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2. Insulin receptor substrates differentially exacerbate insulin-mediated left ventricular remodeling

Author

Riehle, Christian, Weatherford, Eric T, Wende, Adam R, Jaishy, Bharat P, Seei, Alec W, McCarty, Nicholas S, Rech, Monika, Shi, Qian, Reddy, Gopireddy R, Kutschke, William J, Oliveira, Karen, Pires, Karla Maria, Anderson, Joshua C, Diakos, Nikolaos A, Weiss, Robert M, White, Morris F, Drakos, Stavros G, Xiang, Yang K, and Abel, E Dale

Subjects
Genetics, Heart Disease, Cardiovascular, Aetiology, 2.1 Biological and endogenous factors, Animals, Cardiomegaly, Humans, Hyperinsulinism, Insulin, Insulin Receptor Substrate Proteins, Insulin Resistance, Mice, Mice, Knockout, Proto-Oncogene Proteins c-akt, Ventricular Remodeling, Cardiology, Heart failure, Insulin signaling
Abstract

Pressure overload (PO) cardiac hypertrophy and heart failure are associated with generalized insulin resistance and hyperinsulinemia, which may exacerbate left ventricular (LV) remodeling. While PO activates insulin receptor tyrosine kinase activity that is transduced by insulin receptor substrate 1 (IRS1), the present study tested the hypothesis that IRS1 and IRS2 have divergent effects on PO-induced LV remodeling. We therefore subjected mice with cardiomyocyte-restricted deficiency of IRS1 (CIRS1KO) or IRS2 (CIRS2KO) to PO induced by transverse aortic constriction (TAC). In WT mice, TAC-induced LV hypertrophy was associated with hyperactivation of IRS1 and Akt1, but not IRS2 and Akt2. CIRS1KO hearts were resistant to cardiac hypertrophy and heart failure in concert with attenuated Akt1 activation. In contrast, CIRS2KO hearts following TAC developed more severe LV dysfunction than WT controls, and this was prevented by haploinsufficiency of Akt1. Failing human hearts exhibited isoform-specific IRS1 and Akt1 activation, while IRS2 and Akt2 activation were unchanged. Kinomic profiling identified IRS1 as a potential regulator of cardioprotective protein kinase G-mediated signaling. In addition, gene expression profiling revealed that IRS1 signaling may promote a proinflammatory response following PO. Together, these data identify IRS1 and Akt1 as critical signaling nodes that mediate LV remodeling in both mice and humans.

Published
2020

3. GDF15 is required for cold-induced thermogenesis and contributes to improved systemic metabolic health following loss of OPA1 in brown adipocytes

Author

Jena, Jayashree, primary, García-Peña, Luis Miguel, primary, Weatherford, Eric T, additional, Marti, Alex, additional, Bjorkman, Sarah H, additional, Kato, Kevin, additional, Koneru, Jivan, additional, Chen, Jason H, additional, Seeley, Randy J, additional, Abel, E Dale, additional, and Pereira, Renata O, additional

Published
2023
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5. Author response: GDF15 is required for cold-induced thermogenesis and contributes to improved systemic metabolic health following loss of OPA1 in brown adipocytes

Author

Jena, Jayashree, primary, García-Peña, Luis Miguel, primary, Weatherford, Eric T, additional, Marti, Alex, additional, Bjorkman, Sarah H, additional, Kato, Kevin, additional, Koneru, Jivan, additional, Chen, Jason H, additional, Seeley, Randy J, additional, Abel, E Dale, additional, and Pereira, Renata O, additional

Published
2023
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6. ATF4 Expression in Thermogenic Adipocytes is Required for Cold-Induced Thermogenesis in Mice via FGF21-Independent Mechanisms

Author

Bjorkman, Sarah H., primary, Marti, Alex, additional, Jena, Jayashree, additional, García-Peña, Luis Miguel, additional, Weatherford, Eric T., additional, Kato, Kevin, additional, Koneru, Jivan, additional, Chen, Jason H., additional, Sood, Ayushi, additional, Potthoff, Matthew J., additional, Adams, Christopher M., additional, Abel, E. Dale, additional, and Pereira, Renata O., additional

Published
2023
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7. GDF15 Is Required for Cold-Induced Thermogenesis and Contributes to Improve Systemic Metabolic Health Following Loss of OPA1 in Brown Adipocytes

