The matrix metalloproteinase 7 (MMP7) links Hsp90 chaperone with acquired drug resistance and tumor metastasis.

BACKGROUND: Cancer emergence is associated with a series of cellular transformations that include acquired drug resistance followed by tumor metastasis. Matrix metalloproteinases (MMPs) and Hsp90 chaperone are implicated in tumor progression, however, they are not studied in the context of drug resistance. AIMS: In the present study, we aimed at understanding the cross-talk between acquired drug resistance and tumor progression, linking MMP7 and Hsp90. METHODS AND RESULTS: We have developed an in vitro model system for acquired drug resistance and studied the correlation between MMP7 and Hsp90. We demonstrate that enhanced drug efflux activity correlates with the induced expression and activity of MMP7, and enhanced metastatic potential of cells, however, in Hsp90-dependent manner. The MMP7 overexpression alone could enhance the drug efflux activity marginally, and metastasis significantly. However, challenging these cells with 17AAG has significantly increased the drug efflux activity and, in contrast, decreased the metastatic potential. Evaluating our in vitro findings in mice xenografts revealed that MMP7 overexpression facilitates altered homing properties. However, these cells, in response to 17AAG treatment, exhibited increased localized tumor growth but decreased tumor metastasis. CONCLUSION: We demonstrated a cross-talk between Hsp90 and MMP7 in regulating the acquired drug resistance and tumor progression. Our findings provide novel insights on targeting drug resistant-tumors.

Altered molecular pathways decides the treatment outcome of Hsp90 inhibitors against breast cancer cells.

The altered molecular pathways in response to chemotherapeutic interventions impose limitations on breast cancer treatments. Therefore, understanding the outcome of these alternative pathways may help in improving the chemotherapy. In this study, using hormone responsive and hormone independent breast cancer cells, MCF-7 and MDAMB-231 respectively, we studied some of the molecular pathways that contribute to cancer progression. Since the cancer chaperone, Hsp90 inhibitors have entered the clinical trials, we used Hsp90 inhibitor, 17AAG to examine the outcome of altered molecular pathways. The observed differential sensitivity in MCF7 and MDAMB-231 cells to 17AAG treatment is then attributed to both tumor microenvironment mediated by hypoxia and acquired alterations in the endogenous stem cell pool. Interestingly, tumor cells are able to retain epithelial characteristics in addition to gaining mesenchymal characteristics in response to 17AAG treatment. We observed MCF-7 cells exhibiting induced cellular differentiation, whereas MDAMB-231 cells exhibiting reduced cellular differentiation in response to 17AAG treatment. These changes are subsequently found to be the sporadic outcome of altered epigenetic landscape. The mice tumor xenograft studies have revealed that decreased metastatic potential of MCF-7 and increased metastatic potential with altered homing properties of MDAMB-231 are the outcome of altered molecular pathways. Our findings expose the interference of altered molecular pathways influencing the therapeutic outcome.

Compromising the constitutive p16INK4a expression sensitizes human neuroblastoma cells to Hsp90 inhibition and promotes premature senescence.

The Hsp90 chaperone has become the attractive pharmacological target to inhibit tumor cell proliferation. However, tumor cells can evolve with mechanisms to overcome Hsp90 inhibition. Using human neuroblastoma, we have investigated one such limitation. Here, we demonstrate that neuroblastoma cells overcome the interference of tumor suppressor p16INK4a in cell proliferation, which is due to its latent interaction with CDK4 and CDK6. Cells also displayed impedance to the pharmacological inhibition of cancer chaperone Hsp90 inhibition with respect to induced cytotoxicity. However, the p16INK4a knockdown has triggered the activation of cyclin-CDK6 axis and enhanced the cell proliferation. These cells are eventually sensitized to Hsp90 inhibition by activating the DNA damage response mediated through p53-p21WAF-1 axis and G1 cell cycle exit. While both CDK4 and CDK6 have exhibited low affinity to p16INK4a , CDK6 has exhibited high affinity to Hsp90. Destabilizing the CDK6 interaction with Hsp90 has prolonged G2/M cell cycle arrest fostering to premature cellular senescence. The senescence driven cells exhibited compromised metastatic potential both in vitro as well as in mice xenografts. Our study unravels that cancer cells can be adapted to the constitutive expression of tumor suppressors to overcome therapeutic interventions. Our findings display potential implication of Hsp90 inhibitors to overcome such adaptations.