Mechanisms of angiogenic incompetence in Hutchinson-Gilford progeria via downregulation of endothelial NOS.

Aging cell
Authors
Keywords
Abstract

Hutchinson-Gilford progeria syndrome (HGPS) is a rare genetic disorder with features of accelerated aging. The majority of HGPS cases are caused by a de novo point mutation in the LMNA gene (c.1824C>T; p.G608G) resulting in progerin, a toxic lamin A protein variant. Children with HGPS typically die from coronary artery diseases or strokes at an average age of 14.6 years. Endothelial dysfunction is a known driver of cardiovascular pathogenesis; however, it is currently unknown how progerin antagonizes normal angiogenic function in HGPS. Here, we use human iPSC-derived endothelial cell (iPSC-EC) models to study angiogenesis in HGPS. We cultured normal and HGPS iPSC-ECs under both static and fluidic culture conditions. HGPS iPSC-ECs show reduced endothelial nitric oxide synthase (eNOS) expression and activity compared with normal controls and concomitant decreases in intracellular nitric oxide (NO) level, which result in deficits in capillary-like microvascular network formation. Furthermore, the expression of matrix metalloproteinase 9 (MMP-9) was reduced in HGPS iPSC-ECs, while the expression of tissue inhibitor metalloproteinases 1 and 2 (TIMP1 and TIMP2) was upregulated relative to healthy controls. Finally, we used an adenine base editor (ABE7.10max-VRQR) to correct the pathogenic c.1824C>T allele in HGPS iPSC-ECs. Remarkably, ABE7.10max-VRQR correction of the HGPS mutation significantly reduced progerin expression to a basal level, rescued nuclear blebbing, increased intracellular NO level, normalized the misregulated TIMPs, and restored angiogenic competence in HGPS iPSC-ECs. Together, these results provide molecular insights of endothelial dysfunction in HGPS and suggest that ABE could be a promising therapeutic approach for correcting HGPS-related cardiovascular phenotypes.

Year of Publication
2021
Journal
Aging cell
Volume
20
Issue
7
Pages
e13388
Date Published
07/2021
ISSN
1474-9726
DOI
10.1111/acel.13388
PubMed ID
34086398
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