Author

Jena, Jayashree, primary, García-Peña, Luis Miguel, additional, Weatherford, Eric T., additional, Marti, Alex, additional, Bjorkman, Sarah H., additional, Kato, Kevin, additional, Koneru, Jivan, additional, Chen, Jason, additional, Seeley, Randy J., additional, Abel, E. Dale, additional, and Pereira, Renata O., additional

Published
2022
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8. Insulin and Insulin-Like Growth Factor 1 Signaling Preserves Sarcomere Integrity in the Adult Heart

Author

Riehle, Christian, primary, Weatherford, Eric T., additional, McCarty, Nicholas S., additional, Seei, Alec, additional, Jaishy, Bharat P., additional, Manivel, Rajkumar, additional, Galuppo, Paolo, additional, Allamargot, Chantal, additional, Hameed, Tariq, additional, Boudreau, Ryan L., additional, Bauersachs, Johann, additional, Weiss, Robert M., additional, and Abel, E. Dale, additional

Published
2022
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11. Functional resilience of C57BL/6J mouse heart to dietary fat overload

Author

Tadinada, Satya Murthy, primary, Weatherford, Eric T., additional, Collins, Greg V., additional, Bhardwaj, Gourav, additional, Cochran, Jesse, additional, Kutschke, William, additional, Zimmerman, Kathy, additional, Bosko, Alyssa, additional, O’Neill, Brian T., additional, Weiss, Robert M., additional, and Abel, E. Dale, additional

Published
2021
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13. Dysregulated human renin expression in transgenic mice carrying truncated genomic constructs: evidence supporting the presence of insulators at the renin locus

Author

Zhou, Xiyou, Weatherford, Eric T., Liu, Xuebo, Born, Ella, Keen, Henry L., and Sigmund, Curt D.

Subjects
Renin -- Properties, Gene expression -- Research, Chromosomes -- Identification and classification, Chromatin -- Properties, Biological sciences
Abstract

We previously generated transgenic mice carrying a large P1 artificial chromosome (PAC160) encompassing a 160-kb segment containing the human renin gene, two upstream genes, and one downstream gene. We also previously generated mutant PAC160 constructs lacking the distal enhancer and concluded it is required to maintain baseline expression of human renin, but is not required for tissue-specific, cell-specific, and regulated expression of renin in vivo. We now report two additional transgenic lines carrying random truncations of PAC160 upstream of the renin gene. Southern and PCR mapping studies indicate that the truncation break points in the two lines are located ~10.4 and 2.5 kb upstream of the renin gene causing a deletion of all DNA upstream of the break. We tested the hypothesis that large-scale deletion of DNA upstream of the human renin gene including the enhancer would cause dysregulation of human renin expression. Phenotypically, these truncations cause a severe dysregulation of human renin expression, but remarkably, a preservation of the normal tissue-specific expression of the human ethanolamine kinase 2 (ETNK2) gene which lies immediately downstream of renin. Several functional binding sites for CTCF, a mammalian insulator protein, were identified in and around the renin and ETNK2 loci by gel shift and chromatin immunoprecipitation. We conclude that there are sequences in and around the renin and ETNK2 loci which act as boundaries between neighboring genes which insulate them from each other. The study illustrates the value of taking a much wider genomic perspective when studying mechanisms regulating gene expression. P1 artificial chromosome; gene expression; chromatin; transcription

Published
2008

14. Cardiac Specific Overexpression of Transcription Factor EB (TFEB) in Normal Hearts Induces Pathologic Cardiac Hypertrophy and Lethal Cardiomyopathy

Author

Kenny, Helena C., primary, Weatherford, Eric T., additional, Collins, Greg V., additional, Allamargot, Chantal, additional, Gesalla, Taha, additional, Zimmerman, Kathy, additional, Goel, Harsh, additional, McLendon, Jared M., additional, Dai, Dao-Fu, additional, Romac, Theo, additional, Streeter, Jennifer, additional, Sharafuddin, Jacob, additional, Diwan, Abhinav, additional, Pereira, Renata, additional, Song, Long-Sheng, additional, and Abel, E. Dale, additional

Published
2021
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15. OPA1 Deletion in Brown Adipose Tissue Improves Thermoregulation and Systemic Metabolism via FGF21

