A Targeted Antisense Therapeutic Approach for Hutchinson-Gilford Progeria Syndrome

Overview

Journal Nat Med

Specialties General Medicine
Molecular Biology

Date 2021 Mar 12

PMID 33707773

Citations 33

Authors

Michael R Erdos

Wayne A Cabral

Urraca L Tavarez

Kan Cao

Jelena Gvozdenovic-Jeremic

Narisu Narisu

Patricia M Zerfas

Stacy Crumley

Yoseph Boku

Gunnar Hanson

Dan V Mourich

Ryszard Kole

Michael A Eckhaus

Leslie B Gordon

Francis S Collins

Affiliations

Soon will be listed here.

Abstract

Hutchinson-Gilford progeria syndrome (HGPS) is a rare accelerated aging disorder characterized by premature death from myocardial infarction or stroke. It is caused by de novo single-nucleotide mutations in the LMNA gene that activate a cryptic splice donor site, resulting in the production of a toxic form of lamin A, which is termed progerin. Here we present a potential genetic therapeutic strategy that utilizes antisense peptide-conjugated phosphorodiamidate morpholino oligomers (PPMOs) to block pathogenic splicing of mutant transcripts. Of several candidates, PPMO SRP-2001 provided the most significant decrease in progerin transcripts in patient fibroblasts. Intravenous delivery of SRP-2001 to a transgenic mouse model of HGPS produced significant reduction of progerin transcripts in the aorta, a particularly critical target tissue in HGPS. Long-term continuous treatment with SRP-2001 yielded a 61.6% increase in lifespan and rescue of vascular smooth muscle cell loss in large arteries. These results provide a rationale for proceeding to human trials.

Citing Articles

The syntaxin-binding protein STXBP5 regulates progerin expression.

Qi H, Wu Y, Zhang W, Yu N, Lu X, Liu J Sci Rep. 2024; 14(1):23376.

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Lipodystrophic Laminopathies: From Dunnigan Disease to Progeroid Syndromes.

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Protein isoform-centric therapeutics: expanding targets and increasing specificity.

Kjer-Hansen P, Phan T, Weatheritt R Nat Rev Drug Discov. 2024; 23(10):759-779.

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Navigating Lipodystrophy: Insights from Laminopathies and Beyond.

Kruger P, Hartinger R, Djabali K Int J Mol Sci. 2024; 25(15).

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Genetic and pharmacological modulation of lamin A farnesylation determines its function and turnover.

Foo M, Ong P, Yap Z, Maric M, Bong C, Droge P Aging Cell. 2024; 23(5):e14105.

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