An integrin binding motif in TLN-1/talin plays a minor role in motility and ovulation.

TLN-1/talin is a conserved focal adhesion protein that forms part of the linkage between the cytoplasmic tail of integrin and the actin cytoskeleton. In C. elegans , TLN-1 is expressed strongly in striated muscle and the gonadal sheath cells. Here, we report that a CRISPR-generated TLN-1 allele TLN-1(W387A), predicted to affect binding of talin to integrins, results in mild phenotypes, including motility defects and ovulation defects. The arrangement of the actin cytoskeleton in the body wall muscles, spermatheca, and sheath appears identical in wild type and TLN-1(W387A) animals. This analysis suggests that W387 in TLN-1 does not have a major effect on the binding of talin to integrin in vivo .

The RGD (Arg-Gly-Asp) is a potential cell-binding motif of UNC-52/PERLECAN.

UNC-52/perlecan is a basement membrane (BM) proteoglycan playing an essential role in the muscle cell attachment of C. elegans. The UNC-52 protein contains two RGD (Arg-Gly-Asp) motifs in domains III and IV, a well-characterized tripeptide known for binding to mammalian ß integrin. To investigate the role of the RGD motif in UNC-52/perlecan, we created two mutations in the 2021RGD2023 motif: one mutation changed the RGD to an RGE, and the other deleted the RGD motif. The RGE2023 caused defective actin filaments and aberrant localization of PAT-3 ß integrin and TLN-1/talin. Additionally, the in-frame deletion of RGD2023 resulted in a paralyzed and arrested at two-fold embryonic stages (Pat) phenotype, which is the identical phenotype of the pat-3 ß integrin null allele. These results indicate that RGD2023 is a potential ligand for cell binding and is essential for development and survival. Furthermore, our analysis reveals that the RGD of an invertebrate BM molecule is a potential cell-binding motif, suggesting that the function of the RGD motif is conserved among species.

Mutations in the cell-binding motif of lam-3/laminin α reveal hypercontraction behavior and defective sensitivity to levamisole in Caenorhabditis elegans.

The amino acid sequence Arg-Gly-Asp (RGD) is a cell-binding motif for extracellular matrix proteins. Initially found in fibronectin, the RGD motif is also found in LAM-3/laminin α chain in C. elegans. Laminin, a heterotrimeric glycoprotein, is a significant component of the basement membrane. Mutations in laminin subunits disrupt the extracellular matrix hence inhibit cell adhesion. This study aims to characterize the function of the RGD motif in lam-3/laminin α. Two mutations, lam-3 RGE and lam-3 ΔRGD, were generated. Our analysis of the mutants revealed that the RGD motif is involved in the motility of animals, suggesting that the cell-laminin interaction plays a role in regulating body contraction.