Chronic Corticosterone Treatment Decreases Extracellular pH and Increases Lactate Release via PDK4 Upregulation in Cultured Astrocytes

Abstract

The pathogenesis of stress-related disorders involves aberrant glucocorticoid secretion, and decreased pH and increased lactate in the brain are common phenotypes in several psychiatric disorders. Mice treated with glucocorticoids develop these phenotypes, but it is unclear how glucocorticoids affect brain pH. Therefore, we investigated the effect of corticosterone (CORT), the main glucocorticoid in rodents, on extracellular pH and lactate release in cultured astrocytes, which are the main glial cells that produce lactate in the brain. CORT treatment for one week decreased the extracellular pH and increased the extracellular lactate level via glucocorticoid receptors. CORT also increased the intracellular pyruvate level and upregulated pyruvate dehydrogenase kinase 4 (PDK4), while PDK4 overexpression increased extracellular lactate and decreased the extracellular pH. Furthermore, PDK4 inhibition suppressed the increase in extracellular lactate and the decrease in extracellular pH induced by CORT. These results suggest that increased lactate release via accumulation of intracellular pyruvate in astrocytes by chronic glucocorticoid exposure contributes to decreased brain pH.