Cells of the macrophage lineage, the immune system's scavenger cells which attack invading organisms and other infected cells, are important targets of HIV infection, are among the first cells to become infected when the virus is transmitted from person to person and serve as reservoirs of the virus throughout disease progression. Monocytes in the blood, the precursers to macrophages in the tissues, are not very susceptible to infection with HIV but we and others have shown that small numbers ar ....Cells of the macrophage lineage, the immune system's scavenger cells which attack invading organisms and other infected cells, are important targets of HIV infection, are among the first cells to become infected when the virus is transmitted from person to person and serve as reservoirs of the virus throughout disease progression. Monocytes in the blood, the precursers to macrophages in the tissues, are not very susceptible to infection with HIV but we and others have shown that small numbers are infected throughout an infected person's life and that they remain infected despite years of treatment with potent combination drug therapies which reduce the amount of virus in the blood to undetectable levels. We have evidence that suggests that a certain subset of monocytes may be preferentially infected with HIV and may contribute significantly to its persistence in the body. This subset is known to be expanded in response to certain infections, probably including HIV, and during inflammation. We have shown that these cells accumulate in the brains of HIV-infected people especially those with AIDS related dementia. In this project we will characterise these cells in the blood and test our hypothesis that ongoing infection in this subset of monocytes plays an important role in the course of HIV disease and contributes to the persistence of HIV infection and the failure of currently available therapies to eradicate it.Read moreRead less
This project will determine how viruses prevent transmission of messages within cells which orchestrate responses of our immune system to infection and whether our current therapies improve this defect. This knowledge will help us to better understand why our immune system is not able to control chronic virus infection and improve therapies for these diseases.