HIV/AIDS cure to Out by 2020

HIV/AIDS cure to Out by 2020

HIV research has come a long way since the disease was discovered in the 1980’s. Antiretroviral therapy was a major milestone that has changed the lives of millions, but the goal now is to find an HIV cure before 2020. We’ve scanned the biotech industry to identify the most promising developments towards finding the cure.

Ten years ago, an HIV patient was cured of the disease for the first time anywhere in the world. The ‘Berlin patient,’ Timothy Ray Brown, received a bone marrow transplant from a donor who was naturally resistant to HIV. He has remained off antiretroviral therapy since the day of his transplant.

When the case was announced, the medical world went nuts. Had we finally achieved an HIV cure?

Unfortunately, the answer remains, “not yet”. Attempts to replicate the Berlin patient case have not been successful and the harsh procedure of bone marrow transplants carry high risks for HIV-positive patients. There have been improvements on antiretroviral drugs and HIV vaccines are underway, but an HIV cure has remained elusive.

The year 2020 will bring us close to the 50-year mark after HIV was first described. Several organizations are pushing the development of a first functional cure — one that leaves people living with HIV healthy and medication-free without necessarily wiping the virus completely — to 2020. But how close are we to reach this goal? Let’s have a look at the most advanced strategies to make a functional HIV cure.

Stopping the replication of HIV

One of the most advanced HIV treatments seeks to inhibit the virus’ ability to replicate its RNA and produce more copies of itself. A similar approach is commonly used to treat herpes infections, and although it doesn’t get fully rid of the virus, it can stop its spread.

The French company Abivax showed last year in a clinical trial that this approach has the potential to become a functional cure for HIV. The key to its potential is that it can target the reservoir of HIV viruses that “hide” inactive within our cells.

“Current therapies suppress the virus in circulation by inhibiting the formation of new viruses, but they don’t touch the reservoir. Once you stop, the virus comes back in 10-14 days,” says Hartmut Ehrlich, CEO of Abivax. “ABX464 is the first drug candidate ever shown to reduce the HIV reservoir.”

The drug, called ABX464, binds to a specific sequence in the RNA of the virus, inhibiting its replication. In a Phase 2a trial, several patients were given the drug in addition to antiretroviral therapy. Eight out of 15 patients treated with ABX464 showed a 25% to 50% reduction of their HIV reservoir after 28 days, compared to no reduction in those taking only antiretroviral therapy.

 

Ehrlich highlights that a key factor to the potential of this drug is that it doesn’t only target the reservoir of HIV hiding in blood cells, but also the latent viruses hiding in the intestine, the largest reservoir of HIV.

The company is now planning a Phase 2b clinical trial to confirm the effects of the drug in the long term. “We will follow about 200 patients for 6 to 9 months to find the maximum level of reservoir reduction and how long it takes to achieve it,” says Ehrlich. “That will take us into the first half of 2020, when we could start preparing for Phase 3.”

Shock and kill

Another approach that is becoming popular in the fight against HIV also goes after the hidden HIV reservoir. The “shock and kill” or “kick and kill” approach uses latency-reversing agents (LRAs) that activate or “kick” the latent HIV reservoir, making it possible for standard antiretroviral therapy to “kill” these viruses.

In 2016, a group of UK universities reported promising results from one patient treated with this approach. The news went viral, but the researchers warned everyone that these were only preliminary results. The full results of the 50 patients enrolled in the trial are expected later this year.

In Oslo, Norway, Bionor is testing a similar strategy using a double vaccine. One stimulates the production of antibodies that block the replication of HIV, while the other attacks the reservoir.

HIV cure 2020 research blood tests

But so far, this approach has not proven its potential. Last year, one of the most advanced trials testing this shock and kill approach — a Phase 1b/2a run by Berlin-based Mologen — reported that although the drug could help manage HIV infections, it was not successful at reducing the HIV reservoir. And a recent study has shown that currently available LRAs only activate less than 5% of the HIV reservoir.

Immunotherapy

What makes HIV so dangerous is that it attacks the immune system, leaving people unprotected against infections. But what if we could supercharge immune cells to fight back? That’s the reasoning behind immunotherapies.

Researchers in Oxford and Barcelona reported last year that five out of 15 patients in a clinical trial were clear of HIV for 7 months without antiretroviral therapy, thanks to an immunotherapy that primes the immune system against the virus. Their approach combines a drug to activate the hidden HIV reservoir with a vaccine that can induce an immune response thousands of times stronger than usual.

While they showed that immunotherapy can be effective against HIV, the results still need to be confirmed, as well as what makes some patients respond while others don’t.

Bill Gates has been strongly supporting the development of HIV immunotherapies. One of its investments is in Immunocore. This company in Oxford has designed T cell receptors that can seek and bind HIV and instruct T cells to kill any HIV-infected cells, even when their HIV levels are very low — as is often the case of the HIV reservoir cells. The approach has been shown to work in human tissue samples, and the next step will be to confirm whether it works in people living with HIV.

Figure. T cells attacking HIV

But one of the most advanced immunotherapies at the moment is a vaccine being developed by the French InnaVirVax. The vaccine, called VAC-3S, stimulates the production of antibodies against the HIV protein 3S, making T cells attack the virus. “Our approach is totally different to other vaccines, which boost an HIV-specific response,” says Joël Crouzet, CEO of InnaVirVax. “We promote an immune recovery, so that the immune system as all the tools to better recognize and eliminate the virus.”

After completing a Phase 2a trial, InnaVirVax is now testing VAC-3S in combination with a DNA-based vaccine from the Finnish FIT Biotech, which both parties expect could lead to a functional cure.

Gene therapy

It is estimated that about 1% of the people in the world are naturally immune to HIV. The reason is a genetic mutation on the gene that encodes CCR5, a protein on the surface of immune cells that the HIV virus uses to enter and infect them. People with this mutation are missing part of the CCR5 protein, making it impossible for HIV to bind to it.

Using gene therapy, it would, in theory, be possible to edit our DNA and introduce this mutation to stop HIV. US-based Sangamo Therapeutics is one of the most advanced developers of this approach. The company extracts the patient’s immune cells and uses zinc finger nucleases to edit their DNA to make them resistant to HIV.

Sangamo reported in 2016 that four out of nine patients treated with this gene therapy in one of the arms of a Phase 2 trial were able to remain off antiretroviral therapy with undetectable levels of HIV, and full results of the trial are expected this year.

HIV cure 2020 research Gene Therapy

In the future, gene therapy for HIV could be done with CRISPR, a gene editing tool that is much easier and faster to make than other tools like zinc finger nucleases or TALEN. Its potential in HIV has already been shown in vitro, and soon HIV could become of the first diseases to be cured with CRISPR.

When will we have an HIV cure?

Although there are several approaches that could eventually bring a functional HIV cure, there are still some challenges ahead. One of the biggest concerns around any HIV treatments is the virus’ ability to quickly mutate and develop resistance, and for many of these new approaches there is still no data on whether the virus will be able to become resistant.

So far, none of these functional cures have reached late-stage clinical testing, meaning it doesn’t seem likely that we will meet the goal of having an HIV cure by 2020. However, that year will likely mark an important milestone as the first late-stage trials are due to start that year. If successful, that could bring the approval of the first functional HIV cure in ten years.

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