Vascular Matrix Metalloproteinase-9 Mediates the Inhibition of Myogenic Reactivity in Small Arteries Isolated from Rats after Short-Term Administration of Relaxin

Jeyabalan, Arundhathi; Novak, Jacqueline; Doty, Ketah D.; Matthews, Julianna; Fisher, Michelle C.; Kerchner, Laurie J.; Conrad, Kirk P.

doi:10.1210/en.2006-0989

Cited by 55 publications

(72 citation statements)

References 34 publications

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“…Thus, a stiffer large artery in senescent SHRs is largely attributable to increased collagen content in the vascular matrix, and relaxin improves arterial compliance largely through its collagen-lowering action. Reduction in vascular collagen by relaxin treatment is most likely attributable to increased breakdown of collagen after increment in matrix metalloproteinase levels, as shown by studies from Jeyabalan et al 27 We did not determine matrix metalloproteinase levels, considering the fact that aorta samples were collected 7 days after termination of relaxin treatment.…”

Section: Discussionmentioning

confidence: 99%

“…Vascular actions of relaxin have been well described. 1 Conrad and colleagues 1,7,10,26,27 have conducted a series of studies documenting vasodilatation and arterial pressurelowering action of relaxin of exogenous or endogenous sources. Relaxin levels in pregnant rodents increase markedly together with the development of more compliant arteries, leading to the notion that endogenous relaxin plays a key role in the hemodynamic adjustment during pregnancy.…”

Section: Discussionmentioning

confidence: 99%

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Relaxin Therapy Reverses Large Artery Remodeling and Improves Arterial Compliance in Senescent Spontaneously Hypertensive Rats

Chakravorty

Bathgate

et al. 2010

Hypertension

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Abstract-Hypertension and aging are associated with large artery structural remodeling and stiffening, which are known to increase cardiovascular risk. Relaxin is a peptide hormone with potent antifibrotic action in multiple organs. Although relaxin is able to reduce peripheral vascular resistance and improve arterial compliance in rats, it remains unclear whether the improvement in compliance is indirectly attributed to a vasodilatory action or whether relaxin is able to reverse arterial remodeling and stiffening directly in aged hypertensive animals. Senescent spontaneously hypertensive rats (17 months old) were treated with relaxin for 2 weeks (0.5 mg/kg per day) followed by a 1-week washout period.We determined large artery compliance using in vivo and in vitro techniques and quantified arterial remodeling by morphological and chemical means. Relaxin therapy significantly reversed aortic remodeling (ie, increases in vessel size, wall thickness, and collagen content) and improved arterial compliance, effects independent of its vasodilatory action. In relaxin-treated spontaneously hypertensive rats, arterial collagen content showed a greater reduction (Ϫ31%; PϽ0.05) than that of elastin (Ϫ8%) 4 Several studies have provided strong evidence for relaxin as a potent vasodilator in vitro and in vivo. [5][6][7] The signaling mechanisms involve stimulating nitric oxidase synthases or endothelin-␤-mediated vasodilatory signaling 8 and antagonizing vasoconstriction induced by angiotensin II, endothelin 1, and catecholamines. 9 Conrad and colleagues 7,10 showed that treatment with relaxin either acutely or for a period of 10 days increased large artery compliance and cardiac output without a change in blood pressure in normotensive or hypertensive rats.Another unique feature of relaxin is its potent antifibrotic action. 11,12 In relaxin knockout mice, fibrosis occurs with aging in multiple organs. 11,[13][14][15] Conversely, administration of relaxin for 2 weeks effectively reversed organ fibrosis in relaxin knockout mice or other models of cardiac fibrosis, 11 including spontaneously hypertensive rats (SHR) showing reduced cardiac and renal fibrosis by relaxin therapy for 2 weeks. 16 Relaxin achieves its antifibrotic action through multiple mechanisms involving suppression of collagen synthesis via inhibiting fibroblast activation/proliferation and promotion of collagen degradation through activating matrix metalloproteinases. 11 Previous studies on the cardiovascular properties of relaxin have focused on its antifibrotic actions in the heart or blood pressure-lowering effect, 2,7 and it remains unknown whether chronic relaxin treatment in hypertensive models is able to reverse remodeling of large arteries. Progress in this area would advance our understanding of the therapeutic potential of relaxin. In the current study, we have addressed the hypothesis that relaxin therapy in SHRs is able to reverse large artery remodeling with accompanied improvement in arterial compliance. To make our findings more applicab...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Relaxin Therapy Reverses Large Artery Remodeling and Improves Arterial Compliance in Senescent Spontaneously Hypertensive Rats