Author

Pereira, Renata O., primary, Marti, Alex, additional, Olvera, Angela C., additional, Tadinada, Satya M., additional, Bjorkman, Sarah H., additional, Weatherford, Eric T., additional, Westphal, Michael, additional, Patel, Pooja H., additional, Kirby, Ana K., additional, Hewezi, Rana, additional, Bùi Trần, William, additional, Garcia Pena, Luis M, additional, Souvenir, Rhonda A., additional, Mittal, Monika, additional, Adams, Christopher M., additional, Potthoff, Matthew J., additional, and Abel, E. Dale, additional

Published
2021
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18. Increased Renin Production in Mice with Deletion of PPARγ in Juxtaglomerular Cells

Author

Desch, Michael, Schreiber, Andrea, Schweda, Frank, Madsen, Kirsten, Friis, Ulla G., Weatherford, Eric T., Sigmund, Curt D., Lopez, Maria Luisa Sequeira, Gomez, R. Ariel, and Todorov, Vladimir T.

Subjects
Mice, Knockout, Integrases, Transcription, Genetic, Fluorescent Antibody Technique, Blood Pressure, Article, Juxtaglomerular Apparatus, Cell Line, Up-Regulation, PPAR gamma, Mice, Gene Expression Regulation, Hematocrit, Renin, Animals, Humans, RNA, Messenger, Luciferases, Signal Transduction
Abstract

We found recently that endogenous (free fatty acids) and pharmacological (thiazolidinediones) agonists of nuclear receptor Peroxisome Proliferator-Activated Receptor-γ (PPARγ) stimulate renin transcription. In addition, the renin gene was identified as a direct target of PPARγ. The mouse renin gene is regulated by PPARγ through a distal enhancer direct repeat closely related to consensus PPAR response element (PPRE). In vitro studies demonstrated that PPARγ knockdown stimulated PPRE-driven transcription. These data predicted that deficiency of PPARγ would up-regulate mouse renin expression. Consistent with these observations knockdown of PPARγ increased the transcription of a reporter gene driven by the mouse renin PPRE-like motif in vitro. To study the impact of PPARγ on renin production in vivo we used a cre/lox system to generate double-transgenic mice with disrupted PPARγ locus in renin-producing juxtaglomerular (JG) cells of the kidney (RC-PPARγfl/fl mice). We provide evidence that PPARγ expression was effectively reduced in JG cells of RC-PPARγfl/fl mice. Fluorescent immunohistochemistry showed stronger renin signal in RC-PPARγfl/fl than in littermate control RC-PPARγwt/wt mice. Renin mRNA levels and plasma renin concentration in RC-PPARγfl/fl mice were almost two fold higher than in littermate controls. Arterial blood pressure and pressure control of renal vascular resistance, which play decisive roles in the regulation of renin production were indistinguishable between RC-PPARγwt/wt and RC-PPARγfl/fl mice. These data demonstrate that the JG-specific PPARγ deficiency results in increased mouse renin expression in vivo thus corroborating earlier in vitro results. PPARγ appears to be a relevant transcription factor for the control of renin gene in JG cells.

Published
2010

19. Insulin Receptor Substrates Are Essential for the Bioenergetic and Hypertrophic Response of the Heart to Exercise Training

Author

Riehle, Christian, primary, Wende, Adam R., additional, Zhu, Yi, additional, Oliveira, Karen J., additional, Pereira, Renata O., additional, Jaishy, Bharat P., additional, Bevins, Jack, additional, Valdez, Steven, additional, Noh, Junghyun, additional, Kim, Bum Jun, additional, Moreira, Annie Bello, additional, Weatherford, Eric T., additional, Manivel, Rajkumar, additional, Rawlings, Tenley A., additional, Rech, Monika, additional, White, Morris F., additional, and Abel, E. Dale, additional

Published
2014
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21. Estrogen Receptor α Is Required for Maintaining Baseline Renin Expression.

