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1. Impaired T cell IRE1[alpha]/XBP1 signaling directs inflammation in experimental heart failure with preserved ejection fraction

Author

Smolgovsky, Sasha, Bayer, Abraham L., Kaur, Kuljeet, Sanders, Erin, Aronovitz, Mark, Filipp, Mallory E., Thorp, Edward B., Schiattarella, Gabriele G., Hill, Joseph A., Blanton, Robert M., Cubillos-Ruiz, Juan R., and Alcaide, Pilar

Subjects
Cardiac output -- Measurement -- Health aspects, Antigens -- Testing, Heart failure -- Risk factors -- Prevention, Physiology, Pathological -- Analysis, Health care industry
Abstract

Heart failure with preserved ejection fraction (HFpEF) is a widespread syndrome with limited therapeutic options and poorly understood immune pathophysiology. Using a 2-hit preclinical model of cardiometabolic HFpEF that induces obesity and hypertension, we found that cardiac T cell infiltration and lymphoid expansion occurred concomitantly with cardiac pathology and that diastolic dysfunction, cardiomyocyte hypertrophy, and cardiac phospholamban phosphorylation were T cell dependent. Heart-infiltrating T cells were not restricted to cardiac antigens and were uniquely characterized by impaired activation of the inositol-requiring enzyme 1[alpha]/X-box-binding protein 1 (IRE1[alpha]/XBP1) arm of the unfolded protein response. Notably, selective ablation of XBP1 in T cells enhanced their persistence in the heart and lymphoid organs of mice with preclinical HFpEF. Furthermore, T cell IRE1[alpha]/XBP1 activation was restored after withdrawal of the 2 comorbidities inducing HFpEF, resulting in partial improvement of cardiac pathology. Our results demonstrated that diastolic dysfunction and cardiomyocyte hypertrophy in preclinical HFpEF were T cell dependent and that reversible dysregulation of the T cell IRE1[alpha]/ XBP1 axis was a T cell signature of HFpEF., Introduction Widely regarded as the greatest unmet need in cardiovascular medicine, heart failure with preserved ejection fraction (HFpEF) is a complex and heterogeneous syndrome accounting for roughly 50% of HF [...]

Published
2023
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5. Impaired T cell IRE1α-XBP1 signaling directs inflammation in experimental Heart Failure with Preserved Ejection Fraction

Author

Smolgovsky, Sasha, primary, Bayer, Abraham L., additional, Kaur, Kuljeet, additional, Sanders, Erin, additional, Aronovitz, Mark, additional, Filipp, Mallory E., additional, Thorp, Edward B., additional, Schiattarella, Gabriele G., additional, Hill, Joseph A., additional, Blanton, Robert M., additional, Cubillos-Ruiz, Juan R., additional, and Alcaide, Pilar, additional

Published
2023
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7. Mineralocorticoid receptor antagonism inhibits vein graft remodeling in mice

Author

Ehsan, Afshin, McGraw, Adam P, Aronovitz, Mark J, Galayda, Carol, Conte, Michael S, Karas, Richard H, and Jaffe, Iris Z

Subjects
Hypertension, Genetics, Cardiovascular, Aetiology, 2.1 Biological and endogenous factors, Aldosterone, Analysis of Variance, Animals, Aorta, Disease Models, Animal, Gene Expression, Graft Rejection, Humans, Immunoblotting, Immunohistochemistry, Mice, Mineralocorticoid Receptor Antagonists, RNA, Messenger, Receptors, Mineralocorticoid, Renin-Angiotensin System, Reverse Transcriptase Polymerase Chain Reaction, Spironolactone, Up-Regulation, Vascular Patency, Vena Cava, Inferior, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Respiratory System
Abstract

