Calcium-binding protein CALU-1 is essential for proper collagen formation in Caenorhabditis elegans

Collagen, a major component of the extracellular matrix, is crucial for the structural integrity of the Caenorhabditis elegans cuticle. While several proteins involved in collagen biosynthesis have been identified, the complete regulatory network remains unclear. This study investigates the role of CALU-1, an ER-resident calcium-binding protein, in cuticle collagen formation and maintenance. We employed genetic analyses, including the generation of single and double mutants, scanning electron microscopy, and transcriptome profiling to characterize CALU-1 function. Our results demonstrate that CALU-1 is essential for proper cuticle structure, including annuli, furrows, and alae formation. Synthetic lethality was observed between calu-1 and dpy-18 (encoding a prolyl 4-hydroxylase subunit) mutations, while double mutants of calu-1 with peptidyl-prolyl cis-trans isomerase (PPIase) genes exhibited exacerbated phenotypes. CALU-1 deficiency led to altered collagen stability, increased cuticle permeability, and differential expression of stress response genes similar to collagen mutants. We conclude that CALU-1 plays a critical role in regulating collagen biosynthesis, possibly by modulating the ER environment to optimize the function of collagen-modifying enzymes. These findings provide new insights into the complex regulation of extracellular matrix formation in C. elegans , with potential implications for understanding related processes in other organisms.