Wikipedia:Osmosis/Type II hypersensitivity



Maureen H. Richards, PhD

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Having a hypersensitivity means that the immune system is reacting to something in a way that damages the body rather than protecting it. There are four different types of hypersensitivities, and the second type or type II hypersensitivity is sometimes called cytotoxic hypersensitivity because a lot of disorders caused by this hypersensitivity involve antibody mediated destruction of healthy cells. These disorders tend to be tissue specific meaning that the antibodies are generally specific to one type of tissue or organ. There are other antibody-mediated hypersensitivities that are systemic, and these are generally Type III hypersensitivities. Our immune system is setup to fight anything that is considered “non-self” right? Anything that’s not “self”, or you. This works in large part because of a process called central tolerance which is when developing immune cells that are self-reactive get destroyed or inactivated, whereas immune cells that aren’t are allowed to survive. This happens while they are still in their primary lymphoid organs, which is the thymus for T cells and the bone marrow for B cells. This process, though, is not perfect and some self-reactive B and T cells will escape. These escaped self-reactive cells can then attack healthy tissue and result in autoimmune disease. In type II hypersensitivity these escaped self-reactive B cells become activated and produce IgM or, with the help of CD4 positive T helper cells, IgG antibodies that attach to antigens on host cells. There are two type of antigens involved with type II hypersensitivity: intrinsic meaning an antigen the host cell normally makes or extrinsic which is an antigen from an infection or even some medications, like penicillin that gets attached to the host cell. Alright so let’s say a drug, like penicillin, binds to a red blood cell - well it becomes an extrinsic antigen. An IgG or more rarely an IgM antibody that is penicillin specific might bind to the penicillin molecule, creating an antigen-antibody complex. Now it’s worth mentioning that antigen-antibody complexes can happen in the course of a normal infection, but its when an antibody is complexed to host tissue, that things start to become a problem. The first cytotoxic mechanism of type II hypersensitivity is activation of the complement system. The complement system is a family of small proteins that work in an enzymatic cascade to fight off bacterial infections using a variety of mechanisms. In this case, the IgG or IgM antibodies activate complement proteins which ultimately will kill the red blood cell bound to penicillin which is complexed now with IgG or IgM. The process gets started when C1, the first of the complement proteins, which binds the Fc portion of the antibody. C1 then engages other members of the complement family - C2 through C9, some of which are activated by being cleaved or chopped by an enzyme. The cleaved fragments C3a, C4a, and C5a act as chemotactic factors, meaning they attract certain cells, in this case neutrophils. Once neutrophils join the party, they degranulate or dump a bunch of enzymes like peroxidase, myeloperoxidase, and proteinase 3 which all help generate little oxygen radicals that are highly cytotoxic to cells and can cause tissue damage. When it comes to drug reactions, like penicillin, Type II hypersensitivity can result in hemolytic anemia (sometimes called autoimmune hemolytic anemia), as well as thrombocytopenia, or neutropenia, since these are the blood cell types that are often affected. This mechanism is also involved in diseases like Goodpasture’s syndrome, where antibodies bind to intrinsic antigens on collagen of the basement membrane in their glomeruli in the kidney or their alveoli in the lungs, rather than extrinsic antigens in the penicillin example. The second cytotoxic mechanism requires us to follow the complement system through to the end, that said, C5b, and C6-C8, and a bunch of C9 come together to form the membrane attack complex, or MAC. The MAC “attacks” the cell by inserting itself into the cell membrane, punching a hole or creating a channel that allows fluid and molecules to flow in and out of the cell, and this is not good for the cell’s overall health, right? Because due to the osmotic difference, fluid rushes into the cell, and the cell swells and eventually bursts, called cell lysis, and it dies. And that’s the second mechanism, and this is where the name cytotoxic comes from. In our example if you suspect autoimmune hemolytic anemia, the antibody in question can be detected using a direct Coomb’s test. In the direct Coomb’s test, the person’s RBCs are separated from the plasma, and mixed with Coombs reagent which is anti-human globulin, an antibody against human antibodies. If the red blood cells agglutinate or clump up, that means that they probably had antibodies on the surface. Besides a direct test, there is also an indirect Coomb’s test which is usually done to check for blood group incompatibility. For an indirect Coomb’s test the patient’s serum is mixed with laboratory red blood cells that have known antigens on their surface, and then once again mixed with Coombs reagent. If there is red blood cells agglutination, that indicates the presence of antibodies or complement in the serum. The indirect Coomb’s test is done to determine if you have antibodies before you are exposed to an antigen. For example, this could be like a mismatched blood transfusion or a second pregnancy with a mismatched Rh factor between mother and child.

Alright, so the third cytotoxic mechanism of type II hypersensitivity happens when IgG antibodies coat a blood cell and are bound by C3b, another one of those complement protein fragments. At this point, we would say that the cell has been opsonized, which means it’s targeted for phagocytosis which is where they get engulfed and destroyed by phagocytes like macrophages and neutrophils. Once opsonized, the antigen-antibody complex and the cell it's attached to encounters a phagocyte in the body’s blood filtration organ—the spleen, and the phagocytes target cells by binding to the Fc tail of the antibody, or the C3b bound to the IgG, then engulfs and destroys the cell. Alright, so the last three mechanisms involve the complement system, in one way or another, the last couple mechanisms are a little different, so the fourth mechanism is called antibody-dependent cell-mediated cytotoxicity or ADCC. In this case, the bound antigen-antibody complex gets recognized by immune cells called natural killer cells, yeah. The natural killer cell recognizes the Fc tail of the antibody and releases toxic granules. These granules contain perforins which just like the MAC, form pores in the cell, except this time the pore also allows entry of enzymes that are like silent assassins called granzymes as well as granulysin which work together to cause cell death in an apoptotic or “quiet death” sort of way, such that there’s no surrounding inflammation. Okay so far all of the mechanisms have lead to cell death or cytotoxicity, right? There are though non-cytotoxic Type II Hypersensitivities as well, where it just sort of disrupts function, called antibody-mediated cellular dysfunction. Sometimes when an antibody binds to its antigen, it just, sort of gets in the way. When this happens it can change the way the cell is supposed to function. This is the case in the autoimmune disease Myasthenia gravis where antibodies specific for the acetylcholine receptor in muscles simply blocks the binding of acetylcholine which causes the muscles to not get stimulated and progressively weaken over time. This mechanism is also involved in Grave’s disease, where antibodies target receptors that stimulate thyroid hormone production, but in this case they not only get in the way, they actually activate the receptors, causing overproduction of thyroid hormone, or hyperthyroidism. There you have it - a handful of different ways that antibody binding to cells can cause them to get destroyed or become less effective. The important things to remember about Type II Hypersensitivity is that they are antibody mediated, they generally lead to cytotoxicity, and they are tissue specific.