University of California San Francisco
Helen Diller Family Comprehensive Cancer Center

Common Class of ‘Channel Blocking’ Drugs May Find a Role in Cancer Therapy

Discoveries in Fruit Flies Prompt Unusual Treatment of Patient with Metastatic Disease

By Pete Farley | UCSF.edu | August 10, 2015

Drugs called ion channel blockers, which are commonly used to treat cardiac, neurological, and psychiatric disorders, might prove useful in cancer therapy, according to research findings in fruit flies and mice by UC San Francisco scientists that led to unconventional treatment of a case of metastatic brain cancer.
 
Ion channels, proteins that form pores in cell membranes, play central roles in organs in which conduction of electrical signals is vital, such as the brain and heart, but they are found in cells throughout the body. Although about 20 percent of FDA-approved medications target ion channels—these proteins are considered especially “druggable” because of their location at the cell surface—no channel blockers have been approved for cancer treatment.
 
But as reported online in Nature Neuroscience on August 10, a drug that blocks channels that allow potassium ions to move out of cells was effective in slowing the growth of medulloblastoma, a type of brain cancer, that had metastasized to the bones of the pelvis in a young patient. The drug in question, thioridazine, was originally developed to treat psychosis, but is now rarely used due to significant side effects.
 
“We showed that blocking a specific ion channel in medulloblastoma can impede tumor cells from proliferating and spreading,” said Lily Jan, PhD, a Howard Hughes Medical Institute (HHMI) investigator and professor of physiology at UCSF, and a senior scientist on the research team. “The development of a drug designed to act on this newly identified target more specifically and more powerfully, with fewer side effects, would have the potential to improve outcomes for many with this disease, which is a common cause of death in children.”
 
The rationale for the unusual treatment had its roots in research begun about five years ago by former UCSF postdoctoral fellows Xi Huang, PhD, now at the University of Toronto’s Hospital for Sick Children, and Ye He, PhD.
 
In the Jan laboratory, Huang found that a subset of human medulloblastomas has a high abundance of an ion channel known as EAG2, which is the mammalian version of a fruit fly channel called ether-a-go-go. Initially found to be important for nervous system function in the 1960s, the fruit fly channel was given its whimsical name in keeping with that era, after scientists observed that mutations affecting the channel cause flies to do a dance-like twitching when exposed to ether.
 
He, a member of the UCSF laboratory directed by Jan’s husband and longtime research partner, Yuh Nung Jan, PhD, then joined the study, using fruit flies genetically manipulated to serve as models for brain tumors. Huang and He worked together to show that the fly channel protein, like the human protein, promotes brain tumor growth and metastasis.
 
The UCSF team collaborated with scientists at the Hospital for Sick Children and the University of Toronto to show that both the fruit fly version of EAG2 and human EAG2 act in concert with another ion channel, called KCNT2, to promote tumor growth.
 
Huang also discovered that changes in EAG2 abundance at the trailing edge of migrating tumor cells alter cell volume and shape, and enable tumor cells to more easily move and spread. When he transplanted EAG2-producing human medulloblastoma tissue into mice, he found that thioridazine inhibited tumor growth and metastasis. Huang’s presentations of this work at campus seminars led to the team’s collaborations with medical colleagues and, eventually, to treatment of the patient at UCSF Medical Center.

Surgery, radiation, and chemotherapy, as well as experimental treatments, were no longer effective in arresting growth of widespread metastases in the patient, who had been originally diagnosed with medulloblastoma as a teenager. But after thioridazine treatment, UCSF physicians, including pediatric oncologist Sabine Mueller, MD, PhD, of the Helen Diller Family Comprehensive Center, observed shrinkage of an EAG2-expressing metastatic tumor in the patient’s pelvis. The patient could not tolerate thioridazine’s side effects, however, and he succumbed to the disease several months after ending a two-month course of the drug.
 

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