Wednesday, August 26, 2015

Scientists 'delete' HIV virus from human DNA for the first time

Scientists 'delete' HIV virus from human DNA for the first time

  • Scientists used a DNA-snipping enzyme called Cas9 to cut out the virus
  • The cell's gene repair machinery then takes over, soldering the loose ends of the genome back together – resulting in a virus-free cell 
  • Process could also be a cure for other latent infections, researchers say
  • 'It's an exciting discovery, but not ready to go into the clinic,' said Dr Khalili
Once HIV conquers a human cell, it will stay there forever.
It inserts its deadly genome permanently into its victims' DNA, forcing them to require medical treatment for the rest of their life.
But now, for the first time, researchers in Philadelphia have found a way to completely delete HIV from human cells by ‘snipping’ them out.

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For the first time, researchers in Philadelphia have found a way to completely delete the HIV virus (pictured) from human cells by ¿snipping¿ them out. The process could also provide a cure for other latent infections
For the first time, researchers in Philadelphia have found a way to completely delete the HIV virus (pictured) from human cells by ‘snipping’ them out. The process could also provide a cure for other latent infections



The team of Temple University School of Medicine said the breakthrough marks the first successful attempt to eliminate latent HIV-1 virus from human cells – and could be a cure for other latent infections.
‘This is one important step on the path toward a permanent cure for AIDS,' said Kamel Khalili, PhD, Professor and Chair of the Department of Neuroscience at Temple.
'It's an exciting discovery, but it's not yet ready to go into the clinic. It's a proof of concept that we're moving in the right direction,' he added,

In a study published by the Proceedings of the National Academy of Sciences, Dr Khalili and colleagues detail how they created molecular tools to delete the HIV-1 proviral DNA.

 

HOW THE PROCESS WORKS 

Researchers based the two-part HIV-1 editor on a system that evolved as a bacterial defence mechanism to protect against infection. 
When deployed, a combination of a DNA-snipping enzyme called a nuclease and a targeting strand of RNA called a guide RNA (gRNA) hunt down the viral genome and remove the HIV-1 DNA. 
Dr Khalili's lab engineered a 20-nucleotide strand of gRNA to target the HIV-1 DNA and paired it with a DNA-sniping enzyme called Cas9 and used to edit the human genome.
From there, the cell's gene repair machinery takes over, soldering the loose ends of the genome back together – resulting in virus-free cells. 
When deployed, a combination of a DNA-snipping enzyme called a nuclease and a targeting strand of RNA called a guide RNA (gRNA) hunt down the viral genome and remove the HIV-1 DNA.
From there, the cell's gene repair machinery takes over, soldering the loose ends of the genome back together – resulting in virus-free cells.
'Since HIV-1 is never cleared by the immune system, removal of the virus is required in order to cure the disease,' explained Dr Khalili.
These molecular tools also hold promise as a therapeutic vaccine; cells armed with the nuclease-RNA combination proved impervious to HIV infection.
Worldwide, more than 33 million people have HIV, including more than 1 million in the United States.
Every year, another 50,000 Americans contract the virus, according to the U.S. Centers for Disease Control and Prevention.
In the UK, around 100,000 people were living with HIV in the UK in 2013. That’s around one person in 665.
Although highly active antiretroviral therapy (Haart) has controlled HIV-1 for infected people in the developed world over the last 15 years, the virus can rage again with any interruption in treatment.
Worldwide, more than 33 million people have HIV, including more than 1 million in the United States. ¿This is one important step on the path toward a permanent cure for AIDS,' said Kamel Khalili, PhD, Professor and Chair of the Department of Neuroscience at Temple
Worldwide, more than 33 million people have HIV, including more than 1 million in the United States. ‘This is one important step on the path toward a permanent cure for AIDS,' said Kamel Khalili, PhD, Professor and Chair of the Department of Neuroscience at Temple
'The low level replication of HIV-1 makes patients more likely to suffer from diseases usually associated with ageing,' Dr Khalili said.
These include cardiomyopathy – a weakening of the heart muscle – bone disease, kidney disease, and neurocognitive disorders.
'These problems are often exacerbated by the toxic drugs that must be taken to control the virus,' Dr Khalili added.
Researchers based the two-part HIV-1 editor on a system that evolved as a bacterial defence mechanism to protect against infection.
Dr Khalili's lab engineered a 20-nucleotide strand of gRNA to target the HIV-1 DNA and paired it with a DNA-sniping enzyme called Cas9 and used to edit the human genome.
'We are working on a number of strategies so we can take the construct into preclinical studies,' Dr Khalili said.
'We want to eradicate every single copy of HIV-1 from the patient. That will cure AIDS. I think this technology is the way we can do it.'

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