Abstract 1574: LSD-germline variant drive oncogenicity

Abstract Lysosome storage disease (LSD) is a congenital metabolic disorder caused by mutations in genes involved in the function of lysosomes. Defects in the genes encoding hydrolases and transporters and enzyme activators are found in LSD’s, leading to the accumulation of macromolecules in the late endocytic system. And this disruption of lysosomal homeostasis increases the induction of endoplasmic reticulum and oxidative stress, proliferative signal transduction, extracellular matrix degradation, Integrin-β4-mediated cell migration and invasion, and consequently can promote the development of oncogenic cells and malignant tumors. It is known that the function of lysosomes is very important in cancer diseases. Recently, through a preliminary study, we found that the incidence of myeloproliferative neoplasm (MPN) increases statistically significantly when the LSD putative pathogenic germline variant (PPGV) is present. Based on this, we performed single-cell RNA (scRNA) sequencing using MPN patient samples of both LSD PPGV carrier and non-carrier. We tried to determine how the LSD PPGV affects MPN cancer progression at the single-cell level. To confirm functional differences between the two groups, DEG, pathway enrichment, LR-pair interaction, and transcription enrichment analyses were performed. In the analysis, immune cells were composed of T-cell, NK-cell, and Monocyte (in the order of frequency). It was confirmed that Lysosome-related (ER, Golgi, etc.) functions were upregulated in the carrier group compared to the non-carrier group across cell types. In addition, in the ligand-receptor (LR)-pair interaction analysis targeting Immune cells, it was possible to find a statistically significant difference (average log2 fold change>0.7 and p-value<0.05) candidate LR-pair (IL6-IL6R*IL6ST) that upregulates in the carrier group compared to the non-carrier group. The candidate LR-pair found by our team has been previously known as a cytokine-related gene that plays an inflammatory or fibrosis-related role in MPN and affects cancer progression. Also, in the Transcription Factor Enrichment analysis conducted together, it was confirmed that the statistically significant (NES>2 and FDR<0.01) candidate Transcription Factor (STAT1), which operates dependent on the candidate LR-pair, is upregulated. In conclusion, we found the possibility that genes and functions related to cancer progression can be up-regulated by LSD germline variants. In addition, we plan to conduct additional studies to determine the exact mechanism of contribution to cancer development by the LSD germline variant. Citation Format: Hyundong Yoon, Seulki Song, Yeeun Ha, Youngil Koh, SungSoo Yoon. LSD-germline variant drive oncogenicity [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1574.