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6. Mitochondrial genetic background modulates bioenergetics and susceptibility to acute cardiac volume overload

Author

Fetterman, J. L., primary, Zelickson, B. R., primary, Johnson, L. W., primary, Moellering, D. R., primary, Westbrook, D. G., primary, Pompilius, M., primary, Sammy, M. J., primary, Johnson, M., primary, Dunham-Snary, K. J., primary, Cao, X., primary, Bradley, W. E., primary, Zhang, J., primary, Wei, C.-C., primary, Chacko, B., primary, Schurr, T. G., primary, Kesterson, R. A., primary, Dell’italia, L. J., primary, Darley-Usmar, V. M., primary, Welch, D. R., primary, and Ballinger, S. W., primary

Published
2013
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7. Noninvasive Bioluminescence Imaging in Small Animals

Author

Zinn, K. R., primary, Chaudhuri, T. R., additional, Szafran, A. A., additional, O'Quinn, D., additional, Weaver, C., additional, Dugger, K., additional, Lamar, D., additional, Kesterson, R. A., additional, Wang, X., additional, and Frank, S. J., additional

Published
2008
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8. Study of gas tungsten arc welding procedures for tantalum alloy T-111 (Ta-8 W-2Hf) plate

Author

Gold, R. E and Kesterson, R. L

Subjects
Machine Elements And Processes
Abstract

Methods of eliminating or reducing underbread cracking in multipass GTA welds in thick T-111 plate were studied. Single V butt welds prepared using experimental filler metal compositions and standard weld procedures resulted in only moderate success in reducing underbread cracking. Subsequent procedural changes incorporating manual welding, slower weld speeds, and three or fewer fill passes resulted in crack-free single V welds only when the filler metal was free of hafnium. The double V joint design with successive fill passes on opposite sides of the joint produced excellent welds. The quality of each weld was determined metallographically since the cracking, when present, was very slight and undetectable using standard NDT techniques. Tensile and bend tests were performed on selected weldments. The inherent filler metal strength and the joint geometry determined the strength of the weldment. Hardness and electron beam microprobe traverses were made on selected specimens with the result that significant filler metal-base metal dilution as well as hafnium segregation was detected. A tentative explanation of T-111 plate underbread cracking is presented based on the intrinsic effects of hafnium in the weldment.

Published
1973

16. Partial duplication of the APBA2 gene in chromosome 15q13 corresponds to duplicon structures

Author

Kesterson Robert A, Amin Taneem, Han Michael K, Sutcliffe James S, and Nurmi Erika L

Subjects
Biotechnology, TP248.13-248.65, Genetics, QH426-470
Abstract

Abstract Background Chromosomal abnormalities affecting human chromosome 15q11-q13 underlie multiple genomic disorders caused by deletion, duplication and triplication of intervals in this region. These events are mediated by highly homologous segments of DNA, or duplicons, that facilitate mispairing and unequal cross-over in meiosis. The gene encoding an amyloid precursor protein-binding protein (APBA2) was previously mapped to the distal portion of the interval commonly deleted in Prader-Willi and Angelman syndromes and duplicated in cases of autism. Results We show that this gene actually maps to a more telomeric location and is partially duplicated within the broader region. Two highly homologous copies of an interval containing a large 5' exon and downstream sequence are located ~5 Mb distal to the intact locus. The duplicated copies, containing the first coding exon of APBA2, can be distinguished by single nucleotide sequence differences and are transcriptionally inactive. Adjacent to APBA2 maps a gene termed KIAA0574. The protein encoded by this gene is weakly homologous to a protein termed X123 that in turn maps adjacent to APBA1 on 9q21.12; APBA1 is highly homologous to APBA2 in the C-terminal region and is distinguished from APBA2 by the N-terminal region encoded by this duplicated exon. Conclusion The duplication of APBA2 sequences in this region adds to a complex picture of different low copy repeats present across this region and elsewhere on the chromosome.

Published
2003
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25. Gene-targeted therapy for neurofibromatosis and schwannomatosis: The path to clinical trials.

Author

Staedtke V, Anstett K, Bedwell D, Giovannini M, Keeling K, Kesterson R, Kim Y, Korf B, Leier A, McManus ML, Sarnoff H, Vitte J, Walker JA, Plotkin SR, and Wallis D

Subjects
Animals, Humans, Neurofibromatosis 1 genetics, Neurofibromatosis 1 therapy, Neurofibromatosis 2 diagnosis, Neurofibromatosis 2 genetics, Neurofibromatosis 2 pathology, Neurofibromatoses genetics, Neurofibromatoses therapy, Neurofibromatoses diagnosis, Neurilemmoma genetics, Neurilemmoma therapy, Neurilemmoma diagnosis, Skin Neoplasms
Abstract

