Mitotane is the only adrenolytic drug approved by the Food and Drug Administration for treating adrenocortical carcinoma (ACC). This drug has cytotoxic effects on tumour tissues; it induces cell death and antisecretory effects on adrenal cells by inhibiting the synthesis of adrenocortical steroids, which are involved in the pathogenesis of ACC. However, high doses of mitotane are usually necessary to reach the therapeutic plasma concentration, which may result in several adverse effects. This suggests that important pharmacological processes, such as first pass metabolism, tissue accumulation and extensive time for drug elimination, are associated with mitotane administration. Few studies have reported the pharmacological aspects and therapeutic effects of mitotane. Therefore, the aim of this review was to summarize the chemistry, pharmacokinetics and pharmacodynamics, and therapeutic and toxic effects of mitotane. This review also discusses new perspectives of mitotane formulation that are currently under investigation. Understanding the pharmacological profile of mitotane can improve the monitoring and efficacy of this drug in ACC treatment and can provide useful information for the development of new drugs with specific action against ACC with fewer adverse effects.
In South Brazil, the incidence of pediatric adrenocortical carcinoma (ACC) is higher than in other regions and countries worldwide. The ACC treatment includes therapy with mitotane, the only adrenolytic drug approved by the FDA. The mitotane metabolism occurs via two main reactions: the β-hydroxylation, which yields the final product o,p’-DDA, and the α-hydroxylation, which will give the final product o,p’-DDE. It is speculated that o,p’-DDE may be an active metabolite since it has a cytotoxic effect on adrenocortical carcinoma cells (H295R). No further studies have been conducted to confirm this hypothesis; however, it was found that mitotane and its metabolites are present at significantly different concentrations in the plasma of the patients. Our study aimed to assess the in vitro effects of o,p’-DDE and o,p’-DDD in cell death pathways, oxidative parameters, and interaction with adrenal CYP’s involved in the steroidogenic process in the H295R cell line. It was found that o,p’-DDE had a different effect than the o,p’-DDD on apoptosis, inhibiting this cell death pathway, but it promotes cell necrosis at higher concentrations. In contrast to o,p’-DDD, the o,p’-DDE did not have effects on the different oxidative parameters evaluated, but exhibited stimulatory interactions with steroidogenic CYP’s, at intermediate concentrations. Therefore, we demonstrated important cell effects of o,p’-DDE; its plasma levels during mitotane therapy should be monitored as an important therapeutic parameter.
Mitotane is the only drug approved for treating adrenocortical carcinoma (ACC) by the FDA since 1959, despite the controversy regarding its efficacy in prolonging patient survival. This drug has cytotoxic effects on tumor tissue by inducing cell death and antisecretory effects on adrenal cells by inhibiting the synthesis of adrenocortical steroids involved in the pathogenesis of ACC. To reach the therapeutic plasma concentration, high doses of mitotane are usually necessary, which may result in several adverse effects. This suggests that important pharmacological features are involved in the mechanisms of action of this drug, such as first pass metabolism, tissue accumulation, and extensive time needed for drug elimination. However, few studies have reported the pharmacological aspects of mitotane, and they did not provide sufficient evidence regarding monitoring mitotane's therapeutic effects. Therefore, this review summarized the chemistry, pharmacokinetics and pharmacodynamics, therapeutic effects, toxic effects, and new perspectives of mitotane treatment that are currently under investigation. Understanding the pharmacological profile of mitotane can improve the monitoring and efficacy of this drug in ACC treatment and can further provide useful information for the development of new drugs with specific action against ACC with fewer adverse effects.
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