Issue:  Vol. 44 / No. 35 / 28 August 2014
 
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Packed meeting for
HIV cure talk

NEWS


liz@black-rose.com

Researchers Mike McCune and Hans-Peter Kiem discuss the latest in HIV cure efforts at a town hall meeting.(Photo: Liz Highleyman)
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Nearly 100 people gathered at the State Building in San Francisco on Tuesday to hear the latest news on HIV cure research, a field that has seen remarkable, if slow, progress over the past few years.

Sponsored by the UCSF AIDS Research Institute, the Gladstone Institutes, and the California Institute for Regenerative Medicine, the town hall featured researchers from three collaborative efforts funded by the National Institutes of Health to work on various cure approaches.

A cure for HIV has garnered a great deal of recent attention, in part due to overly enthusiastic media reports.

"The good news is that these reports are real, but the sobering news is that making a cure that's safe and available for everyone remains a huge challenge," said CIRM board member Jeff Sheehy. "We want to clear up misconceptions and tamp down some of the hype, but we can say we have solid ground for pragmatic optimism."

The resurgence in optimism is largely attributable to several "proof-of-concept" cases showing that a functional cure – once deemed all but impossible – is in fact feasible, explained Dr. Steven Deeks from UCSF, principal investigator for the Delaney AIDS Research Enterprise, or DARE, named after the late Project Inform founder Martin Delaney.

The Berlin Patient – former San Francisco resident Timothy Brown – remains free of detectable HIV six years after receiving bone marrow transplants to treat leukemia from a donor with a natural mutation known as CCR5-delta-32 that makes immune cells resistant to HIV entry.

More recently, a baby in Mississippi born to an HIV-positive mother was started on combination antiretroviral therapy on the day of birth. The girl was taken off treatment and lost to follow-up, but when tracked down a couple years later was found to have no detectable HIV. This appears to be a case of very early treatment "preventing lifelong infection rather reversing it," as happened in Brown's case, Deeks said.

Other proof-of-concept cases include a group of 14 people with HIV in France who started antiretroviral therapy within a few months after infection. Although they stopped treatment after four or five years, they have not experienced viral rebound.

Finally, at the International AIDS Society conference this summer, researchers in Boston reported on two HIV-positive people who received bone marrow stem cell transplants to treat lymphoma. Unlike Brown, their donors did not have the CCR5-delta-32 mutation, but they did not experience viral rebound after experimental interruption of antiretroviral treatment.

"One critical thing about all these [examples] is that they don't pertain to a typical person with HIV," Deeks cautioned.

 

Shocking, killing, and protecting cells

Two approaches receiving extensive interest from researchers are the so-called shock and kill strategy and gene therapy to alter cells.

"Our hypothesis is that viral persistence is driven by interactions between the virus and the immune system, so a cure may require interventions aimed not just at the virus but also at the host," said Mike McCune, also a member of the DARE team.

Shock and kill is the focus of the Collaboratory of AIDS Researchers for Eradication, or CARE, led by Warner Greene, director of virology and immunology research at Gladstone.

This approach involves "shocking" or forcing HIV out of its hiding place in resting reservoir cells. Once the virus is exposed, the hope is that the immune system will kill off infected cells or give them the signal to kill themselves.

This is not likely to be accomplished with a single drug, but rather with a synergistic cocktail, Greene explained. The trick is to activate T-cells harboring latent HIV, but not to trigger excessive activation that results in a "cytokine storm" or toxic shock syndrome.

Recent work suggests that the HIV reservoir is larger and more complex than previously thought, and all cells that harbor latent HIV may not be "shockable," Greene continued. Furthermore, latently infected cells do not necessarily die spontaneously after a shock and may need the help of a therapeutic vaccine.

"It's harder to shock and it's harder to kill," he said. "At every step we're learning that it's a little more complicated than we thought it was."

Hans-Peter Kiem from the Fred Hutchinson Cancer Research Center in Seattle introduced the work of the third collaboration, DefeatHIV, which is focusing on stem cell transplantation. This includes allogeneic transplant from donors as well as autologous transplants, in which cells are modified and reintroduced back into a patient. Gene therapy may be used to make autologous cells resistant to HIV or to cut out HIV genes integrated into host cell chromosomes.

CIRM president Alan Trounson described one such approach, disrupting the gene for CCR5 – one of the gateways HIV uses to enter cells – essentially mimicking the natural CCR5-delta-32 mutation. Sangamo BioSciences has already had some success using this method to protect CD4 T-cells, but by altering hematopoietic stem cells, which give rise to all blood cells, researchers hope to produce an entire protected immune system.

 

When and where?

Asked about a time frame for cure research to come to fruition, the researchers were hesitant to give firm estimates.

For different populations it will likely take different amounts of time, McCune speculated. For children treated at birth like the Mississippi baby, for example, a cure may come sooner.

"We're where Paul Volberding was in late 1980s with AZT studies," said Deeks, referring to the pioneering UCSF AIDS researcher. Early attempts "caused some harm, and not much benefit, but they were the cornerstone of work that came after."

Forum organizer and community member Matt Sharp, who participated in Sangamo's T-cell gene therapy trials, urged researchers and regulators not only to think about the end result, but also about incremental advances along the way.

"I think it's important that we [look at] some of the advances that might be made from work done so far," he said. "My trial reset my CD4 count at a higher level. Let's see what uses we can make of iterative steps, while keeping mind the ultimate goal."

Asked about their wildest dreams about an HIV cure, all forum participants agreed that the ultimate goal is to develop approaches that can be widely implemented in resource-limited settings – particularly in Africa – where HIV/AIDS is most prevalent.

This will likely require therapies that can be administered wherever patients are located and will work in the body, as opposed to current methods that require cells to be removed, modified in a laboratory, and returned to the patient.

"The only hope for Africa is a cure," Greene concluded. "The world is not able and willing to put everybody on antiretroviral therapy for the rest of their lives. Whatever the cure is, it has to be safe, it has to be scalable, and it has to be usable in developing countries."

 






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