Numerous successful gene-targeted therapies are arising for the treatment of a variety of rare diseases. At the same time, current treatment options for neurofibromatosis 1 and schwannomatosis are limited and do not directly address loss of gene/protein function. In addition, treatments have mostly focused on symptomatic tumors, but have failed to address multisystem involvement in these conditions. Gene-targeted therapies hold promise to address these limitations. However, despite intense interest over decades, multiple preclinical and clinical issues need to be resolved before they become a reality. The optimal approaches to gene-, mRNA-, or protein restoration and to delivery to the appropriate cell types remain elusive. Preclinical models that recapitulate manifestations of neurofibromatosis 1 and schwannomatosis need to be refined. The development of validated assays for measuring neurofibromin and merlin activity in animal and human tissues will be critical for early-stage trials, as will the selection of appropriate patients, based on their individual genotypes and risk/benefit balance. Once the safety of gene-targeted therapy for symptomatic tumors has been established, the possibility of addressing a wide range of symptoms, including non-tumor manifestations, should be explored. As preclinical efforts are underway, it will be essential to educate both clinicians and those affected by neurofibromatosis 1/schwannomatosis about the risks and benefits of gene-targeted therapy for these conditions., Competing Interests: Declaration of conflicting interestsThe author(s) declared the following potential conflicts of interest with respect to the research, authorship, and/or publication of this article: V.S. serves as a scientific advisor for the Gilbert Family Foundation Gene Therapy Initiative. H.S. is Founder/CEO of Infixion Bioscience, an early-stage drug discovery company targeting NF1. R.K. serves as a Scientific Advisor for Infixion Bioscience Inc. (3210 Merryfield Row San Diego, CA 92121). Y.K. serves as scientific officer at the Gilbert Family Foundation and as a member scientific advisory panel of NTAP’s Gene Therapy program. S.R.P. is co-founder of NFlection Therapeutics and NF2 Therapeutics and consults for AstraZeneca, SonalaSense, and Akouos. B.K. is a consultant for GenomeMedical, Recursion, Healx, and Springworks.

Published
2024
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27. Clarifying the Ethics and Oversight of Chimeric Research.

Author

Johnston J, Hyun I, Neuhaus CP, Maschke KJ, Marshall P, Craig KP, Matthews MM, Drolet K, Greely HT, Hill LR, Hinterberger A, Hurley EA, Kesterson R, Kimmelman J, King NMP, Lopes MJ, O'Rourke PP, Parent B, Peckman S, Piotrowska M, Schwarz M, Sebo J, Stodgell C, Streiffer R, and Wilkerson A

Subjects
Animals, Humans, Stem Cell Research, Chimera, Bioethics, Animal Welfare
Abstract

This article is the lead piece in a special report that presents the results of a bioethical investigation into chimeric research, which involves the insertion of human cells into nonhuman animals and nonhuman animal embryos, including into their brains. Rapid scientific developments in this field may advance knowledge and could lead to new therapies for humans. They also reveal the conceptual, ethical, and procedural limitations of existing ethics guidance for human-nonhuman chimeric research. Led by bioethics researchers working closely with an interdisciplinary work group, the investigation focused on generating conceptual clarity and identifying improvements to governance approaches, with the goal of helping scholars, funders, scientists, institutional leaders, and oversight bodies (embryonic stem cell research oversight [ESCRO] committees and institutional animal care and use committees [IACUCs]) deliver principled and trustworthy oversight of this area of science. The article, which focuses on human-nonhuman animal chimeric research that is stem cell based, identifies key ethical issues in and offers ten recommendations regarding the ethics and oversight of this research. Turning from bioethics' previous focus on human-centered questions about the ethics of "humanization" and this research's potential impact on concepts like human dignity, this article emphasizes the importance of nonhuman animal welfare concerns in chimeric research and argues for less-siloed governance and oversight and more-comprehensive public communication., (© 2022 The Hastings Center.)

Published
2022
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28. CHD7 regulates cardiovascular development through ATP-dependent and -independent activities.

Author

Yan S, Thienthanasit R, Chen D, Engelen E, Brühl J, Crossman DK, Kesterson R, Wang Q, Bouazoune K, and Jiao K

Subjects
Adenosine Triphosphate metabolism, Alleles, Animals, CHARGE Syndrome genetics, Chromatin Assembly and Disassembly genetics, DNA Helicases metabolism, Disease Models, Animal, Embryo, Mammalian metabolism, Gene Expression Regulation, Developmental genetics, Heart Defects, Congenital genetics, Mice, Mice, Knockout, Mutation, Neural Crest embryology, Neural Crest metabolism, Organogenesis physiology, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, Heart embryology
Abstract

CHD7 encodes an ATP-dependent chromatin remodeling factor. Mutation of this gene causes multiple developmental disorders, including CHARGE (Coloboma of the eye, Heart defects, Atresia of the choanae, Retardation of growth/development, Genital abnormalities, and Ear anomalies) syndrome, in which conotruncal anomalies are the most prevalent form of heart defects. How CHD7 regulates conotruncal development remains unclear. In this study, we establish that deletion of Chd7 in neural crest cells (NCCs) causes severe conotruncal defects and perinatal lethality, thus providing mouse genetic evidence demonstrating that CHD7 cell-autonomously regulates cardiac NCC development, thereby clarifying a long-standing controversy in the literature. Using transcriptomic analyses, we show that CHD7 fine-tunes the expression of a gene network that is critical for cardiac NCC development. To gain further molecular insights into gene regulation by CHD7, we performed a protein-protein interaction screen by incubating recombinant CHD7 on a protein array. We find that CHD7 directly interacts with several developmental disorder-mutated proteins including WDR5, a core component of H3K4 methyltransferase complexes. This direct interaction suggested that CHD7 may recruit histone-modifying enzymes to target loci independently of its remodeling functions. We therefore generated a mouse model that harbors an ATPase-deficient allele and demonstrates that mutant CHD7 retains the ability to recruit H3K4 methyltransferase activity to its targets. Thus, our data uncover that CHD7 regulates cardiovascular development through ATP-dependent and -independent activities, shedding light on the etiology of CHD7-related congenital disorders. Importantly, our data also imply that patients carrying a premature stop codon versus missense mutations will likely display different molecular alterations; these patients might therefore require personalized therapeutic interventions., Competing Interests: The authors declare no competing interest.

