Transcriptomic and genetic analyses identify the Krüppel-like factor dar1 as a master regulator of tube-shaped long tendon development
Abstract
To ensure locomotion and body stability, the active role of muscle contractions relies on a stereotyped muscle pattern set in place during development. This muscle patterning requires a precise assembly of the muscle fibers with the skeleton via a specialized connective tissue, the tendon. Despite evident disparities, little is known about the molecular basis of tendon diversity. Like in vertebrate limbs,Drosophilaleg muscles make connections with specific long tendons that extend through different segments. During leg disc development, cell precursors of long tendons rearrange and collectively migrate to form a tube-shaped structure. A specific developmental program underlies this unique feature of tendon-like cells in theDrosophilamodel. We provide for the first time a transcriptomic profile of leg tendon precursors through fluorescence-based cell sorting. From promising candidates, we identified the Krüppel-like factor dar1 as a critical actor of leg tendon development. Specifically expressed in leg tendon precursors, loss ofdar1disrupts actin-rich filopodia formation and tendon elongation. Our findings show that dar1 acts downstream of stripe as a critical regulator of cytoskeleton remodeling and mediates the recruitment of new stripe-positive tendon progenitors in a cell non-autonomous manner.
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