Scientists have designed a synthetic molecule that can reactivate dormant human immunodeficiency virus (HIV) in mice and lead to the death of some of the infected cells, according to a study published in PLOS Pathogens.
The new findings address a long-standing challenge in HIV treatment: While antiretroviral therapy can successfully stave off disease progression, the virus can silently persist in some cells for many years, so an infected person must be vigilantly treated for the rest of their life.
Previous studies have explored potential ways to eliminate latently infected cells, such as by stimulating them to produce some viral particles (“kick”), followed by cell death via the immune system or the virus itself (“kill”). A molecule called bryostatin 1 holds the potential to trigger a “kick and kill” response, but it is costly to obtain from its source, a marine animal known as Bugula neritina.
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To address this challenge, Matthew Marsden and Jerome Zack of University of California Los Angeles (UCLA), United States, and Wender Group colleagues at Stanford have designed synthetic molecules capable of imitating the activity of bryostatin 1 and perhaps even improving on its function. In the new study, the team tested SUW133, one of their more promising synthetic bryostatin 1 analogs.
The researchers first demonstrated that SUW133, like bryostatin 1, is capable of activating latent HIV infection in cells removed from infected patients. Then, they tested SUW133 in mice of a strain commonly used for HIV research, in which the mouse immune system is modified to be similar to that of humans.
Molecular analysis revealed that SUW133 stimulated HIV protein production in latently infected cells in the mice. Within 24 hours, up to 25 per cent of these cells then died. SUW133 was also better tolerated by the mice than was bryostatin 1.
These results support the potential for SUW133 to be used in a “kick and kill” treatment for HIV. Further research is needed to explore this potential and answer questions such as whether a greater percentage of cells could be killed over longer periods of time or with repeated dosing, whether similar effects might be seen in humans, and what the long-term effects of SUW133 may be.
Meanwhile, for about $75 (N30,000), the governments in South Africa and Kenya will soon be able to treat an HIV-infected person for one year with a pill taken once a day that contains a “best-in-class” combination of three antiretroviral (ARV) drugs.
The backbone of the new pill is dolutegravir, a remarkably powerful and safe ARV that inhibits HIV’s integrase enzyme and has been too expensive for most poor and middle-income countries to afford. The annual per-person cost of the new pill, made by generic manufacturers, is also about $25 (N10,000) less than the least expensive similar triple-ARV combo pill on the market. “This is a major breakthrough,” says Michel Sidibé, head of the Joint United Nations Programme on HIV/AIDS (UNAIDS) in Geneva, Switzerland.
The new pill, announced today by Sidibé and others at a press conference connected to the UN General Assembly meeting in New York City, will help speed efforts to offer treatment to all 37 million HIV-infected people in the world, Sidibé says. Currently, only 19.5 million are receiving ARVs.
The pill will be offered as a first-line treatment, and the hope is that its excellent “profile”—powerful suppression of HIV, low toxicity, and ease of use—will make it simpler for people to stay on treatment for their lifetimes and reduce the chances of ARV resistance emerging.
The other two ARVs in the cocktail are lamivudine and tenofovir, both of which are already in widespread use.
South Africa, which has more HIV-infected people than any country and is the biggest purchaser of ARVs, estimates it will save $9.
By Chukwuma Muanya,
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