AKAP12 promotes cancer stem cell-like phenotypes and activates STAT3 in colorectal cancer

Background Cancer stem cells (CSCs) have unique biological characteristics, including tumorigenicity, immortality, and chemoresistance. Colorectal CSCs have been identified and isolated from colorectal cancers by various methods. AKAP12, a scaffolding protein, is considered to act as a potential suppressor in colorectal cancer, but its role in CSCs remains unknown. In this study, we investigated the function of AKAP12 in Colorectal CSCs. Methods Herein, Colorectal CSCs were enriched by cell culture with a serum-free medium. CSC-associated characteristics were evaluated by Flow cytometry assay and qPCR. AKAP12 gene expression was regulated by lentiviral transfection assay. The tumorigenicity of AKAP12 in vivo by constructing a tumor xenograft model. The related pathways were explored by qPCR and Western blot. Results The depletion of AKAP12 reduced colony formation, sphere formation, and expression of stem cell markers in colorectal cancer cells, while its knockdown decreased the volume and weight of tumor xenografts in vivo. AKAP12 expression levels also affected the expression of stemness markers associated with STAT3, potentially via regulating the expression of protein kinase C. Conclusion This study suggests Colorectal CSCs overexpress AKAP12 and maintain stem cell characteristics through the AKAP12/PKC/STAT3 pathway. AKAP12 may be an important therapeutic target for blocking the development of colorectal cancer in the field of cancer stem cells (AU)

Lipidomics reveals carnitine palrnitoyltransferase 1C protects cancer cells from lipotoxicity and senescence / 药物分析学报

Lipotoxicity,caused by intracellular lipid accumulation,accelerates the degenerative process of cellular senescence,which has implications in cancer development and therapy.Previously,camitine palmi-toyltransferase 1C (CPT1C),a mitochondrial enzyme that catalyzes carnitinylation of fatty acids,was found to be a critical regulator of cancer cell senescence.However,whether loss of CPT1C could induce senescence as a result of lipotoxicity remains unknown.An LC/MS-based lipidomic analysis of PANC-1,MDA-MB-231,HCT-116 and A549 cancer cells was conducted after siRNA depletion of CPT1C.Cellular lipotoxicity was further confirmed by lipotoxicity assays.Significant changes were found in the lipidome of CPT1 C-depleted cells,including major alterations in fatty acid,diacylglycerol,triacylglycerol,oxidative lipids,cardiolipin,phosphatidylglycerol,phosphatidylcholine/phosphatidylethanolamine ratio and sphingomyelin.This was coincident with changes in expressions of mRNAs involved in lipogenesis.Histological and biochemical analyses revealed higher lipid accumulation and increased malondialde-hyde and reactive oxygen species,signatures of lipid peroxidation and oxidative stress.Reduction of ATP synthesis,loss of mitochondrial transmembrane potential and down-regulation of expression of mito-chondriogenesis gene mRNAs indicated mitochondrial dysfunction induced by lipotoxicity,which could further result in cellular senescence.Taken together,this study demonstrated CPT1C plays a critical role in the regulation of cancer cell lipotoxicity and cell senescence,suggesting that inhibition of CPT1C may serve as a new therapeutic strategy through induction of tumor lipotoxicity and senescence.