Published
2020
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29. Sema6D acts downstream of bone morphogenetic protein signalling to promote atrioventricular cushion development in mice.

Author

Peng Y, Song L, Li D, Kesterson R, Wang J, Wang L, Rokosh G, Wu B, Wang Q, and Jiao K

Subjects
Animals, Cell Movement, Epithelial-Mesenchymal Transition, Mesoderm cytology, Mice, Mice, Inbred C57BL, rho GTP-Binding Proteins physiology, Atrioventricular Node embryology, Bone Morphogenetic Proteins physiology, Semaphorins physiology, Signal Transduction physiology
Published
2016
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30. A unique metabolic syndrome causes obesity in the melanocortin-3 receptor-deficient mouse.

Author

Butler AA, Kesterson RA, Khong K, Cullen MJ, Pelleymounter MA, Dekoning J, Baetscher M, and Cone RD

Subjects
Absorptiometry, Photon, Adipose Tissue metabolism, Animals, Calorimetry, Indirect, Cloning, Molecular, Diet, Energy Metabolism genetics, Energy Metabolism physiology, Gene Targeting, Genetic Vectors, Male, Mice, Mice, Knockout, RNA, Messenger biosynthesis, RNA, Messenger genetics, Receptor, Melanocortin, Type 3, Reverse Transcriptase Polymerase Chain Reaction, Obesity genetics, Receptors, Corticotropin deficiency, Receptors, Corticotropin genetics
Abstract

The central melanocortin system is critical for the long term regulation of energy homeostasis. Null mutations of the melanocortin-4 receptor (MC4-R) are associated with hyperphagia, obesity, and accelerated longitudinal growth in mice and humans. However, little is known about the function of another central melanocortin receptor, the MC3-R. To assess the role of the MC3-R in energy homeostasis, the majority of the mc3r coding sequence was deleted from the mouse genome. In contrast to the MC4-R knockout, which exhibits increased food intake, increased somatic growth, and defects in metabolism, mc3r-/- mice exhibit an exclusively metabolic syndrome. Homozygous null mc3r mice, while not significantly overweight, exhibit an approximately 50% to 60% increase in adipose mass. Mc3r-/- mice also exhibit an unusual increase in respiratory quotient when transferred onto high fat chow, suggesting a reduced ratio of fat/carbohydrate oxidation. Furthermore, male mc3r-/- mice also exhibit an approximately 50% reduction in locomotory behavior on the running wheel, suggesting reduced energy expenditure.

Published
2000
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31. Abnormal adaptations to stress and impaired cardiovascular function in mice lacking corticotropin-releasing hormone receptor-2.

Author

Coste SC, Kesterson RA, Heldwein KA, Stevens SL, Heard AD, Hollis JH, Murray SE, Hill JK, Pantely GA, Hohimer AR, Hatton DC, Phillips TJ, Finn DA, Low MJ, Rittenberg MB, Stenzel P, and Stenzel-Poore MP

Subjects
Adaptation, Physiological genetics, Adaptation, Psychological physiology, Adrenocorticotropic Hormone blood, Animals, Anorexia chemically induced, Anorexia genetics, Cardiovascular System metabolism, Corticosterone blood, Corticotropin-Releasing Hormone metabolism, Corticotropin-Releasing Hormone pharmacology, Eating drug effects, Echocardiography, Exploratory Behavior, Female, Gene Targeting, Grooming, Heart Rate drug effects, Hypertension blood, Hypertension genetics, Hypothalamo-Hypophyseal System metabolism, Hypothalamo-Hypophyseal System physiopathology, Male, Mice, Mice, Knockout, Pituitary-Adrenal System metabolism, Pituitary-Adrenal System physiopathology, Receptors, Corticotropin-Releasing Hormone metabolism, Urocortins, Ventricular Function, Left drug effects, Cardiovascular System physiopathology, Receptors, Corticotropin-Releasing Hormone deficiency, Receptors, Corticotropin-Releasing Hormone genetics, Stress, Physiological genetics
Abstract

The actions of corticotropin-releasing hormone (Crh), a mediator of endocrine and behavioural responses to stress, and the related hormone urocortin (Ucn) are coordinated by two receptors, Crhr1 (encoded by Crhr) and Crhr2. These receptors may exhibit distinct functions due to unique tissue distribution and pharmacology. Crhr-null mice have defined central functions for Crhr1 in anxiety and neuroendocrine stress responses. Here we generate Crhr2-/- mice and show that Crhr2 supplies regulatory features to the hypothalamic-pituitary-adrenal axis (HPA) stress response. Although initiation of the stress response appears to be normal, Crhr2-/- mice show early termination of adrenocorticotropic hormone (Acth) release, suggesting that Crhr2 is involved in maintaining HPA drive. Crhr2 also appears to modify the recovery phase of the HPA response, as corticosterone levels remain elevated 90 minutes after stress in Crhr2-/- mice. In addition, stress-coping behaviours associated with dearousal are reduced in Crhr2-/- mice. We also demonstrate that Crhr2 is essential for sustained feeding suppression (hypophagia) induced by Ucn. Feeding is initially suppressed in Crhr2-/- mice following Ucn, but Crhr2-/- mice recover more rapidly and completely than do wild-type mice. In addition to central nervous system effects, we found that, in contrast to wild-type mice, Crhr2-/- mice fail to show the enhanced cardiac performance or reduced blood pressure associated with systemic Ucn, suggesting that Crhr2 mediates these peripheral haemodynamic effects. Moreover, Crhr2-/- mice have elevated basal blood pressure, demonstrating that Crhr2 participates in cardiovascular homeostasis. Our results identify specific responses in the brain and periphery that involve Crhr2.