ObjectiveVein graft failure rates resulting from adverse graft remodeling remain high with no effective therapy. The mineralocorticoid receptor (MR) plays a role in pathologic arterial remodeling. We demonstrated recently that the MR is upregulated in venous tissues after grafting and hypothesized that MR inhibition would reduce vein graft remodeling.MethodsReverse transcription polymerase chain reaction and immunoblotting were used to examine the expression of the MR and other components of the renin-angiotensin-aldosterone system in human vein and primary human saphenous vein smooth muscle cells (HSVSMC). Adenoviral reporter gene assays were used to explore MR transcriptional activity in HSVSMC. The effect of MR inhibition on vein graft remodeling in vivo was characterized in a mouse vein graft model.ResultsMessenger RNAs encoding the MR, 11-β-hydroxysteroid dehydrogenase 2, angiotensin type 1 receptor, and the angiotensin-converting enzyme are expressed in whole HSVSMC. MR and 11-β-hydroxysteroid dehydrogenase 2 protein expression is confirmed, and MR-dependent transcriptional regulation is demonstrated at physiologic aldosterone concentrations in HSVSMC. Treatment of mice with the MR antagonist spironolactone, at doses that do not lower blood pressure (20 mg/kg per day), reduces maximal vein graft intima-media thickness by 68%, with an associated reduction in graft inflammatory cell infiltration and fibrosis.ConclusionsMR is expressed in human venous tissue and cells and modulates gene expression in HSVSMC in response to physiologic aldosterone concentrations. In vivo, MR inhibition reduces vein graft thickening and inflammation. These preclinical data support the potential to use MR antagonists as novel treatments to preserve vein graft patency.

Published
2013

11. Abstract P3077: Withdrawal Of High Fat Diet And L-NAME Dampens T Cell Activation And Ameliorates Pathology In Experimental Heart Failure With Preserved Ejection Fraction (HFPEF) Through Modulation Of The T Cell IRE1a-XBP1 Axis

Author

Smolgovsky, Sasha, primary, Bayer, Abraham, additional, kaur, Kuljeet, additional, Aronovitz, Mark, additional, Sanders, Erin, additional, Blanton, Robert M, additional, Thorp, Edward B, additional, Schiattarella, Gabriele G, additional, Hill, Joseph A, additional, Cubillos-Ruiz, Juan R, additional, and Alcaide, Pilar, additional

Published
2023
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29. MLK3 mediates impact of PKG1α on cardiac function and controls blood pressure through separate mechanisms

Author

Calamaras, Timothy D., primary, Pande, Suchita, additional, Baumgartner, Robert A.U., additional, Kim, Seung Kyum, additional, McCarthy, Joseph C., additional, Martin, Gregory L., additional, Tam, Kelly, additional, McLaughlin, Angela L., additional, Wang, Guang-rong, additional, Aronovitz, Mark J., additional, Lin, Weiyu, additional, Aguirre, Jonathan I., additional, Baca, Paulina, additional, Liu, Peiwen, additional, Richards, Daniel A., additional, Davis, Roger J., additional, Karas, Richard H., additional, Jaffe, Iris Z., additional, and Blanton, Robert M., additional

Published
2021
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33. Placental growth factor mediates aldosterone-dependent vascular injury in mice

Author

Jaffe, Iris Z., Newfell, Brenna G., Aronovitz, Mark, Mohammad, Najwa N., McGraw, Adam P., Perreault, Roger E., Carmeliet, Peter, Ehsan, Afshin, and Mendelsohn, Michael E.

Subjects
Hormone antagonists -- Usage -- Health aspects, Gene expression -- Research, Vascular endothelial growth factor -- Health aspects -- Genetic aspects -- Research, Mice -- Usage -- Models, Blood circulation disorders -- Risk factors -- Genetic aspects -- Drug therapy -- Research, Health care industry
Abstract

In clinical trials, aldosterone antagonists reduce cardiovascular ischemia and mortality by unknown mechanisms. Aldosterone is a steroid hormone that signals through renal mineralocorticoid receptors (MRs) to regulate blood pressure. MRs are expressed and regulate gene transcription in human vascular cells, suggesting that aldosterone might have direct vascular effects. Using gene expression profiling, we identify the pro-proliferative VEGF family member placental growth factor (PGF) as an aldosterone-regulated vascular MR target gene in mice and humans. Aldosterone-activated vascular MR stimulated Pgf gene transcription and increased PGF protein expression and secretion in the mouse vasculature. In mouse vessels with endothelial damage and human vessels from patients with atherosclerosis, aldosterone enhanced expression of PGF and its receptor, FMS-like tyrosine kinase 1 (Flt1). In atherosclerotic human vessels, MR antagonists inhibited PGF expression. In vivo, aldosterone infusion augmented vascular remodeling in mouse carotids following wire injury, an effect that was lost in [Pgf.sup.-/-] mice. In summary, we have identified PGF as what we believe to be a novel downstream target of vascular MR that mediates aldosterone augmentation of vascular injury. These findings suggest a non-renal mechanism for the vascular protective effects of aldosterone antagonists in humans and support targeting the vascular aldosterone/MR/PGF/Flt1 pathway as a therapeutic strategy for ischemic cardiovascular disease., Introduction In heart failure trails, in addition to reducing cardiovascular mortality, aldosterone antagonists have also been unexpectedly shown to significantly reduce atherosclerotic clinical events by mechanisms that remain unclear (1), [...]