Author

Ko-Ting Lu, Keen, Henry L., Weatherford, Eric T., Sequeira-Lopez, Maria Luisa S., Gomez, R. Ariel, Sigmund, Curt D., and Lu, Ko-Ting

Abstract

Enzymatic cleavage of angiotensinogen by renin represents the critical rate-limiting step in the production of angiotensin II, but the mechanisms regulating the initial expression of the renin gene remain incomplete. The purpose of this study is to unravel the molecular mechanism controlling renin expression. We identified a subset of nuclear receptors that exhibited an expression pattern similar to renin by reanalyzing a publicly available microarray data set. Expression of some of these nuclear receptors was similarly regulated as renin in response to physiological cues, which are known to regulate renin. Among these, only estrogen receptor α (ERα) and hepatic nuclear factor α have no known function in regulating renin expression. We determined that ERα is essential for the maintenance of renin expression by transfection of small interfering RNAs targeting Esr1, the gene encoding ERα, in renin-expressing As4.1 cells. We also observed that previously characterized negative regulators of renin expression, Nr2f2 and vitamin D receptor, exhibited elevated expression in response to ERα inhibition. Therefore, we tested whether ERα regulates renin expression through an interaction with Nr2f2 and vitamin D receptor. Renin expression did not return to baseline when we concurrently suppressed both Esr1 and Nr2f2 or Esr1 and vitamin D receptor mRNAs, strongly suggesting that Esr1 regulates renin expression independent of Nr2f2 and vitamin D receptor. ERα directly binds to the hormone response element within the renin enhancer region. We conclude that ERα is a previously unknown regulator of renin that directly binds to the renin enhancer hormone response element sequence and is critical in maintaining renin expression in renin-expressing As4.1 cells. [ABSTRACT FROM AUTHOR]

Published
2016
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22. PPARγ Regulates Resistance Vessel Tone Through a Mechanism Involving RGS5-Mediated Control of Protein Kinase C and BKCa Channel Activity

Author

Ketsawatsomkron, Pimonrat, primary, Lorca, Ramón A., additional, Keen, Henry L., additional, Weatherford, Eric T., additional, Liu, Xuebo, additional, Pelham, Christopher J., additional, Grobe, Justin L., additional, Faraci, Frank M., additional, England, Sarah K., additional, and Sigmund, Curt D., additional

Published
2012
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29. Regulation of renin expression by the orphan nuclear receptors Nr2f2 and Nr2f6.

Author

Weatherford, Eric T., Liu, Xuebo, and Sigmund, Curt D.

Abstract

Understanding the transcriptional mechanisms of renin expression is key to understanding the regulation of the renin-angiotensin system. We previously identified the nuclear receptors RAR/RXR and Nr2f6 (EAR2) as positive and negative transcriptional regulators of renin expression, respectively (Liu X, Huang X, Sigmund CD. Circ Res 92: 1033-1040, 2003). Both mediate their effects through a hormone response element (HRE) within the renin enhancer. Here, we determined whether another nuclear receptor, Nr2f2 (Coup-TFII, Arp-1), identified in a screen of proteins that bind the HRE, also regulates renin expression. Luciferase assays indicate that Nr2f2 negatively regulates the renin promoter more potently than Nr2f6. Gel-shift and chromatin immunoprecipitation (ChIP) indicate that Nr2f2 and Nr2f6 can bind directly to the renin enhancer through the HRE. Surprisingly, baseline expression of endogenous renin was not effected when Nr2f2 was knocked down in As4.1 cells, whereas knockdown of Nr2f6 increased renin expression twofold. Interestingly, however, knockdown of Nr2f2 augmented the induction of renin expression caused by retinoic acid. These data indicate that both Nr2f6 and Nr2f2 can negatively regulate the renin promoter, under baseline conditions and in response to physiological queues, respectively. Therefore, Nr2f2 may require an initiating signal that results in a change at the chromatin level or activation of another transcription factor to exert its effects. We conclude that both Nr2f2 and Nr2f6 negatively regulate renin promoter activity, but may do so by divergent mechanisms. [ABSTRACT FROM AUTHOR]

Published
2012
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30. Renal proximal tubule angiotensin AT1A receptors regulate blood pressure.

Author

Huiping Li, Weatherford, Eric T., Davis, Deborah R., Keen, Henry L., Grobe, Justin L., Daugherty, Alan, Cassis, Lisa A., Allen, Andrew M., and Sigmund, Curt D.