Published
2000
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32. Prevention of reflex natriuresis after acute unilateral nephrectomy by melanocortin receptor antagonists.

Author

Ni XP, Kesterson RA, Sharma SD, Hruby VJ, Cone RD, Wiedemann E, and Humphreys MH

Subjects
Animals, Injections, Intravenous, Male, Melanocyte-Stimulating Hormones pharmacology, Natriuresis drug effects, Peptides pharmacology, Rats, Rats, Sprague-Dawley, Receptors, Melanocortin, alpha-MSH analogs & derivatives, alpha-MSH pharmacology, Natriuresis physiology, Nephrectomy methods, Receptors, Corticotropin antagonists & inhibitors, Reflex physiology
Abstract

gamma-Melanocyte-stimulating hormone (gamma-MSH), atrial natriuretic peptide (ANP), and oxytocin have been identified as candidate hormonal mediators of the reflex natriuresis that follows acute unilateral nephrectomy (AUN). Pharmacological characterization of the third melanocortin receptor (MC3-R) indicates that it uniquely responds to physiological concentrations of gamma-MSH. We tested the roles of gamma-MSH, ANP, and oxytocin in the postnephrectomy natriuresis by carrying out AUN during continuous intrarenal infusion of specific antagonists for their cognate receptors. In anesthetized Sprague-Dawley rats, urinary sodium excretion (UNaV) increased from 0.34 +/- 0.04 to 1.12 +/- 0.11 mu eq/min 90 min after AUN (P < 0.001). No change in UNaV occurred in rats undergoing a sham AUN procedure. Plasma immunoreactive gamma-MSH concentration was 53 +/- 8 fmol/ml after sham AUN but 112 +/- 17 fmol/ml after AUN (P < 0.01). SHU-9119 and SHU-9005 are substituted derivatives of alpha-MSH with potent antagonism at the MC3-R in vitro. Infusion of these compounds at 5 pmol/min completely blocked the natriuretic response to AUN despite a similar elevation in plasma gamma-MSH (111 +/- 12 vs. 49 +/- 8 fmol/ml in sham rats, P < 0.01). Intrarenal infusion of the ANP receptor antagonist A-71915 (5 pmol/min) or the oxytocin receptor antagonist [d(CH2)(5)1, Tyr(Me)2,Orn8] vasotocin (10 pmol/min) effectively inhibited the natriuresis induced by intravenous infusion of ANP or oxytocin (each at 1 pmol/min), respectively, but did not block the natriuresis after AUN. Plasma immunoreactivity of these peptides was not increased after AUN. These results indicate that reflex natriuresis after AUN is accompanied by an increase in plasma gamma-MSH but not ANP or oxytocin concentration and is prevented by intrarenal infusion of receptor antagonists with selectivity for MC3-R. The data indicate that gamma-MSH or a closely related peptide mediates postnephrectomy natriuresis and provide further support for the possibility that gamma-MSH may play a wider role in sodium homeostasis.

Published
1998
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33. Analysis of osteocalcin expression in transgenic mice reveals a species difference in vitamin D regulation of mouse and human osteocalcin genes.

Author

Clemens TL, Tang H, Maeda S, Kesterson RA, Demayo F, Pike JW, and Gundberg CM

Subjects
3T3 Cells drug effects, Animals, Ascorbic Acid pharmacology, Blotting, Northern, Bone and Bones drug effects, Dose-Response Relationship, Drug, Gene Expression Regulation, Enzymologic genetics, Humans, Luciferases, Mice, Mice, Transgenic, Osteoblasts drug effects, Osteoblasts metabolism, Osteocalcin biosynthesis, Osteocalcin blood, Promoter Regions, Genetic, RNA, Messenger biosynthesis, RNA, Messenger genetics, Skull drug effects, Skull metabolism, Species Specificity, Transcription, Genetic drug effects, Transcription, Genetic genetics, Calcitriol pharmacology, Gene Expression Regulation, Enzymologic drug effects, Osteocalcin genetics
Abstract

A line of transgenic mice expressing a human osteocalcin genomic fragment (hOClocus) and a murine MC3T3-E1 cell line containing a stably integrated human osteocalcin promoter construct have been developed to characterize the osteogenic and hormonal regulation of human osteocalcin in vivo and in vitro. In this study, we used these models to demonstrate a species difference in the regulation of the mouse and human osteocalcin genes by vitamin D. Repeated administration of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3) to mice carrying the hOClocus transgene resulted in striking increases in serum human osteocalcin, whereas serum mouse osteocalcin levels were unchanged after 24 h and only modestly increased 48 h after the second dose of hormone. 1,25(OH)2D3 increased human calvarial mRNA expression by 1.8-fold and slightly decreased mouse osteocalcin mRNA levels by approximately 1.2-fold. Furthermore, treatment of primary calvarial osteoblasts from these mice with 1,25(OH)2D3 increased human osteocalcin production but inhibited mouse osteocalcin protein accumulation. To investigate further the mechanism for the apparent species difference in vitamin D3 induction of mouse and human osteocalcin, we examined the effect of 1,25(OH)2D3 in an MC3T3-E1 cell line (MC4) containing a stably integrated 3900 bp osteocalcin promoter-luciferase construct. Treatment of MC4 cells with ascorbic acid resulted in parallel increases of the endogenous mouse osteocalcin protein and luciferase reporter activity over a 12-day period. Continuous exposure of MC4 cells to 1,25(OH)2D3 resulted in time-and dose-dependent increases in the activity of the phOC3900 luciferase construct. By contrast, the hormone had no effect on mouse osteocalcin protein concentrations and inhibited its induction by ascorbic acid. However, when cells were treated acutely with 1,25(OH)2D3 at later times during growth in ascorbic acid, the induction of mouse osteocalcin protein was only partially inhibited. In conclusion, our results indicate that common osteogenic signals regulate both mouse and human osteocalcin gene expression, but the mouse gene is resistant to induction by vitamin D. This species difference in vitamin D regulation of osteocalcin appears to result from the failure of 1,25(OH)2D3 to transcriptionally activate the mouse osteocalcin gene.

