Signaling metabolite succinylacetone activates HIF-1α and promotes angiogenesis in GSTZ1-deficient hepatocellular carcinoma
Huating Luo, Qiujie Wang, Fan Yang, Rui Liu, Qingzhu Gao, Bin Cheng, Xue Lin, Luyi Huang, Chang Chen, Jin Xiang, Kai Wang, Bo Qin, Ni Tang
Huating Luo, Qiujie Wang, Fan Yang, Rui Liu, Qingzhu Gao, Bin Cheng, Xue Lin, Luyi Huang, Chang Chen, Jin Xiang, Kai Wang, Bo Qin, Ni Tang
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Research Article Oncology

Signaling metabolite succinylacetone activates HIF-1α and promotes angiogenesis in GSTZ1-deficient hepatocellular carcinoma

Abstract

Aberrant angiogenesis in hepatocellular carcinoma (HCC) is associated with tumor growth, progression, and local or distant metastasis. Hypoxia-inducible factor 1α (HIF-1α) is a transcription factor that plays a major role in regulating angiogenesis during adaptation of tumor cells to nutrient-deprived microenvironments. Genetic defects in Krebs cycle enzymes, such as succinate dehydrogenase and fumarate hydratase, result in elevation of oncometabolites succinate and fumarate, thereby increasing HIF-1α stability and activating the HIF-1α signaling pathway. However, whether other metabolites regulate HIF-1α stability remains unclear. Here, we reported that deficiency of the enzyme in phenylalanine/tyrosine catabolism, glutathione S-transferase zeta 1 (GSTZ1), led to accumulation of succinylacetone, which was structurally similar to α-ketoglutarate. Succinylacetone competed with α-ketoglutarate for prolyl hydroxylase domain 2 (PHD2) binding and inhibited PHD2 activity, preventing hydroxylation of HIF-1α, thus resulting in its stabilization and consequent expression of vascular endothelial growth factor (VEGF). Our findings suggest that GSTZ1 may serve as an important tumor suppressor owing to its ability to inhibit the HIF-1α/VEGFA axis in HCC. Moreover, we explored the therapeutic potential of HIF-1α inhibitor combined with anti–programmed cell death ligand 1 therapy to effectively prevent HCC angiogenesis and tumorigenesis in Gstz1-knockout mice, suggesting a potentially actionable strategy for HCC treatment.

Authors

Huating Luo, Qiujie Wang, Fan Yang, Rui Liu, Qingzhu Gao, Bin Cheng, Xue Lin, Luyi Huang, Chang Chen, Jin Xiang, Kai Wang, Bo Qin, Ni Tang

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Figure 3

GSTZ1 suppresses HCC angiogenesis by inactivating the HIF-1α signaling pathway.

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GSTZ1 suppresses HCC angiogenesis by inactivating the HIF-1α signaling p...
(A) HIF-1α mRNA level under hypoxia for 12 hours in GSTZ1-KO HepG2 cells and in GSTZ1-OE Huh7 cells. (B and C) Western blot analysis shows the expression of GSTZ1, HIF-1α, and VEGFA proteins in HepG2 with GSTZ1-KO cells and Huh7 with GSTZ1-OE cells, which were incubated under normoxia or hypoxia for 12 hours. (D) The protein expression level of GSTZ1, HIF-1α, and VEGFA proteins in HepG2 GSTZ1-KO cells treated with HIF-1α inhibitor 2-Methoxyestradiol (2-ME2) under hypoxia for 12 hours. (E) Migration by Transwell assays (scale bar = 10 μm). (F) Cell growth curves. (G) Tube formation assays in HUVECs. (H) Western blot shows protein expression of HIF-1α, VEGFA, and GSTZ1 in HepG2 with GSTZ1-KO cells ectopically expressing siNC or siHIF-1α under hypoxia for 12 hours. (I) VEGFA protein levels in the culture medium of HepG2 with GSTZ1-KO cells and parental cells ectopically expressing siNC or siHIF-1α under hypoxia conditions for 12 hours. (J) Cell growth curves under hypoxia. (K) Migration by Transwell assays (scale bar = 10 μm). (L) Tube formation assays in HUVECs with the culture medium of HepG2 with GSTZ1-KO cells and parental cells ectopically expressing siNC or siHIF-1α under hypoxia for 12 hours, respectively. For Western blotting, 30–50 μg of protein is loaded per well. The original magnification of G and L is 10×. Values represent the mean ± SEM (n = 3 in each group). The qRT-PCR data are determined from 3 independent experiments. Statistical analysis was performed using 2-tailed unpaired Student’s t test (A), 1-way ANOVA with Tukey’s test (E, G, I, K, and L) or 2-way ANOVA with Bonferroni’s test (F and J); *P < 0.05, **P < 0.01, ***P < 0.001. siNC, negative control.