Histamine structure

UV spectroscopy and. 500 Histamine, structure of, 965 Histidine, electrostatic potential map of, 1021... 

Azanator (59) represents a more classical anti-histaminic structure, since the more basic nitrogen in this case occurs in the side chain. Preparation... 

The main clinical use of H2 receptor antagonists is to inhibit gastric secretion in the treatment of stomach ulcers. These agents all contain features that relate to the histamine structure, in particular the heterocyclic ring. Cimetidine and ranitidine are the most widely used in this class. 

Antihistamines such as diphenylhydramine and antergan are compounds similar to histamine structurally, and can prevent physiologic changes produced by histamine by inhibiting its function. 

It is worth pointing out, however, that the above calculations were carried out on a histamine structure in isolation from its environment. In the body, histamine is in an aqueous environment and would be surrounded by water molecules which would solvate the charge and consequently have an effect on charge distribution. 

FIGURE 4.5 The structures of some ammo acids that are not normally found in proteins but that perform other important biological functions. Epinephrine, histamine, and serotonin, although not amino acids, are derived from and closely related to amino acids. 

FIGURE 9.20 Design of multiple ligancl activity, (a) Dual histamine HI receptor and leukotriene receptor antagonist incorporating known antihistaminic properties of cyproheptadine and LTD4. (b) Joint ACE/NEP inhibitor formed from incorporating similarities in substrate structures for both enzymes. From [57],... 

Antihistamines are drags used to counteract the effects of histamine on body organs and structures. Examples of antihistamines include diphenhydramine (Benadryl), loratadine (Claritin), fexofenadine (Allegra), and cetirizine (Zyrtec). A new antihistamine, deslorata-dine (Clarinex), is die active metabolite of loratadine and is intended to eventually replace loratadine (Claritin). Topical corticosteroid nasal sprays such as fluticasone propionate (Flonase) or triamcinolone ace-tonide (Nasacort AQ) are also used for nasal allergy symptoms. See Chapter 56 for more information on die topical corticosteroids. 

Important products derived from amino acids include heme, purines, pyrimidines, hormones, neurotransmitters, and biologically active peptides. In addition, many proteins contain amino acids that have been modified for a specific function such as binding calcium or as intermediates that serve to stabilize proteins—generally structural proteins—by subsequent covalent cross-hnk-ing. The amino acid residues in those proteins serve as precursors for these modified residues. Small peptides or peptide-like molecules not synthesized on ribosomes fulfill specific functions in cells. Histamine plays a central role in many allergic reactions. Neurotransmitters derived from amino acids include y-aminobutyrate, 5-hydroxytryptamine (serotonin), dopamine, norepinephrine, and epinephrine. Many drugs used to treat neurologic and psychiatric conditions affect the metabolism of these neurotransmitters. 

The in vivo antihistaminic activity results indicate that all test compounds protected the animals from histamine-induced bronchospasm significantly. Structural activity relationship (SAR) studies indicated that different alkyl substituents on the first position of the triazoloquinazohne ring exerted varied biological activity. 

The following amides prepared from 4-(3-nitro-l-pyrazolyl)butanoic acid, CDI, and primary amines represent partial structures of the histamine H2-receptor antagonists roxatidine, cimetidine, ranitidine, and famotidine [37]... 

An example of an irreversible antagonist with a very long action (usually many hours) is phenoxybenzamine, which blocks a-adrenoceptors and, less potently, H,-histamine and muscarinic receptors. Its structure is shown below. Also illustrated is benzilylcholine mustard, a highly active and selective irreversible blocker of muscarinic receptors. 

It was noted, however, that a subset of responses known to be triggered by histamine failed to be blocked by the classical antihistaminic drugs. This, as well as further sophisticated pharmacological work, led to the classification of histamine receptors as and Hg. To simplify grossly, the receptor controls the responses familiar to every hayfever sufferer these effects can be alleviated readily by classicial antihistamines. The latter interestingly bear little or no structural similarity to histamine... 

The neural structures involved in the promotion of the waking (W) state are located in the (1) brainstem [dorsal raphe nucleus (DRN), median raphe nucleus (MRN), locus coeruleus (LC), laterodorsal and pedunculopontine tegmental nuclei (LDT/PPT), and medial-pontine reticular formation (mPRF)] (2) hypothalamus [tuberomammillary nucleus (TMN) and lateral hypothalamus (LH)[ (3) basal forebrain (BFB) (medial septal area, nucleus basalis of Meynert) and (4) midbrain ventral tegmental area (VTA) and substantia nigra pars compacta (SNc) (Pace-Schott Hobson, 2002 Jones, 2003). The following neurotransmitters function to promote W (1) acetylcholine (ACh LDT/PPT, BFB) (2) noradrenaline (NA LC) (3) serotonin (5-HT DRN, MRN) (4) histamine (HA TMN) (5) glutamate (GLU mPRF, BFB, thalamus) (6) orexin (OX LH) and (7) dopamine (DA VTA, SNc) (Zoltoski et al, 1999 Monti, 2004). 

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