August 9, 2018. Certain molecular drivers of cancer growth are “undruggable” – it’s been nearly impossible to develop chemicals that would block their action and prevent cancer growth. Many of these molecules function by passing cancer-promoting information through a gate in the nucleus, where the instructions are carried out.
Now researchers at the Sidney Kimmel Cancer Center – Jefferson Health have found a way to block the nuclear gates used by these molecules, and have shown that this inhibition can halt aggressive prostate cancer in mice implanted with human tumors.
“We found that a particular gatekeeper, the nuclear pore protein called POM121, traffics molecules that boost tumor aggressiveness,” Dr. Rodriguez-Bravo said. “Blocking this gatekeeper prevents several molecules from reaching their targets in the nucleus, thus decreasing tumor growth.” The researchers also showed that blocking POM121 transport helps restore chemotherapy efficacy in pre-clinical models of the disease.
Resistant Cancers Self-Destruct When Exposed to Experimental Drug
May 3, 2018. PSA Rising / UCSF / San Francisco researchers have discovered a promising new line of attack against lethal, treatment-resistant prostate cancer. Analysis of hundreds of human prostate tumors revealed that the most aggressive cancers depend on a built-in cellular stress response to put a brake on their own hot-wired physiology. Experiments in mice and with human cells showed that blocking this stress response with an experimental drug — previously shown to enhance cognition and restore memory after brain damage in rodents — causes treatment-resistant cancer cells to self-destruct while leaving normal cells unaffected.