FSMP-13. HYPOXIC REGULATION OF LACTATE DEHYDROGENASE GENES (LDHA/B) IN T98 GLIOBLASTOMA MULTIFORME CELLS

Glioblastoma multiforme (GBM) is the most common primary brain cancer and carries a poor prognosis. GBM cells exhibit extensive metabolic alterations that enhance survival and proliferation in the mixed normoxic-hypoxic tumor microenvironment. Lactate dehydrogenase (LDH) enzymes are critical mediators of the normoxic to hypoxic transition in cells. Two LDH genes (A/B) encode monomers that combine to form five isoenzymes (LDH1-5) with different properties for pyruvate to lactate interconversion. Hypoxic induction of LDHA in all cells appears to occur via HIF-1 mediated transcription. However, little is known about hypoxic regulation of LDHB in cancer. We report on hypoxic regulation of LDHA/B in T98G, a rare cell line that has both normal and neoplastic features. Human T98 GBM cell lines were cultured in a humidified incubator at 37° C and 5% CO₂ and were grown in normoxia (21% O₂) or hypoxia (95% N₂, 5% C0₂) for 72 hours. Relative expression of LDH isoforms 1-5 was assessed using native gel electrophoresis. Expression of the LDHA and LDHB genes was measured using qRT-PCR. LDHA-dominant isoforms (4/5) were detected in T98G cells subjected to normoxia and hypoxia via gel electrophoresis, however, LDHB-dominant isoforms (1/2) were not. The LDHA/B-equimolar isoform (3) was decreased in T98G cells subjected to hypoxia. LDHA gene expression was over two-fold greater than LDHB in normoxia (p = .00256 by one-tailed Mann-Whitney U test), and over nine-fold greater in hypoxia (p = .00256). LDHA:LDHB expression in hypoxia compared to normoxia was significantly different (p = .00256). LDHA expression increased three-fold in hypoxia (p = .00256), while LDHB expression decreased 0.3-fold in hypoxia (p = .03288). We document LDHB dysregulation in T98G cells as the gene is minimally responsive to oxygen. Therapeutic strategies aimed at promoting LDHB expression may complement inhibition of LDHA and reduce GBM survival in hypoxia.