In vivo evaluation of AT-101 (R-(-)-gossypol acetic acid) in androgen-independent growth of VCaP prostate cancer cells in combination with surgical castration.

PURPOSE: Upregulation of Bcl-2 family members is a well-established mechanism in the development of androgen-independent prostate cancer. Inhibition of the antiapoptotic proteins Bcl-2 and Mcl-1 may delay the transition to androgen-independent growth. EXPERIMENTAL DESIGN: We have established a prostate cancer model with VCaP prostate cancer cells in vivo to study the transition to androgen independence. Here, we investigated the efficacy of AT-101 (R-(-)-gossypol acetic acid; a pan small molecule inhibitor of Bcl-2, Bcl-x(L), and Mcl-1) in combination with surgical castration to delay the onset of androgen-independent growth in vivo. RESULTS: AT-101 (15 mg/kg, per os (p.o.) 5 days/week) in combination with surgical castration delayed the onset of androgen-independent prostate cancer growth in vivo. In addition, we demonstrate the induction of caspase-9-and caspase-3-dependent induction of apoptosis following AT-101 treatment in vitro which was accompanied by an AT-101-induced downregulation of Bcl-2 and Mcl-1 mRNA and protein expression. CONCLUSIONS: We conclude that AT-101 in combination with surgical castration delays the onset of androgen-independent prostate cancer in vivo by disrupting the antiapoptotic activity of Bcl-2 upregulation during the transition to androgen independence. Further studies are needed to define the mechanism of action by which AT-101 attenuates the expression of Bcl-2 and Mcl-1 and to characterize the potential for AT-101 in combination with hormone therapy.

Targeting CCL2 with systemic delivery of neutralizing antibodies induces prostate cancer tumor regression in vivo.

The identification of novel tumor-interactive chemokines and the associated insights into the molecular and cellular basis of tumor-microenvironment interactions have continued to stimulate the development of targeted cancer therapeutics. Recently, we have identified monocyte chemoattractant protein 1 (MCP-1; CCL2) as a prominent regulator of prostate cancer growth and metastasis. Using neutralizing antibodies to human CCL2 (CNTO888) and the mouse homologue CCL2/JE (C1142), we show that treatment with anti-CCL2/JE antibody (2 mg/kg, twice weekly i.p.) attenuated PC-3Luc-mediated overall tumor burden in our in vivo model of prostate cancer metastasis by 96% at 5 weeks postintracardiac injection. Anti-CCL2 inhibition was not as effective as docetaxel (40 mg/kg, every week for 3 weeks) as a single agent, but inhibition of CCL2 in combination with docetaxel significantly reduced overall tumor burden compared with docetaxel alone, and induced tumor regression relative to initial tumor burden. These data suggest an interaction between tumor-derived chemokines and host-derived chemokines acting in cooperation to promote tumor cell survival, proliferation, and metastasis.