Fate of a bioactive fluorescent wortmannin derivative in cells.

Here, we report on NBD-Wm, a fluorescent wortmannin (Wm) probe that maintains the bioactivity of Wm as an inhibitor of PI3 kinase and as an antiproliferative agent. The attachment of the NBD fluorochrome permits NBD-Wm in cells to be monitored by NBD fluorescence-based methods such as FACS or fluorescence microscopy or with an anti-NBD antibody. The fluorescence of NBD-Wm treated cells reached a peak at 1.5 h and then decreased because of the extrusion of a fluorescent compound into the culture media. Cells accumulated NBD-Wm to levels about 30-fold higher than those in the media. NBD-Wm modified five major proteins, with the modification of the catalytic subunit of PI3 kinase being a minor band. The bioactivity of NBD-Wm, coupled with a variety of techniques available for determining its disposition, suggest that NBD-Wm can be a useful tool in understanding the mechanism of action of viridins.

Conjugated platinum(IV)-peptide complexes for targeting angiogenic tumor vasculature.

The integrins alpha vbeta3 and alpha vbeta5 and the membrane-spanning surface protein aminopeptidase N (APN) are highly expressed in tumor-induced angiogenesis, making them attractive targets for therapeutic intervention. Both integrins and APN recognize a broad range of peptides containing RGD (Arg-Gly-Asp) and NGR (Asn-Gly-Arg) motifs, respectively. Here, we describe the design, synthesis, and characterization of a series of mono- and difunctionalized platinum(IV) complexes in which a conjugated peptide motif, containing RGD, (CRGDC)c, (RGDfK)c, or NGR, is appended as a "tumor-homing device" to target tumor endothelial cells selectively over healthy cells. Platinum(IV)-peptide complexes with nonspecific amino acids or peptide moieties were prepared as controls. Concentration-response curves of these compounds were evaluated against primary proliferating endothelial cells and tumor cell lines and compared to those of cisplatin, a well-described platinum-based chemotherapeutic agent. The Pt(IV)-RGD conjugates were highly and specifically cytotoxic to cell lines containing alpha vbeta3 and alpha vbeta5, approaching the activity of cisplatin. The Pt(IV)-NGR complexes were less active than Pt(IV)-RGD-containing compounds but more active than nonspecific Pt-peptide controls. Integrin alpha vbeta3 mediated, at least in part, the anti-proliferative effect of a Pt(IV)-RGD conjugate, as demonstrated by a decreased inhibitory response when endothelial cells were either (1) incubated with an excess of alpha vbeta3/alpha vbeta5-specific RGD pentapeptides or (2) transfected with RNAi for beta 3, but not beta 1, integrins. These results suggest a rational approach to improved chemotherapy with Pt(IV)-peptide conjugates by selective drug delivery to the tumor compartment.

Covalent reactions of wortmannin under physiological conditions.

Wortmannin (Wm), a steroid-like molecule of 428.4 Da, appears to be unstable in biological fluids (apparent chemical instability), yet it exhibits an antiproliferative activity in assays employing a 48 hr incubation period (prolonged bioactivity), a situation we refer to as the "wortmannin paradox." Under physiological conditions, Wm covalently reacts with nucleophiles such as the side chains of cysteine, N-methyl hexanoic acid, lysine, or proline at the C20 position on the furan ring. Like Wm, WmC20 amino acid derivatives had significant antiproliferative activities. Three Wm derivatives, WmC20-proline, WmC20-cysteine, and a WmC20-N-methyl hexanoic acid, generated Wm that then reacted with lysine in an exchange-type reaction. This unusual, reversible, covalent reaction of Wm with nucleophiles under physiological conditions provides an explanation for the wortmannin paradox.

Membrane-permeable and -impermeable sensors of the Zinpyr family and their application to imaging of hippocampal zinc in vivo.

Esterification of fluorescent biosensors is a common strategy used to trap probes within the cell. Zinpyr-1 (ZP1) is a fluorescein-based bright fluorescent sensor for divalent zinc that is cell permeable without prior modification. We describe here the synthesis and characterization of ZP1 sensors containing a carboxylic acid or ethyl ester functionality at the 5 or 6 position of the fluorescein. The presence of an electronegative carboxylate decreases the proton-induced background fluorescence of the probe by lowering the pKa of the benzylic amines responsible for fluorescence quenching. The charged species ZP1(6-CO2-) is membrane-impermeant, whereas the permeability of the neutral ZP1(5/6-CO2Et) is similar to that of the parent sensor. Intracranial microinfusion of ZP1(6-CO2Et) into rat hippocampus produces reduced staining of vesicular zinc in neuropil and very clear delineation of zinc-positive injured neuronal somata and dendrites as compared with ZP1.

Synthesis, characterization, and cytotoxicity of a series of estrogen-tethered platinum(IV) complexes.

Several estrogen-tethered platinum(IV) complexes were prepared and characterized by ESI-MS and (1)H NMR spectroscopy. Their design was inspired by the observation that estrogen receptor-positive cells exposed to the hormone are sensitized to cisplatin. Intracellular reduction of bis-estrogen-cis-diamminedichloroplatinum(IV), BEP(n) (where n = 1-5 methylene groups between Pt and estrogen), occurs to afford cisplatin and two equivalents of the linker-modified estrogen. The ability of BEP(n) to induce overexpression of HMGB1 was established by immunofluorescence microscopy. The cytotoxicity of the compounds was evaluated in ER(+) MCF-7 and ER(-) HCC-1937 human breast cancer cell lines. BEP3 selectively induces overexpression of HMGB1 in MCF-7 cells, compared to HCC-1937 cells, and enhances their sensitivity (IC(50) = 2.1 +/- 0.4 microM versus 3.7 +/- 0.9 microM, respectively) to the compound. The difference in compound activities and the potential of compounds of this class for treating breast and ovarian cancer are discussed.