone, or wild-type rats (Wt). Rats were recorded with and without selective blockade of V1aR (V1aRX) in PVN under both baseline and stressed conditions. Blood pressure (BP), heart rate (HR), their short-term variabilities, and baroreflex sensitivity (BRS) were evaluated using spectral analysis and the sequence method, respectively. Under baseline physiological conditions,V1aR rats exhibited reduced BRS and a marked increase of BP and HR variability during exposure to stress. These effects were all prevented by V1aRX pretreatment. In Wt rats, V1aRX did not modify cardiovascular parameters under baseline conditions, and prevented BP variability increase by stress. However, V1aRX pretreatment did not modify baroreflex desensitization by stress in either rat strain. It follows that increased expression of V1aR in PVN influences autonomic cardiovascular regulation and demarcates vulnerability to stress. We thus suggest a possible role of hypothalamic V1aR in cardiovascular pathology., (Copyright © 2016 Elsevier Ltd. All rights reserved.)
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- 2016
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18. Osmoregulation requires brain expression of the renal Na-K-2Cl cotransporter NKCC2.
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Konopacka A, Qiu J, Yao ST, Greenwood MP, Greenwood M, Lancaster T, Inoue W, Mecawi AS, Vechiato FM, de Lima JB, Coletti R, Hoe SZ, Martin A, Lee J, Joseph M, Hindmarch C, Paton J, Antunes-Rodrigues J, Bains J, and Murphy D
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- Animals, Arginine Vasopressin blood, Arginine Vasopressin drug effects, Bumetanide pharmacology, Dehydration physiopathology, Furosemide pharmacology, Gene Expression drug effects, Hypothalamo-Hypophyseal System cytology, Hypothalamo-Hypophyseal System drug effects, Male, Midline Thalamic Nuclei physiology, Neurons drug effects, Neurons physiology, Optic Chiasm physiology, Pituitary Gland, Posterior cytology, Pituitary Gland, Posterior drug effects, RNA, Small Interfering pharmacology, Rats, Rats, Sprague-Dawley, Rats, Transgenic, Sodium Potassium Chloride Symporter Inhibitors pharmacology, Solute Carrier Family 12, Member 1 biosynthesis, Water-Electrolyte Balance drug effects, Water-Electrolyte Balance physiology, Hypothalamo-Hypophyseal System metabolism, Osmoregulation physiology, Pituitary Gland, Posterior metabolism, Solute Carrier Family 12, Member 1 metabolism
- Abstract
The Na-K-2Cl cotransporter 2 (NKCC2) was thought to be kidney specific. Here we show expression in the brain hypothalamo-neurohypophyseal system (HNS), wherein upregulation follows osmotic stress. The HNS controls osmotic stability through the synthesis and release of the neuropeptide hormone, arginine vasopressin (AVP). AVP travels through the bloodstream to the kidney, where it promotes water conservation. Knockdown of HNS NKCC2 elicited profound effects on fluid balance following ingestion of a high-salt solution-rats produced significantly more urine, concomitant with increases in fluid intake and plasma osmolality. Since NKCC2 is the molecular target of the loop diuretics bumetanide and furosemide, we asked about their effects on HNS function following disturbed water balance. Dehydration-evoked GABA-mediated excitation of AVP neurons was reversed by bumetanide, and furosemide blocked AVP release, both in vivo and in hypothalamic explants. Thus, NKCC2-dependent brain mechanisms that regulate osmotic stability are disrupted by loop diuretics in rats., (Copyright © 2015 the authors 0270-6474/15/355144-12$15.00/0.)
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- 2015
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19. The use of protein-DNA, chromatin immunoprecipitation, and transcriptome arrays to describe transcriptional circuits in the dehydrated male rat hypothalamus.