Published
2010
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37. Stimulator of Interferon Genes (STING) regulates Re‐endothelialization Following Vascular Injury

Author

Anastasiou, Marina, primary, Carrillo‐Salinas, Fransisco, additional, Smolgovsky, Sasha, additional, Newton, Gail, additional, Boxerman, Sophia, additional, Moreno De Lara, Laura, additional, Aronovitz, Mark, additional, Kaur, Kuljeet, additional, Rodriguez‐Garcia, Marta, additional, Luscinskas, Francis, additional, and Alcaide, Pilar, additional

Published
2021
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38. Endothelial Pannexin 1 Regulates Cardiac Response to Myocardial Infarction

Author

Good, Miranda E., primary, Young, Alexander P., additional, Wolpe, Abigail G., additional, Ma, Manxiu, additional, Hall, Philip J., additional, Duffy, Colleen K., additional, Aronovitz, Mark J., additional, Martin, Gregory L., additional, Blanton, Robert M., additional, Leitinger, Norbert, additional, Johnstone, Scott R., additional, Wolf, Matthew J., additional, and Isakson, Brant E., additional

Published
2021
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39. Isolevuglandin-Modified Cardiac Proteins Drive CD4+ T-Cell Activation in the Heart and Promote Cardiac Dysfunction

Author

Ngwenyama, Njabulo, primary, Kirabo, Annet, additional, Aronovitz, Mark, additional, Velázquez, Francisco, additional, Carrillo-Salinas, Francisco, additional, Salvador, Ane M., additional, Nevers, Tania, additional, Amarnath, Venkataraman, additional, Tai, Albert, additional, Blanton, Robert M., additional, Harrison, David G., additional, and Alcaide, Pilar, additional

Published
2021
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40. Parasympathetic response in chick myocytes and mouse heart is controlled by SREBP

Author

Park, Ho-Jin, Georgescu, Serban P., Du, Chuang, Madias, Christopher, Aronovitz, Mark J., Welzig, C. Michael, Wang, Bo, Begley, Ulrike, Zhang, Yali, Blaustein, Robert O., Patten, Richard D., Karas, Richard H., Van Tol, Herbert H., Osborne, Timothy F., Shimano, Hitoshi, Liao, Ronglih, Link, Mark S., and Galper, Jonas B.

Subjects
Arrhythmia -- Complications and side effects, Arrhythmia -- Research, Lipid metabolism -- Health aspects, Lipid metabolism -- Research, Nervous system, Parasympathetic -- Health aspects, Nervous system, Parasympathetic -- Research
Abstract

Parasympathetic stimulation of the heart, which provides protection from arrhythmias and sudden death, involves activation of the G protein--coupled inward rectifying [K.sup.+] channel GIRK1/4 and results in an acetylcholine-sensitive [K.sup.+] current, [I.sub.KACh]. We describe a unique relationship between lipid homeostasis, the lipid-sensitive transcription factor SREBP-1, regulation of the cardiac parasympathetic response, and the development of ventricular arrhythmia. In embryonic chick atrial myocytes, lipid lowering by culture in lipoprotein-depleted serum increased SREBP-1 levels, GIRK1 expression, and [I.sub.KACh] activation. Regulation of the GIRK1 promoter by SREBP-1 and lipid lowering was dependent on interaction with 2 tandem sterol response elements and an upstream E-box motif. Expression of dominant negative SREBP-1 (DN--SREBP-1) reversed the effect of lipid lowering on [I.sub.KACh] and GIRK1. In SREBP-1 knockout mice, both the response of the heart to parasympathetic stimulation and the expression of GIRK1 were reduced compared with WT. [I.sub.KACh], attenuated in atrial myocytes from SREBP-1 knockout mice, was stimulated by SREBP-1 expression. Following myocardial infarction, SREBP-1 knockout mice were twice as likely as WT mice to develop ventricular tachycardia in response to programmed ventricular stimulation. These results demonstrate a relationship between lipid metabolism and parasympathetic response that may play a role in arrhythmogenesis., Introduction The balance between the response of the heart to sympathetic and parasympathetic stimuli not only determines the rate and force of contraction but also plays a role in regulating [...]

