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Jun29

Cellular scissors has been developed which cab chop up HIV / AIDS virus

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"Evolution has led to some of the most astonishing mechanisms for protecting organisms against their natural pathogens," says Juan Carlos a professor of Salk's Gene Expression Laboratory,published March 10, 2015 in Nature Communications. "Understanding the immune responses by which bacteria protect themselves against viral infections has allowed us to engineer novel platforms for the targeting of devastating viruses, such as HIV, in human patients." When a copy of the HIV virus sneaks into a human cell, it can cause havoc. It co-opts the cell's own molecular machinery to made copies of the virus's genetic material and then buries these copies in the cell's own genes. From there, the host's cell becomes an HIV factory, making new copies of the virus to spread throughout the body. Existing HIV drugs target individual steps of this lifecycle; some stop the virus from integrating into cells' DNA, for instance, while others try to stop the affected cells from producing more virus.The problem with these drugs, explains Hsin-Kai (Ken) Liao, a research associate is that they don't actually remove the copies of the virus that are hidden within cells' DNA. These copies can remain dormant for years and then activate again."Patients normally need to drugs every day or every week for their whole lives, because of the HIV that can be latent," says Liao. "This costs money, time and effort."
To combat this problem, Liao and Izpisua Belmonte turned to a molecular defense system called CRISPR that bacteria use to cut up foreign DNA at specified spots. Since its recent discovery, scientists have started using CRISPR to edit genes. But Liao and Izpisua Belmonte were also intrigued by its defensive ability and wondered if CRISPR could be programmed to slice and destroy viruses inside human cells.CRISPR uses bits of genetic material called guide RNAs to dictate its cuts, so the scientists developed guide RNAs that bound to unique spots on the HIV virus. They added CRISPR, the guide RNAs and other molecules needed for the system to work to immune cells that had been infected with HIV, and found that CRISPR successfully cut the right spots in HIV's genes, inactivating the virus. This resulted in the virus being completely removed from up to 72 percent of cells. Not only did CRISPR chop up loose copies of the virus as they initially infected the cell, but it also cut up HIV that was hidden and dormant within the cells' DNA.



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