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What HIV Does in the Body

What HIV Does in the Body. J2J XIV International AIDS Conference Barcelona, July 4, 2002 Mark Schoofs. AIDS is a disease of the IMMUNE SYSTEM. Just as hepatitis destroys the liver, HIV destroys the immune system

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What HIV Does in the Body

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  1. What HIV Does in the Body J2J XIV International AIDS Conference Barcelona, July 4, 2002 Mark Schoofs

  2. AIDS is a disease of theIMMUNE SYSTEM • Just as hepatitis destroys the liver, HIV destroys the immune system • The immune system is not one localized organ, like the liver, but a network of cells and organs • HIV, the cause of AIDS, primarily attacks one type of cell that is crucial to the immune system: The CD4 T-helper cell • The consequence is that the body cannot fight off infections, and so it succumbs to “opportunistic infections” such as TB, pneumonia, etc.

  3. AIDS is caused by HIV, the Human Immunodeficiency Virus Courtesy of Anthony S. Fauci, National Institute of Allergy and Infectious Diseases

  4. In many waysHIV acts like most other viruses And the immune system treats it like any other virus

  5. But in a few crucial waysHIV differs from other viruses HIV attacks the immune system itself and even turns the immune system counter- attack to its own advantage This allows HIV to persist in the body for years and finally destroy the immune system

  6. The immune system is a network of organs and cells • Mucosal barriers: Vagina, rectum, mouth. • Lymphatic vessels: the immune system’s bloodstream • Lymph nodes & GALT: cleansing centers • Thymus, spleen, bone marrow etc. Images from The National Cancer Institute, http://newscenter.cancer.gov/sciencebehind/immune/immune00.htm

  7. Slide courtesy of Anthony S. Fauci, National Institute of Allergy and Infectious Diseases

  8. The immune system is complex and interactive • Immune-system cells detect invading viruses and bacteria • Immune system cells mobilize each other by: • Direct cell-to-cell contact • Excreting messenger molecules such as “cytokines” • Immune system cells destroy invading viruses by: • Excreting “antibodies” that snare free-floating virus • Killing the body’s own cells that have been infected • Excreting molecules such as “chemokines” that interfere with viral replication

  9. Slide courtesy of Anthony S. Fauci, National Institute of Allergy and Infectious Diseases

  10. The CD4+ T-helper Cell • “CD4+” means that the cell displays (“expresses”) a molecule on its surface called “CD4”. HIV attaches to this molecule and, like a lock and key, uses it to enter the cell. • “Helper” means that this cell “helps” other parts of the immune system do their job. If the immune system is an orchestra, this cell is the conductor. • “T” is short for “Thymus-derived” and is a type of immune cell. There are other T-cells, such as killer T-cells.

  11. New virus assembly 2-3 Days HIV replicates in CD4 cells. Amount of virus produced determines disease course Slide (slightly adapted) courtesy of Bruce D. Walker, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center

  12. Typical Course of HIV infection Graph courtesy of Anthony S. Fauci, National Institute of Allergy and Infectious Diseases

  13. Relationship Between CD4 and Plasma HIV viral load • AIDS is like a train heading toward a crash • Viral load indicates the speed of the train • CD4 count indicates the distance to the crash

  14. CD4 Count in Phases of HIV Infection Incubation Primary Presymptomatic CD4 cell count AIDS 5-14 days 1-4 mo. 4-10 years 1-2 years Slide (slightly adapted) courtesy of Timothy Schacker, University of Minnesota

  15. One year The level of HIV in the bloodpredicts disease course Rapid Progression Amount of Virus in Blood Slow Progression Slide (slightly adapted) courtesy of Bruce D. Walker, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center

  16. Immune system detects HIV and sounds the alarm • Macrophages and dendritic cells “eat” HIV • “Macrophage” comes from “macro” for big and “phage” for eat. So macrophages are “Big Eaters,” or scavenger cells • These scavenger cells cut up the virus into fragments called “antigens” or “epitopes” • They “present” these viral fragments to other cells, including CD4+ T-cells • Each CD4+ T-cell can recognize only one epitope • When it meets its particular epitope, the CD4 T-cell clones itself into an army of identical cells • These “activated” cells stimulate other immune-system cells, such as B-cells, which make antibodies, and killer T-cells, which kill infected cells

  17. Function of the CD4 T Cell Macrophage, Dendritic Cell, or other Antigen Presenting Cell Promote B-cell Antibody Response (also called “Humoral” response) Activated CD4 Cell Promote Killer T-cells (also called “CTL” short for “Cytotoxic T-Lymphocyte”) Resting CD4 Cell Secrete ß Chemokines Rantes Mip 1 alpha Mip 1 ß Slide (slightly adapted) courtesy of Timothy Schacker, University of Minnesota

  18. HIV prefers to infect activatedCD4 T-cells • 93-99% of HIV infects activated CD4 cells. These cells are HIV’s favorite “food” • HIV occasionally infects unactivated or “resting” CD4 cells, where for years it can lie dormant, hiding from the immune system • By activating CD4 cells to mobilize a counterattack, the immune system is “feeding” HIV!

