Immune System quiz

Answers to the questions

1. Provides an immediate nonspecific immune response.

First line of defense is like a moat and high stone walls of castle.

1)    Mechanical barriers: skin, mucosa

2)    Chemical barriers: The skin and mucous membranes secrete proteins such as lysozymes or hydrochloric that kill the germs

3)    Biological barriers: Living organisms in the body that compete with pathogens.

 

Once the invaders (bacteria, virus, or parasite etc) enter through the cut and get into the body, they would then encounter the second line of defense.

Inflammatory response is the first response to infection or injury and is the same regardless of the type of pathogen.  Inflammation is triggered by chemicals called cytokines and histamines, which are released when tissues are damaged. The cytokines and histamines cause changes in the damaged tissue. The changes help remove the cause of the damage and start the healing process. Another role of cytokines is to attract leukocytes to the site of inflammation. Some leukocytes are nonspecific and respond in the same way to most pathogens. Nonspecific leukocytes include monocytes, macrophages, neutrophils, eosinophils, and basophils. Monocytes, macrophages, and neutrophils destroy pathogens in the blood and tissues by phagocytosis. Phagocytosis is the process of engulfing and breaking down pathogens and other unwanted substances. In addition to phagocytosis, both monocytes and phagocytes produce chemicals such as cytokines that cause inflammation and fever. A fever is a higher-than-normal body temperature that may help fight infection.

<phagocytosis by a macrophage>

 

 

2.     Activates T and B cells in response to an infection

1.    B-cell activation in Humoral Immune Response

B cells are responsible for the humoral  immune response. The humoral immune response takes place in blood and lymph and antibodies are produced by activated B-cells, ‘plasma cells’.

 

2) T-cell activation in cell- mediated immune response

Activation of T-cells needs other cells help. B cells or leukocytes such as macrophages engulf pathogens in phagocytosis and display parts of the pathogens’ antigens on their surface. The cells are then called antigen-presenting cells. When a naïve T cell encounters one of these cells with an antigen matching its own, it begins the activation process. After T cells are activated, the various types of T cells play different roles in the immune response.

3.    Responds to a later exposure to the same infectious agent

The immune response is specific to a particular pathogen, and it allows the immune system to “remember” the pathogen after the infection is over. Memory cells are activated B or T cells that retain a “memory” of a specific pathogen long after an infection is over .If the pathogen tries to invade the body again,  the immune system can launch a much faster, stronger attack. This lets the immune system destroy the pathogen before it can cause harm.

4. Disinguishes self from nonself

Immune cells do not actually recognize and respond to pathogens but to the antigens (antibody + generator) they carry.  Antigens are protein molecules that the immune system recognizes as nonself. Antigens include proteins on pathogens, cancer cells, and the cells of transplanted organs. Both B and T cells can “recognize” specific antigens because they have receptor molecules on their surface that bind to particular antigen molecules or pieces of antigen molecules. As shown in the figure, the fit between a receptor molecule and a specific antigen is like a lock and key. Receptors on each B or T cell recognize and bind to just one type of antigen. The human body makes lymphocytes with receptor sites for a huge number of possible antigens that may be encountered throughout a person’s life.