Abstract
Etoposide (ETO) has been used in treating adrenocortical tumor (ACT) cells. Our previous study showed that ETO inhibits ACT cell growth. In the present study, we show that ETO treatment at IC50 (10 μM) inhibited ACT cell growth by inducing cellular senescence rather than apoptosis. Several markers of cellular senescence, including enlarged nuclei, activated senescence-associated β-galactosidase activity, elevated levels of p53 and p21, and down-regulation of Lamin B1, were observed. We further found that ETO induced multiple centrosomes. The inhibition of multiple centrosomes accomplished by treating cells with either roscovitine or centrinone or through the overexpression of NR5A1/SF-1 alleviated ETO-induced senescence, suggesting that ETO triggered senescence via multiple centrosomes. Primary cilia also played a role in ETO-induced senescence. In the mechanism, DNA-PK-Chk2 signaling was activated by ETO treatment; inhibition of this signaling cascade alleviated multiple ETO-induced centrosomes and primary cilia followed by reducing cellular senescence. In addition to DNA damage signaling, autophagy was also triggered by ETO treatment for centrosomal events and senescence. Importantly, the inactivation of DNA-PK-Chk2 signaling reduced ETO-triggered autophagy; however, the inhibition of autophagy did not affect DNA-PK-Chk2 activation. Thus, ETO activated the DNA-PK-Chk2 cascade to facilitate autophagy. The activated autophagy further induced multiple centrosomes and primary cilia followed by triggering senescence.
Highlights
In response to adrenocorticotropic hormone stimulation, the adrenocortex synthesizes and secretes steroid hormones to maintain salt and energy homeostasis
Our previous study showed that a sublethal dose (10 or 100 μM) of ETO treatment for 72 h induces G2/M arrest without triggering cellular apoptosis in adrenocortical tumor (ACT) cells [31]
We examined whether ETO activated phosphatidylinositol 3-kinase-related kinases (PI3KKs) in adrenocortical tumors
Summary
In response to adrenocorticotropic hormone stimulation, the adrenocortex synthesizes and secretes steroid hormones to maintain salt and energy homeostasis. The abnormal growth of adrenocortical cells leads to an adrenocortical tumor (ACT). ACT is a rare cancer mainly caused by germline mutation in TP53, with an annual incidence of about. Correlated with its physiological function, in most cases, ACT is associated with virilizing features and hypercortisolism. The molecular pathogenesis of ACT has not been well studied; in most cases, the overexpression of insulin-like growth factor 2 and steroidogenic factor 1 were observed in ACT [3,4]. The constitutive activation of Wnt/β-catenin signaling contributes to the development of ACT [5]. Treatment of ACT mainly depends on surgical removal and
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