AI Article Synopsis
- The formation of functional organs relies on effective communication between different cell types, and issues in this communication can lead to developmental defects.
- This study uses the Drosophila leg model to identify key proteins that mediate interactions between tendon and muscle precursor cells, highlighting the roles of Amalgam (Ama) and Neurotactin (Nrt).
- Results show that Ama promotes myoblast survival and proliferation independently of Nrt, and both are essential for proper tendon and muscle cell association during development.
Article Abstract
Formation of functional organs requires cell-cell communication between different cell lineages and failure in this communication can result in severe developmental defects. Hundreds of possible interacting pairs of proteins are known, but identifying the interacting partners that ensure a specific interaction between 2 given cell types remains challenging. Here, we use the Drosophila leg model and our cell type-specific transcriptomic data sets to uncover the molecular mediators of cell-cell communication between tendon and muscle precursors. Through the analysis of gene expression signatures of appendicular muscle and tendon precursor cells, we identify 2 candidates for early interactions between these 2 cell populations: Amalgam (Ama) encoding a secreted protein and Neurotactin (Nrt) known to encode a membrane-bound protein. Developmental expression and function analyses reveal that: (i) Ama is expressed in the leg myoblasts, whereas Nrt is expressed in adjacent tendon precursors; and (ii) in Ama and Nrt mutants, myoblast-tendon cell-cell association is lost, leading to tendon developmental defects. Furthermore, we demonstrate that Ama acts downstream of the FGFR pathway to maintain the myoblast population by promoting cell survival and proliferation in an Nrt-independent manner. Together, our data pinpoint Ama and Nrt as molecular actors ensuring early reciprocal communication between leg muscle and tendon precursors, a prerequisite for the coordinated development of the appendicular musculoskeletal system.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11486429 | PMC |
| http://dx.doi.org/10.1371/journal.pbio.3002842 | DOI Listing |
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