Published
2008

41. Sacubitril/valsartan improves LV function in chronic pressure overload independently of intact cGMP-dependent protein kinase I alpha signaling

Author

Tam, Kelly, Richards, Daniel A., Aronovitz, Mark J., Martin, Gregory L., Pande, Suchita, Jaffe, Iris Z., and Blanton, Robert M.

Subjects
Heart Failure, Male, Aminobutyrates, Biphenyl Compounds, Guanosine Monophosphate, Article, Ventricular Function, Left, Mice, Inbred C57BL, Drug Combinations, Mice, Random Allocation, Animals, Valsartan, Cyclic GMP-Dependent Protein Kinase Type I
Abstract

BACKGROUND: Combined angiotensin receptor/neprilysin inhibition with sacubitril/valsartan has emerged as a therapy for heart failure (HF). The presumed mechanism of benefit is through prevention of natriuretic peptide (NP) degradation, leading to increased cGMP-dependent protein kinase (PKG) signaling. However, the specific requirement of PKG for sacubitril/valsartan effects remains untested. METHODS AND RESULTS: We examined sacubitril/valsartan treatment in mice with mutation of the PKGIα leucine zipper domain, which is required for cGMP-PKGIα anti-remodeling actions in vivo. WT or PKG Leucine Zipper Mutant (LZM) mice were exposed to 56-day LV pressure overload by moderate (26 Gauge) transaortic constriction (TAC). At day 14 post-TAC, mice were randomized to vehicle or sacubitril/valsartan by oral gavage. TAC induced the same degree of LV pressure overload in WT and LZM mice, which was not affected by sacubitril/valsartan. Though LZM mice, but not WT, developed LV dilation post-TAC, sacubitril valsartan improved cardiac hypertrophy and LV fractional shortening to the same degree in both the WT and LZM TAC mice. CONCLUSION: These ladings indicate beneficial effects of sacubitril/valsartan on LV structure and function in moderate pressure overload. The unexpected finding that PKGIα mutation does not abolish the sacubitril/valsartan effects on cardiac hypertrophy and on LV function suggests that signaling other than NP-cGMP-PKG mediates the therapeutic benefits of neprilysin inhibition in HF.

Published
2020

42. The CREB leucine zipper regulates CREB phosphorylation, cardiomyopathy, and lethality in a transgenic model of heart failure

Author

Huggins, Gordon S., Lepore, John J., Greytak, Sarah, Patten, Richard, McNamee, Rachel, Aronovitz, Mark, Wang, Paul J., and Reed, Guy L.

Subjects
Heart failure -- Research, Heart cells -- Research, Cellular control mechanisms -- Research, Cyclic adenosine monophosphate response element-binding protein -- Research, Cardiovascular research, Biological sciences
Abstract

Signaling through cAMP plays an important role in heart failure. Phosphorylation of cAMP response element binding protein (CREB) at serine-133 regulates gene expression in the heart. We examined the functional significance of CREBS133 phosphorylation by comparing transgenic models in which a phosphorylation resistant CREB-S 133A mutant containing either an intact or a mutated leucine zipper domain (CREB-S 133A-LZ) was expressed in the heart. In vitro, CREB-S133A retained the ability to interact with wild-type CREB, whereas CREB-S133A-LZ did not. In vivo, CREB-S133A and CREB-S133A-LZ were expressed at comparable levels in the heart; however, CREB-S133A markedly suppressed the phosphorylation of endogenous CREB, whereas CREB-S 133A-LZ had no effect. The one-year survival of mice from two CREB-S133A-LZ transgenic lines was equivalent to nontransgenic littermate control mice (NTG), whereas transgenic CREBS133A mice died with heart failure at a median 30 wk of age (P < 0.0001). CREB-S133A mice had an altered gene expression characteristic of the failing heart, whereas CREB-S 133A-LZ mice did not. Left ventricular contractile function was substantially reduced in CREB-S133A mice versus NTG mice and only modestly reduced in CREB-S 133A-LZ mice (P < 0.02). When considered in light of other studies, these findings indicate that overexpression of the CREB leucine zipper is required for both inhibition of endogenous CREB phosphorylation and cardiomyopathy in this routine model of heart failure. adenosine 3',5'-cyclic monophosphate responsive element binding protein

Published
2007

43. Gender-specific patterns of left ventricular and myocyte remodeling following myocardial infarction in mice deficient in the angiotensin II type 1a receptor

Author

Bridgman, Paul, Aronovitz, Mark A., Kakkar, Rahul, Oliverio, Michael I., Coffman, Thomas M., Rand, William M., Konstam, Marvin A., Mendelsohn, Michael E., and Patten, Richard D.

