Integrin-linked kinase, a novel component of the cardiac mechanical stretch sensor, controls contractility in the zebrafish heart
10.1101/gad.1448306
Crossref journal-article
Cold Spring Harbor Laboratory
Genes & Development (246)
Abstract

The vertebrate heart possesses autoregulatory mechanisms enabling it first to sense and then to adapt its force of contraction to continually changing demands. The molecular components of the cardiac mechanical stretch sensor are mostly unknown but of immense medical importance, since dysfunction of this sensing machinery is suspected to be responsible for a significant proportion of human heart failure. In the hearts of the ethylnitros-urea (ENU)-induced, recessive embryonic lethal zebrafish heart failure mutant main squeeze (msq), we find stretch-responsive genes such as atrial natriuretic factor (anf) and vascular endothelial growth factor (vegf) severely down-regulated. We demonstrate through positional cloning that heart failure in msq mutants is due to a mutation in the integrin-linked kinase (ilk) gene. ILK specifically localizes to costameres and sarcomeric Z-discs. The msq mutation (L308P) reduces ILK kinase activity and disrupts binding of ILK to the Z-disc adaptor protein β-parvin (Affixin). Accordingly, in msq mutant embryos, heart failure can be suppressed by expression of ILK, and also of a constitutively active form of Protein Kinase B (PKB), and VEGF. Furthermore, antisense-mediated abrogation of zebrafish β-parvin phenocopies the msq phenotype. Thus, we provide evidence that the heart uses the Integrin–ILK–β-parvin network to sense mechanical stretch and respond with increased expression of ANF and VEGF, the latter of which was recently shown to augment cardiac force by increasing the heart's calcium transients.

Bibliography

Bendig, G., Grimmler, M., Huttner, I. G., Wessels, G., Dahme, T., Just, S., Trano, N., Katus, H. A., Fishman, M. C., & Rottbauer, W. (2006). Integrin-linked kinase, a novel component of the cardiac mechanical stretch sensor, controls contractility in the zebrafish heart. Genes & Development, 20(17), 2361–2372.

Authors 10
  1. Garnet Bendig (first)
  2. Matthias Grimmler (additional)
  3. Inken G. Huttner (additional)
  4. Georgia Wessels (additional)
  5. Tillman Dahme (additional)
  6. Steffen Just (additional)
  7. Nicole Trano (additional)
  8. Hugo A. Katus (additional)
  9. Mark C. Fishman (additional)
  10. Wolfgang Rottbauer (additional)
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Dates
Type When
Created 19 years ago (Aug. 18, 2006, 9:04 p.m.)
Deposited 3 years, 9 months ago (Nov. 16, 2021, 11:57 a.m.)
Indexed 2 weeks, 5 days ago (Aug. 12, 2025, 5:48 p.m.)
Issued 19 years ago (Aug. 18, 2006)
Published 19 years ago (Aug. 18, 2006)
Published Online 19 years ago (Aug. 18, 2006)
Published Print 19 years ago (Sept. 1, 2006)
Funders 0

None

@article{Bendig_2006, title={Integrin-linked kinase, a novel component of the cardiac mechanical stretch sensor, controls contractility in the zebrafish heart}, volume={20}, ISSN={1549-5477}, url={http://dx.doi.org/10.1101/gad.1448306}, DOI={10.1101/gad.1448306}, number={17}, journal={Genes & Development}, publisher={Cold Spring Harbor Laboratory}, author={Bendig, Garnet and Grimmler, Matthias and Huttner, Inken G. and Wessels, Georgia and Dahme, Tillman and Just, Steffen and Trano, Nicole and Katus, Hugo A. and Fishman, Mark C. and Rottbauer, Wolfgang}, year={2006}, month=aug, pages={2361–2372} }