Abstract
BACKGROUND: The hairy ear (Eh) mutation in heterozygous mice (Eh/+) results in elongated and additional ear hairs, along with altered pinna morphology compared to wild-type (+/+) mice. Previous studies suggest that disruption of the Hoxc gene cluster caused by the Eh inversion influences the hair growth cycle. METHODS: To elucidate the molecular basis of this phenotype, we performed RNA-seq analysis on ear tissues from four-week-old Eh/+ and +/+ mice and compared their transcriptomic profiles. RESULTS: Differential expression analysis identified 2092 genes, and subsequent Gene Ontology (GO) and overrepresentation analysis revealed significant alterations in hair growth-related processes, including the hair cycle and canonical keratinization in Eh/+ ears. Notably, numerous hair keratin and keratin-associated protein (Krtap) genes were markedly upregulated in Eh/+ mice. Validation by quantitative real-time PCR confirmed increased expression of randomly selected keratin genes (Krt34, Krt39, Krt71, Krt81, Krt84) and keratin-associated proteins (Krtap4-16 and Krtap22-2). In contrast, epithelial keratin genes such as Krt2 and Krt14 were downregulated in Eh/+ ears. In addition, genes associated with hair follicle growth, Car6 and Gprc5d, showed elevated expression, while Dab2, a telogen-anagen transition marker linked to hair follicle stem cell activation, was slightly increased at the telogen stage in Eh/+ compared with +/+ mice. CONCLUSIONS: These findings provide new insights into the role of Hoxc cluster genes in orchestrating the expression of hair keratin and Krtap genes and highlight potential regulatory mechanisms underlying the hairy ear phenotype.