Subjects
*KIDNEY tubules, *ANGIOTENSINS, *REGULATION of blood pressure, *TRANSGENE expression, *LABORATORY mice
Abstract

All components of the renin angiotensin system necessary for ANG II generation and action have been reported to be present in renal proximal convoluted tubules. Given the close relationship between renal sodium handling and blood pressure regulation, we hypothesized that modulating the action of ANG II specifically in the renal proximal tubules would alter the chronic level of blood pressure. To test this, we used a proximal tubule-specific, androgen-dependent, promoter construct (KAP2) to generate mice with either overexpression of a constitutively active angiotensin type 1A receptor transgene or depletion of endogenous angiotensin type 1A receptors. Androgen administration to female transgenic mice caused a robust induction of the transgene in the kidney and increased baseline blood pressure. In the receptor-depleted mice, androgen administration to females resulted in a Cre recombinase-mediated deletion of angiotensin type 1A receptors in the proximal tubule and reduced blood pressure. In contrast to the changes observed at baseline, there was no difference in the blood pressure response to a pressor dose of ANG II in either experimental model. These data, from two separate mouse models, provide evidence that ANG II signaling via the type 1A receptor in the renal proximal tubule is a regulator of systemic blood pressure under baseline conditions. [ABSTRACT FROM AUTHOR]

Published
2011
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31. Increased renin production in mice with deletion of peroxisome proliferator-activated receptor-gamma in juxtaglomerular cells.

Author

Desch, Michael, Schreiber, Andrea, Schweda, Frank, Madsen, Kirsten, Friis, Ulla G., Weatherford, Eric T., Sigmund, Curt D., Lopez, Maria Luisa Sequeira, Gomez, R. Ariel, Todorov, Vladimir T., and Sequeira Lopez, Maria Luisa

Abstract

We recently found that endogenous (free fatty acids) and pharmacological (thiazolidinediones) agonists of nuclear receptor Peroxisome proliferator-activated receptor (PPAR)gamma stimulate renin transcription. In addition, the renin gene was identified as a direct target of PPARgamma. The mouse renin gene is regulated by PPARgamma through a distal enhancer direct repeat closely related to consensus PPAR response element (PPRE). In vitro studies demonstrated that PPARgamma knockdown stimulated PPRE-driven transcription. These data predicted that deficiency of PPARgamma would upregulate mouse renin expression. Consistent with these observations knockdown of PPARgamma increased the transcription of a reporter gene driven by the mouse renin PPRE-like motif in vitro. To study the impact of PPARgamma on renin production in vivo, we used a cre/lox system to generate double-transgenic mice with disrupted PPARgamma locus in renin-producing juxtaglomerular (JG) cells of the kidney (RC-PPARgamma(fl/fl) mice). We provide evidence that PPARgamma expression was effectively reduced in JG cells of RC-PPARgamma(fl/fl) mice. Fluorescent immunohistochemistry showed stronger renin signal in RC-PPARgamma(fl/fl) than in littermate control RC-PPARgamma(wt/wt) mice. Renin mRNA levels and plasma renin concentration in RC-PPARgamma(fl/fl) mice were almost 2-fold higher than in littermate controls. Arterial blood pressure and pressure control of renal vascular resistance, which play decisive roles in the regulation of renin production were indistinguishable between RC-PPARgamma(wt/wt) and RC-PPARgamma(fl/fl) mice. These data demonstrate that the JG-specific PPARgamma deficiency results in increased mouse renin expression in vivo thus corroborating earlier in vitro results. PPARgamma appears to be a relevant transcription factor for the control of renin gene in JG cells. [ABSTRACT FROM AUTHOR]

Published
2010
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32. Dysregulated human renin expression in transgenic mice carrying truncated genomic constructs: evidence supporting the presence of insulators at the renin locus.

Author

Xiyou Zhou, Weatherford, Eric T., Xuebo Liu, Born, Ella, Keen, Henry L., and Sigmund, Curt D.

Subjects
*RENIN, *ARTIFICIAL chromosomes, *GENE expression, *CHROMATIN, *TRANSCRIPTION factors, *TRANSGENIC mice, *GENETIC regulation
Abstract

