Zebrafish armc9 mutant reveals a link between ARM-Type fold domain loss, inflammation, and spinal curvature

The vertebral column (VC) defines the central axis of vertebrates. Among its malformations, adolescent idiopathic scoliosis (AIS) is the most common, characterized by lateral spine curvature without congenital abnormalities. While its etiology remains elusive, genetic studies in zebrafish have linked AIS to skeletogenesis, cilia structure, cerebrospinal fluid flow, and inflammation. In this study, we characterized the zebrafish armc9 mutant, exhibiting AIS-like curvature without vertebral malformations, subcommissural organ, or Reissner fiber structure disruptions. We also detected an inflammatory response at the curvature origin. Structural bioinformatics and molecular docking analyses suggest that the mutant Armc9 protein partially lacks the functional ARM-type fold domain, which is crucial for its interaction with Togaram1, revealing that both proteins are relevant for ciliary signaling and spine curvature. Phylogenetic analyses indicate that the ARMC gene family encompasses 12 members, highlighting that the Armc9 gene has deep evolutionary roots. Our results demonstrate that the zebrafish armc9 mutant accurately represents the AIS phenotype, suggesting that the loss of Armc9's C-terminal ARM-type fold domain could affect the ciliary integrity and contribute to spine curvature by altering the skeletogenic environment. Taken together, this study proposes that the zebrafish armc9 mutant offers a unique opportunity to understand the etiology of AIS and provides new insights into the molecular interaction networks of Armc9 in ciliary signaling.