Abstract
e15078 Background: High grade serous ovarian cancer (HGSOC) is the most lethal of all gynecologic malignancies, due to the fact that the majority of patients are diagnosed at an advanced stage and eventually develop chemoresistant disease 12-18 months following completion of frontline therapy. Therefore, novel targeted therapies are urgently needed to combat chemoresistance and improve patient clinical outcomes. Ubiquitin C-terminal hydrolase L1 (UCHL1) is a deubiquitinating enzyme that plays a vital role in protein homeostasis and is highly overexpressed in HGSOC. It was previously uncovered that targeting UCHL1 with small molecule inhibition reduced cell viability in a chemoresistant ovarian cancer cell line. Methods: Comparative-label free proteomic analysis was used to uncover significant changes in HGSOC cell line OVCAR8WT following treatment with UCHL1 small molecule inhibitor, LDN-5744 or corresponding DMSO control. Significant pathway changes were determined by KEGG analysis. Matched chemosensitive and resistant HGSOC cells PEA1 and PEA2 were treated in combination with LDN-5744 and carboplatin, with cell viability was determined by an MTS assay. Furthermore, western blot analysis was employed to compare common cell growth pathway changes as a result of UCHL1 inhibition in HGSOC cells. Results: Proteomic analysis revealed a significant (p<0.05) upregulation in methyl phosphate capping enzyme (MEPCE) (4.9-fold), asparagine synthetase (ASNS) (2.5-fold), Phosphoserine aminotransferase 1 (PSAT1) (1.7-fold), and downregulation in centrosomal protein 55 (CEP55) (-7.2-fold), These identified proteomic changes were confirmed by western blot. KEGG pathways analysis using all significantly (p<0.05) differentially expressed proteins showcased significant (p<0.05) enrichment in amino acid biosynthesis, and metabolism, and chemical carcinogenesis-reactive oxygen species. Chemoresistant PEA2 cells treated in combination with LDN-5744 and carboplatin demonstrated a 59% reduction in cell viability, significantly (p<0.001) lower than the 13% and 22%, that was observed from UCHL1 and carboplatin treatment alone, respectively. Conversely, PEA1, the chemosensitive counterpart to PEA2 demonstrated a significant (p<0.001) 37% increase in cell viability upon combinatorial treatment compared with carboplatin alone, indicating that UCHL1 inhibition rescues the cells from chemotherapy induced cell death. Finally, LDN-5744 treatment in PEA2 led to a reduction in levels of phospho-(p-)AKT, p-STAT3, and p-ERK, while conversely in PEA1 cells levels of these proteins were increase or unchanged. Conclusions: Our findings demonstrate that targeting UCHL1 results in prominent metabolic changes in HGSOC cells and that the efficacy of UCHL1 inhibition is heavily dependent upon platinum status. Overall, this study highlights UCHL1’s novel therapeutic role in the recurrent HGSOC.
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