Abstract
Androgen deprivation therapy induces apoptosis or cell cycle arrest in prostate cancer (PCa) cells. Here we set out to analyze whether MCL1, a known mediator of chemotherapy resistance regulates the cellular response to androgen withdrawal. Analysis of MCL1 protein and mRNA expression in PCa tissue and primary cell culture specimens of luminal and basal origin, respectively, reveals higher expression in cancerous tissue compared to benign origin. Using PCa cellular models in vitro and in vivo we show that MCL1 expression is upregulated in androgen-deprived PCa cells. Regulation of MCL1 through the AR signaling axis is indirectly mediated via a cell cycle-dependent mechanism. Using constructs downregulating or overexpressing MCL1 we demonstrate that expression of MCL1 prevents induction of apoptosis when PCa cells are grown under steroid-deprived conditions. The BH3-mimetic Obatoclax induces apoptosis and decreases MCL1 expression in androgen-sensitive PCa cells, while castration-resistant PCa cells are less sensitive and react with an upregulation of MCL1 expression. Synergistic effects of Obatoclax with androgen receptor inactivation can be observed. Moreover, clonogenicity of primary basal PCa cells is efficiently inhibited by Obatoclax. Altogether, our results suggest that MCL1 is a key molecule deciding over the fate of PCa cells upon inactivation of androgen receptor signaling.
Highlights
Androgen deprivation therapy (ADT) is a firstline therapy for locally advanced and metastatic prostate cancer (PCa)
To determine whether MCL1 is differentially expressed with increasing cell differentiation, we separated committed basal (CB, CD49blo) from transit amplifying cells (TA, CD49bhi) based on their potential to attach to type I collagen
We found that MCL1 mRNA is increasingly expressed in malignant compared to benign samples in SC/TIC and TA populations
Summary
Androgen deprivation therapy (ADT) is a firstline therapy for locally advanced and metastatic prostate cancer (PCa). This includes the use of Gonadotropinreleasing hormone (Luteinizing-hormone releasing hormone) agonists and antagonists suppressing the production of testosterone, and non-steroidal antiandrogens (e.g. Bicalutamide (CasodexTM)) that inhibit activation of the androgen receptor (AR) by competing with its natural ligand dihydrotestosterone [1]. The consequences of ADT on malignant prostate epithelial cells are induction of apoptosis or cell cycle arrest in G1 phase [2]. Cells reacting with a cell cycle arrest and unable to induce apoptosis may be at the basis of development of castration resistance. In order to improve the efficiency of ADT, combination therapies are warranted where the ADT-additive therapy targets the G1 cell cycle-arrested PCa cells
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