Research led by investigators from the Perelman School of Medicine at
the University of Pennsylvania describes two novel approaches that could
prevent HIV infection by targeting proteins in semen that boost
transmission of the virus.
HIV (human immunodeficiency virus) is commonly spread through sexual
contact with an HIV-infected partner. The virus can be transmitted via
infected blood, semen or vaginal secretions, with semen being the
primary vector for the virus.
Researchers found a molecule called CLRO1 interfered with semen
polymers called amyloid fibrils, reducing the likelihood of HIV
transmission.
Image credit: James Shorter
Semen contains proteins that form polymers called amyloid fibrils. These
polymers help the HIV virus attach to the membranes of human cells,
boosting transmission of the virus by up to 10,000 times.
Senior study author Prof. James Shorter, associate professor of biochemistry and physics at the Perelman School of Medicine, and colleagues propose that reducing amyloid fibril levels in semen could reduce HIV transmission. They reveal how this could be done in two separate studies.
The first - published in the journal Chemistry & Biology in 2012 - describes how a heat shock protein called Hsp104 attacks amyloid fibrils, converting them into non-amyloid forms.
In addition, the team reveals how they developed inactive Hsp104 scaffolds that disrupt the organization of amyloid fibrils, leading to the assembly of non-threatening protein structures. The researchers also modified Hsp104, allowing it to team up with an enzyme to weaken amyloid fibrils in semen.
According to Prof. Shorter, each of these strategies reduced amyloid fibrils' ability to boost HIV transmission, "so this approach has potential as a therapeutic."
The researchers describe CLRO1 as a "tweezer-shaped" molecule that impairs the formation of amyloid fibrils in semen and dismantles pre-formed fibrils.
In addition, CLRO1 interferes with membranes surrounding HIV virus particles, disarranging particles that have already attached to amyloid fibrils.
On exposing human cells to HIV-infected semen, the researchers found CLRO1 reduced the likelihood of HIV transmission by more than 100-fold.
The researchers say because CLRO1 has no negative impact on other cell membranes, it could be used to develop safer vaginal and anal gels that prevent HIV infection. Prof. Shorter adds:
Last month, Medical News Today reported on the first case of prolonged remission in an HIV-infected child. Researchers revealed that an 18-year-old woman who was infected with HIV at birth was in remission, even though she had not received antiretroviral therapy for the past 12 years.
Written by Honor Whiteman
More articles like this can be found here: http://www.medicalnewstoday.com/categories/hiv-aids
Senior study author Prof. James Shorter, associate professor of biochemistry and physics at the Perelman School of Medicine, and colleagues propose that reducing amyloid fibril levels in semen could reduce HIV transmission. They reveal how this could be done in two separate studies.
The first - published in the journal Chemistry & Biology in 2012 - describes how a heat shock protein called Hsp104 attacks amyloid fibrils, converting them into non-amyloid forms.
In addition, the team reveals how they developed inactive Hsp104 scaffolds that disrupt the organization of amyloid fibrils, leading to the assembly of non-threatening protein structures. The researchers also modified Hsp104, allowing it to team up with an enzyme to weaken amyloid fibrils in semen.
According to Prof. Shorter, each of these strategies reduced amyloid fibrils' ability to boost HIV transmission, "so this approach has potential as a therapeutic."
'Tweezer-shaped' molecule reduces likelihood of HIV transmission by 100-fold
For the second study - recently published in eLife - Prof. Shorter and colleagues teamed up with researchers from the Ulm University Medical Center in Germany to reveal how a small molecule called CLRO1 not only interferes with amyloid fibrils' ability to enhance HIV transmission, but attacks the HIV virus itself.The researchers describe CLRO1 as a "tweezer-shaped" molecule that impairs the formation of amyloid fibrils in semen and dismantles pre-formed fibrils.
In addition, CLRO1 interferes with membranes surrounding HIV virus particles, disarranging particles that have already attached to amyloid fibrils.
On exposing human cells to HIV-infected semen, the researchers found CLRO1 reduced the likelihood of HIV transmission by more than 100-fold.
The researchers say because CLRO1 has no negative impact on other cell membranes, it could be used to develop safer vaginal and anal gels that prevent HIV infection. Prof. Shorter adds:
"We think that CLR01 could be more effective than other microbicides that are in development because of its dual action, its safety in terms of side effects and its potential broad application."The team notes that CLRO1 has proven safe in zebrafish and mice, and the next step is to test the molecule in non-human primates.
Last month, Medical News Today reported on the first case of prolonged remission in an HIV-infected child. Researchers revealed that an 18-year-old woman who was infected with HIV at birth was in remission, even though she had not received antiretroviral therapy for the past 12 years.
Written by Honor Whiteman
More articles like this can be found here: http://www.medicalnewstoday.com/categories/hiv-aids
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