Potential Role for the RASD1 Glucocorticoid-Responsive Gene in Corticotroph Tumorigenesis

Abstract Introduction: Originally identified due to its dexamethasone inducibility in mouse corticotropinoma AtT20 cells, RASD1 is a receptor-independent activator of G-proteins, via guanine nucleotide exchange factor (GEF) activity. It remains unclear, however, whether, and if so, how RASD1 mediates the effects of glucocorticoids on corticotroph cells. We identified a rare germline RASD1 variant and investigated its functional effects in vitro. Methods: We screened 209 CD patients (94.3% pediatric) studied at the at the National Institutes of Health Clinical Research Center between 1997 and 2018 by germline whole-exome sequencing (WES) only (n=157), germline and tumor WES (n=27), and/or RASD1 droplet digital PCR germline copy number variant (CNV) analysis (n=201). Corticotropinoma DNA was available in 72 patients to screen for USP8 hotspot variants by Sanger sequencing. A RASD1 variant was identified and functionally characterized. Results: We studied 119 female (56.9%) and 90 (43.1%) male CD cases, including 197 pediatric (≤18 years at disease onset) and 12 adult patients. USP8 defects were present in 19.4% (14/72) of cases. No RASD1 CNVs were found. A rare (with a minor allele frequency of 0.0022% in gnomAD v3) heterozygous germline missense RASD1 variant, c.580A>C, p.M194L was detected in one male sporadic case. Neither USP8 variants nor loss of heterozygosity at the RASD1 variant position were observed in the patient’s microadenoma. The wild type and p.M194L RASD1 transiently overexpressed proteins displayed similar short half-lives (<1 h) by cycloheximide chase in HEK293 cells, as well as cytoplasmic localization by immunocytofluorescence in AtT20 cells. A CRISPR/Cas9 Rasd1 knockout AtT20 cell line displayed reduced Pomc expression compared with the parental cell line at the mRNA level (Actb-normalized absolute quantification 5.80±0.92 vs 9.62±0.7, P=0.005). Viability of the cell lines did not differ significantly by MTT assay. Overexpression of p.M194L resulted in increased accumulation of phospho-CREB S133 (1.83±0.8 vs 1±0.2 in empty vector control, P=0.0390) as well as a non-significant increase in Pomc expression in wild type, but not in Rasd1 knockout AtT20 cells by immunoblot band densitometry. Conclusions: We found an infrequent RASD1 variant in one CD patient. Rasd1 seems to have a role within the intracellular signaling pathways controlling Pomc expression. Overexpression of the p.M194L variant caused phospho-CREB S133 activation, suggesting increased GEF activity for this variant. Interestingly, another variant at the same position, p.M194I, was found in the COSMIC database (COSS2121715) as a somatic change in cutaneous malignant melanoma. Further studies are required to better define the role of RASD1 in corticotroph physiology and its possible involvement in tumorigenesis.