Chakravorty

Bathgate

et al. 2010

Hypertension

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“…In vitro studies showed that the 'C' to 'T' substitution at À1562 position increases MMP-9 expression. 17 However, the (CA) 14 allele causes a 50% reduction in MMP-9 promoter activity as compared with the (CA) 21 . 18,19 Interestingly, these polymorphisms may affect drug responses 20 and both polymorphisms have been associated with PE or GH, 21,22 thus suggesting that MMP-9 genetic variations may predispose to hypertensive disorders of pregnancy.…”

Section: Introductionmentioning

confidence: 99%

“…[6][7][8][9][10] Specifically, MMP-9 may be involved in placental and uterine arterial remodeling 11,12 and in the control of the vascular tone. 13,14 In addition, there is evidence that MMPs interact with oxidative stress and inflammatory mediators contributing to the endothelial dysfunction of PE patients. 15 Therefore, the involvement of MMPs in the vascular alterations of hypertensive disorders of pregnancy may aggravate the lack of responses to antihypertensive therapy in some patients.…”

Section: Introductionmentioning

confidence: 99%

Matrix metalloproteinase-9 polymorphisms affect plasma MMP-9 levels and antihypertensive therapy responsiveness in hypertensive disorders of pregnancy

et al. 2011

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Abnormal matrix metalloproteinase (MMP)-9 levels may have a role in hypertensive disorders of pregnancy. We examined whether MMP-9 genetic polymorphisms (g.À1562C4T and g.À90(CA) 13À25 ) modify plasma MMP-9 and tissue inhibitor of metalloproteinase (TIMP)-1 levels and the responses to antihypertensive therapy in 214 patients with preeclampsia (PE), 185 patients with gestational hypertension (GH) and a control group of 214 healthy pregnant (HP). Alleles for the g.À90(CA) 13À25 polymorphism were grouped L (low) (o21 CA repeats) or H (high) (X21 CA repeats). Plasma MMP-9 and TIMP-1 concentrations were measured by enzyme-linked immunosorbent assay. Plasma MMP-9 concentrations were not affected by genotypes or haplotypes in HP and PE groups, except for the g.À90(CA) 13À25 polymorphism: GH patients with the LH genotype for this polymorphism have higher MMP-9 levels than those with other genotypes. The T allele for the g.À1562C4T polymorphism and the H4 haplotype (combining T and H alleles) are associated with GH and lack of responsiveness to antihypertensive therapy in GH. The H2 haplotype (combining C and H alleles) was associated with lack of responsiveness to antihypertensive therapy in PE, but not in GH. In conclusion, our results show that MMP-9 genetic variants are associated with GH and suggest that MMP-9 haplotypes affect the responsiveness to antihypertensive therapy in hypertensive disorders of pregnancy.

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“…For instance, MMP-2 and MMP-9 can acutely enhance vascular tone through the cleavage of vasoactive peptides such as adrenomedullin, calcitonin gene-related peptide and big endothelin-1 [16,[33][34][35]. Another non-ECM acute action of MMPs and ADAMs is shedding of membrane-anchored ligands of receptors such as epidermal growth factor (EGF) and platelet-derived growth factor (PDGF) to transactivate intracellular signaling of growth via the MAPK cascade.…”

Section: Cleavage Of Receptor Ligandsmentioning

confidence: 99%

Metalloproteinases: key and common mediators of multiple GPCRs and candidate therapeutic targets in models of hypertensive cardiac disease

Wang

Bosonea

Fernández-Patrón

2012

Drug Discovery Today: Disease Models

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Hypertensive cardiac disease remains a major cause of death worldwide because its typically complex etiology renders current treatments ineffective. Primary causative factors include environmental stressors, genetic predisposition and metabolic morbidities such as obesity and diabetes. These factors all trigger a systemic pathological production of agonists of G-proteincoupled receptors (GPCRs). When produced in excess, GPCR agonists transactivate many metalloproteinases, which relay agonist signaling. Here we review evidence supporting a global therapeutic concept for treatment of hypertensive cardiac disease with complex or unknown etiology by targeting common mediators of multiple GPCRs such as metalloproteinases and their downstream effectors.

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Vascular Matrix Metalloproteinase-9 Mediates the Inhibition of Myogenic Reactivity in Small Arteries Isolated from Rats after Short-Term Administration of Relaxin

Cited by 55 publications

References 34 publications

Relaxin Therapy Reverses Large Artery Remodeling and Improves Arterial Compliance in Senescent Spontaneously Hypertensive Rats

Relaxin Therapy Reverses Large Artery Remodeling and Improves Arterial Compliance in Senescent Spontaneously Hypertensive Rats

Matrix metalloproteinase-9 polymorphisms affect plasma MMP-9 levels and antihypertensive therapy responsiveness in hypertensive disorders of pregnancy

Metalloproteinases: key and common mediators of multiple GPCRs and candidate therapeutic targets in models of hypertensive cardiac disease

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