We previously generated transgenic mice carrying a large P1 artificial chromosome (PAC16O) encompassing a 160-kb segment containing the human renin gene, two upstream genes, and one downstream gene. We also previously generated mutant PAC 160 constructs lacking the distal enhancer and concluded it is required to maintain baseline expression of human renin, but is not required for tissue-specific, cell-specific, and regulated expression of renin in vivo. We now report two additional transgenic lines carrying random truncations of PAC 160 upstream of the renin gene. Southern and PCR mapping studies indicate that the truncation break points in the two lines are located ∼10.4 and 2.5 kb upstream of the renin gene causing a deletion of all DNA upstream of the break. We tested the hypothesis that large-scale deletion of DNA upstream of the human renin gene including the enhancer would cause dysregulation of human renin expression. Phenotypically, these truncations cause a severe dysregu- lation of human renin expression, but remarkably, a preservation of the normal tissue-specific expression of the human ethanolamine kinase 2 (ETNK2) gene which lies immediately downstream of renin. Several functional binding sites for CTCF, a mammalian insulator protein, were identified in and around the renin and ETNK2 loci by gel shift and chromatin immunoprecipitation. We conclude that there are sequences in and around the renin and ETNK2 loci which act as boundaries between neighboring genes which insulate them from each other. The study illustrates the value of taking a much wider genomic perspective when studying mechanisms regulating gene expression. [ABSTRACT FROM AUTHOR]

Published
2008
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34. Abstract 191.

Author

Lu, Ko-Ting, Weatherford, Eric T, Ketsawatsomkron, Pimonrat, Grobe, Justin L, and Sigmund, Curt D

Abstract

Expression of the renin gene is required to maintain normal morphological and physiological identity of renal juxtaglomerular (JG) cells, yet the mechanisms regulating renin gene transcription remain elusive. We re-examined data from Brunskill et. al (JASN 22:2213, 2011), investigating genome-wide gene expression in JG and other renal cell types. Based on our previous data implicating nuclear receptors (RAR, RXR, VDR, PPARG, Nr2f2 and Nr2f6) in the regulation of mouse and human renin gene expression, we focused our analysis on the expression of genes encoding the 48 nuclear hormone receptors and their co-regulation with renin. Several nuclear receptors have an expression pattern emulating that of renin, that is, they were similarly enriched in JG cells but not in other cell types. These include Esr1, Nr1h4, Ppara, VDR, Nr1i2, Ppard, Hnf4g, Nr1h3, Thrb, Hnf4a, Esrrg, Nr4a3, Nr3c2, and Ar. We tested the hypothesis that a nuclear receptor that is co-regulated with renin may participate in renin gene regulation. To accomplish this, endogenous renin expression was evaluated in renin-expressing As4.1 cells after siRNA-mediated knock down of selected nuclear receptors. Each experiment included a negative control siRNA duplex (NC) that does not target any known genes. By way of example, siRNA-mediated inhibition of estrogen receptor alpha (Esr1) by 70-80% resulted in a 2-fold decrease in renin mRNA (fold change ± SEM: siEsr1: 0.4±0.2, p<0.001 vs NC). Similar results were obtained with a different siRNA targeting Esr1. Interestingly, loss of Esr1 also caused up-regulation of vitamin D receptor (VDR, 2.8±0.7 fold, p<0.001 vs NC) and Nr2f6 (2.0±0.2 fold, p<0.05 vs NC), both of which are known to be negative regulators of renin. Similarly, both renin (0.1±0.02, p<0.001 vs untreated) and Esr1 (0.3±0.1, p<0.05 vs untreated) mRNA were reduced in the kidney from mice treated with deoxycorticosterone acetate (50mg) and receiving 0.15 M NaCl in drinking water for 21 days (DOCA-salt). These data suggest Esr1 may regulate renin expression. Studies are in progress to assess if Esr1 stimulates renin expression on its own or acts by affecting the level of other nuclear receptors; and to determine if other co-regulated nuclear receptors also regulate expression of the renin gene. [ABSTRACT FROM AUTHOR]

Published
2013

35. Abstract 251.

Author

Ketsawatsomkron, Pimonrat, Keen, Henry L, Weatherford, Eric T, Liu, Xuebo, Faraci, Frank M, and Sigmund, Curt D

