TY - GEN T1 - Deletion of the RGD motif in LON-2/glypican is associated with morphological abnormalities AU - Park, Aileen AU - Qiu, Zhongqiang AU - Lee, Myeongwoo DO - 10.17912/micropub.biology.000376 UR - http://beta.micropublication.org/journals/biology/micropub-biology-000376/ AB - The lon-2 gene in Caenorhabditis elegans encodes a heparan sulfate proteoglycan family glypican that negatively regulates the BMP signaling pathway responsible for controlling body length (Gumienny et al., 2007). LON-2 contains multiple functional domains, including an RGD (Arg-Gly-Asp) motif at amino acid number from 348 to 350. RGD motifs are the cell-binding site of the extracellular matrix protein and are known to interact with cell surface receptors of the extracellular matrix, integrins (Margadant and Sonnenberg, 2010). Previous studies show that this RGD motif in LON-2 does not directly regulate BMP, but is essential to the function of soluble LON-2, suggesting that the RGD motif likely utilizes another part of the LON-2 N-terminal core glypican protein functional domain to play a role in BMP signal regulation (Taneja-Bageshwar and Gumienny 2012). These studies indicated that LON-2 acts by binding and sequestering DBL-1 and acting as an RGD-binding protein, modulating the strength of the BMP signal and thereby negatively regulating body size (Gumienny et al., 2007; Taneja-Bageshwar and Gumienny 2012). Previous analysis demonstrated that lon-2(e678) mutants are unable to regulate DBL-1 signaling and as a result of higher doses of DBL-1 are longer than wild-type animals (Gumienny et al., 2007; Suzuki et al., 1999). A novel mutant allele of lon-2 was investigated in this study. In this mutant allele, lon-2(kq348ΔRGD), the RGD motif at position 348 was deleted. The previously mentioned pre-existing mutant allele, lon-2(e678), contains a ~9kb deletion and lacks most of the genomic coding sequence (Gumienny et al., 2007). The lon-2(e678) line was used as a reference allele in order to identify the presence of morphological abnormalities (the long phenotype) in our novel mutant line. RGD mutant worms as well as wild-type worms were imaged and measured in order to screen for the presence or absence of the long phenotype in the novel mutant line. 45 wild-type animals (n=45) and 27 lon-2(ΔRGD) animals (n=27) were imaged and measured in the assay. Wild-type animals had an average body length of 1127.6 µm (SE ± 25.28 µm) and the mutant line had an average body length of 968.6 µm (SE ± 22.98 µm). The 99% confidence intervals for body size of the two lines did not overlap, indicating a statistically significant difference in body length. This suggests that deletion of the RGD motif at position 348 in LON-2 may improve its ability to inhibit BMP signaling, resulting in a shorter body length. The mechanism by which this occurs remains a topic for future investigation, but may happen due to the lack of normal interactions of the RGD motif with integrins and other proteins. Recent research revealing interactions between LON-2 and LIN-17/Frizzled (Saied-Santiago et al.., 2017) could guide future research toward investigating the relationship between the LON-2 RGD domain and Frizzled/Wnt signaling. PY - 2021 JO - microPublication Biology ER -