Low doses of an inexpensive hypertension drug could improve the efficacy of nanotherapeutic approaches to cancer treatment.
Generic drug losartan has been shown to improve the effectiveness of two nanotherapeutics against several types of cancer. It does so by modifying the network of collagen fibers that characterizes most solid tumors, say Massachusetts General Hospital (MGH) investigators. Their findings are published in an early edition of Proceedings of the National Academy of Sciences.
"By 'normalizing' the abnormal extracellular matrix of tumors, which keeps many therapies from reaching cancer cells, losartan improved both the delivery and efficacy of cancer nanotherapies," says Rakesh Jain, PhD, director of the Steele Laboratory for Tumor Biology at MGH and senior author of the study. "We also found that this effect occurs at much lower doses than those used to manage hypertension."
In a series of experiments, the MGH investigators confirmed that low doses of losartan could inhibit the formation of collagen by tumor-associated fibroblasts in culture and within tumors implanted in mice. Losartan also improved the distribution within tumors of fluorescent nanoparticles injected either intravenously or directly into the tumors. Experiments with two nanotherapeutics — liposomes containing the chemotherapy drug doxorubicin and a virus designed to infect and destroy cancer cells — showed that combining each treatment with losartan significantly reduced the size or delayed the growth of implanted tumors.
"We know that losartan is safe for clinical use with minimal side effects, and since it is a generic drug, it is very inexpensive," says Yves Boucher, PhD, associate biologist in the Steele Laboratory and co-senior author of the study. "Losartan's anti-hypertensive properties could mean that patients who have hypertension in addition to cancer may simply have their prescription switched. The hypertension that can result from certain anti-angiogenic therapies may also be managed by losartan, improving the effectiveness of both anticancer therapies " Based on these data, MGH Cancer Center oncologists are planning clinical trials to translate these findings from the laboratory bench to the patient bedside.
Jain is the Cook Professor of Radiation Oncology (Tumor Biology) and Boucher is an associate professor of Radiation Oncology at Harvard Medical School. The lead author of the PNAS article is Benjamin Diop-Frimpong, PhD, of the Steele laboratory and the Harvard-MIT Division of Health Sciences and Technology.