Your search keyword '"Aronovitz, Mark"' showing total 9 results

1. 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

2. High Blood Pressure Arising from a Defect in Vascular Function

Author

Michael, Simon K., Surks, Howard K., Wang, Yuepeng, Zhu, Yan, Blanton, Robert, Jamnongjit, Michelle, Aronovitz, Mark, Baur, Wendy, Ohtani, Kenichi, Wilkerson, Michael K., Bonev, Adrian D., Nelson, Mark T., Karas, Richard H., and Mendelsohn, Michael E.

Published

2008

3. Endothelial Mineralocorticoid Receptors Differentially Contribute to Coronary and Mesenteric Vascular Function Without Modulating Blood Pressure.

Author

Barrett Mueller, Katelee, Bender, Shawn B., Kwangseok Hong, Yan Yang, Aronovitz, Mark, Jaisser, Frederic, Hill, Michael A., Jaffe, Iris Z., Hong, Kwangseok, Yang, Yan, and Mueller, Katelee Barrett

Abstract

Arteriolar vasoreactivity tightly regulates tissue-specific blood flow and contributes to systemic blood pressure (BP) but becomes dysfunctional in the setting of cardiovascular disease. The mineralocorticoid receptor (MR) is known to regulate BP via the kidney and by vasoconstriction in smooth muscle cells. Although endothelial cells (EC) express MR, the contribution of EC-MR to BP and resistance vessel function remains unclear. To address this, we created a mouse with MR specifically deleted from EC (EC-MR knockout [EC-MR-KO]) but with intact leukocyte MR expression and normal renal MR function. Telemetric BP studies reveal no difference between male EC-MR-KO mice and MR-intact littermates in systolic, diastolic, circadian, or salt-sensitive BP or in the hypertensive responses to aldosterone±salt or angiotensin II±l-nitroarginine methyl ester. Vessel myography demonstrated normal vasorelaxation in mesenteric and coronary arterioles from EC-MR-KO mice. After exposure to angiotensin II-induced hypertension, impaired endothelial-dependent relaxation was prevented in EC-MR-KO mice in mesenteric vessels but not in coronary vessels. Mesenteric vessels from angiotensin II-exposed EC-MR-KO mice showed increased maximum responsiveness to acetylcholine when compared with MR-intact vessels, a difference that is lost with indomethacin+l-nitroarginine methyl ester pretreatment. These data support that EC-MR plays a role in regulating endothelial function in hypertension. Although there was no effect of EC-MR deletion on mesenteric vasoconstriction, coronary arterioles from EC-MR-KO mice showed decreased constriction to endothelin-1 and thromboxane agonist at baseline and also after exposure to hypertension. These data support that EC-MR participates in regulation of vasomotor function in a vascular bed-specific manner that is also modulated by risk factors, such as hypertension. [ABSTRACT FROM AUTHOR]

Published

2015

4. Exposure to Experimental Preeclampsia in Mice Enhances the Vascular Response to Future Injury.

Author

Pruthi, Dafina, Khankin, Eliyahu V., Blanton, Robert M., Aronovitz, Mark, Burke, Suzanne D., McCurley, Amy, Karumanchi, S. Ananth, and Jaffe, Iris Z.

Abstract

Cardiovascular disease (CVD) remains the leading killer of women in developed nations. One sex-specific risk factor is preeclampsia, a syndrome of hypertension and proteinuria that complicates 5% of pregnancies. Although preeclampsia resolves after delivery, exposed women are at increased long-term risk of premature CVD and mortality. Pre-existing CVD risk factors are associated with increased risk of developing preeclampsia but whether preeclampsia merely uncovers risk or contributes directly to future CVD remains a critical unanswered question. A mouse preeclampsia model was used to test the hypothesis that preeclampsia causes an enhanced vascular response to future vessel injury. A preeclampsia-like state was induced in pregnant CD1 mice by overexpressing soluble fms-like tyrosine kinase-1, a circulating antiangiogenic protein that induces hypertension and glomerular disease resembling human preeclampsia. Two months postpartum, soluble fms-like tyrosine kinase-1 levels and blood pressure normalized and cardiac size and function by echocardiography and renal histology were indistinguishable in preeclampsia-exposed compared with control mice. Mice were then challenged with unilateral carotid injury. Preeclampsia-exposed mice had significantly enhanced vascular remodeling with increased vascular smooth muscle cell proliferation (180% increase; P<0.01) and vessel fibrosis (216% increase; P<0.001) compared with control pregnancy. In the contralateral uninjured vessel, there was no difference in remodeling after exposure to preeclampsia. These data support a new model in which vessels exposed to preeclampsia retain a persistently enhanced vascular response to injury despite resolution of preeclampsia after delivery. This new paradigm may contribute to the substantially increased risk of CVD in woman exposed to preeclampsia. [ABSTRACT FROM AUTHOR]

