ETMR-20. CARDIOLIPIN ACYL CHAIN MODULATION AS A NOVEL MITOCHONDRIAL-FOCUSED THERAPEUTIC TARGET IN ETMR

Abstract

Abstract Embryonal tumor with multilayered rosettes (ETMR) is a highly aggressive CNS neoplasm that occurs almost exclusively in infants and is associated with an extremely poor prognosis. Dysregulated mitochondrial bioenergetics and dynamics have been associated with the initiation and progression of diverse cancers and studies have linked metabolic rewiring to chemotherapy resistance. Cardiolipins are mitochondrial-specific lipids that reside in the mitochondrial membrane and their fatty acid composition has been extensively shown to regulate mitochondrial function and dynamics. Despite the known functional significance of cardiolipin structure, their role in mitochondrial regulation of brain tumors remains ill-defined. Using mass spectrometry imaging, we identified a shift to shorter acyl chain cardiolipins within the rapidly proliferating embryonal tumor cells in patient samples and patient-derived cell lines grown as 3D tumorspheres. Western blot analysis of the enzymes involved in cardiolipin synthesis and remodeling identified a significant increase in the expression of the cardiolipin remodeling enzyme, LCLAT1/ALCAT1. Orthogonal imaging techniques including immunohistochemistry, transmission electron microscopy and super-resolution microscopy correlated shorter acyl chain remodeling of cardiolipin with fragmented mitochondria (increased fission) and aberrant cristae structure. Further studies identified increased expression of the fission protein Drp1, decreased expression of respiratory chain enzymes and altered respiration in the embryonal tumor cells. Ongoing studies will utilize multiple methods to modulate cardiolipin acyl chain structure and use MS and MSI to correlate cardiolipin fatty acid structure to mitochondrial function and growth inhibition in the embryonal tumor cells.