DAZAP1 maintains gastric cancer stemness by inducing mitophagy
Peiling Zhang, Wei Wang, Hong Xiang, Yun Zhou, Qian Peng, Guolong Liu, Zhi-Xiang Xu, Lin Lu
Peiling Zhang, Wei Wang, Hong Xiang, Yun Zhou, Qian Peng, Guolong Liu, Zhi-Xiang Xu, Lin Lu
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Research Article Cell biology Oncology Stem cells

DAZAP1 maintains gastric cancer stemness by inducing mitophagy

Abstract

Stem cells play a pivotal role in the malignant behavior of gastric cancer (GC), complicating its treatment and prognosis. However, the regulatory mechanisms of GC stem cells (GCSCs) remain poorly understood. DAZ-associated protein 1 (DAZAP1), a splicing regulator linked to various malignancies, has an unclear role in GC. This study investigated DAZAP1’s impact on GC stemness and its mechanisms. DAZAP1 promoted tumor progression in GCSCs, as shown by sphere formation assays and stemness marker analysis. Functional enrichment analysis suggested that DAZAP1 enhanced tumor stemness by promoting oxidative phosphorylation (OXPHOS), which was validated through Seahorse assays and measurements of mitochondrial potential. Transmission electron microscopy and immunofluorescence analyses demonstrated that DAZAP1 promoted mitophagy. RNA immunoprecipitation and PCR analysis revealed that DAZAP1 regulated the splicing and expression of the mitophagy-related gene ULK1 through nonsense-mediated mRNA decay. Rescue experiments showed that overexpression of ULK1 reversed the suppression of GC stemness and OXPHOS levels induced by DAZAP1 silencing. Our findings indicate that DAZAP1 reduces ULK1 decay, thereby activating mitophagy and enhancing OXPHOS to fulfill the metabolic demands of cancer stem cells. These findings highlight the therapeutic potential of DAZAP1 as a target for treating GC.

Authors

Peiling Zhang, Wei Wang, Hong Xiang, Yun Zhou, Qian Peng, Guolong Liu, Zhi-Xiang Xu, Lin Lu

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Figure 8

ULK1-mediated mitophagy is essential for DAZAP1-induced stemness in GC cells.

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ULK1-mediated mitophagy is essential for DAZAP1-induced stemness in GC c...
(A) Western blot analysis showed that ULK1 protein levels markedly decrease following DAZAP1 knockdown, while reintroducing ULK1 restores its expression. (B) Western blot analysis demonstrated that ULK1 overexpression rescues the expression of autophagy markers LC3B and P62 in DAZAP1-knockdown cells. (C and D) Mito-Keima labeling indicated that ULK1 overexpression partially restores mitophagy in DAZAP1-knockdown cells. (E) CCK8 assay showed that ULK1 overexpression partially restores cell proliferation in DAZAP1-knockdown cells. (F and G) Transwell migration assay indicated that ULK1 overexpression rescues the cell migration impaired by DAZAP1 knockdown. Scale bars: 100 μm. (H and I) Sphere formation assay demonstrated that ULK1 overexpression increases the number of spheres, counteracting the inhibitory effect of DAZAP1 knockdown. (J and K) qPCR and Western blot analyses showed that restoring ULK1 in DAZAP1-knockdown cells rescues the expression of stemness markers SOX2, OCT4, and NANOG. (L) ATP production assay indicated that ULK1 overexpression partially restores OXPHOS activity in DAZAP1-knockdown cells. (M) Gene expression analysis showed that ULK1 overexpression increases the expression of key OXPHOS complex subunit genes (UQCRC1, UQCRC2, SDHA, SDHB, ATP5F1A, ATP5F1B, and NDUFA1), indicating enhanced OXPHOS in DAZAP1-knockdown cells. Quantitative data are shown as the mean ± SD from a minimum of 3 independent experiments. Statistical analysis by 1-way ANOVA followed by Dunnett’s multiple-comparison test (D, G, I, J, L, and M) or 2-way ANOVA followed by Tukey’s HSD post hoc test for multiple comparisons (E). *P < 0.05; **P < 0.01; ***P < 0.001; ****P < 0.0001. NS indicates no statistically significant difference.