Published

2015

5. Mutation of the Protein Kinase I Alpha Leucine Zipper Domain Produces Hypertension and Progressive Left Ventricular Hypertrophy: A Novel Mouse Model of Age-Dependent Hypertensive Heart Disease.

Author

Blanton, Robert M., Takimoto, Eiki, Aronovitz, Mark, Thoonen, Robrecht, Kass, David A., Karas, Richard H., and Mendelsohn, Michael E.

Subjects

ANIMAL models in research, HEART diseases, HYPERTENSION in old age, CGMP-dependent protein kinase, GENETIC mutation, CARDIAC hypertrophy, LEUCINE zippers, GENETICS of aging, CONGESTIVE heart failure, GENETICS

Abstract

Hypertensive heart disease causes significant mortality in older patients, yet there is an incomplete understanding of molecular mechanisms that regulate age-dependent hypertensive left ventricular hypertrophy (LVH). Therefore, we tested the hypothesis that the cGMP-dependent protein kinase G I alpha (PKGIα) attenuates hypertensive LVH by evaluating the cardiac phenotype in mice with selective mutations of the PKGIα leucine zipper domain. These leucine zipper mutant (LZM) mice develop basal hypertension. Compared with wild-type controls, 8-month-old adult LZM mice developed increased left ventricular end-diastolic pressure but without frank LVH. In advanced age (15 months), the LZM mice developed overt pathological LVH. These findings reveal a role of PKGIα in normally attenuating hypertensive LVH. Therefore, mutation of the PKGIα LZ domain produces a clinically relevant model for hypertensive heart disease of aging. [ABSTRACT FROM PUBLISHER]

Published

2013

6. Biventricular Remodeling in Murine Models of Right Ventricular Pressure Overload.

Author

Kapur, Navin K., Paruchuri, Vikram, Aronovitz, Mark J., Qiao, Xiaoying, Mackey, Emily E., Daly, Gerard H., Ughreja, Kishan, Levine, Jonathan, Blanton, Robert, Hill, Nicholas S., and Karas, Richard H.

Subjects

VENTRICULAR remodeling, LUNG diseases, HEART failure, HEMODYNAMICS, CATHETERIZATION, CARDIOVASCULAR diseases

Abstract

: Right ventricular (RV) failure is a major cause of mortality in acute or chronic lung disease and left heart failure. The objective of this study was to demonstrate a percutaneous approach to study biventricular hemodynamics in murine models of primary and secondary RV pressure overload (RVPO) and further explore biventricular expression of two key proteins that regulate cardiac remodeling: calcineurin and transforming growth factor beta 1 (TGFβ1). Methods: Adult, male mice underwent constriction of the pulmonary artery or thoracic aorta as models of primary and secondary RVPO, respectively. Conductance catheterization was performed followed by tissue analysis for changes in myocyte hypertrophy and fibrosis. Results: Both primary and secondary RVPO decreased biventricular stroke work however RV instantaneous peak pressure (dP/dtmax) and end-systolic elastance (Ees) were preserved in both groups compared to controls. In contrast, left ventricular (LV) dP/dtmax and LV-Ees were unchanged by primary, but reduced in the secondary RVPO group. The ratio of RV:LV ventriculo-arterial coupling was increased in primary and reduced in secondary RVPO. Primary and secondary RVPO increased RV mass, while LV mass decreased in primary and increased in the secondary RVPO groups. RV fibrosis and hypertrophy were increased in both groups, while LV fibrosis and hypertrophy were increased in secondary RVPO only. RV calcineurin expression was increased in both groups, while LV expression increased in secondary RVPO only. Biventricular TGFβ1 expression was increased in both groups. Conclusion: These data identify distinct effects of primary and secondary RVPO on biventricular structure, function, and expression of key remodeling pathways. [ABSTRACT FROM AUTHOR]

