Abstract 2918: Potential for a novel therapeutic target: Effects of lactate & lactylation in expression of key regulatory cancer proteins

Abstract

Abstract The purpose of our study is to investigate the immunologic, metastatic, and gene regulation effects of lactate in the context of cancer in normoxic and hypoxic conditions to identify novel biomarkers and potential therapeutic targets. We aim to modify the in-vitro cancer microenvironment to show how lactate and lactylation can be exploited using existing cancer treatments. While hyperlactatemia is defined as lactate levels between 2 mmol/L and 4 mmol/L (Foucher et al 2023), tumor biopsies have demonstrated extracellular concentrations as high as 40 mM (Pérez-Tomás et al 2020). Through CTG viability assays we identified lactate concentrations that PANC1 cells can survive, which are in agreement with the in-vivo findings of Brizel et al (2001). We observed pancreatic cancer cells achieving over 50% viability for 5 days at 50 mM lactate concentrations while at 30 mM on day 5 they proliferated past their initial plating numbers. Furthermore, Brizel et al (2001) found that patients with high tumor lactate concentrations had a significantly higher incidence of metastatic relapse. Through our scratch assay, we show qualitative evidence of increased mobility and inferred migration potential of PANC1 at 7.5mM [lactate] compared to the absence of lactate. We have also observed increased migration at higher lactate concentrations for which we are pursuing quantitative measurements to evaluate significance. Migration experiments will be followed by the investigation of gene regulation (eg. mRNA seq, lactylation profile) involved in the observed increased mobility. Lactate has been shown to affect immune regulation, namely suppression of iNKT (Fu et al, 2020), macrophages (Yang et al, 2020), dendritic cell differentiation and antigen recognition/presentation (Wang et al, 2022), however not much is known about its effect on NK cells and their cytokine expression. Through NK92MI/PANC1 cocultures we show the effects of lactate concentration on the killing ability of NK cells (in the works). And plan on investigating the cytokine profile leading to the phenotypic killing differences. Lastly, via lactate-titrated incubation of PANC1 cells in normoxia we have demonstrated a positive correlation of HIF1a expression, pan-lactyllysine lactylation, and microenvironment lactate concentration. We speculate HIF1a inhibition post-lactate-sensitization may induce cancer killing and we will investigate this theory in normoxia and hypoxia using existing treatment options. Citation Format: Christos P. Costeas, Connor Purcell, Wafik S. El-Deiry. Potential for a novel therapeutic target: Effects of lactate & lactylation in expression of key regulatory cancer proteins [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2024; Part 1 (Regular Abstracts); 2024 Apr 5-10; San Diego, CA. Philadelphia (PA): AACR; Cancer Res 2024;84(6_Suppl):Abstract nr 2918.