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Qiu J, Kleineidam A, Gouraud S, Yao ST, Greenwood M, Hoe SZ, Hindmarch C, and Murphy D
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- Animals, DNA metabolism, DNA-Binding Proteins metabolism, Dehydration metabolism, Gene Expression Regulation, Hypothalamus chemistry, Male, Promoter Regions, Genetic, Rats, Rats, Sprague-Dawley, Transcription Factors metabolism, Transcriptome, Chromatin Immunoprecipitation, Dehydration genetics, Gene Expression Profiling, Gene Regulatory Networks, Hypothalamus metabolism, Microarray Analysis methods
- Abstract
The supraoptic nucleus (SON) of the hypothalamus is responsible for maintaining osmotic stability in mammals through its elaboration of the antidiuretic hormone arginine vasopressin. Upon dehydration, the SON undergoes a function-related plasticity, which includes remodeling of morphology, electrical properties, and biosynthetic activity. This process occurs alongside alterations in steady state transcript levels, which might be mediated by changes in the activity of transcription factors. In order to identify which transcription factors might be involved in changing patterns of gene expression, an Affymetrix protein-DNA array analysis was carried out. Nuclear extracts of SON from dehydrated and control male rats were analyzed for binding to the 345 consensus DNA transcription factor binding sequences of the array. Statistical analysis revealed significant changes in binding to 26 consensus elements, of which EMSA confirmed increased binding to signal transducer and activator of transcription (Stat) 1/Stat3, cellular Myelocytomatosis virus-like cellular proto-oncogene (c-Myc)-Myc-associated factor X (Max), and pre-B cell leukemia transcription factor 1 sequences after dehydration. Focusing on c-Myc and Max, we used quantitative PCR to confirm previous transcriptomic analysis that had suggested an increase in c-Myc, but not Max, mRNA levels in the SON after dehydration, and we demonstrated c-Myc- and Max-like immunoreactivities in SON arginine vasopressin-expressing cells. Finally, by comparing new data obtained from Roche-NimbleGen chromatin immunoprecipitation arrays with previously published transcriptomic data, we have identified putative c-Myc target genes whose expression changes in the SON after dehydration. These include known c-Myc targets, such as the Slc7a5 gene, which encodes the L-type amino acid transporter 1, ribosomal protein L24, histone deactylase 2, and the Rat sarcoma proto-oncogene (Ras)-related nuclear GTPase.
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- 2014
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20. Overexpression of oxytocin receptors in the hypothalamic PVN increases baroreceptor reflex sensitivity and buffers BP variability in conscious rats.
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Lozić M, Greenwood M, Šarenac O, Martin A, Hindmarch C, Tasić T, Paton J, Murphy D, and Japundžić-Žigon N
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- Animals, Heart Rate physiology, Male, Rats, Wistar, Baroreflex physiology, Blood Pressure physiology, Paraventricular Hypothalamic Nucleus physiology, Receptors, Oxytocin physiology
- Abstract
Background and Purpose: The paraventricular nucleus (PVN) of the hypothalamus is an important integrative site for neuroendocrine control of the circulation. We investigated the role of oxytocin receptors (OT receptors) in PVN in cardiovascular homeostasis., Experimental Approach: Experiments were performed in conscious male Wistar rats equipped with a radiotelemetric device. The PVN was unilaterally co-transfected with an adenoviral vector (Ad), engineered to overexpress OT receptors, and an enhanced green fluorescent protein (eGFP) tag. Control groups: PVN was transfected with an Ad expressing eGFP alone or untransfected, sham rats (Wt). Recordings were obtained without and with selective blockade of OT receptors (OTX), during both baseline and stressful conditions. Baroreceptor reflex sensitivity (BRS) and cardiovascular short-term variability were evaluated using the sequence method and spectral methodology respectively., Key Results: Under baseline conditions, rats overexpressing OT receptors (OTR) exhibited enhanced BRS and reduced BP variability compared to control groups. Exposure to stress increased BP, BP variability and HR in all rats. In control groups, but not in OTR rats, BRS decreased during stress. Pretreatment of OTR rats with OTX reduced BRS and enhanced BP and HR variability under baseline and stressful conditions. Pretreatment of Wt rats with OTX, reduced BRS and increased BP variability under baseline and stressful conditions, but only increased HR variability during stress., Conclusions and Implications: OT receptors in PVN are involved in tonic neural control of BRS and cardiovascular short-term variability. The failure of this mechanism could critically contribute to the loss of autonomic control in cardiovascular disease., (© 2014 The British Pharmacological Society.)
- Published
- 2014
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21. Switching control of sympathetic activity from forebrain to hindbrain in chronic dehydration.
