Mucus-based lubricant proves highly effective against HIV and herpes
Cow mucus provides the basis for a synthetic prophylactic gel developed at KTH Royal Institute of Technology to protect against HIV and herpes transmission. The lubricating gel proved 70 percent effective in lab tests against HIV, and 80 percent effective against herpes.
The viral prophylactic tests were conducted in a lab on several types of cells. The results were reported today in the scientific journal, Advanced Science .
Hongji Yan , a biomaterials researcher at KTH, says the promising results raise hope that when it becomes available as a product, the gel could help reverse troubling trends in the spread of sexually transmitted infections (see sidebar: AIDS and STIs worldwide).
The lubricant is derived from mucin, a main component of mucus that is produced in the human body, though suppliers provide the bovine type in purified form for fabrication of hydrogels.
Hongji says the natural complexity of the mucin molecules is the reason the synthetic gel is so effective at stopping the HIV and herpes, without the risk of side effects or development of resistance as with other antiviral compounds. Such functions would be difficult to achieve with a polymer made from scratch, he says.
In our body, mucin molecules can bind to and trap virus particles, which are then cleared through active mucus turnover. Hongji says the synthetic gel replicates this self-healing function, which is a key material property that enables mucus’ lubricity and prophylaxis against infection.
Hongji says the gel could help more people take greater control of their sexual health. It could offer protection when condom protection is not an available option, or even as back-up protection in case of condom failure or incorrect use. It could be used in both female-to-male sex and male-to-male sex.
The mucins in the synthetic gel also help to dampen the activation of immune cells, he says. This is important because activated immune cells stimulate HIV replication.
The project is a collective effort of laboratories at KTH Royal Institute of Technology, the Technical University of Munich (TUM) and Karolinska Institutet. Analysis of the lubricating properties of the gel was performed by first author Martin Kretschmer at TUM. Viral tests were performed by first author Rafael Ceña-Diez at Karolinska Institutet.
David Callahan