Human BAC-mediated Rescue of the Friedreich Ataxia Knockout Mutation in Transgenic Mice

Overview

Journal Mamm Genome

Specialty Genetics

Date 2004 Jun 1

PMID 15170226

Citations 21

Authors

Joseph P Sarsero

Lingli Li

Timothy P Holloway

Lucille Voullaire

Sophie Gazeas

Kerry J Fowler

Denise M Kirby

David R Thorburn

Adam Galle

Surindar Cheema

Michel Koenig

Robert Williamson

Panos A Ioannou

Affiliations

Soon will be listed here.

Abstract

Three independent transgenic mouse lines were generated with the human Friedreich ataxia gene, FRDA, in an 188-kb bacterial artificial chromosome (BAC) genomic sequence. Three copies of the transgene per diploid mouse genome were integrated in a single site in each mouse line. Transgenic mice were mated with mice heterozygous for a knockout mutation of the murine Frda gene, to generate mice homozygous for the Frda knockout mutation and hemizygous or homozygous for the human transgene. Rescue of the embryonic lethality that is associated with homozygosity for the Frda knockout mutation was observed in all three lines. Rescued mice displayed normal behavioral and biochemical parameters. RT-PCR analysis demonstrated that human FRDA mRNA is expressed in all the lines. The relative expression of the human FRDA and mouse Frda genes showed a similar pattern in different tissues in all three lines, indicating position-independent control of expression of the human FRDA transgene. However, large differences in the human:mouse mRNA ratio were observed between different tissues in all three lines. The human transgene is expressed at much higher levels in the brain, liver, and skeletal muscle than the endogenous gene, while expression of the human transgene in blood is only 25-30% of the mouse gene. These studies will facilitate the development of humanized mouse models of Friedreich ataxia through introduction of a GAA trinucleotide expansion or specific known point mutations in the normal human FRDA locus and the study of the regulation of gene expression from the FRDA locus.

Citing Articles

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