Cysmethynil

Abstract: Inhibition of isoprenylcysteine carboxylmethyltransferase (Icmt), which catalyzes the final step in the post-translational C-terminal processing of prenylated proteins, suppresses tumor cell growth and induces cell death. Icmt inhibition by either a small molecule inhibitor termed as cysmethynil or inhibitory RNA induces marked autophagy leading to cell death. HepG2 cells were used to investigate the function of autophagy in tumor cell death. Suppression of autophagy, either pharmacologically or through knockdown of the autophagy essential proteins, Atg5 or Atg1, inhibits not only cysmethynil-induced autophagy, but also apoptosis in HepG2 cells. The dependence of cysmethynil-induced apoptosis on autophagy was further shown using autophagy-deficient mouse embryonic fibroblast (MEF) cells. Atg5(-/-) MEF cells were found to be resistant to cysmethynil-induced apoptosis, whereas wild-type MEFs showed high sensitivity to apoptosis induction. These data indicate that inhibition of Icmt can elicit cell death through two linked mechanisms, autophagy and apoptosis, and that autophagy can be an active player upstream of apoptosis in cell types capable of apoptotic cell death, such as HepG2 and MEFs. Further, treatment of mice-bearing HepG2-derived tumors with cysmethynil resulted in marked inhibition of tumor growth; analysis of tumor tissue from these mice revealed markers consistent with autophagy induction and cell growth arrest.

Abstract: Inhibitors of isoprenylcysteine carboxylmethyltransferase (Icmt) are promising anti-cancer agents, as modification by Icmt is an essential component of the protein prenylation pathway for a group of proteins that includes Ras GTPases. Cysmethynil, a prototypical indole-based inhibitor of Icmt, effectively inhibits tumor cell growth. However, the physical properties of cysmethynil, such as its low aqueous solubility, make it a poor candidate for clinical development. A novel amino-derivative of cysmethynil with superior physical properties and marked improvement in efficacy, termed compound 8.12, has recently been reported. We report here that Icmt −/− mouse embryonic fibroblasts (MEFs) are much more resistant to compound 8.12-induced cell death than their wild-type counterparts, providing evidence that the anti-proliferative effects of this compound are mediated through an Icmt specific mechanism. Treatment of PC3 prostate and HepG2 liver cancer cells with compound 8.12 resulted in pre-lamin A accumulatio...

Abstract: The enzyme isoprenylcysteine carboxyl methyltransferase (Icmt) plays an important role in the post-translational modification of proteins that are involved in the regulation of cell growth. The indole acetamide cysmethynil is by far the most potent and widely investigated Icmt inhibitor, but it has modest antiproliferative activity and may have pharmacokinetic limitations due to its lipophilic character. We report here that cysmethynil can be structurally modified to give analogues that are as potent in inhibiting Icmt but with significantly greater antiproliferative activity. Key modifications were the replacement of the acetamide side chain by tertiary amino groups, the n-octyl side chain by isoprenyl and the 5-m-tolyl ring by fluorine. Moreover, these analogues have lower lipophilicities that could lead to improved pharmacokinetic profiles.