Abstract

PPARγ is a ligand-activated transcription factor expressed in the vasculature. Targeted expression of dominant negative (DN) PPARγ to vascular muscle of transgenic mice (S-P467L) caused hypertension and aortic dysfunction. Recently, we demonstrated a robust increase in myogenic tone in S-P467L resistance artery and a reduced large conductance Ca2+-activated K+ (BKCa) current in S-P467L smooth muscle cells (SMC). Inhibition of protein kinase C (PKC) corrected enhanced myogenic constriction and impaired BKCa channel function. Here, we tested the hypothesis that altered expression of PPARγ target genes in S-P467L resistance artery contributes to increased vessel tone. Gene expression profiling in mesenteric artery revealed a marked loss of the regulator of G protein signaling 5 (RGS5) in S-P467L compared to non-transgenic (NT) (fold change compared to NT; 0.18±0.03, p<0.05). Knock down of RGS5 by siRNA in SMC cultures enhanced PKC activity. Consistent with the function of RGS5 as a negative regulator of angiotensin (Ang) II signaling, S-P467L mesenteric artery exhibited an increased Ang II-induced constriction (at 3 nM: 31.4±4% in S-P467L vs 12.9±2% in NT, p<0.05). Pre-incubation of the artery for 30 minutes with the AT1 receptor (AT1R) antagonist losartan completely abolished Ang II-induced vasoconstriction. Neither AT1aR nor AT1bR mRNA expression was different between the groups, implicating a post-receptor mechanism in response to Ang II. Using a sequence-based model, we identified potential PPAR response elements (PPREs) close to the RGS5 promoter. Electrophoretic mobility shift assays showed that both PPARγ and PPARδ can bind at one of the identified PPREs, suggesting that RGS5 might be a direct target of both PPARs. Whereas a significant induction of RGS5 expression was observed in normal mesenteric artery following PPARγ (3.3±0.4 fold) or PPARδ (3.5±0.3 fold) agonist treatment, these inductions were completely lost in S-P467L. We conclude that PPARγ is required for normal resistance vessel tone and have identified RGS5 as a functionally important PPAR target gene. [ABSTRACT FROM AUTHOR]

Published
2012

36. ATF4 Expression in Thermogenic Adipocytes is Required for Cold-Induced Thermogenesis in Mice via FGF21-Independent Mechanisms.

Author

Bjorkman SH, Marti A, Jena J, Garcia Pena LM, Weatherford ET, Kato K, Koneru J, Chen J, Sood A, Potthoff MJ, Adams CM, Abel ED, and Pereira RO

Abstract

In brown adipose tissue (BAT), short-term cold exposure induces the activating transcription factor 4 (ATF4), and its downstream target fibroblast growth factor 21 (FGF21). Induction of ATF4 in BAT in response to mitochondrial stress is required for thermoregulation, partially via upregulation of FGF21. In the present study, we tested the hypothesis that Atf4 and Fgf21 induction in BAT are both required for BAT thermogenesis by generating mice selectively lacking either Atf4 ( ATF4 BKO ) or Fgf21 (FGF21 BKO) in UCP1-expressing adipocytes. After 3 days of cold exposure, core body temperature was significantly reduced in ad-libitum -fed ATF4 BKO mice, which correlated with Fgf21 downregulation in brown and beige adipocytes, and impaired browning of white adipose tissue (WAT). Conversely, despite having reduced browning, FGF21 BKO mice had preserved core body temperature after cold exposure. Mechanistically, ATF4, but not FGF21, regulates amino acid import and metabolism in response to cold, likely contributing to BAT thermogenic capacity under ad libitum -fed conditions. Importantly, under fasting conditions, both ATF4 and FGF21 were required for thermogenesis in cold-exposed mice. Thus, ATF4 regulates BAT thermogenesis by activating amino acid metabolism in BAT in a FGF21-independent manner.

Published
2023
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37. Functional resilience of C57BL/6J mouse heart to dietary fat overload.

Author

Tadinada SM, Weatherford ET, Collins GV, Bhardwaj G, Cochran J, Kutschke W, Zimmerman K, Bosko A, O'Neill BT, Weiss RM, and Abel ED

Subjects
Age Factors, Animals, Diabetic Cardiomyopathies enzymology, Diabetic Cardiomyopathies pathology, Diabetic Cardiomyopathies physiopathology, Disease Models, Animal, Energy Metabolism, Female, Fibrosis, G-Protein-Coupled Receptor Kinase 2 genetics, G-Protein-Coupled Receptor Kinase 2 metabolism, Hypertrophy, Left Ventricular enzymology, Hypertrophy, Left Ventricular pathology, Hypertrophy, Left Ventricular physiopathology, Male, Mice, Inbred C57BL, Mice, Knockout, Mitochondria, Heart enzymology, Mitochondria, Heart pathology, Myocardium enzymology, Myocardium pathology, Ventricular Dysfunction, Left enzymology, Ventricular Dysfunction, Left pathology, Ventricular Dysfunction, Left physiopathology, Ventricular Remodeling, Mice, Diabetic Cardiomyopathies etiology, Diet, High-Fat, Hypertrophy, Left Ventricular etiology, Obesity complications, Stroke Volume, Ventricular Dysfunction, Left etiology, Ventricular Function, Left
Abstract

