(TKP2021-NVA-19) Támogató: Innovációs és Technológiai Minisztérium
(2022-2.1.1-NL-2022-00008)
(2022-2.1.1-NL-2022-00012)
During striated muscle development the first periodically repeated units appear in
the premyofibrils, consisting of immature sarcomeres that must undergo a substantial
growth both in length and width, to reach their final size. Here we report that, beyond
its well established role in sarcomere elongation, the Sarcomere length short (SALS)
protein is involved in Z-disc formation and peripheral growth of the sarcomeres. Our
protein localization data and loss-of-function studies in the Drosophila indirect
flight muscle strongly suggest that radial growth of the sarcomeres is initiated at
the Z-disc. As to thin filament elongation, we used a powerful nanoscopy approach
to reveal that SALS is subject to a major conformational change during sarcomere development,
which might be critical to stop pointed end elongation in the adult muscles. In addition,
we demonstrate that the roles of SALS in sarcomere elongation and radial growth are
both dependent on formin type of actin assembly factors. Unexpectedly, when SALS is
present in excess amounts, it promotes the formation of actin aggregates highly resembling
the ones described in nemaline myopathy patients. Collectively, these findings helped
to shed light on the complex mechanisms of SALS during the coordinated elongation
and thickening of the sarcomeres, and resulted in the discovery of a potential nemaline
myopathy model, suitable for the identification of genetic and small molecule inhibitors.