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HIV seeks refuge in immune cells to avoid elimination
  • HIV seeks refuge in immune cells to avoid elimination

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  • HIV persists in the body even after anti-retroviral treatment

  • It hides in white blood cells that are supposed to destroy pathogens

  • Findings has the potential to help fully eliminate the virus

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[SYDNEY] Genetically-intact HIV hides in the same cells of the human immune system that are supposed to attack and destroy pathogens, scientists at Westmead Institute for Medical Research, Sydney University, discover in a new study.

Previously, it was thought that HIV hides primarily in central memory T-cells during effective anti-HIV therapy. But, in the study published this month (19 October) in Cell Reports, the scientists show that replication-competent HIV persists in specific subsets of CD4+ immune memory T-cells.

HIV infects white blood cells known as T lymphocytes, particularly the CD4+ T cells that recognise infection and get the immune system to respond. Following HIV infection, if anti-HIV therapy is not initiated, the number of CD4+ T cells in the blood begins to fall, though the process may be slow.

Sarah Palmer, associate professor at Sydney University, whose team developed a full-length genetic sequencing assay for HIV, says: “This assay identifies where and determines how much replication-competent virus remains in the CD4+ T cells of an HIV-infected individual even after years of effective anti-HIV therapy.

“It will allow us to identify the cells which contain infectious, replication-competent virus, opening up promising possibilities for targeting this remaining virus for elimination from the body.”

Sarah Palmer


It will allow us to identify the cells which contain infectious, replication-competent virus, opening up promising possibilities for targeting this remaining virus for elimination from the body.”

As many as 36.7 million people globally were living with HIV in 2016. There is still no vaccine against the virus, which causes the acquired immune deficiency syndrome (AIDS). More than 95 per cent of HIV infections occur in developing countries, according to the WHO, and AIDS remains the leading cause of death in Sub-Saharan Africa.

The researchers will now conduct studies to determine how long replication-competent viruses persist in these specific cells during anti-HIV therapy, and to identify cellular markers unique to these cells so they can be targeted by treatment strategies.

“Therapies can now be directed towards the specific cells containing this genetically intact virus. This new treatment strategy could be in the form of nanoparticles, which deliver therapies directly to cells containing the infectious, replication-competent virus,” Palmer tells SciDev.Net.

“Today we have excellent HIV treatments which can keep most people well by driving down HIV in the body to “undetectable” levels,” says Cipriano Martinez, president, National Association of People with HIV, Australia. “But, even with these treatments, HIV [viruses] are still able to hide in various cells of the body and cannot be completely eliminated.”

“This research is timely and provides new information to assist in the development of therapies aimed at fully eliminating HIV from the body,” adds Martinez.
Only about five per cent of HIV is genetically intact, and it hides in the effector memory T-cells while the rest act as a decoy and divert attention away from the ‘real’ virus, according to the study.

“The immune system cannot discern replication-competent virus from defective virus,” explains Palmer. “Some defective viruses can produce viral proteins which are recognised by the immune system and then the cells containing the defective virus are eliminated. But, because there is so much more defective virus in the cells than genetically intact virus, these defective viruses act as a decoy and divert the immune system.”

This piece was produced by SciDev.Net’s Asia & Pacific desk.
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