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Reversal of Aging‐Induced Increases in Aortic Stiffness by Targeting Cytoskeletal Protein‐Protein Interfaces

Nicholson, Christopher J. ; Singh, Kuldeep ; Saphirstein, Robert J. ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2018

In: Journal of the American Heart Association Vol. 7, No. 15 ( 2018-08-07)

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In: Journal of the American Heart Association, Ovid Technologies (Wolters Kluwer Health), Vol. 7, No. 15 ( 2018-08-07)

Abstract: The proximal aorta normally functions as a critical shock absorber that protects small downstream vessels from damage by pressure and flow pulsatility generated by the heart during systole. This shock absorber function is impaired with age because of aortic stiffening. Methods and Results We examined the contribution of common genetic variation to aortic stiffness in humans by interrogating results from the AortaGen Consortium genome‐wide association study of carotid‐femoral pulse wave velocity. Common genetic variation in the N‐ WASP ( WASL ) locus is associated with carotid‐femoral pulse wave velocity (rs600420, P =0.0051). Thus, we tested the hypothesis that decoy proteins designed to disrupt the interaction of cytoskeletal proteins such as N‐ WASP with its binding partners in the vascular smooth muscle cytoskeleton could decrease ex vivo stiffness of aortas from a mouse model of aging. A synthetic decoy peptide construct of N‐ WASP significantly reduced activated stiffness in ex vivo aortas of aged mice. Two other cytoskeletal constructs targeted to VASP and talin‐vinculin interfaces similarly decreased aging‐induced ex vivo active stiffness by on‐target specific actions. Furthermore, packaging these decoy peptides into microbubbles enables the peptides to be ultrasound‐targeted to the wall of the proximal aorta to attenuate ex vivo active stiffness. Conclusions We conclude that decoy peptides targeted to vascular smooth muscle cytoskeletal protein‐protein interfaces and microbubble packaged can decrease aortic stiffness ex vivo. Our results provide proof of concept at the ex vivo level that decoy peptides targeted to cytoskeletal protein‐protein interfaces may lead to substantive dynamic modulation of aortic stiffness.

Type of Medium: Online Resource

ISSN: 2047-9980

URL: Article

DOI: 10.1161/JAHA.118.008926

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2018

detail.hit.zdb_id: 2653953-6

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Monogenic and Polygenic Contributions to QTc Prolongation in the Population

Nauffal, Victor ; Morrill, Valerie N. ; Jurgens, Sean J. ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2022

In: Circulation Vol. 145, No. 20 ( 2022-05-17), p. 1524-1533

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In: Circulation, Ovid Technologies (Wolters Kluwer Health), Vol. 145, No. 20 ( 2022-05-17), p. 1524-1533

Abstract: Rare sequence variation in genes underlying cardiac repolarization and common polygenic variation influence QT interval duration. However, current clinical genetic testing of individuals with unexplained QT prolongation is restricted to examination of monogenic rare variants. The recent emergence of large-scale biorepositories with sequence data enables examination of the joint contribution of rare and common variations to the QT interval in the population. Methods: We performed a genome-wide association study of the QTc in 84 630 UK Biobank participants and created a polygenic risk score (PRS). Among 26 976 participants with whole-genome sequencing and ECG data in the TOPMed (Trans-Omics for Precision Medicine) program, we identified 160 carriers of putative pathogenic rare variants in 10 genes known to be associated with the QT interval. We examined QTc associations with the PRS and with rare variants in TOPMed. Results: Fifty-four independent loci were identified by genome-wide association study in the UK Biobank. Twenty-one loci were novel, of which 12 were replicated in TOPMed. The PRS composed of 1 110 494 common variants was significantly associated with the QTc in TOPMed (ΔQTc /decile of PRS =1.4 ms [95% CI, 1.3 to 1.5]; P =1.1×10 -196 ). Carriers of putative pathogenic rare variants had longer QTc than noncarriers (ΔQTc=10.9 ms [95% CI, 7.4 to 14.4]). Of individuals with QTc 〉 480 ms, 23.7% carried either a monogenic rare variant or had a PRS in the top decile (3.4% monogenic, 21% top decile of PRS). Conclusions: QTc duration in the population is influenced by both rare variants in genes underlying cardiac repolarization and polygenic risk, with a sizeable contribution from polygenic risk. Comprehensive assessment of the genetic determinants of QTc prolongation includes incorporation of both polygenic and monogenic risk.

Type of Medium: Online Resource

ISSN: 0009-7322 , 1524-4539

URL: Article

DOI: 10.1161/CIRCULATIONAHA.121.057261

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2022

detail.hit.zdb_id: 1466401-X

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