HIV protease inhibitors may also check malaria

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Protease inhibitors used to treat HIV infection may also check the growth of the parasite that causes malaria, Plasmodium falciparum, according to a study published in the December 13 issue of The Journal of Infectious Diseases, now available online.

The findings may also expose a previously unexplored vulnerability in the parasite that could lead to a new class of anti-malarial drug. While the effects of such drugs on co-infection need to be investigated, the study's findings may be especially significant in sub-Saharan Africa and other areas of the developing world where there are high rates of HIV and malaria co-infection.

Scientists from the Queensland Institute of Medical Research in Australia tested the effects of the protease inhibitors saquinavir (Invirase / Fortovase), ritonavir (Norvir), nelfinavir (Viracept), amprenavir (Agenerase) and indinavir (Crixivan), as well as the non-nucleoside reverse transcriptase inhibitor nevirapine (Viramune), on a drug-resistant line of P. falciparum.

Glossary

malaria

A serious disease caused by a parasite that commonly infects a certain type of mosquito which feeds on humans. People who get malaria are typically very sick with high fevers, shaking chills, and flu-like illness. 

reverse transcriptase

A retroviral enzyme which converts genetic material from RNA into DNA, an essential step in the lifecycle of HIV. Several classes of anti-HIV drugs interfere with this stage of HIV’s life cycle: nucleoside reverse transcriptase inhibitors and nucleotide reverse transcriptase inhibitors (NRTIs) and non-nucleoside reverse transcriptase inhibitors (NNRTIs). 

nucleoside

A precursor to a building block of DNA or RNA. Nucleosides must be chemically changed into nucleotides before they can be used to make DNA or RNA. 

in vitro

Latin term for experiments conducted in artificial environments, e.g. in test-tubes.

haemoglobin (HB)

Red-coloured, oxygen-carrying chemical in red blood cells.

Saquinavir, ritonavir, and indinavir all inhibited parasite growth in vitro at levels routinely achieved in human patients, with saquinavir and ritonavir showing the most potent effect on the parasite. Saquinavir was most effective in the study and was equally effective on chloroquine (Avloclor / Nivaquine)-sensitive and -resistant parasite lines, while nelfinavir and amprenavir did not demonstrate anti-malarial activity. The research builds on a previous study that demonstrated antiretroviral agents can reduce the adhesion of P. falciparum-infected red blood cells to internal body surfaces by down-regulating expression of CD36 markers on cells.

The authors believe that the antiretroviral protease inhibitors attack the malaria parasite in ways that current antimalarial treatments do not. While the mode of antimalarial action of the drugs was not uncovered in the study, the authors hypothesise that the antiretrovirals inhibit an aspartyl protease, which helps the parasite digest haemoglobin and is located on the food vacuole of the parasite. Further investigation may not only provide a better knowledge of how to treat co-infected patients with protease inhibitors, but could also lead to a new type of malaria drug that would target the parasite in novel ways.

The World Health Organization's “3 by 5” programme intends to treat three million HIV-infected people, primarily in the developing world, with antiretrovirals by the year 2005. The authors suggest that individuals treated under programmes such as this may also gain an anti-parasitic benefit. At the same time, they acknowledge that their study does not address the concern that protease inhibitors may have immunological side-effects that could hamper parasite removal.

Further research will look at the interactions of protease inhibitors and current antimalarial agents in order to optimise the drugs' beneficial effects on both HIV and malaria infections.

References

Skinner-Adams TS et al. Antiretrovirals as antimalarial agents. J Infect Dis 190: 1998-2000, 2004.