Anti-proliferative activity of nano-formulated phenolato titanium(IV) complexes against cancer cells.

Nanoparticles of titanium(IV) complexes of phenolato ligands were formed and evaluated for cytotoxicity toward human HT-29 colon cancer, murine T-25 lymphoma, and murine HU-2 multidrug-resistant (MDR) cells. The nano-formulation, besides increasing the complexes' shelf lives, is particularly efficient in overcoming limitations in solubility and cell-penetration, thus enhancing biological accessibility; large complexes that were inactive when measured in a non-formulated form showed marked activity when nano-formulated. For active and accessible small complexes, the effect of the formulation was negligible.

High antitumor activity of highly resistant salan-titanium(IV) complexes in nanoparticles: an identified active species.

A nanoformulated trinuclear hydrolysis product of a bis(alkoxo) salan-Ti(IV) complex shows high antitumor activity, which identifies it as an active species in cells. Additional highly stable mononuclear derivatives also show high activity, when formulated into nanoparticles, thus evincing that biologically friendly Ti(IV) can provide high cytotoxicity with controlled biological function.

Design, synthesis, and evaluation of quinazoline T cell proliferation inhibitors.

We report here on a class of quinazoline molecules that inhibit T cell proliferation. The most potent compound N-p-tolyl-2-(3,4,5-trimethoxyphenyl)quinazolin-4-amine (S101) and its close analogs were found to inhibit the proliferation of T cells from human peripheral blood mononuclear cells (PBMC) and Jurkat cells, with IC(50) in the sub-micromolar range. The inhibitor induced G2 cell cycle arrest but did not inhibit IL-2 secretion.