Histamine, role

Burgaud J.L., Oudart, N., 1993a. Bronchodilatation of guinea-pig perfused bronchioles induced by the H3-receptor for histamine role of epithelium. Br. J. Pharmacol. 109, 960-966. 

Histamine in the Cardiovascular System. It has been known for many years that histamine is present in sympathetic nerves and has a distribution within the heart that parallels that of norepinephrine (see Epinephrine and norepinephrine). A physiological role for cardiac histamine as a modulator of sympathetic responses is highly plausible (15). A pool of histamine in rat heart located neither in mast cells nor in sympathetic nerves has been demonstrated. The turnover of this metaboHcaHy active pool of histamine appears to be maintained by normal sympathetic activity. 

L-Tyrosine metabohsm and catecholamine biosynthesis occur largely in the brain, central nervous tissue, and endocrine system, which have large pools of L-ascorbic acid (128). Catecholamine, a neurotransmitter, is the precursor in the formation of dopamine, which is converted to noradrenaline and adrenaline. The precise role of ascorbic acid has not been completely understood. Ascorbic acid has important biochemical functions with various hydroxylase enzymes in steroid, dmg, andhpid metabohsm. The cytochrome P-450 oxidase catalyzes the conversion of cholesterol to bUe acids and the detoxification process of aromatic dmgs and other xenobiotics, eg, carcinogens, poUutants, and pesticides, in the body (129). The effects of L-ascorbic acid on histamine metabohsm related to scurvy and anaphylactic shock have been investigated (130). Another ceUular reaction involving ascorbic acid is the conversion of folate to tetrahydrofolate. Ascorbic acid has many biochemical functions which affect the immune system of the body (131). 

Histamine is the biological amine, playing an important role in living systems, but it can also cause unnatural or toxic effects when it is consumed in lai ge amounts. It can occur with some diseases and with the intake of histamine-contaminated food, such as spoiled fish or fish products, and can lead to undesirable effects as headache, nausea, hypo- or hypertension, cai diac palpitations, and anaphylactic shock syndrome. So, there is a need to determine histamine in biological fluids and food. 

Histamine is a biogenic amine that is widely distributed in the body and functions as a major mediator of inflammation and allergic reactions, as a physiological regulator of gastric acid secretion in the stomach, as a neurotransmitter in the central nervous system (CNS) and may also have a role in tissue growth and repair. 

Although mast cells and basophils probably account for >90% of stored histamine in the body, histamine is also present in platelets, enterochromaffin-like cells, endothelial cells, and neurons. Histamine can act as a neurotransmitter in the brain. Histaminergic nerves have their cell bodies within a very small area of the brain (the magnocellular nuclei of the posterior hypothalamus) but have axons in most areas of the forebrain. There is also evidence for axons projecting into the spinal (Fig. 1) cord. Finally, there is evidence that histamine synthesis can be induced in tissues undergoing rapid tissue growth and repair. In certain neonatal tissues (e.g. liver), the rate of synthesis of this unstored diffusable histamine (termed nascent histamine) is profound and may point to a role for histamine is cell proliferation. 

Histamine is synthesized from the amino acid histidine via the action of the specific enzyme histidine decarboxylase and can be metabolized by histamine-TV-methyl transferase or diamine oxidase. Interesting, in its role as a neurotransmitter the actions of histamine are terminated by metabolism rather than re-uptake into the pre-synaptic nerve terminals. 

The release of NO from the endothelium is induced by various chemical substances, including acetylcholine polypeptides such as substance P, bradykinin, and arginine vasopressin histamine ATP/ADP a2-adrenoceptor agonists thrombin and Ca2+ iono-phores. NO formed in response to mechanical stimuli like shear stress or transmural pressure plays an important role in maintaining basal blood flow. Endothelial NO causes vasodilatation, decreased... 

Studies have now started to clarify the role of histamine Hi and H2 receptors in the cardiovascular manifestations of anaphylaxis. However, histamine can activate H3 and H4 receptors [56, 57]. Levi and coworkers [58-60] identified H3 receptors as inhibitory heteroreceptors in cardiac adrenergic nerve endings. This suggests a mechanism by which endogenous histamine can activate norepinephrine release in normal and ischemic conditions [61,62]. The functional identification ofH3 receptors in the human heart [59] means that these receptors might be directly and/or indirectly involved in the cardiovascular manifestations of anaphylactic reactions. 

Vigorito C, Giordano A. De Caprio L, Vitale DE, Maurea N, Silvestri P, Tuccillo B, Ferrara N, Marone G, Rengo F Effects of histamine on coronary hemodynamics in man role of H, and H2 receptors. J Am Coll Cardiol 1987 10 1207. 

Vigorito C, Russo P, Picotti GB, Chiariello M, Poto S, Marone G Cardiovascular effects of histamine infusion in man. J Cardiovasc Pharmacol 1983 5 531. Patterson LJ, Milne B Latex anaphylaxis causing heart block role of ranitidine. Can J Anaesth 1999 46 776. 

The latest consensus on the definition and management [1] of anaphylaxis agrees on the lack of imiversally accepted diagnostic criteria and reliable laboratory biomarkers to confirm the clinical impression. Sometimes it is not feasible to obtain the samples within the optimum time frame. Moreover, in spite of a correct collection of samples, histamine and/or tryptase are within normal levels. Hence, new markers should be explored and further research into the role of selected mediators is urgently needed. Recently however, studies from animal models have shown promising results. In this chapter we will seek to review our current knowledge on confirmed or putative markers for the in vitro diagnosis of anaphylaxis. 

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