Breast cancer is the second leading cause of cancer related deaths among women in the United States. Despite the tremendous progress that has been made towards treating localized tumors, nearly 40,000 women die each year, predominantly from metastatic drug resistance. The tumor microenvironment plays a pivotal role in determining tumor growth, invasion, metastasis, and therapeutic success or failure. Therefore, a therapy targeting the tumor microenvironment is needed to sufficiently preserve the quality of life of cancer patients, by inhibiting metastasis. Elevated levels of Carbonic anhydrase IX (CAIX) expression in primary breast cancers is a marker for highly aggressive and metastatic tumors, especially of the triple negative subtype (TNBC). It is also associated with hypoxia, extracellular acidification, and poor prognosis. Low pH (values of ~6.5-6.8) is toxic to normal cells in the tumor microenvironment while enhancing cancer cell proliferation and tumor growth. Our goal was to compare the structure of a CAIX-mimic bound to ureidosulfonamide inhibitors with the biological activity of these inhibitors in triple negative and estrogen receptor positive (ER+) breast cancer cell lines. CAIX is a reversible enzyme and at low pH (high proton concentration), the enzyme will consume protons, raising pH. Our hypothesis is that CAIX inhibition, in the context of an acidic microenvironment, will dysregulate its ability to maintain the acidic pH preferred by cancer cells which favors their growth and migration. In this study, we have shown the interaction of sulfonamide-based inhibitors with a CAIX-mimic using X-ray crystallography. These structures show that the inhibitors make multiple contacts within the active site cavity. This is consistent with the inhibitor-induced decrease in CAIX activity and to some extent expression. We have also investigated the effect of CA inhibition on breast cancer cell growth, proliferation, activation of cell death pathways and migration. This reveals that, although CA inhibition with the sulfonamide-based compounds inhibits cell growth and migration, it does not activate apoptotic pathways. In total, these observations indicate that CAIX is a viable small molecular drug target for the treatment of metastatic breast cancer.
Targeting membrane-bound carbonic anhydrases in breast cancer to intervene in the metastatic phenotype / Mboge, Mam Y.; Chen, Zhijuan; Mahon, Brian P.; Tu, Chingkkuang; Wolff, Alyssa S.; Mathias, John V.; Carta, Fabrizio; Supuran, Claudiu T.; McKenna, Rob; Frost, Susan C.. - In: CANCER RESEARCH. - ISSN 0008-5472. - ELETTRONICO. - 77:(2017), pp. 2931-2931. [10.1158/1538-7445.AM2017-2931]
Targeting membrane-bound carbonic anhydrases in breast cancer to intervene in the metastatic phenotype
Carta, Fabrizio;Supuran, Claudiu T.;
2017
Abstract
Breast cancer is the second leading cause of cancer related deaths among women in the United States. Despite the tremendous progress that has been made towards treating localized tumors, nearly 40,000 women die each year, predominantly from metastatic drug resistance. The tumor microenvironment plays a pivotal role in determining tumor growth, invasion, metastasis, and therapeutic success or failure. Therefore, a therapy targeting the tumor microenvironment is needed to sufficiently preserve the quality of life of cancer patients, by inhibiting metastasis. Elevated levels of Carbonic anhydrase IX (CAIX) expression in primary breast cancers is a marker for highly aggressive and metastatic tumors, especially of the triple negative subtype (TNBC). It is also associated with hypoxia, extracellular acidification, and poor prognosis. Low pH (values of ~6.5-6.8) is toxic to normal cells in the tumor microenvironment while enhancing cancer cell proliferation and tumor growth. Our goal was to compare the structure of a CAIX-mimic bound to ureidosulfonamide inhibitors with the biological activity of these inhibitors in triple negative and estrogen receptor positive (ER+) breast cancer cell lines. CAIX is a reversible enzyme and at low pH (high proton concentration), the enzyme will consume protons, raising pH. Our hypothesis is that CAIX inhibition, in the context of an acidic microenvironment, will dysregulate its ability to maintain the acidic pH preferred by cancer cells which favors their growth and migration. In this study, we have shown the interaction of sulfonamide-based inhibitors with a CAIX-mimic using X-ray crystallography. These structures show that the inhibitors make multiple contacts within the active site cavity. This is consistent with the inhibitor-induced decrease in CAIX activity and to some extent expression. We have also investigated the effect of CA inhibition on breast cancer cell growth, proliferation, activation of cell death pathways and migration. This reveals that, although CA inhibition with the sulfonamide-based compounds inhibits cell growth and migration, it does not activate apoptotic pathways. In total, these observations indicate that CAIX is a viable small molecular drug target for the treatment of metastatic breast cancer.I documenti in FLORE sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.