Hijacking Of Enzymes By HIV Explained
Bacterial enzyme endomannosidase could unlock the key to HIV and other devastating viruses.
Bacterial enzyme endomannosidase could unlock the key to HIV and other devastating viruses.
The unraveling of the three dimensional structure of endomannosidase by an international team of scientists enables us to know how human viruses including HIV and Hepatitis C hijack human enzymes to reproduce and cause disease.
Associate Professor Spencer Williams from the University of Melbourne's Bio21 Institute and Professor Gideon Davies from the University of York in the UK, studied endomannosidase as a model for the same human enzyme using state of the art synchrotron technology.
"If we understand how the viruses use our enzymes, we can develop inhibitors that block the pathway they require, opening the door to drug developments," Dr. Spencer Williams said.
"In the past the problem has been that this group of viruses including HIV, Hepatitis C, Dengue Fever and West Nile virus, are able to bypass the main pathway if inhibited and replicate via a second pathway using this enzyme. Thus for a treatment to be effective, both pathways need to be blocked.
"It was already known how to block the main pathway for these viruses but until now, this endomannosidase bypass pathway has proved a considerable challenge to study.
"Combining international resources and expertise, we were able to determine the endomannosidae structure and this has revealed how we can block the bypass route, stopping the viruses from hijacking human enzymes."
Professor Davies from the University of York said that the team hopes that the work will lead beyond viruses and will point the way towards similar treatments for other diseases including cancer.
The study is published in the international journal, Proceedings of the National Academy of Sciences (PNAS) this week.
Source: Medindia