Titin-dependent biomechanical feedback tailors sarcomeres to specialised muscle functions in insects

  1. Vincent Loreau
  2. Wouter Koolhaas
  3. Eunice HoYee Chan
  4. Paul De Boissier
  5. Nicolas Brouilly
  6. Sabina Avosani
  7. Aditya Sane
  8. Christophe Pitaval
  9. Stefanie Reiter
  10. Nuno Miguel Luis
  11. Pierre Mangeol
  12. Anne C. von Philipsborn
  13. Jean-François Rupprecht
  14. Dirk Görlich
  15. Bianca H. Habermann
  16. Frank Schnorrer
Read the full article See related articles

Listed in

This article is not in any list yet, why not save it to one of your lists.
Log in to save this article

Abstract

Sarcomeres are the contractile units of muscles that enable animals to move. Insect muscles are remarkable examples because they use extremely different contraction frequencies (ranging from ∼1 to 1000 Hz) and amplitudes for flying, walking and crawling. This is puzzling because sarcomeres are built from essentially the same actin-myosin components. We show here that the giant protein titin is the key to this functional specialisation. I-band titin spans and determines the length of the sarcomeric I-band, and occurs in muscle-type-specific isoforms. Surprisingly, it also rules the length of the force-generating myosin filament in a force feedback mechanism, even though it is not present there. We provide evidence for this model and its validity beyond insects.

Summary

Here we identified a mechanical mechanism that instructs sarcomeres to fulfill the specific needs of different muscle types.

Article activity feed

  1. Version published to 10.1101/2024.09.30.615857v1 on bioRxiv