Published
1997
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34. Structural organization of the human vitamin D receptor chromosomal gene and its promoter.

Author

Miyamoto K, Kesterson RA, Yamamoto H, Taketani Y, Nishiwaki E, Tatsumi S, Inoue Y, Morita K, Takeda E, and Pike JW

Subjects
Bacteriophage lambda genetics, Base Sequence, Binding Sites, Cloning, Molecular, Cosmids, Exons, Humans, Kidney physiology, Luciferases genetics, Molecular Sequence Data, Polymorphism, Genetic, Protein Biosynthesis, RNA, Messenger, Receptors, Calcitriol drug effects, Receptors, Calcitriol metabolism, Recombinant Fusion Proteins drug effects, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Sequence Analysis, DNA, Sp1 Transcription Factor metabolism, Transcription, Genetic, Tretinoin pharmacology, Promoter Regions, Genetic, Receptors, Calcitriol genetics
Abstract

The vitamin D receptor (VDR) is known to mediate the pleiotropic biological actions of 1,25-dihydroxyvitamin D3 through its ability to modulate the expression of target genes. The regulation of this ligand-activated cellular transcription factor is reported to occur at both transcriptional and posttranslational levels. To begin to address the molecular basis by which the VDR gene is regulated transcriptionally, we report here an initial characterization of the human VDR gene and its promoter. We isolated several overlapping A-phage and cosmid clones that cover more than 100 kb of human DNA and contained the entire VDR gene. The gene is comprised of 11 exons that, together with intervening introns, span approximately 75 kb. The noncoding 5'-end of the gene includes exons 1A, 1B, and 1C. Eight additional exons (exons 2-9) encode the structural portion of the VDR gene product. While primer extension and S1 nuclease-mapping studies reveal several common transcriptional start sites, three unique mRNA species are produced as a result of the differential splicing of exons 1B and 1C. The DNA sequence lying upstream of exon 1A is GC rich and does not contain an apparent TATA box. Several potential binding sites for the transcription factor SP1 and other activators are evident. Fusion of DNA fragments containing putative promoter sequences upstream of the luciferase structural gene followed by transient transfection of these plasmids into several mammalian cell lines resulted in significant reporter activity. Due to the size and complexity of the 5'-end of the VDR gene, we examined the activity of a DNA fragment surrounding exon 1C. An intron fragment 3' of exon 1C conferred retinoic acid responsivity when fused to a reporter gene plasmid, suggesting a molecular mechanism for the previously observed ability of retinoic acid to induce the VDR. The recovery of the gene for the human VDR will enable further studies on the transcriptional regulation of this gene.

Published
1997
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35. Evaluation of the nonorganic hearing loss suspect.

Author

Durrant JD, Kesterson RK, and Kamerer DB

Subjects
Acoustic Stimulation, Adolescent, Adult, Aged, Audiometry, Auditory Threshold, Child, Cochlea, Female, Humans, Male, Middle Aged, Perceptual Masking, Reflex, Acoustic, Retrospective Studies, Disability Evaluation, Hearing Disorders diagnosis, Hearing Disorders etiology
Abstract

Objective: To examine the utility of distortion-product otoacoustic emissions (DPOAEs) in the assessment of the nonorganic suspect because DPOAE analysis constitutes an objective test of hair-cell function that yields audiometriclike data., Study Design: Retrospective study of clinical findings., Setting: Audiology outpatient clinic of our university's medical center., Patients: The study cohort comprised 30 patients who presented with a profile of suspicion for nonorganic hearing loss. Most cases were found, with the aid of DPOAE testing, to be nonorganic or to have nonorganic overlays to organic hearing loss., Interventions: Interventions were diagnostic only., Main Outcome Measures: Observed audiometric findings and changes thereof., Results: Statistically significant decreases in thresholds occurred in subgroups of those cases deemed to be truly nonorganic in origin., Conclusions: Especially considering test efficiency, the results support the inclusion of DPOAE analysis in the diagnostic management of the suspect-nonorganic patient.

Published
1997

36. Induction of neuropeptide Y gene expression in the dorsal medial hypothalamic nucleus in two models of the agouti obesity syndrome.

