News Release

Chimera viruses can help the fight against lymphomas

Portuguese researchers have created a chimera virus that allows the study of molecules to treat cancers caused by human herpes virus infection in mice models of disease.

Peer-Reviewed Publication

Instituto de Medicina Molecular

Chimera: Kaposi Virus with LANA Protein

image: These are mice spleen cells (blue) infected with the chimera kaposi virus showing the LANA protein (red). view more 

Credit: Pedro Simas Lab, iMM Lisboa

Researchers from Instituto de Medicina Molecular (iMM) Lisboa have created a chimera virus that allows the study of molecules to treat cancers caused by human herpes virus infection in mice models of disease.

There are several types of herpesvirus able to infect humans, such as herpes simplex, chickenpox, cytomegalovirus, Epstein-Barr and Kaposi Sarcoma herpesvirus. One of the main characteristics of herpesviruses is their ability to infect their hosts for life and in a small percentage of these people ultimately lead to cancer.

Cancers associated with Kaposi virus infection have an Achilles heel: their cells' viability is directly dependent on the survival of the virus, which means that if the virus were to be eliminated cancer cells would no longer proliferate, hence the cancer would be cured.

In collaboration with a team from Harvard-Medical School, researchers led by Pedro Simas (iMM) and Kenneth Kaye (Harvard) studied a protein of the Kaposi virus vital for maintaining infection. Without this protein, called LANA, the virus looses its ability to cause cancer.

The team found that when LANA is cloned into a virus similar to Kaposi, but which infects mice instead of humans, it preserves its functionality. This finding came as a surprise since it was assumed that as a consequence of the evolutionary divergence between human and other animal viruses, the genes that code for LANA could not be switched.

However, the work now published in PlosPathogens, showed that even though there are more than 60 million years of evolutive divergence between the human Kaposi sarcoma herpesvirus and its rodent homologue, LANA's functional mechanisms are preserved.

These findings allowed researchers to create a chimera virus: a mouse virus with a human viral gene that can be used to test molecules that inhibit human LANA protein in an animal model of disease, treating not only human herpes virus infection but also its associated cancers. These molecules will hopefully be used in the future as drugs to treat Kaposi virus associated lymphomas.

"In addition to Kaposi virus the same experimental strategy to create chimera viruses, previously thought to be theoretically non-viable, can now be used for other viruses that use proteins similar to LANA, such as the Epstein-Barr virus which infects greater than 90% of the world population or the human papillomavirus responsible for cervical cancers," said Pedro Simas.


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