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Gladstone scientists identify key factor that controls HIV latency
June 26, 2009Discovery may offer potential strategy for therapies to clear HIV
Scientists at the Gladstone Institutes of Virology and Immunology (GIVI) have found another clue that may lead to eradication of HIV from infected patients who have been on antiretroviral therapy. A real cure for HIV has been elusive because the virus can "hide" in a latent form in resting CD4-T cells. By understanding this "latency" effect, researchers can identify ways to reactivate the virus and enable complete clearance by current or future therapies.
Researchers in the laboratory of GIVI Associate Director Eric Verdin, MD have found that methylation of cytosine in the DNA of infected cells is associated with HIV latency and that inhibition of DNA methylation causes the reactivation of latent HIV. These observations offer a potential new strategy for inhibiting HIV latency and reactivating the virus. The discovery was reported in the current edition of PLoS Pathogens.
"While HIV-1 latency is likely to be a multifactorial process, we have shown that inhibiting the methylation of the provirus contributes to an almost complete reactivation of latent HIV-1," said lead author Steven E. Kauder.
The research team, which also included scientists from the University of Utah and Stockholm's Karolinska Institute, developed in vitro models of HIV-1 latency in T cells that harbor a full-length HIV genome. The provirus in the cell lines also encoded a fluorescent marker to illuminate HIV-1 transcriptional activity.
In addition to finding that DNA methylation is a mechanism of latency, the scientists also discovered that a host protein, called methlyl-CpG binding domain protein 2 (MBD2) binds to the methylated HIV DNA and is an important mediator of latency.
"Interfering with methylation greatly potentiates the reactivation of HIV," Kauder said. In this study, the researchers found that the drug 5-aza-2'deoxycytidine (aza-CdR) can inhibit HIV methylation and cause the virus to reactivate.
"Combined with other areas of our investigation into HIV latency, this research provides important new knowledge about the process and opens many new pathways for future study," said Dr. Verdin, senior author of the study.
Gladstone Institutes
"While HIV-1 latency is likely to be a multifactorial process, we have shown that inhibiting the methylation of the provirus contributes to an almost complete reactivation of latent HIV-1," said lead author Steven E. Kauder.
The research team, which also included scientists from the University of Utah and Stockholm's Karolinska Institute, developed in vitro models of HIV-1 latency in T cells that harbor a full-length HIV genome. The provirus in the cell lines also encoded a fluorescent marker to illuminate HIV-1 transcriptional activity.
In addition to finding that DNA methylation is a mechanism of latency, the scientists also discovered that a host protein, called methlyl-CpG binding domain protein 2 (MBD2) binds to the methylated HIV DNA and is an important mediator of latency.
"Interfering with methylation greatly potentiates the reactivation of HIV," Kauder said. In this study, the researchers found that the drug 5-aza-2'deoxycytidine (aza-CdR) can inhibit HIV methylation and cause the virus to reactivate.
"Combined with other areas of our investigation into HIV latency, this research provides important new knowledge about the process and opens many new pathways for future study," said Dr. Verdin, senior author of the study.
Gladstone Institutes
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Latent HIV genes can be 'smoked out' of human cells. The so-called 'shock and kill' technique, described in a preclinical study in BioMed Central's open access journal Retrovirology, might represent a new milestone along the way to the discovery of a cure for HIV/AIDS.
Waking up dormant HIV
HAART (highly active anti-retroviral therapy) has emerged as an extremely effective HIV treatment that keeps virus levels almost undetectable; however, HAART can never truly eradicate the virus as some HIV always remains dormant in cells.
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MOLECULAR MECHANISMS OF HIV-1 LATENCY: Nature and Impact of HIV-1 Integration Sites by Yefei Han (Author) Advances in the treatment of HIV-1 infection with highly active anti-retroviral therapy (HAART) have greatly reduced mortality and changed this fatal infection into a chronic disease for many. HAART can reduce viremia to below the clinical limit of detection. However, eradication of the infection has not been achieved. HIV-1 can establish latent infection in a small pool of resting memory T cells in which the provirus is stably integrated into the host genome but not producing viral proteins. This state of latency allows HIV-1 to evade immune responses and antiretroviral drugs. Upon cellular activation, replication-competent viruses can be quickly released from the latent reservoir to rekindle the infection. Because of its extremely slow decay rate, the latent reservoir... |
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