BMP antagonism is required for mandible outgrowth in zebrafish

The Meckels cartilage (MC) is a fundamental component of mandibular development across vertebrates. In mammals, MC is transient and functions primarily as an early template for mandibular ossification, whereas other vertebrates, including zebrafish, retain MC within the mandible throughout life. Despite its importance, the requirements for MC in sustaining mandibular growth and how signaling pathways implicated in MC development contribute to this process remain unclear. Here, we investigated the dosage-dependent roles of BMP antagonists during zebrafish MC development using mutant alleles of grem1a, nog2, and nog3. Compound mutant adults exhibited fully penetrant mandibular truncation. MC shortening emerged after early larval stages, indicating a requirement for BMP antagonism to sustain cartilage growth. Chondrocyte number remained unchanged as phenotypes developed, but mutants displayed disorganized cartilage morphology and increased chondrocyte volume. Molecular analyses revealed reduced col2a1a domains and expanded ihha and col10a1a expression, consistent with ectopic hypertrophic-like differentiation. Constitutive activation of BMP receptor signaling in chondrocytes recapitulated these phenotypes. Although osteogenesis appeared unaffected by 14 dpf, loss of a tnn skeletal mesenchyme population was observed. Together, these findings demonstrate that BMP antagonists sustain MC growth by regulating chondrocyte differentiation and cartilage organization to support mandibular growth in non-mammalian vertebrates. Summary StatementThis study leverages zebrafish to define the cellular and molecular mechanisms by which BMP antagonism sustains mandibular growth.