Molecular mechanisms underlying cardiac dysfunction and subsequent heart failure in diabetic cardiomyopathy are incompletely understood. Initially we intended to test the role of G protein-coupled receptor kinase 2 (GRK2), a potential mediator of cardiac dysfunction in diabetic cardiomyopathy, but found that control animals on HFD did not develop cardiomyopathy. Cardiac function was preserved in both wild-type and GRK2 knockout animals fed high-fat diet as indicated by preserved left ventricular ejection fraction (LVEF) although heart mass was increased. The absence of cardiac dysfunction led us to rigorously evaluate the utility of diet-induced obesity to model diabetic cardiomyopathy in mice. Using pure C57BL/6J animals and various diets formulated with different sources of fat-lard (32% saturated fat, 68% unsaturated fat) or hydrogenated coconut oil (95% saturated fat), we consistently observed left ventricular hypertrophy, preserved LVEF, and preserved contractility measured by invasive hemodynamics in animals fed high-fat diet. Gene expression patterns that characterize pathological hypertrophy were not induced, but a modest induction of various collagen isoforms and matrix metalloproteinases was observed in heart with high-fat diet feeding. PPARα-target genes that enhance lipid utilization such as Pdk4 , CD36 , AcadL , and Cpt1b were induced, but mitochondrial energetics was not impaired. These results suggest that although long-term fat feeding in mice induces cardiac hypertrophy and increases cardiac fatty acid metabolism, it may not be sufficient to activate pathological hypertrophic mechanisms that impair cardiac function or induce cardiac fibrosis. Thus, additional factors that are currently not understood may contribute to the cardiac abnormalities previously reported by many groups. NEW & NOTEWORTHY Dietary fat overload (DFO) is widely used to model diabetic cardiomyopathy but the utility of this model is controversial. We comprehensively characterized cardiac contractile and mitochondrial function in C57BL6/J mice fed with lard-based or saturated fat-enriched diets initiated at two ages. Despite cardiac hypertrophy, contractile and mitochondrial function is preserved, and molecular adaptations likely limit lipotoxicity. The resilience of these hearts to DFO underscores the need to develop robust alternative models of diabetic cardiomyopathy.

Published
2021
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38. Renal proximal tubule angiotensin AT1A receptors regulate blood pressure.

Author

Li H, Weatherford ET, Davis DR, Keen HL, Grobe JL, Daugherty A, Cassis LA, Allen AM, and Sigmund CD

Subjects
Androgens pharmacology, Angiotensin II pharmacology, Animals, Blood Pressure drug effects, Female, Integrases metabolism, Male, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Models, Animal, Receptor, Angiotensin, Type 1 drug effects, Receptor, Angiotensin, Type 1 genetics, Signal Transduction drug effects, Signal Transduction physiology, Blood Pressure physiology, Kidney Tubules, Proximal metabolism, Receptor, Angiotensin, Type 1 metabolism
Abstract

All components of the renin angiotensin system necessary for ANG II generation and action have been reported to be present in renal proximal convoluted tubules. Given the close relationship between renal sodium handling and blood pressure regulation, we hypothesized that modulating the action of ANG II specifically in the renal proximal tubules would alter the chronic level of blood pressure. To test this, we used a proximal tubule-specific, androgen-dependent, promoter construct (KAP2) to generate mice with either overexpression of a constitutively active angiotensin type 1A receptor transgene or depletion of endogenous angiotensin type 1A receptors. Androgen administration to female transgenic mice caused a robust induction of the transgene in the kidney and increased baseline blood pressure. In the receptor-depleted mice, androgen administration to females resulted in a Cre recombinase-mediated deletion of angiotensin type 1A receptors in the proximal tubule and reduced blood pressure. In contrast to the changes observed at baseline, there was no difference in the blood pressure response to a pressor dose of ANG II in either experimental model. These data, from two separate mouse models, provide evidence that ANG II signaling via the type 1A receptor in the renal proximal tubule is a regulator of systemic blood pressure under baseline conditions.

Published
2011
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