Author

Kesterson RA, Huszar D, Lynch CA, Simerly RB, and Cone RD

Subjects
Agouti Signaling Protein, Animals, Galanin biosynthesis, Gene Expression Regulation, Mice, Mice, Inbred C57BL, Mice, Obese, Mutation, Neuropeptide Y biosynthesis, Obesity metabolism, Pro-Opiomelanocortin biosynthesis, Galanin genetics, Hypothalamus metabolism, Intercellular Signaling Peptides and Proteins, Neuropeptide Y genetics, Obesity genetics, Pro-Opiomelanocortin genetics, Proteins genetics
Abstract

Dominant mutations at the agouti locus induce several phenotypic changes in the mouse including yellow pigmentation (phaeomelanization) of the coat and adult-onset obesity. Nonpigmentary phenotypic changes associated with the agouti locus are due to ectopic expression of the agouti-signaling protein (ASP), and the pheomelanizing effects on coat color are due to ASP antagonism of alpha-MSH binding to the melanocyte MC1 receptor. Recently it has been demonstrated that pharmacological antagonism of hypothalamic melanocortin receptors or genetic deletion of the melanocortin 4 receptor (MC4-R) recapitulates aspects of the agouti obesity syndrome, thus establishing that chronic disruption of central melanocortinergic signaling is the cause of agouti-induced obesity. To learn more about potential downstream effectors involved in these melanocortinergic obesity syndromes, we have examined expression of the orexigenic peptides galanin and neuropeptide Y (NPY), as well as the anorexigenic POMC in lethal yellow (A(y)), MC4-R knockout (MC4-RKO), and leptin-deficient (ob/ob) mice. No significant changes in galanin or POMC gene expression were seen in any of the obese models. In situ hybridizations using an antisense NPY probe demonstrated that in obese A(y) mice, arcuate nucleus NPY mRNA levels were equivalent to that of their C57BL/6J littermates. However, NPY was expressed at high levels in a new site, the dorsal medial hypothalamic nucleus (DMH). Expression of NPY in the DMH was also seen in obese MC4-RKO homozygous (-/-) mice, but not in lean heterozygous (+/-) or wild type (+/+) control mice. This identifies the DMH as a brain region that is functionally altered by the disruption of melanocortinergic signaling and suggests that this nucleus, possibly via elevated NPY expression, may have an etiological role in the melanocortinergic obesity syndrome.

Published
1997
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37. Targeted disruption of the melanocortin-4 receptor results in obesity in mice.

Author

Huszar D, Lynch CA, Fairchild-Huntress V, Dunmore JH, Fang Q, Berkemeier LR, Gu W, Kesterson RA, Boston BA, Cone RD, Smith FJ, Campfield LA, Burn P, and Lee F

Subjects
Animals, Blood Glucose analysis, Brain Chemistry, Disease Models, Animal, Eating, Female, Gene Expression, Heterozygote, Homozygote, Insulin blood, Leptin, Male, Mice, Mice, Knockout, Mice, Obese, Obesity blood, Pro-Opiomelanocortin genetics, Proteins analysis, RNA, Messenger analysis, Receptor, Melanocortin, Type 4, Receptors, Peptide genetics, Signal Transduction, Weight Gain genetics, Gene Targeting methods, Obesity genetics, Receptors, Peptide physiology
Abstract

The melanocortin-4 receptor (MC4-R) is a G protein-coupled, seven-transmembrane receptor expressed in the brain. Inactivation of this receptor by gene targeting results in mice that develop a maturity onset obesity syndrome associated with hyperphagia, hyperinsulinemia, and hyperglycemia. This syndrome recapitulates several of the characteristic features of the agouti obesity syndrome, which results from ectopic expression of agouti protein, a pigmentation factor normally expressed in the skin. Our data identify a novel signaling pathway in the mouse for body weight regulation and support a model in which the primary mechanism by which agouti induces obesity is chronic antagonism of the MC4-R.

Published
1997
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38. Role of melanocortinergic neurons in feeding and the agouti obesity syndrome.

Author

Fan W, Boston BA, Kesterson RA, Hruby VJ, and Cone RD

Subjects
Agouti Signaling Protein, Animals, Eating, Feeding Behavior physiology, Female, Male, Melanocyte-Stimulating Hormones pharmacology, Mice, Mice, Inbred C57BL, Mice, Obese, Neuropeptide Y metabolism, Obesity genetics, Proteins genetics, Receptor, Melanocortin, Type 3, Receptor, Melanocortin, Type 4, Receptors, Corticotropin agonists, Receptors, Corticotropin antagonists & inhibitors, Receptors, Peptide agonists, Receptors, Peptide antagonists & inhibitors, alpha-MSH analogs & derivatives, alpha-MSH pharmacology, Intercellular Signaling Peptides and Proteins, Neurons physiology, Obesity metabolism, Proteins physiology, Receptors, Corticotropin metabolism, Receptors, Peptide metabolism
Abstract

Dominant alleles at the agouti locus (A) cause an obesity syndrome in the mouse, as a consequence of ectopic expression of the agouti peptide. This peptide, normally only found in the skin, is a high-affinity antagonist of the melanocyte-stimulating hormone receptor (MC1-R), thus explaining the inhibitory effect of agouti on eumelanin pigment synthesis. The agouti peptide is also an antagonist of the hypothalamic melanocortin-4 receptor (MC4-R). To test the hypothesis that agouti causes obesity by antagonism of hypothalamic melanocortin receptors, we identified cyclic melanocortin analogues that are potent agonists or antagonists of the neural MC3 (refs 11, 12) and MC4 receptors. Intracerebroventricular administration of the agonist, MTII, inhibited feeding in four models of hyperphagia: fasted C57BL/6J, ob/ob, and A(Y) mice, and mice injected with neuropeptide Y. Co-administration of the specific melanocortin antagonist and agouti-mimetic SHU9119 completely blocked this inhibition. Furthermore, administration of SHU9119 significantly enhanced nocturnal feeding, or feeding stimulated by a prior fast. Our data show that melanocortinergic neurons exert a tonic inhibition of feeding behaviour. Chronic disruption of this inhibitory signal is a likely explanation of the agouti obesity syndrome.

Published
1997
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39. Melanocortin antagonists define two distinct pathways of cardiovascular control by alpha- and gamma-melanocyte-stimulating hormones.