Subjects
Mice -- Research, Angiotensin -- Receptors, Heart ventricle, Left, Hypertrophy, Heart attack, Biological sciences
Abstract

Left ventricular (LV) remodeling after myocardial infarction (MI) results from hypertrophy of myocytes and activation of fibroblasts induced, in part, by ligand stimulation of the ANG II type 1 receptor (A[T.sub.1]R). The purpose of the present study was to explore the specific role for activation of the A[T.sub.1a]R subtype in post-MI remodeling and whether gender differences exist in the patterns of remodeling in wild-type and A[T.sub.1a]R knockout (KO) mice. A[T.sub.1a]R-KO mice and wild-type littermates underwent coronary ligation to induce MI or sham procedures; echocardiography and hemodynamic evaluation were performed 6 wk later, and LV tissue was harvested for infarct size determination, morphometric measurements, and gene expression analysis. Survival and infarct size were similar among all male and female wild-type and A[T.sub.1a]R-KO mice. Hemodynamic indexes were also similar except for lower systolic blood pressure in the A[T.sub.1a]R-KO mice compared with wild-type mice. Male and female wild-type and male A[T.sub.1a]R-KO mice developed similar increases in LV chamber size, LV mass corrected for body weight (LV/BW), and myocyte cross-sectional area (CSA). However, female A[T.sub.1a]R-KO mice demonstrated no increase in LV/BW and myocyte CSA post-MI compared with shams. Both male and female wild-type mice demonstrated higher atrial natriuretic peptide (ANP) levels after MI, with female wild types being significantly greater than males. However, male and female A[T.sub.1a]R-KO mice developed no increase in ANP gene expression with MI despite an increase in LV mass and myocyte size in males. These data support that gender-specific patterns of LV and myocyte hypertrophy exist after MI in mice with a disrupted A[T.sub.1a]R gene, and suggest that myocyte hypertrophy post-MI in females relies, in part, on activation of the A[T.sub.1a]R. Further work is necessary to explore the potential mechanisms underlying these gender-based differences. angiotensin II receptors; ventricular remodeling; myocyte; hypertrophy

Published
2005

46. Regulator of G-protein signaling-2 mediates vascular smooth muscle relaxation and blood pressure

Author

Tang, Mary, Wang, Guang, Lu, Ping, Karas, Richard H, Aronovitz, Mark, Heximer, Scott P, Kaltenbronn, Kevin M, Blumer, Kendall J, Siderovski, David P, Zhu, Yan, and Mendelsohn, Michael E

Abstract

Nitric oxide (NO) inhibits vascular contraction by activating cGMP-dependent protein kinase I-[alpha] (PKGI-[alpha]), which causes dephosphorylation of myosin light chain (MLC) and vascular smooth muscle relaxation. Here we show that PKGI-[alpha] attenuates signaling by the thrombin receptor protease-activated receptor-1 (PAR-1) through direct activation of regulator of G-protein signaling-2 (RGS-2). NO donors and cGMP cause cGMP-mediated inhibition of PAR-1 and membrane localization of RGS-2. PKGI-[alpha] binds directly to and phosphorylates RGS-2, which significantly increases GTPase activity of G[sub.q], terminating PAR-1 signaling. Disruption of the RGS-2-PKGI-[alpha] interaction reverses inhibition of PAR-1 signaling by nitrovasodilators and cGMP. Rgs2[sup.-/-] mice develop marked hypertension, and their blood vessels show enhanced contraction and decreased cGMP-mediated relaxation. Thus, PKGI-[alpha] binds to, phosphorylates and activates RGS-2, attenuating receptor-mediated vascular contraction. Our study shows that RGS-2 is required for normal vascular function and blood pressure and is a new drug development target for hypertension., Author(s): Mary Tang [1]; Guang Wang [1]; Ping Lu [1, 4]; Richard H Karas [1]; Mark Aronovitz [1]; Scott P Heximer [2]; Kevin M Kaltenbronn [2]; Kendall J Blumer [2]; [...]

Published
2003
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