The Immune Response HD Animation

Australasian College of Health and Wellness

12 Feb 202102:31

Summary

TLDRThe immune response begins when pathogens invade the body, triggering macrophages to display antigens on their surfaces. These antigen-presenting cells activate T helper cells, which release interleukin-2 to stimulate cytotoxic T cells and B cells. Cytotoxic T cells destroy infected cells, while B cells produce antibodies to neutralize the pathogen. Some B cells become memory cells, providing long-term immunity. This powerful secondary response enables quicker and stronger defense against future infections or vaccinations, forming the foundation of acquired immunity.

Takeaways

😀 The immune response begins when a pathogen enters the body, triggering macrophages to process and display antigen fragments.
😀 Macrophages that display antigen fragments are called antigen-presenting cells (APCs).
😀 Antigen-presenting macrophages interact with T helper cells to initiate an immune response.
😀 Macrophages release interleukin-1 to activate T helper cells, which in turn secrete interleukin-2 to stimulate immune cell proliferation.
😀 Interleukin-2 promotes the growth of cytotoxic T cells and B cells in response to the pathogen.
😀 Infected body cells can also present antigen fragments and attract cytotoxic T cells to eliminate infected cells.
😀 Cytotoxic T cells are tailored to recognize specific antigens and destroy infected cells, eliminating pathogens.
😀 B cells recognize specific antigens and, when activated by T helper cells, differentiate into plasma cells that produce antibodies.
😀 Antibodies bind to antigens on pathogens, marking them for destruction by macrophages.
😀 Some B cells become memory B cells, which survive for decades and enable a faster, stronger secondary immune response to the same pathogen.
😀 The secondary immune response, driven by memory B cells, is the basis for immunity after recovery from an infection or vaccination.

Q & A

What triggers the activation of the immune response?
-The immune response is activated when a pathogen enters the body, prompting macrophages to encounter and process the pathogen.
What are antigen-presenting cells?
-Antigen-presenting cells are macrophages that ingest pathogens, process them, and display antigen fragments on their surfaces for recognition by other immune cells.
How does the interaction between an antigen-presenting macrophage and a T helper cell work?
-During the interaction, the macrophage releases interleukin-1, a chemical alarm signal that stimulates the T helper cell to secrete interleukin-2, which triggers further immune responses.
What is the role of interleukin-2 in the immune response?
-Interleukin-2 causes the proliferation of cytotoxic T cells and B cells, which are essential for attacking pathogens and producing antibodies.
How do cytotoxic T cells contribute to the immune response?
-Cytotoxic T cells recognize infected cells displaying antigens, bind to them, and release chemicals that kill the infected cells, thus eliminating the pathogen.
What happens when B cells are activated?
-When B cells are activated by T helper cells, they differentiate into plasma cells that produce antibodies, which flood the bloodstream to target and neutralize pathogens.
What is the role of antibodies in the immune system?
-Antibodies bind to antigens on pathogens, marking them for destruction by macrophages, which helps eliminate the infection.
What are memory B cells, and why are they important?
-Memory B cells are long-lived cells that remain after an infection or vaccination, allowing the immune system to mount a faster and stronger secondary immune response upon subsequent exposure to the same pathogen.
What is the secondary immune response?
-The secondary immune response occurs when the body encounters the same pathogen again, and it is more rapid and powerful due to the presence of memory B cells.
How does vaccination provide immunity?
-Vaccination stimulates the production of memory B cells, which prepare the immune system to respond more quickly and effectively if the body encounters the pathogen in the future.