Abstract
Tumor cell tolerance to nutrient deprivation can be an important factor for tumor progression, and may depend on deregulation of both oncogenes and oncosuppressor proteins. Homeodomain-interacting protein kinase 2 (HIPK2) is an oncosuppressor that, following its activation by several cellular stress, induces cancer cell death via p53-dependent or -independent pathways. Here, we used genetically matched human RKO colon cancer cells harboring wt-HIPK2 (HIPK2+/+) or stable HIPK2 siRNA interference (siHIPK2) to investigate in vitro whether HIPK2 influenced cell death in glucose restriction. We found that glucose starvation induced cell death, mainly due to c-Jun NH2-terminal kinase activation, in HIPK2+/+cells compared with siHIPK2 cells that did not die. 1H-nuclear magnetic resonance quantitative metabolic analyses showed a marked glycolytic activation in siHIPK2 cells. However, treatment with glycolysis inhibitor 2-deoxy-𝒟-glucose induced cell death only in HIPK2+/+ cells but not in siHIPK2 cells. Similarly, siGlut-1 interference did not re-establish siHIPK2 cell death under glucose restriction, whereas marked cell death was reached only after zinc supplementation, a condition known to reactivate misfolded p53 and inhibit the pseudohypoxic phenotype in this setting. Further siHIPK2 cell death was reached with zinc in combination with autophagy inhibitor. We propose that the metabolic changes acquired by cells after HIPK2 silencing may contribute to induce resistance to cell death in glucose restriction condition, and therefore be directly relevant for tumor progression. Moreover, elimination of such a tolerance might serve as a new strategy for cancer therapy.
Highlights
Interference to investigate in vitro whether Homeodomain-interacting protein kinase 2 (HIPK2) influenced cell death in glucose restriction
We found that glucose starvation induced cell death, mainly due to c-Jun NH2-terminal kinase activation, in HIPK2 þ / þ cells compared with stably interfered for HIPK2 (siHIPK2) cells that did not die. 1H-nuclear magnetic resonance quantitative metabolic analyses showed a marked glycolytic activation in siHIPK2 cells
We previously reported that HIPK2 represses HIF-1a transcription; HIPK2 depletion induces a pseudohypoxic phenotype with HIF-1a upregulation and angiogenesis that results in increased tumor growth in vivo and in chemoresistance.[7,8,9]
Summary
Interference (siHIPK2) to investigate in vitro whether HIPK2 influenced cell death in glucose restriction. We propose that the metabolic changes acquired by cells after HIPK2 silencing may contribute to induce resistance to cell death in glucose restriction condition, and be directly relevant for tumor progression. Elimination of such a tolerance might serve as a new strategy for cancer therapy. Tumor cell proliferation and survival are basically maintained by oxygen and nutrients, especially glucose, supplied by the blood For this reason, angiogenesis is considered closely involved in tumorigenesis.[1] Some tumor cells acquire tolerance to glucose starvation (glu stv), which may depend on hypoxia condition.[2,3,4] Hypoxia-inducible factor 1 (HIF-1) is a heterodimeric transcription factor with constitutive HIF-1b subunit and the HIF-1a subunit stabilized by low intracellular oxygen or genetic alteration. The inhibition of G6PD by p53 is independent of transcription and is a cytoplasmic, not nuclear, function of p53, probably attributed to the native conformation of p53.25
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