PO.MCB04.01 · 分子与细胞生物学
Chronic extracellular acidosis drives metabolic plasticity and adaptive survival in multiple myeloma
作者与单位
摘要 Abstract
Multiple myeloma (MM) is a plasma cell malignancy that evolves within the complex bone marrow microenvironment, where persistent extracellular acidosis exerts significant biological influence but remains insufficiently investigated. To elucidate the long-term impact of acidotic stress, we developed MM cell models chronically cultured under mildly acidic conditions, mimicking the gradual acidification seen during disease progression. This approach revealed a biphasic MM cellular response: early acidic exposure impaired proliferation, triggered apoptosis, and disrupted metabolic activity, whereas prolonged acidification induced a dynamic, reversible state marked by metabolic recovery, mitochondrial remodeling, and restored growth. Further transcriptomic profiling uncovered distinct gene expression programs associated with this chronic adaptation, including a set of acid-acclimated genes strongly correlated with disease stage and overall survival in MM patients. These findings suggest that extracellular acidosis is not a passive consequence of tumor metabolism, but a key determinant of MM progression by promoting adaptive metabolic plasticity and clonal evolution.
利益披露 Disclosure
H. Chen, None..
P. Tsai, None..
S. Lin, None..
F. Tsai, None..
S. Jiang, None..
C. J. Teng, None..
W. W. Chang, None.