Tissue-specific splicing of an Ndufs6 gene-trap insertion generates a mitochondrial complex I deficiency-specific cardiomyopathy

Bi-Xia Ke, Salvatore Pepe, David R. Grubb, Jasper C. Komen, Adrienne Laskowski, Felicity A. Rodda, Belinda M. Hardman, James J. Pitt, Michael T. Ryan, Michael Lazarou, Jane Koleff, Michael M. H. Cheung, Joseph J. Smolich, and David R. Thorburn
PNAS April 17, 2012 109 (16) 6165-6170; https://doi.org/10.1073/pnas.1113987109

  1. Edited by Jonathan G. Seidman, Harvard Medical School, Boston, MA, and approved February 28, 2012 (received for review August 26, 2011)

Abstract

Mitochondrial complex I (CI) deficiency is the most common mitochondrial enzyme defect in humans. Treatment of mitochondrial disorders is currently inadequate, emphasizing the need for experimental models. In humans, mutations in the NDUFS6 gene, encoding a CI subunit, cause severe CI deficiency and neonatal death. In this study, we generated a CI-deficient mouse model by knockdown of the Ndufs6 gene using a gene-trap embryonic stem cell line. Ndufs6gt/gt mice have essentially complete knockout of the Ndufs6 subunit in heart, resulting in marked CI deficiency. Small amounts of wild-type Ndufs6 mRNA are present in other tissues, apparently due to tissue-specific mRNA splicing, resulting in milder CI defects. Ndufs6gt/gt mice are born healthy, attain normal weight and maturity, and are fertile. However, after 4 mo in males and 8 mo in females, Ndufs6gt/gt mice are at increased risk of cardiac failure and death. Before overt heart failure, Ndufs6gt/gt hearts show decreased ATP synthesis, accumulation of hydroxyacylcarnitine, but not reactive oxygen species (ROS). Ndufs6gt/gt mice develop biventricular enlargement by 1 mo, most pronounced in males, with scattered fibrosis and abnormal mitochondrial but normal myofibrillar ultrastructure. Ndufs6gt/gt isolated working heart preparations show markedly reduced left ventricular systolic function, cardiac output, and functional work capacity. This reduced energetic and functional capacity is consistent with a known susceptibility of individuals with mitochondrial cardiomyopathy to metabolic crises precipitated by stresses. This model of CI deficiency will facilitate studies of pathogenesis, modifier genes, and testing of therapeutic approaches.

Footnotes

  • 1B.-X.K and S.P. contributed equally to this work.

  • 2Present address: Baker International Diabetes Institute, Heart and Diabetes Institute, Melbourne, VIC 3004, Australia.

  • 3Present address: Biochemistry Section, Surgical Neurology Branch, National Institute of Neurological Disorders and Stroke, National Institutes of Health, Bethesda, MD 20892.

  • 4To whom correspondence may be addressed. E-mail: david.thorburn{at}mcri.edu.au or joe.smolich{at}mcri.edu.au.

  • Author contributions: B.-X.K., S.P., D.R.G., J.J.S., and D.R.T. designed research; B.-X.K., S.P., D.R.G., J.C.K., A.L., F.A.R., B.M.H., J.J.P., M.L., J.K., M.M.H.C., and J.J.S. performed research; B.-X.K., S.P., D.R.G., J.C.K., A.L., F.A.R., B.M.H., J.J.P., M.T.R., M.L., J.K., M.M.H.C., J.J.S., and D.R.T. analyzed data; and B.-X.K., S.P., J.C.K., A.L., J.J.P., M.T.R., M.M.H.C., J.J.S., and D.R.T. wrote the paper.

  • The authors declare no conflict of interest.

  • This article is a PNAS Direct Submission.

  • This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1113987109/-/DCSupplemental.

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Cardiomyopathy in complex I-deficient mice
Bi-Xia Ke, Salvatore Pepe, David R. Grubb, Jasper C. Komen, Adrienne Laskowski, Felicity A. Rodda, Belinda M. Hardman, James J. Pitt, Michael T. Ryan, Michael Lazarou, Jane Koleff, Michael M. H. Cheung, Joseph J. Smolich, David R. Thorburn
Proceedings of the National Academy of Sciences Apr 2012, 109 (16) 6165-6170; DOI: 10.1073/pnas.1113987109
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