Cell-suicide blocker holds promise as HIV therapy

Heidi Ledford in Nature:

HIV infection causes a mass suicide of immune cells — a process that can be halted by an experimental drug that blocks cellular self-destruction, studies in cell cultures suggest. Researchers are now proposing a clinical trial of the drug in people with HIV. Current HIV therapies act by targeting key proteins made by the virus. But findings from cell cultures, published today in Science¹ and Nature², suggest that targeting proteins in host cells might be an alternative approach to preserving the immune system in the face of an HIV infection. The papers also address a decades-old mystery: why infection-fighting immune cells die off in people with HIV. A 2010 study³ showed that HIV does not directly kill most of these cells, called CD4 cells. Instead, the cells often self-destruct. “It’s much more a suicide than it is a murder,” says Warner Greene, a molecular virologist at the Gladstone Institute of Virology and Immunology in San Francisco, California, and a co-author of both the latest works.

In the latest studies, Greene’s team investigated these ‘abortive’ infections. They identified a sensor that detects viral DNA in the cell and activates the suicide response¹. And they found that most of the cellular suicide occurs via a process called pyroptosis, in which the dying cells unleash a ferocious inflammatory response². A key protein involved in pyroptosis is caspase 1, and an experimental caspase-1 inhibitor made by Vertex Pharmaceuticals in Cambridge, Massachusetts, had already been tested in humans as a potential treatment for epilepsy. The drug, VX-765, failed to help epileptics, but six-week-long studies suggested that it was safe. Greene and his colleagues tested VX-765 in HIV-infected cells cultured from human tonsils and spleens, and found that it blocked pyroptosis, prevented CD4 cell death, and suppressed inflammation. Greene hopes that the approach could one day provide an alternative or embellishment to the antiretroviral drugs currently used by 9.7 million people worldwide to manage HIV infection.

More here.