Systemic Delivery of MeCP2 Rescues Behavioral and Cellular Deficits in Female Mouse Models of Rett Syndrome

Overview

Journal J Neurosci

Specialty Neurology

Date 2013 Aug 23

PMID 23966684

Citations 123

Authors

Saurabh K Garg

Daniel T Lioy

Helene Cheval

James C McGann

John M Bissonnette

Matthew J Murtha

Kevin D Foust

Brian K Kaspar

Adrian Bird

Gail Mandel

Affiliations

Soon will be listed here.

Abstract

De novo mutations in the X-linked gene encoding the transcription factor methyl-CpG binding protein 2 (MECP2) are the most frequent cause of the neurological disorder Rett syndrome (RTT). Hemizygous males usually die of neonatal encephalopathy. Heterozygous females survive into adulthood but exhibit severe symptoms including microcephaly, loss of purposeful hand motions and speech, and motor abnormalities, which appear after a period of apparently normal development. Most studies have focused on male mouse models because of the shorter latency to and severity in symptoms, yet how well these mice mimic the disease in affected females is not clear. Very few therapeutic treatments have been proposed for females, the more gender-appropriate model. Here, we show that self-complementary AAV9, bearing MeCP2 cDNA under control of a fragment of its own promoter (scAAV9/MeCP2), is capable of significantly stabilizing or reversing symptoms when administered systemically into female RTT mice. To our knowledge, this is the first potential gene therapy for females afflicted with RTT.

Citing Articles

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Acute MeCP2 loss in adult mice reveals transcriptional and chromatin changes that precede neurological dysfunction and inform pathogenesis.

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Nuclease-free precise genome editing corrects MECP2 mutations associated with Rett syndrome.

Bijlani S, Pang K, Bugga L, Rangasamy S, Narayanan V, Chatterjee S Front Genome Ed. 2024; 6:1346781.

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Sensory experiences questionnaire unravels differences in sensory profiles between MECP2-related disorders.

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