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Colombari DS, Colombari E, Freiria-Oliveira AH, Antunes VR, Yao ST, Hindmarch C, Ferguson AV, Fry M, Murphy D, and Paton JF
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- Animals, Antihypertensive Agents pharmacology, Blood Pressure drug effects, Chronic Disease, Hypothalamus physiology, Losartan pharmacology, Male, Medulla Oblongata physiology, Models, Animal, Neuronal Plasticity physiology, Rats, Rats, Sprague-Dawley, Solitary Nucleus physiology, Blood Pressure physiology, Dehydration physiopathology, Prosencephalon physiology, Rhombencephalon physiology, Sympathetic Nervous System physiology
- Abstract
We investigated the mechanisms responsible for increased blood pressure and sympathetic nerve activity (SNA) caused by 2-3 days dehydration (DH) both in vivo and in situ preparations. In euhydrated (EH) rats, systemic application of the AT(1) receptor antagonist Losartan and subsequent pre-collicular transection (to remove the hypothalamus) significantly reduced thoracic (t)SNA. In contrast, in DH rats, Losartan, followed by pre-collicular and pontine transections, failed to reduce tSNA, whereas transection at the medulla-spinal cord junction massively reduced tSNA. In DH but not EH rats, selective inhibition of the commissural nucleus tractus solitarii (cNTS) significantly reduced tSNA. Comparable data were obtained in both in situ and in vivo (anaesthetized/conscious) rats and suggest that following chronic dehydration, the control of tSNA transfers from supra-brainstem structures (e.g. hypothalamus) to the medulla oblongata, particularly the cNTS. As microarray analysis revealed up-regulation of AP1 transcription factor JunD in the dehydrated cNTS, we tested the hypothesis that AP1 transcription factor activity is responsible for dehydration-induced functional plasticity. When AP1 activity was blocked in the cNTS using a viral vector expressing a dominant negative FosB, cNTS inactivation was ineffective. However, tSNA was decreased after pre-collicular transection, a response similar to that seen in EH rats. Thus, the dehydration-induced switch in control of tSNA from hypothalamus to cNTS seems to be mediated via activation of AP1 transcription factors in the cNTS. If AP1 activity is blocked in the cNTS during dehydration, sympathetic activity control reverts back to forebrain regions. This unique reciprocating neural structure-switching plasticity between brain centres emphasizes the multiple mechanisms available for the adaptive response to dehydration.
- Published
- 2011
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22. Microarray analysis of the transcriptome of the subfornical organ in the rat: regulation by fluid and food deprivation.
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Hindmarch C, Fry M, Yao ST, Smith PM, Murphy D, and Ferguson AV
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- Animals, Male, Rats, Rats, Sprague-Dawley, Food Deprivation, Gene Expression Profiling methods, Gene Expression Regulation, Nerve Tissue Proteins genetics, Oligonucleotide Array Sequence Analysis, RNA, Messenger analysis, Subfornical Organ chemistry, Water Deprivation
- Abstract
We have employed microarray technology using Affymetrix 230 2.0 genome chips to initially catalog the transcriptome of the subfornical organ (SFO) under control conditions and to also evaluate the changes (common and differential) in gene expression induced by the challenges of fluid and food deprivation. We have identified a total of 17,293 genes tagged as present in one of our three experimental conditions, transcripts, which were then used as the basis for further filtering and statistical analysis. In total, the expression of 46 genes was changed in the SFO following dehydration compared with control animals (22 upregulated and 24 downregulated), with the largest change being the greater than fivefold increase in brain-derived neurotrophic factor (BDNF) expression, while significant changes in the expression of the calcium-sensing (upregulated) and apelin (downregulated) receptors were also reported. In contrast, food deprivation caused greater than twofold changes in a total of 687 transcripts (222 upregulated and 465 downregulated), including significant reductions in vasopressin, oxytocin, promelanin concentrating hormone, cocaine amphetamine-related transcript (CART), and the endothelin type B receptor, as well as increases in the expression of the GABA(B) receptor. Of these regulated transcripts, we identified 37 that are commonly regulated by fasting and dehydration, nine that were uniquely regulated by dehydration, and 650 that are uniquely regulated by fasting. We also found five transcripts that were differentially regulated by fasting and dehydration including BDNF and CART. In these studies we have for the first time described the transcriptome of the rat SFO and have in addition identified genes, the expression of which is significantly modified by either water or food deprivation.
