Angiotensin, transforming growth factor β and aortic dilatation in Marfan syndrome: Of mice and humans

Yu, Christopher; Jeremy, Richmond W.

doi:10.1016/j.ijcha.2018.02.009

Cited by 19 publications

(20 citation statements)

References 85 publications

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“…TGFβ can also signal through non-Smad (noncanonical) pathways, including those mediated by MAPKs (mitogen-activated protein kinases) that can transduce Ang II stimuli as well; additionally, TGFβ and Ang II pathways can interact with each other to modulate vascular tone and SMC phenotype (Figure 2). 4,41 Work by Habashi et al 27 originally showed that either TGFβ inhibition by a neutralizing antibody or At1r blockade by losartan prevented onset of thoracic aortic disease in Fbn1 C1039/+ mice. The authors interpreted these findings to indicate that aneurysm formation in MFS is the result of excessive TGFβ synthesis stimulated by heightened At1r signaling and compounded by uncontrolled activation of latent TGFβ improperly released from a fibrillin-1–deficient ECM.…”

Section: Initial Evidence Suggesting Excessive Tgfβ Signaling Drives mentioning

confidence: 99%

Therapies for Thoracic Aortic Aneurysms and Acute Aortic Dissections

Milewicz

Ramirez

2019

ATVB

103

109

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Thoracic aortic aneurysms that progress to acute aortic dissections are often fatal. Thoracic aneurysms have been managed with treatment with β-adrenergic blocking agents (β-blockers) and routine surveillance imaging, followed by surgical repair of the aneurysm when the risk of dissection exceeds the risk for repair. Thus, there is a window to initiate therapies to slow aortic enlargement and delay or ideally negate the need for surgical repair of the aneurysm to prevent a dissection. Mouse models of Marfan syndrome—a monogenic disorder predisposing to thoracic aortic disease—have been used extensively to identify such therapies. The initial fi that TGFβ (transformation growth factor-β) signaling was increased in the aortic media of a Marfan syndrome mouse model and that its inhibition via TGFβ neutralization or At1r (Ang II [angiotensin II] type I receptor) antagonism prevented aneurysm development was generally viewed as a groundbreaking discovery that could be translated into the first cure of thoracic aortic disease. However, several large randomized trials of pediatric and adult patients with Marfan syndrome have subsequently yielded no evidence that At1r antagonism by losartan slows aortic enlargement more effectively than conventional treatment with β-blockers. Subsequent studies in mouse models have begun to resolve the complex molecular pathophysiology underlying onset and progression of aortic disease and have emphasized the need to preserve TGFβ signaling to prevent aneurysm formation. This review describes critical experiments that have influenced the evolution of our understanding of thoracic aortic disease, in addition to discussing old controversies and identifying new therapeutic opportunities.

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Section: Initial Evidence Suggesting Excessive Tgfβ Signaling Drives mentioning

confidence: 99%

Therapies for Thoracic Aortic Aneurysms and Acute Aortic Dissections

Milewicz

Ramirez

2019

ATVB

103

109

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“…The underlying mechanism of TAA pathogenesis in MFS remains unclear. Possible mechanisms include the variant fibrillin-1 protein causing an intrinsic impairment of structural integrity or altered force mechanotransduction and adverse remodelling of the aortic wall (Yu and Jeremy 2018). In addition, variants in FBN1 have been associated with altered TGF-β bioavailability and increased sensitivity to angiotensin II signalling in TAA formation (Yu and Jeremy 2018).…”

Section: Marfan Syndromementioning

confidence: 99%

“…Possible mechanisms include the variant fibrillin-1 protein causing an intrinsic impairment of structural integrity or altered force mechanotransduction and adverse remodelling of the aortic wall (Yu and Jeremy 2018). In addition, variants in FBN1 have been associated with altered TGF-β bioavailability and increased sensitivity to angiotensin II signalling in TAA formation (Yu and Jeremy 2018). While variant FBN1 is responsible for MFS, there is important phenotypic heterogeneity among individuals who harbour the same FBN1 variant, including within members of the same family (De Backer et al 2007;Li et al 2016b), indicating a role for other genetic or epigenetic mechanisms in determining phenotype.…”

Section: Marfan Syndromementioning

confidence: 99%

Epigenetic influences on genetically triggered thoracic aortic aneurysm

et al. 2018

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Genetically triggered thoracic aortic aneurysms (TAAs) account for 30% of all TAAs and can result in early morbidity and mortality in affected individuals. Epigenetic factors are now recognised to influence the phenotype of many genetically triggered conditions and have become an area of interest because of the potential for therapeutic manipulation. Major epigenetic modulators include DNA methylation, histone modification and non-coding RNA. This review examines epigenetic modulators that have been significantly associated with genetically triggered TAAs and their potential utility for translation to clinical practice.

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“…В ряде in vitro и in vivo исследований было показано усиление продукции TGF-β миофибробластами и кардиальными фибробластами под влиянием ангиотензина II [4]. Соответственно, иАПФ и БРА могут снижать экспрессию TGF-β и препятствовать его основным эффектам [5].…”

Section: рисunclassified