posted on 2015-12-17, 05:59authored byJacob Fernández-Gallardo, Benelita T. Elie, Florian J. Sulzmaier, Mercedes Sanaú, Joe W. Ramos, María Contel
Early–late
transition metal TiAu2 compounds [(η-C5H5)2Ti{OC(O)CH2PPh2AuCl}2] (3) and new [(η-C5H5)2Ti{OC(O)-4-C6H4PPh2AuCl}2] (5) were evaluated
as potential anticancer agents in vitro against renal
and prostate cancer cell lines. The compounds were significantly more
effective than monometallic titanocene dichloride and gold(I) [{HOC(O)RPPh2}AuCl] (R = −CH2– 6,
−4-C6H4– 7) derivatives
in renal cancer cell lines, indicating a synergistic effect of the
resulting heterometallic species. The activity on renal cancer cell
lines (for 5 in the nanomolar range) was considerably
higher than that of cisplatin and highly active titanocene Y. Initial
mechanistic studies in Caki-1 cells in vitro coupled
with studies of their inhibitory properties on a panel of 35 kinases
of oncological interest indicate that these compounds inhibit protein
kinases of the AKT and MAPKAPK families with a higher selectivity
toward MAPKAPK3 (IC503 = 91 nM, IC505 = 117 nM). The selectivity of the compounds in vitro against renal cancer cell lines when compared to
a nontumorigenic human embryonic kidney cell line (HEK-293T) and the
favorable preliminary toxicity profile on C57black6 mice indicate
that these compounds (especially 5) are excellent candidates
for further development as potential renal cancer chemotherapeutics.