Published

2013

7. Direct regulation of blood pressure by smooth muscle cell mineralocorticoid receptors.

Author

McCurley, Amy, Pires, Paulo W, Bender, Shawn B, Aronovitz, Mark, Zhao, Michelle J, Metzger, Daniel, Chambon, Pierre, Hill, Michael A, Dorrance, Anne M, Mendelsohn, Michael E, and Jaffe, Iris Z

Subjects

REGULATION of blood pressure, SMOOTH muscle, MINERALOCORTICOID receptors, HYPERTENSION, CARDIOVASCULAR diseases risk factors, KIDNEY failure, ANGIOTENSIN II

Abstract

Hypertension is a cardiovascular risk factor present in over two-thirds of people over age 60 in North America; elevated blood pressure correlates with increased risk of heart attack, stroke and progression to heart and kidney failure. Current therapies are insufficient to control blood pressure in almost half of these patients. The mineralocorticoid receptor (MR), acting in the kidney, is known to regulate blood pressure through aldosterone binding and stimulation of sodium retention. However, recent studies support the concept that the MR also has extrarenal actions and that defects in sodium handling alone do not fully explain the development of hypertension and associated cardiovascular mortality. We and others have identified functional MR in human vascular smooth muscle cells (SMCs), suggesting that vascular MR might directly regulate blood pressure. Here we show that mice with SMC-specific deficiency of the MR have decreased blood pressure as they age without defects in renal sodium handling or vascular structure. Aged mice lacking MR in SMCs (SMC-MR) have reduced vascular myogenic tone, agonist-dependent contraction and expression and activity of L-type calcium channels. Moreover, SMC-MR contributes to angiotensin II-induced vascular oxidative stress, vascular contraction and hypertension. This study identifies a new role for vascular MR in blood pressure control and in vascular aging and supports the emerging hypothesis that vascular tone contributes directly to systemic blood pressure. [ABSTRACT FROM AUTHOR]

Published

2012

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

Author

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

Subjects

NITRIC oxide, PROTEIN kinases, PHOSPHORYLATION, MYOSIN, THROMBIN, G proteins, HYPERTENSION

Abstract

Nitric oxide (NO) inhibits vascular contraction by activating cGMP-dependent protein kinase I-a (PKGI-a), which causes dephosphorylation of myosin light chain (MLC) and vascular smooth muscle relaxation. Here we show that PKGI-a 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-a binds directly to and phosphorylates RGS-2, which significantly increases GTPase activity of Gq, terminating PAR-1 signaling. Disruption of the RGS-2-PKGI-a interaction reverses inhibition of PAR-1 signaling by nitrovasodilators and cGMP. Rgs2-/- mice develop marked hypertension, and their blood vessels show enhanced contraction and decreased cGMP-mediated relaxation. Thus, PKGI-a 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. [ABSTRACT FROM AUTHOR]

Published

2003

9. Smooth muscle cell specific deletion of the PKGIα target RGS2 induces vascular dysfunction and hypertension.

Author

Thoonen, Robrecht, Zhang, Haihua, Abe, Yuichi, Nickerson, Heather, Aronovitz, Mark, Chambon, Pierre, Karas, Richard H., and Mendelsohn, Michael E.

Subjects

HYPERTENSION

Abstract

An abstract of the article "Smooth muscle cell specific deletion of the PKGIα target RGS2 induces vascular dysfunction and hypertension," by Robrecht Thoonen and colleagues is presented.

Published

2011