Author

Li SJ, Varga K, Archer P, Hruby VJ, Sharma SD, Kesterson RA, Cone RD, and Kunos G

Subjects
Animals, Blood Pressure drug effects, Carotid Arteries, Heart Rate drug effects, Injections, Intra-Arterial, Injections, Spinal, Male, Medulla Oblongata drug effects, Medulla Oblongata physiology, Rats, Rats, Sprague-Dawley, Receptors, Melanocortin, Vagus Nerve physiology, Cardiovascular System drug effects, Melanocyte-Stimulating Hormones pharmacology, Receptors, Corticotropin antagonists & inhibitors
Abstract

Melanocortin peptides and at least two subtypes of melanocortin receptors (MC3-R and MC4-R) are present in brain regions involved in cardiovascular regulation. In urethane-anesthetized rats, unilateral microinjection of alpha-melanocyte-stimulating hormone (MSH) into the medullary dorsal-vagal complex (DVC) causes dose-dependent (125-250 pmol) hypotension and bradycardia, whereas gamma-MSH is less effective. The effects of alpha-MSH are inhibited by microinjection to the same site of the novel MG4-R/MC3-R antagonist SHU9119 (2-100 pmol) but not naloxone (270 pmol), whereas the similar effects of intra-DVC injection of beta-endorphin (1 pmol) are inhibited by naloxone and not by SHU9119. Hypotensive and bradycardic responses to electrical stimulation of the arcuate nucleus also are inhibited by ipsilateral intra-DVC microinjection of SHU9119. gamma-MSH and ACTH(4-10), but not alpha-MSH, elicit dose-dependent (0.1-12.5 nmol) pressor and tachycardic effects, which are much more pronounced after intracarotid than after intravenous administration. The effects of gamma-MSH (1.25 nmol) are not inhibited by the intracarotid injection of SHU9119 (1.25-12.5 nmol) or the novel MC3-R antagonist SHU9005 (1.25-12.5 nmol). We conclude that the hypotension and bradycardia elicited by the release of alpha-MSH from arcuate neurons is mediated by neural melanocortin receptors (MC4-R/MC3-R) located in the DVC, whereas the similar effects of beta-endorphin, a peptide derived from the same precursor, are mediated by opiate receptors at the same site. In contrast, neither MC3-R nor MC4-R is involved in the centrally mediated pressor and tachycardic actions of gamma-MSH, which, likely, are mediated by an as yet unidentified receptor.

Published
1996

40. The melanocortin receptors: agonists, antagonists, and the hormonal control of pigmentation.

Author

Cone RD, Lu D, Koppula S, Vage DI, Klungland H, Boston B, Chen W, Orth DN, Pouton C, and Kesterson RA

Subjects
Agouti Signaling Protein, Amino Acid Sequence, Animals, Humans, Molecular Sequence Data, Proteins genetics, Receptors, Corticotropin agonists, Receptors, Corticotropin antagonists & inhibitors, Receptors, Corticotropin genetics, Receptors, Pituitary Hormone agonists, Receptors, Pituitary Hormone antagonists & inhibitors, Receptors, Pituitary Hormone chemistry, Receptors, Pituitary Hormone genetics, Intercellular Signaling Peptides and Proteins, Pigmentation, Receptors, Corticotropin physiology, Receptors, Pituitary Hormone physiology
Abstract

Molecular cloning experiments have led to the identification and characterization of a family of five receptors for the melanocortin (melanotropic and adrenocorticotropic) peptides. The first two members of the family cloned were the well-characterized melanocyte-stimulating hormone receptor (MSH-R) and adrenocorticotropin receptor (ACTH-R). The three new melanocortin receptors have been termed the MC3-R, MC4-R, and MC5-R, according to the order of their discovery, and little is known at this point concerning their function. Agouti and extension are two genetic loci known to control the amounts of eumelanin (brown-black) and phaeomelanin (yellow-red) pigments. Chromosomal mapping demonstrated that the MSH-R, now termed MCI-R, mapped to extension. Extension was shown to encode the MCI-R, and mutations in the MCI-R are responsible for the different pigmentation phenotypes caused by this locus. Functional variants of the MCI-R, originally characterized in the mouse, have now also been identified in the guinea pig and cow. Dominant constitutive mutants of the MCI-R are responsible for causing dark black coat colors while recessive alleles result in yellow or red coat colors. Agouti, a secreted 108 amino acid peptide produced within the hair follicle, acts on follicular melanocytes to inhibit alpha-MSH-induced eumelanin production. Experiments demonstrate that agouti is a high-affinity antagonist, acting at the MCI-R to block alpha-MSH stimulation of adenylyl cyclase, the effector through which alpha-MSH induces eumelanin synthesis. The MCI-R is thus a unique bifunctionally controlled receptor, activated by alpha-MSH and antagonized by agouti, both contributing to the variability seen in mammalian coat colors. The variable tan and black coat color patterns seen in the German Shepherd, for example, can now be understood on the molecular level as the interaction of a number of extension and agouti alleles encoding variably functioning receptors and a differentially expressed antagonist of the receptor, respectively.

Published
1996

41. Cyclic lactam alpha-melanotropin analogues of Ac-Nle4-cyclo[Asp5, D-Phe7,Lys10] alpha-melanocyte-stimulating hormone-(4-10)-NH2 with bulky aromatic amino acids at position 7 show high antagonist potency and selectivity at specific melanocortin receptors.

