Inhibition of lactate dehydrogenase A by diclofenac sodium induces apoptosis in HeLa cells through activation of AMPK

Avirup Malla, Suvroma Gupta, Runa Sur
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Abstract

Cancer cells exhibit a unique metabolic preference for the glycolytic pathway over oxidative phosphorylation for maintaining the tumor microenvironment. Lactate dehydrogenase A (LDHA) is a key enzyme that facilitates glycolysis by converting pyruvate to lactate and has been shown to be upregulated in multiple cancers due to the hypoxic tumor microenvironment. Diclofenac (DCF), a nonsteroidal anti-inflammatory drug, has been shown to exhibit anticancer effects by interfering with the glucose metabolism pathway. However, the specific targets of this drug remain unknown. Using in silico, biochemical, and biophysical studies, we show that DCF binds to LDHA adjacent to the substrate binding site and inhibits its activity in a dose-dependent and allosteric manner in HeLa cells. Thus, DCF inhibits the hypoxic microenvironment and induces apoptosis-mediated cell death. DCF failed to induce cytotoxicity in HeLa cells when LDHA was knocked down, confirming that DCF exerts its antimitotic effects via LDHA inhibition. DCF-induced LDHA inhibition alters pyruvate, lactate, NAD+, and ATP production in cells, and this could be a possible mechanism through which DCF inhibits glucose uptake in cancer cells. DCF-induced ATP deprivation leads to mitochondria-mediated oxidative stress, which results in DNA damage, lipid peroxidation, and apoptosis-mediated cell death. Reduction in intracellular ATP levels additionally activates the sensor kinase, adenosine monophosphate-activated protein kinase (AMPK), which further downregulates phosphorylated ribosomal S6 kinase (p-S6K), leading to apoptosis-mediated cell death. We find that in LDHA knocked down cells, intracellular ATP levels were depleted, resulting in the inhibition of p-S6K, suggesting the involvement of DCF-induced LDHA inhibition in the activation of the AMPK/S6K signaling pathway.

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双氯芬酸钠通过激活 AMPK 抑制乳酸脱氢酶 A,诱导 HeLa 细胞凋亡。
与氧化磷酸化相比,癌细胞在维持肿瘤微环境方面表现出独特的新陈代谢偏好,即偏好糖酵解途径。乳酸脱氢酶 A(LDHA)是一种通过将丙酮酸转化为乳酸来促进糖酵解的关键酶,已被证明在多种癌症中由于缺氧的肿瘤微环境而上调。双氯芬酸(Diclofenac,DCF)是一种非甾体抗炎药物,已被证明可通过干扰葡萄糖代谢途径发挥抗癌作用。然而,这种药物的特定靶点仍然未知。我们利用硅学、生物化学和生物物理研究表明,DCF 与 LDHA 的底物结合位点相邻,并以剂量依赖性和异构方式抑制其在 HeLa 细胞中的活性。因此,DCF 可抑制缺氧微环境并诱导细胞凋亡介导的细胞死亡。当 LDHA 被敲除时,DCF 在 HeLa 细胞中不能诱导细胞毒性,这证实了 DCF 是通过抑制 LDHA 发挥抗凋亡作用的。DCF诱导的LDHA抑制改变了细胞中丙酮酸、乳酸、NAD+和ATP的产生,这可能是DCF抑制癌细胞葡萄糖摄取的一种机制。DCF 诱导的 ATP 贫乏会导致线粒体介导的氧化应激,从而导致 DNA 损伤、脂质过氧化和细胞凋亡介导的细胞死亡。细胞内 ATP 水平的降低还会激活传感激酶--单磷酸腺苷激活蛋白激酶(AMPK),从而进一步下调磷酸化核糖体 S6 激酶(p-S6K),导致细胞凋亡介导的细胞死亡。我们发现,在敲除 LDHA 的细胞中,细胞内 ATP 水平被耗尽,导致 p-S6K 受抑制,这表明 DCF 诱导的 LDHA 抑制参与了 AMPK/S6K 信号通路的激活。
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