  19. Function of the CD4 T Cell Macrophage, Dendritic Cell, or other Antigen Presenting Cell Promote B-cell Antibody Response (also called “Humoral” response) Activated CD4 Cell Promote Killer T-cells (also called “CTL” short for “Cytotoxic T-Lymphocyte”) Resting CD4 Cell Secrete ß Chemokines Rantes Mip 1 alpha Mip 1 ß Slide (slightly adapted) courtesy of Timothy Schacker, University of Minnesota

  20. B cell New virus assembly Antibodies try to snare HIV Slide (slightly adapted) courtesy of Bruce D. Walker, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center

  21. How antibodies work • Antibodies work by binding to particular fragments of HIV as the virus floats in the blood or lymph. • These fragments are called “epitopes.” • When the antibody binds to the epitope, it “neutralizes” the virus, rendering it harmless. Graphic (slightly adapted) courtesy of Bruce D. Walker, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center

  22. HIV eludes antibodies • But HIV is sheathed in an “envelope” • The envelope is the most mutable part of HIV, so HIV keeps changing its coat, making it impossible for antibodies to bind. • HIV uses part of the envelope to enter cells • But these critical parts are cloaked with carbohydrates molecules. Antibodies rarely bind effectively to carbohydrates. Image from The National Cancer Institute, http://newscenter.cancer.gov/sciencebehind/immune/immune00.htm

  23. Killer T-cells are “big guns” in viral infections • Antibodies snare free-floating virus • But viruses infiltrate cells • They turn the cells into factories that churn out thousands of copies of themselves • Inside the cells, they are protected from antibodies • HIV also mutates to escape the antibodies • Killer T-cells kill cells that HIV has infected

  24. HIV replicates mainly in lymph tissue, the immune-system stronghold Images from The National Cancer Institute, http://newscenter.cancer.gov/sciencebehind/immune/immune00.htm

  25. Site of HIV Production and Storage Lymph tissue with HIV stained to look bright. “Stars” are cells producing HIV. Close up of several cells in lymph tissue producing HIV Photos and slide (slightly adapted) courtesy of Timothy Schacker, University of Minnesota

  26. HIV in the lymph nodes • The lymph nodes normally trap viruses in the lymphoid “germinal centers” and cleanse the viruses from the body. • The lymph nodes trap HIV, but doing so activates CD4 T-cells. Therefore, lymph nodes provide “food” for HIV: activated CD4+ T-cells. • HIV prefers to be in the very place where the immune system kills most other viruses. HIV sets up camp in the immune system’s stronghold. • But: The fight between HIV and the immune system is balanced at a standoff for many years

  27. Slide courtesy of Anthony S. Fauci, National Institute of Allergy and Infectious Diseases

  28. HIV destroys the lymph nodes • HIV causes persistent lymph-node swelling, or “lymphadenopathy,” one of the signs of HIV infection. • Chronic, long-lasting activation of the immune system, combined with HIV’s disruption of the normal immune regulation, causes physical destruction of the lymph nodes. • The lymph nodes can no longer trap and destroy HIV. The “delicate balance” tips in favor of HIV.

  29. Lymph tissue in HIV-negative and HIV-positive people HIV-positive for 5 years, no ARV treatment All “geographical” features destroyed—no discernible germinal centers HIV-negative person Upper left-hand corner: round germinal center surrounded by healthy mantle Photos and information courtesy of Timothy Schacker, University of Minnesota

  30. The consequences of HIV infection • As HIV slowly wins the battle, the immune system can no longer repel some infections. • These are called “opportunistic infections” (OIs for short) because they take the “opportunity” given to them by the weakened immune system. • These other infections are what kills people. HIV itself does not (though it can cause dementia.)

  31. Antiretroviral drugs attack HIV itself • They stop HIV from replicating, but they do not eradicate HIV from the body • They allow the immune system to recover • Not full immune reconstitution. Lymphoid tissue often retains signs of damage; CD4 cells often don’t rise to pre-HIV levels. • But usually enough immune recovery to fight off most infections. • Therefore, ARVs take the place of drugs to prevent or treat most OIs • But antiretroviral drugs are expensive

  32. ARVs Antiretroviral drugs (ARVs) block HIV’s assault on the CD4 T-cell Macrophage, Dendritic Cell, or other Antigen Presenting Cell Promote B-cell Antibody Response (also called “Humoral” response) Activated CD4 Cell Promote Killer T-cells (also called “CTL” short for “Cytotoxic T-Lymphocyte”) Resting CD4 Cell Secrete ß Chemokines Rantes Mip 1alpha Mip 1 ß Slide (slightly adapted) courtesy of Timothy Schacker, University of Minnesota. ARV graphic (slightly adapted) courtesy of Bruce D. Walker, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center

  33. Lymph nodes in HIV-negative, HIV-positive, and ARV-treated patients HIV-negative person Upper left-hand corner: Round “germinal center” surrounded by healthy mantle HIV-positive for 5 years, no ARV treatment All “geographical” features destroyed—no discernible germinal centers The same HIV-positive patient after 6 months on ARV treatment Germinal centers discernible again but lack healthy surrounding mantle Photos and information courtesy of Timothy Schacker, University of Minnesota

  34. Tuberculosis Pneumocystis Carinii Peumonia Thrush (candidiasis) Cyrptococcal meningitis Can be prevented short-term with INH. Cured with combination antibiotics. Can be prevented with Cotrimoxazole (Bactrim) and cured with that and other antibiotics. Can be cured with fluconazole. Can be cured and prevented from recurring with fluconzazole. Without ARVs, many “OIs” can be cured or prevented cheaply

  35. Treatment & prevention for OIs often is lacking despite low cost • Cotrimoxazole should be available in every country. • Generic fluconazole has been up to 95% cheaper than Pfizer’s patented version • TB drug supply is often a problem in developing countries but should not be tolerated • These basic drugs can extend life: How is your country doing at providing them?

  36. Acknowledgements • Anthony S. Fauci & Greg Folkers, National Institute of Allergy and Infectious Diseases • Bruce D. Walker & Marylyn Addo, Massachusetts General Hospital, Harvard Medical School, Partners AIDS Research Center • Timothy Schacker, University of Minnesota • Laurie Garrett, Newsday, & Omololu Falobi, Journalists Against AIDS Nigeria • Bob Meyers & Nena Uche, National Press Foundation • The Wall Street Journal & The Village Voice

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