1 / 13

Immune Responses to HIV Zoran Galic Ph.D . Division of Hematology/Oncology

Immune Responses to HIV Zoran Galic Ph.D . Division of Hematology/Oncology David Geffen School of Medicine UCLA zgalic@ucla.edu August 19, 2014. Innate vs adaptive immunity. In response to pathogens, vertebrate immune systems use two interconnected systems: Innate immunity

dledoux
Download Presentation

Immune Responses to HIV Zoran Galic Ph.D . Division of Hematology/Oncology

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Immune Responses to HIV Zoran Galic Ph.D. Division of Hematology/Oncology David Geffen School of Medicine UCLA zgalic@ucla.edu August 19, 2014

  2. Innate vs adaptive immunity In response to pathogens, vertebrate immune systems use two interconnected systems: • Innate immunity • Adaptive immunity

  3. The major cells of innate immunity Big eaters/Always hungry Antigen Presenting Cells (APCs) Proteins eaten by APCs are broken down to small pieces (peptides), which are loaded on special receptors (MHCs) and transported to the cell surface. Peptide+MHC complex can be recognized by a T cell and that interaction can lead to an adaptive immune response.

  4. Adaptive immune response

  5. HIV induces strong cellular and humoral immune responses CTL-cytotoxic T lymphocytes (CD8 killer T cells)

  6. Why is HIV not cleared by the immune system? • High mutation rate of HIV • HIV latency • Compromised immune function, primarily through the loss • of CD4 T helper cells

  7. CD4 T cells are depleted in the course of HIV infection

  8. Why are CD4 T cells depleted during the course of HIV infection? • HIV-infected CD4 T cells are targeted by the immune response • CD4 T cells are lost due to immune exhaustion

  9. Innate immune system vs HIV HIV counter-attack • The virus can infect members of the innate immune system • Innate cells can act as depot and effectively transmit virus • Inhibition of function via viral factor release and/or improper immune signals Innate responses against HIV • Rapid and first line of defense against the virus • Alert and activate the adaptive immune response • Release pro-inflammatory signals • Clearance of infected cells • Internalize and process the virus to present to T cells to initiate the adaptive response

  10. CD4 T cells vs HIV HIV counter-attack • Infects CD4 T cells • Causes depletion of the CD4 T cell population and thereby removes the “brains” of the immune response • Uses surviving CD4 T cells as a reservoir (latent HIV) CD4 T cells responses against HIV • Orchestrate adaptive immune response • Activated by innate immune system • Facilitate CD8 T cell (killer) and B cell activation • Provide signals and growth factors for proper immune responses

  11. B cells vs HIV HIV counter-attack • Virus mutates at a very high rate • Loss of CD4 T cells results in: • Increase in numbers of immature B cells • Exhaustion • Decreased memory B cell responses against HIV • Directed by CD4 T cell to make antibodies against HIV • Antibodies neutralize the virus to prevent spread

  12. CD8 T cells vs HIV CD8 T cells responses against HIV • Killer arm of the immune system • Seek, identify and destroy infected cells • Control virus in the initial months of infection HIV counter-attack • Virus mutates and escapes • Chronic inflammation leads to exhaustion • Lack of CD4 T cells: • Insufficient signals to activate more killer cells • Defective memory • Impaired function

  13. Closing Comments • APCs, B cells, CD4 and CD8 T cells work together to fight infection • HIV perturbs APC function, and kills CD4 T cells • This allows secondary “opportunistic” infections to occur, • leading to disease/death • Vaccines have the potential to halt HIV infection, but thus far • an efficacious vaccine strategy has proven elusive • A vaccine approach that takes into account all aspects of the immune • response will likely have the best chance of success

More Related