RBIO-04. LACTATE DEHYDROGENASE A (LDHA) MEDIATES NOVEL CROSSTALK BETWEEN METABOLIC GLYCOLYSIS AND CHROMATIN REMODELING Free

Lactate dehydrogenase A (LDHA) encodes an enzyme that catalyzes the inter-conversion between pyruvate and lactate in glycolysis. Here, we demonstrate that LDHA mediates a novel role in DNA repair independent of this metabolic function.

siRNA screen, The Cancer Genome Atlas (TCGA) survival analysis, ionizing radiation (IR), g-H2AX, and chromatin assays, site-directed mutagenesis.

In an orthogonal siRNA-informatic screen to identify genes 1) when silenced caused IR sensitivity in patient-derived glioblastoma lines and 2) lowered expression is associated with improved survival in TCGA, LDHA surfaced as the top candidate. The survival association was validated by LDHA immunohistochemical staining in an independent collection of glioblastoma samples. In vitro and in vivo, silencing of LDHA sensitized glioblastoma lines to IR and enhanced radiation-induced g-H2AX accumulation. Such sensitization was not observed after treatment with an LDHA inhibitor, suggesting the metabolic function of LDHA is distinct from its role in DNA repair. Supporting this hypothesis, truncation mutations that suppressed the LDHA glycolysis function minimally affected its role in DNA repair. Mechanistically, cytoplasmic LDHA translocates into the nucleus in response to IR. This translocation was associated with subsequent chromatin transition into an open conformation and enhanced homologous recombination.

The novel LDHA function in DNA repair suggests intricate crosstalks between glycolytic metabolism and DNA repair, offering a new platform for glioblastoma therapeutic development.