• General Virology
• 46 min
  1. Principles of virology

  • Prof. Vincent Racaniello
• 36 min
  2. The type I interferon system and viruses

  • Dr. Adolfo Garcia-Sastre
• 45 min
  3. Immune responses to viruses

  • Prof. Paul Klenerman
• Emerging Pathogens
• 29 min
  4. Emerging or newly discovered viral causes of acute lower respiratory tract infections worldwide

  • Dr. Marietjie Venter
  • Mrs. Orienka Hellferscee
• 37 min
  5. Emerging respiratory viruses - discoveries between 2001 and 2005

  • Prof. Ron Fouchier
• 28 min
  6. Usage of vaccines and therapeutics in public health emergencies 1

  • Prof. Gary Kobinger
• 39 min
  7. Usage of vaccines and therapeutics in public health emergencies 2

  • Prof. Gary Kobinger
• 50 min
  8. Influenza virus pandemics: past and future

  • Prof. Peter Palese
• 63 min
  9. SARS-CoV and other emerging coronaviruses

  • Prof. Ralph Baric
• 36 min
  10. Dengue, Zika and Chickungunya viruses

  • Prof. Ana Fernandez-Sesma
• 43 min
  11. Paramyxoviruses: biology & pathogenesis

  • Prof. Benhur Lee
• 36 min
  12. Antiviral drugs (non-HIV)

  • Prof. Megan Shaw
• 41 min
  13. Biodefense challenges

  • Dr. David Franz
• Important Pathogens and their Diseases
• 38 min
  14. Natural history and pathogenesis of herpes virus infections

  • Prof. Richard Whitley
• 40 min
  15. Cytomegalovirus biology

  • Prof. Domenico Tortorella
• 46 min
  16. Hepatitis C virus: discovery, cure and protection

  • Dr. Matthew Evans
• 32 min
  17. Fundamentals of HIV biology

  • Prof. Viviana Simon
• 44 min
  18. Measles

  • Prof. Diane E. Griffin
• 42 min
  19. Monkeypox virus, vaccines, and therapeutics

  • Prof. Rachel Roper
• New Frontiers
• 45 min
  20. HPV vaccines to prevent cervical cancer and other HPV-associated diseases

  • Dr. John Schiller
• 55 min
  21. Prevention of Varicella and Zoster by vaccination: Now you see it, now you don't

  • Prof. Anne Gershon
• 30 min
  22. Viruses as anticancer weapons

  • Prof. Roberto Cattaneo
• 48 min
  23. Novel approaches to diagnosis of viral infections

  • Prof. W. Ian Lipkin
• 36 min
  24. The Global Virus Network: collaboration to address pandemic and regional threats

  • Prof. Sten H. Vermund
• 31 min
  25. Elite controllers of HIV: from discovery to future therapies

  • Prof. Bruce Walker
• Archived Lectures *These may not cover the latest advances in the field
• 43 min
  26. Principles of virology I

  • Prof. Richard Condit
• 43 min
  27. Principles of virology II

  • Prof. Richard Condit
• 36 min
  28. Complex DNA viruses: herpes virus

  • Dr. John Blaho
• 38 min
  29. Adeno-associated viruses (AAV)

  • Prof. Kenneth Berns
• 60 min
  30. Poxviruses: smallpox (variola), vaccinia and monkeypox

  • Prof. Paula Traktman
• 26 min
  31. Can HPV testing be the sole primary cervical screening modality?

  • Prof. Jack Cuzick
• 29 min
  32. From viruses to oncolytics

  • Prof. Roberto Cattaneo
• 38 min
  33. Non HIV antivirals

  • Prof. Mary Klotman
• 42 min
  34. Gastroenteritis viruses

  • Prof. Mary Estes
• 46 min
  35. Biodefense challenges

  • Dr. Connie Schmaljohn
• 32 min
  36. Papillomaviruses and HPV vaccination to prevent cervical cancer and other HPV-associated diseases

  • Dr. Douglas Lowy
• 49 min
  37. The past, present and future of vaccination

  • Prof. Stanley Plotkin
• 41 min
  38. Filoviruses

  • Dr. Christopher Basler
• 41 min
  39. Bunyaviruses

  • Prof. Richard Elliott
• 41 min
  40. The immunobiology of HIV

  • Prof. Norman Letvin
• 59 min
  41. Hepatitis C and HCV

  • Prof. Stanley Lemon

Printable Handouts

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Navigable Slide Index

1. Introduction
2. Aims
3. Adaptive immune responses: CD8+ cells
4. Adaptive immune responses: CD4+ cells
5. Adaptive immune responses: B cells
6. Immune response cell interactions
7. Lymphocytic choriomeningitis virus (LCMV)
8. Aspects of immune escape
9. Early effector response - control
10. CD8+ T cell memory
11. Disadvantaged effector response
12. Intermediate response, immunopathology
13. Problems with this simple view: CD4 help
14. Problems with this simple view: B cells
15. Exhaustion: a model
16. The 'antigen driven' model
17. Programmed cell death in LCMV infection
18. Blocking PD-1 activates "exhausted" T cells
19. Host virus outcomes in LCMV
20. Lessons from LCMV
21. Syndrome of acute hepatitis
22. Biochemical changes in acute hepatitis
23. Acute hepatitis pathogenesis
24. HCV global epidemiology
25. Hepatitis C virus genome
26. Diversity of HCV vs. HIV-1 group M
27. Spread of Hepatitis C virus
28. Control or persistence of infection
29. Immune response and clinical course
30. Tree of HCV E2 gene
31. Humoral responses and acute control
32. T cells play a role in disease
33. Host virus outcomes in HCV
34. Why do responses fail?
35. Implications for a vaccine
36. Can T cells protect against HCV infection?
37. Inducing an HCV-specific T cell response
38. The immunogen
39. MHC class I tetrameric complexes
40. Tracked population of antivrial T cells
41. Summary

Topics Covered

• The roles of adaptive immunity in responses to virus infection
• Methods used to investigate role of T cells in immunity to infection in murine and human systems
• LCMV as a model for antiviral responses and HCV parallels
• Key mechanisms regulating CD8+ T cell responses in chronic infection
• Induction of T cell responses as a possible vaccine strategy

Links

Series:

• The Immune System - Key Concepts and Questions
• Viruses and Viral Diseases

Categories:

• Immunology

Therapeutic Areas:

• Immunology & Inflammation

External Links

• Adenovirus Vectors and Vaccine Responses

Talk Citation

Publication History

• Published on April 29, 2020

Financial Disclosures

• There are no commercial/financial matters to disclose.