Causes of Crohn's Disease

Inflammatory bowel disease has many different causes. It is due in many cases to a genetic susceptibility that enables an organism such as a virus or bacteria to trigger an abnormal immune reaction, which in turn, causes an inflammatory response in the intestines. Although Crohn's disease has features that resemble an autoimmune disease (in which the body's immune system attacks its own cells), some researchers think that it may be due to initial immune deficiencies.

The Inflammatory Response

Lymphocytes include two subtypes known as T cells and B cells. Both types of cells are designed to recognize foreign invaders (antigens) and to launch an offensive or defensive action against them:

• B cells produce antibodies, which are separate substances that can either ride along with a B cell or travel on their own to attack the antigen.
• T cells have special receptors attached to their surface that recognize the specific antigen.

T cells are further categorized as killer T cells or helper T cells.

• Killer T cells directly attack antigens that occur in any cells that contain a nucleus.
• Helper T cells also recognize antigens, but their role is two fold. They stimulate B cells and other white cells to attack the antigen. They also produce cytokines, powerful immune factors that have an important role in the inflammatory process.

Helper T cells and Inflammatory Bowel Disease. The actions of the helper T cells (TH cells) are of special interest in inflammatory bowel disease:

• TH cells stimulate other white blood cells called B cells to produce antibodies. In this case, however, they appear to direct the B cells to produce autoantibodies, which are directed against the body's own cells.
• TH cells also secrete or stimulate the production of powerful immune factors called cytokines. In small amounts, cytokines are indispensable for healing. If overproduced, however, they can cause serious damage, including inflammation and cellular injury. Cytokines, particularly specific ones known as tumor necrosis factor, interferon-gamma, and interleukins, cause intestinal inflammation and damage, which, in a vicious cycle, attract even more helper T cells.

Helper T cells are further categorized as TH1 and TH2. An imbalance in these two types appear to occur in IBD, although each disorder has a different balance:

• Ulcerative colitis patients favor a TH2 response, which activates the interleukins IL-5, IL-6, and IL-10. These mostly affect mucosal areas in the intestine.
• Research indicates that patients with Crohn's disease have increased activity in TH1 helper cells, activating interleukin-2 (IL-2) and interferon-gamma, which affect intestinal cells. Tumor necrosis factor (TNF) may be a particularly potent immune factor in Crohn's disease. It is important in properties that regulate inflammation and cell proliferation. If genetic or other factors increase production of this immune compound, it can lead to great harm.

Interleukin 6 appears to play a part in both IBDs, by inhibiting a natural mechanism called apoptosis, a process whereby cells self-destruct. In such cases, cells proliferate faster than they die, causing an excessively strong immune response.

Adhesion Molecules. Increased levels of certain molecules called E-selectin and intercellular adhesion molecule-1 (ICAM-1) also appear to play a major role in the inflammatory process by causing damaging immune factors to accumulate on intestinal cells. E-selectin may be involved in the early stages of the disease (especially ulcerative colitis) and ICAM-1 in the persistence of either inflammatory bowel disease.

Matrix Metalloproteinase. Greater activity of enzymes called matrix metalloproteinase has been detected in the colons of patients with IBD. Such increased levels tend to break down the extracellular matrix, a barrier composed of structural proteins and elastic fibers that surrounds and supports cells, in this case in the colon. Researchers suggest that this activity may cause persistent damage once the inflammatory process has triggered IBD.