- Published
- 2008
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23. A comprehensive description of the transcriptome of the hypothalamoneurohypophyseal system in euhydrated and dehydrated rats.
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Hindmarch C, Yao S, Beighton G, Paton J, and Murphy D
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- Animals, Axons, Brain metabolism, Brain Mapping methods, Dehydration, Down-Regulation, Electrophysiology, Hypothalamus metabolism, Kidney metabolism, Male, Oligonucleotide Array Sequence Analysis, Pituitary Gland, Posterior metabolism, Polymerase Chain Reaction, RNA metabolism, Rats, Rats, Sprague-Dawley, Time Factors, Up-Regulation, Vasopressins metabolism, Water metabolism, Gene Expression Regulation, Hypothalamus pathology, Pituitary Gland, Posterior pathology, RNA, Messenger metabolism
- Abstract
The hypothalamoneurohypophyseal system (HNS) consists of the large peptidergic magnocellular neurons of the supraoptic hypo thalamic nucleus (SON) and the paraventricular hypothalamic nucleus (PVN), the axons of which course through the internal zone of the median eminence and terminate at blood capillaries of the posterior lobe of the pituitary gland. The HNS is a specialized brain neurosecretory apparatus responsible for the production of the antidiuretic peptide hormone vasopressin (VP). VP maintains water balance by promoting water conservation at the level of the kidney. Dehydration evokes a massive increase in the regulated release of VP from magnocellular neuron axon terminals in the posterior pituitary, which is accompanied by a plethora of changes in the morphology, electrophysiological properties, and biosynthetic and secretory activity of the HNS. We wish to understand this functional plasticity in terms of the differential expression of genes. We have therefore used microarrays to comprehensively catalog the genes expressed in the PVN, the SON and the neurointermediate lobe of the pituitary gland of control and dehydrated rats. Comparison of these gene lists has enabled us to identify transcripts that are regulated as a consequence of dehydration as well as RNAs that are enriched in the PVN or the SON. We suggest that these differentially expressed genes represent candidate regulators and effectors of HNS activity and remodeling.
- Published
- 2006
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24. Microarray screening of suppression subtractive hybridization-PCR cDNA libraries identifies novel RNAs regulated by dehydration in the rat supraoptic nucleus.
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Ghorbel MT, Sharman G, Hindmarch C, Becker KG, Barrett T, and Murphy D
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- Animals, In Situ Hybridization, Male, Paraventricular Hypothalamic Nucleus cytology, Paraventricular Hypothalamic Nucleus metabolism, Polymerase Chain Reaction, RNA, Messenger genetics, RNA, Messenger metabolism, Rats, Rats, Sprague-Dawley, Supraoptic Nucleus cytology, Dehydration genetics, Gene Expression Regulation, Gene Library, Oligonucleotide Array Sequence Analysis, RNA Stability genetics, Supraoptic Nucleus metabolism
- Abstract
The magnocellular neurons (MCNs) of the supraoptic nucleus (SON) and paraventricular nucleus (PVN) of the hypothalamus are the principal site of biosynthesis of prepropeptide precursor of the antidiuretic hormone vasopressin (VP). This precursor is processed during anterograde axonal transportation to terminals in the posterior pituitary gland, where biologically active VP is stored until release into the general circulation in response to physiological activation of the SON by osmotic cues. By binding to V2-type receptors located in the kidney, VP decreases the amount of water lost in urine. Osmotic activation of the SON is accompanied by a dramatic morphological and functional remodeling. We have sought to understand the mechanistic basis of this plasticity in terms of the differential expression of genes. To identify such genes, we adopted an unbiased global approach based on suppressive subtractive hybridization-polymerase chain reaction (SSH-PCR) Using this method, we generated libraries of clones putatively differentially expressed in control vs. dehydrated SON. To rapidly screen these libraries, 1,152 clones were subjected to microarray analysis, resulting in the identification of 459 differentially expressed transcripts. cDNA clones corresponding to 56 of these RNAs were sequenced, revealing many of them to be novel expressed sequence tags (ESTs). Four transcripts were shown by in situ hybridization (ISH) to be significantly up- or downregulated in the SON after dehydration. These genes may represent novel effectors or mediators of SON physiological remodeling.
- Published
- 2006
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