Histamine: Difference between revisions
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'''Histamine''', a decarboxylation product of [[histidine]], is a biochemical substance (C<sub>5</sub>H<sub>9</sub>N<sub>3</sub>) involved in many physiological processes. Histamine functions as a neurotransmitter in the central nervous and has an important role in the immune system. | '''Histamine''', a decarboxylation product of [[histidine]], is a biochemical substance (C<sub>5</sub>H<sub>9</sub>N<sub>3</sub>) involved in many physiological processes. Histamine functions as a [[neurotransmitter]] in the [[central nervous system]] and has an important role in the [[immune system]]. | ||
Histamine is released in almost all tissues of the body when the tissue becomes damaged or inflamed. Histamine is also released when allergic reactions occur. Most of the histamine released comes from mast | Histamine is released in almost all tissues of the body when the tissue becomes damaged or inflamed. Histamine is also released when [[allergy|allergic]] reactions occur. Most of the histamine released comes from [[mast cell]]s in the damaged tissues and [[basophil]] [[granulocyte]]s in the blood. | ||
Histamine has a great vasodilator effect on the | Histamine has a great [[vasodilator]] effect on the [[arteriole]]s, which means the blood vessels widen. It also greatly increases capillary porosity, which allows fluid and plasma proteins to leak into the tissues. A negative side-effect of these characteristics is that [[edema]] can occur in many pathological conditions as a direct result of the increased blood flow and porosity. These characteristics are most prominent when allergic reactions occur. | ||
Revision as of 13:10, 21 October 2008
Histamine, a decarboxylation product of histidine, is a biochemical substance (C5H9N3) involved in many physiological processes. Histamine functions as a neurotransmitter in the central nervous system and has an important role in the immune system.
Histamine is released in almost all tissues of the body when the tissue becomes damaged or inflamed. Histamine is also released when allergic reactions occur. Most of the histamine released comes from mast cells in the damaged tissues and basophil granulocytes in the blood.
Histamine has a great vasodilator effect on the arterioles, which means the blood vessels widen. It also greatly increases capillary porosity, which allows fluid and plasma proteins to leak into the tissues. A negative side-effect of these characteristics is that edema can occur in many pathological conditions as a direct result of the increased blood flow and porosity. These characteristics are most prominent when allergic reactions occur.