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Antibodies, Vaccines & Immunity (DP IB Biology: HL)

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Ruth

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Ruth

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Antibodies: Function

  • The function of antibodies produced by B-cells is to destroy pathogens within the body
  • This can be done either directly, or by recruiting other immune cells
  • Antibodies aid the destruction of pathogens in several ways:
    • Agglutination
      • Antibodies act as agglutinins causing pathogens carrying antigen-antibody complexes to clump together (agglutination)
      • This reduces the chance that the pathogens will spread through the body or taken into cells, instead the clumps are removed by the lymphatic system and digested by phagocytes
    • Opsonisation
      • Antibodies attach to bacteria making them readily identifiable to phagocytes, this is called opsonisation
      • Once identified, the phagocyte has receptor proteins for the heavy polypeptide chains of the antibodies, which enables phagocytosis to occur
    • Neutralisation of viruses and bacteria
      • Antibodies can combine with viruses and toxins of pathogens (e.g. bacteria) to block them from entering or damaging cells
    • Activity reduction
      • Antibodies can attach to the flagella of bacteria making them less active, which makes it easier for phagocytes to do phagocytosis
    • Neutralisation of toxins
      • Antibodies can act as anti-toxins by binding to toxins produced by pathogens (e.g. the bacteria that cause diphtheria and tetanus) which neutralises them making them harmless
    • Complement activation
      • Antibodies can trigger proteins, called complement proteins, which create holes in the cell walls of pathogens causing them to burst (cell lysis) when ions are absorbed and water moves in by osmosis

Antibodies_ Functions (1), downloadable AS & A Level Biology revision notes Antibodies_ Functions (2), downloadable AS & A Level Biology revision notes

The functions of antibodies vary according to which type of antigen they act on

Immunity

  • Immunity is initiated when exposure to a specific antigen results in the production of complementary antibodies and memory cells
  • This first exposure to an antigen triggers the primary immune response
  • The primary immune response leads to the development of immunity if memory cells and antibodies which persist in the bloodstream after the pathogen has been eliminated
  • The secondary immune response occurs when the same antigen is found in the body a second time
    • The memory cells recognise the antigen, divide very quickly and differentiate into antibody-producing plasma cells and more memory cells
    • The response to a previously encountered pathogen is, relative to the primary immune response, extremely fast
    • This means that the infection can be destroyed and removed before the pathogen population increases too much and symptoms of the disease develop

Antibody concentration

The secondary response is much larger and more rapid than the primary response

Examiner Tip

Immunological memory (made possible by memory cells) is the reason why catching certain diseases twice is so unlikely. For example, there is only one strain of the virus that causes measles, and each time someone is re-infected with this virus, there is a very fast secondary immune response so they do not get ill.

However, some infections such as the common cold and influenza are caused by viruses that are constantly developing into new strains. As each strain has different antigens, the primary immune response (during which we often become ill) must be carried out each time before immunity can be achieved.

Vaccines & Immunity

  • A vaccine is a source of antigens that are intentionally put into the body to induce immunity
  • Vaccines cause a specific immune response where antibodies are released by plasma cells
  • There are different types of vaccine, including
    • Live attenuated - these are weakened versions of the pathogen
    • Inactivated - these are killed, non-living components of pathogens or even just the antigens alone
  • Vaccines are administered either by injection or orally (by mouth)
    • The vaccinations given by injection can be into a vein or muscle
  • Vaccinations produce long-term immunity as they cause memory cells to be created
  • The memory cells recognise the antigen when re-encountered and produces antibodies, in what is a faster, stronger, secondary response

Vaccination graph

Examiner Tip

Remember vaccines trigger the primary immune response (T helper cells trigger B plasma cells to secrete specific antibodies) which leads to the production of memory cells which will give a faster and larger (higher concentration of antibodies) secondary response.

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Ruth

Author: Ruth

Expertise: Biology

Ruth graduated from Sheffield University with a degree in Biology and went on to teach Science in London whilst also completing an MA in innovation in Education. She gained 10 years of teaching experience across the 3 key science disciplines and physical education. Ruth decided to set up a tutoring business to support students in her local area. Ruth has worked with several exam boards and loves to use her experience to produce educational materials which make the mark schemes accessible to all students.