Intracellular acidification and glycolysis modulate inflammatory pathway in senescent cells.

Abstract

Senescent cells accumulate in various organs with aging, and its accumulation induces chronic inflammation and age-related physiological dysfunctions. Several remodeling of intracellular environments has been identified in senescent cells, including enlargement of cell / nuclear size and intracellular acidification. Although these alterations of intracellular environments were reported to be involved in unique characteristics of senescent cells, the contribution of intracellular acidification to senescence-associated cellular phenotypes is poorly understood. Here, we identified that upregulation of TXNIP and its paralog ARRDC4 as a hallmark of intracellular acidification in addition to KGA-type GLS1. These genes were also upregulated in response to senescence-associated intracellular acidification. Neutralization of the intracellular acidic environment ameliorated not only senescence-related upregulation of TXNIP, ARRDC4, and KGA, but also inflammation-related genes, possibly through suppression of PDK-dependent anaerobic glycolysis. Furthermore, we found that expression of the intracellular acidification-induced genes, TXNIP and ARRDC4, correlated with inflammatory gene expression in heterogeneous senescent cell population in vitro and even in vivo, implying that the contribution of intracellular pH to senescence-associated cellular features, such as SASP.