Sonoko Maemura scite author profile

Transforming growth factor-β (TGF)-β signaling plays a crucial role in the development and maintenance of various organs, including the vasculature. Accordingly, the mutations in TGF-β signaling pathway-related genes cause heritable disorders of the connective tissue, such as Marfan syndrome (MFS), Loeys-Dietz syndrome (LDS), and Shprintzen-Goldberg syndrome (SGS), and these syndromes may affect skeletal, ocular, pulmonary, and cardiovascular systems. Aortic root aneurysms are common problems that can result in aortic dissection or rupture, which is the leading cause of sudden death in the natural history of MFS and LDS, and recent improvements in surgical treatment have improved life expectancy. However, there is currently no genotype-specific medical treatment. Accumulating evidence suggest that not only structural weakness of connective tissue but also increased TGF-β signaling contributes to the complicated pathogenesis of aortic aneurysm formation, but a comprehensive understanding of governing molecular mechanisms remains lacking. Inhibition of angiotensin II receptor signaling and endothelial dysfunction have gained attention as a possible MFS treatment strategy, but interactions with TGF-β signaling remain elusive. Heterozygous loss-of-function mutations in TGF-β receptors 1 and 2 (TGFBR1 and TGFBR2) cause LDS, but TGF-β signaling is activated in the aorta (referred to as the TGF-β paradox) by mechanisms yet to be elucidated. In this review, we present and discuss the current understanding of molecular mechanisms responsible for aortopathies of MFS and related disorders.

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Impact of PathogenicFBN1Variant Types on the Progression of Aortic Disease in Patients With Marfan Syndrome

Takeda¹,

Inuzuka²,

Maemura³

et al. 2018

Circ: Genomic and Precision Medicine

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Discovery of a Small Molecule to Increase Cardiomyocytes and Protect the Heart After Ischemic Injury

Hara

Takeda

Kondo

et al. 2018

JACC: Basic to Translational Science

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Distinct variants affecting differential splicing of TGFBR1 exon 5 cause either Loeys–Dietz syndrome or multiple self-healing squamous epithelioma

Fujiwara¹,

Takeda

Hara

et al. 2018

Eur J Hum Genet

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Variants in TGFBR1 have been reported to induce two completely distinct diseases, namely Loeys-Dietz syndrome (LDS) and multiple self-healing squamous epithelioma (MSSE). However, detailed mechanisms underlying this effect remain unknown. We report a Japanese familial case of LDS with a novel splice donor site variant in TGFBR1 gene (c.973 + 1 G > A; NG_007461.1). The intronic variant was predicted to mediate in-frame exon 5 skipping within the serine/threonine kinase (STK) domain, which may also be mediated by a similar TGFBR1 variant of a splice acceptor site in intron 4 (c.806-2 A > C), identified in a British familial case of MSSE. Therefore, ex vivo splicing and functional assays were performed in mammalian cells to evaluate the effect of these sequence variants. The MSSE variant activated a cryptic acceptor site at 76 bp downstream of the 3' natural splice acceptor site, which produced an out-of-frame transcript (r.807_882del, p.Asn270Thrfs*8). In contrast, the LDS variant generated two types of in-frame transcription products, r.[806_973del, 965_973 del], and produced two functionally inactivated proteins, p.[Asp269_Gln324del, Thr323_Gly325del], as a result of exon 5 skipping and the activation of a cryptic donor splice site at 9 bp upstream of the 5' natural splice donor site, respectively. Our results support the previously proposed but not yet approved mechanism that dominant-negative and truncating variants in STK domain induce LDS and MSSE, respectively.

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Peripartum type B aortic dissection in patients with Marfan syndrome who underwent aortic root replacement: a case series study

Sayama

Takeda

Iriyama

et al. 2017

BJOG

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Sonoko Maemura

TGF-β Signaling-Related Genes and Thoracic Aortic Aneurysms and Dissections

Impact of PathogenicFBN1Variant Types on the Progression of Aortic Disease in Patients With Marfan Syndrome

Discovery of a Small Molecule to Increase Cardiomyocytes and Protect the Heart After Ischemic Injury

Distinct variants affecting differential splicing of TGFBR1 exon 5 cause either Loeys–Dietz syndrome or multiple self-healing squamous epithelioma

Peripartum type B aortic dissection in patients with Marfan syndrome who underwent aortic root replacement: a case series study

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