Abstract
BACKGROUND: Adolescent idiopathic scoliosis (AIS) is a complex spinal deformity characterized by three-dimensional curvature of the spine with an unknown etiology. Previous genome-wide association studies have identified a single-nucleotide polymorphism (rs6137473) located downstream of PAX1, which is significantly associated with female AIS risk. METHODS: To investigate the role of this region in spinal development and AIS pathogenesis, we generated a mouse model with deletion of a nearby conserved sex-associated region (Pax1-SARΔ). Spines were examined by both micro-CT and histology. Gene expression analysis (by RNA-sequencing and quantitative PCR) was carried out on E12.5 and E18.5 developing spines. Glycosaminoglycan (GAG) content was also measured by high-performance liquid chromatography. RESULTS: Micro-CT analysis revealed increased vertebral rotation at T4 in female Pax1-SARΔ mice at 4 months and at T9 in male Pax1-SARΔ mice at 6 months, along with kyphotic and lordotic sagittal curvatures. Histological examination revealed significant intervertebral disc degeneration, with the most severe changes observed in the female Pax1-SARΔ mice. GAG analysis found decreased chondroitin sulfate and dermatan sulfate content in male and female Pax1-SARΔ mice. Gene expression analysis at E12.5 showed upregulation of Pax1, Stat3, Ar, Foxa2, and Nkx2.2, while RNA-sequencing at E18.5 revealed sex-dependent changes in gene expression related to extracellular matrix components, immune and inflammatory responses, and scoliosis. CONCLUSION: These findings highlight the pivotal role of the Pax1 sex-associated genomic region in the development and maintenance of functional cartilage, extracellular matrix integrity, and intervertebral disc health, offering insights into the mechanisms underlying spinal degeneration and instability in AIS.