Author

Hruby VJ, Lu D, Sharma SD, Castrucci AL, Kesterson RA, al-Obeidi FA, Hadley ME, and Cone RD

Subjects
Amino Acid Sequence, Amino Acids, Animals, Cell Line, Humans, Lactams chemistry, Lizards, Melanocyte-Stimulating Hormones chemistry, Mice, Molecular Sequence Data, Peptides chemistry, Peptides metabolism, Rana pipiens, Receptor, Melanocortin, Type 3, Receptor, Melanocortin, Type 4, Receptors, Corticotropin metabolism, Receptors, Melanocortin, Receptors, Peptide antagonists & inhibitors, Receptors, Peptide metabolism, Skin metabolism, Structure-Activity Relationship, alpha-MSH chemistry, alpha-MSH metabolism, Melanocyte-Stimulating Hormones metabolism, Receptors, Corticotropin antagonists & inhibitors, alpha-MSH analogs & derivatives
Abstract

The cloning of the melanocyte-stimulating hormone (MSH) and adrenocorticotropic hormone (ACTH) receptors (MC1-R and MC2-R, respectively) recently has led to the identification of three additional melanocortin receptors, MC3-R, MC4-R, and MC5-R. The MC2 receptor primarily recognizes only ACTH peptides, but the other four receptors all recognize alpha-melanocyte-stimulating hormone (alpha-MSH) and potent alpha-MSH agonists such as [Nle4,D-Phe7]alpha-MSH-NH2 and Ac-Nle4-c[Asp5,D-Phe7,Lys10]alpha-MSH-(4-10)-NH2 as well as ACTH. The absence of any known physiological role for these new receptors, expressed both in the brain (MC3-R and MC4-R) and throughout a number of peripheral tissues (MC5-R), has necessitated as search for potent and receptor selective agonists and antagonists. We report here that analogues of the superpotent cyclic agonist analogue Ac-Nle4-c[Asp5,D-Phe7, Lys10]alpha-MSH-(4-10)-NH2, in which a bulky aromatic amino acid is substituted in the 7-position, can produce potent and selective antagonists for melanocortin receptors. Thus, the D-p-iodophenylalanine7-containing analogue Ac-Nle4-c[Asp5,D-Phe(pI)7,Lys10]alpha-MSH-(4-10)-NH2 is a potent antagonist (pA2 = 10.3) in the classical frog skin (Rana pipiens) assay (MC1-R), as is the D-2'-naphthylalanine7 (D-Nal(2)7)-containing analogue Ac-Nle4-c[Asp5,D-Nal(2)7,Lys10]alpha-MSH-(4-10)-NH2 (pA2 > 10.3). Interestingly, the D-p-chloro- and D-p-fluorophenylalanine7-containing analogues lacked antagonist activities at all melanotropin receptors, and both exhibited full agonist potency in the frog skin assay. The activity of these analogues also was examined at four mammalian melanocortin receptors. Interestingly, Ac-Nle4-c[Asp5,(D-Nal(2)7,Lys10] alpha-MSH-(4-10)-NH2 was found to be a potent antagonist of the MC4-R (pA2 = 9.3) with minimal agonist activity, a less potent antagonist of the MC3-R (pA2 = 8.3) with minimal agonist activity, and a full agonist of the MC1 and MC5 receptors. Surprisingly, Nle4-c[Asp5,D-Phe(pI)7,Lys10]alpha-MSH was found to be a potent agonist at the cloned human MC1-R (EC50 = 0.055 nM) and mouse MC1-R (EC50 = 0.19 nM) but had potent antagonist activities at the human MC4-R (pA2 = 9.7) and human MC3-R (pA2 = 8.3) with significant partial agonist activities (EC50 = 0.57 and 0.68 nM, respectively) as well. Thus, highly potent and receptor selective antagonist analogues can arise from substitution of the D-Phe7 residue with a bulky aromatic amino acid. These analogues can be used to help determine the functional roles of these receptors.

Published
1995
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42. Point mutations in the human vitamin D receptor gene associated with hypocalcemic rickets.

Author

Hughes MR, Malloy PJ, Kieback DG, Kesterson RA, Pike JW, Feldman D, and O'Malley BW

Subjects
Amino Acid Sequence, Animals, Binding Sites, Calcitriol metabolism, Cell Line, Cell Line, Transformed, Codon, DNA genetics, DNA metabolism, Exons, Female, Gene Amplification, Homozygote, Humans, Immunoblotting, Male, Molecular Sequence Data, Receptors, Calcitriol, Receptors, Steroid metabolism, Transfection, Hypocalcemia genetics, Mutation, Receptors, Steroid genetics, Rickets genetics
Abstract

Hypocalcemic vitamin D-resistant rickets is a human genetic disease resulting from target organ resistance to the action of 1,25-dihydroxyvitamin D3. Two families with affected children homozygous for this autosomal recessive disorder were studied for abnormalities in the intracellular vitamin D receptor (VDR) and its gene. Although the receptor displays normal binding of 1,25-dihydroxyvitamin D3 hormone, VDR from affected family members has a decreased affinity for DNA. Genomic DNA isolated from these families was subjected to oligonucleotide-primed DNA amplification, and each of the nine exons encoding the receptor protein was sequenced for a genetic mutation. In each family, a different single nucleotide mutation was found in the DNA binding domain of the protein; one family near the tip of the first zinc finger (Gly----Asp) and one at the tip of the second zinc finger (Arg----Gly). The mutant residues were created in vitro by oligonucleotide directed point mutagenesis of wild-type VDR complementary DNA and this cDNA was transfected into COS-1 cells. The produced protein is biochemically indistinguishable from the receptor isolated from patients.

Published
1988
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