Antihistamine

A histamine antagonist (commonly called an antihistamine) is a pharmaceutical drug that inhibits the action of histamine by either blocking its attachment to histamine receptors, or inhibiting the enzymatic activity of histidine decarboxylase which catalyzes the transformation of histidine into histamine (atypical antihistaminics). Histamine antagonists are commonly used for the relief of allergies caused by intolerance of proteins.^[1]

1 Clinical effects
2 Clinical: H1- and H2-receptor antagonists
- 2.1 H1-receptor antagonists
- 2.2 H2-receptor antagonists
3 Experimental: H3- and H4-receptor antagonists
- 3.1 H3-receptor antagonists
- 3.2 H4-receptor antagonists
4 Others
- 4.1 Atypical antihistaminics
- 4.2 Mast cell stabilizers
5 References
6 External links

Clinical effects

Histamine produces increased vascular permeability, causing fluid to escape from capillaries into tissues, which leads to the classic symptoms of an allergic reaction — a runny nose and watery eyes. Histamine also promotes angiogenesis.

Antihistamines suppress the histamine-induced wheal response (swelling) and flare response (vasodilation) by blocking the binding of histamine to its receptors on nerves, vascular smooth muscle, glandular cells, endothelium, and mast cells. They exert a competitive antagonism to histamines.

Itching and sneezing are suppressed by antihistamine blocking of H1-receptors on nasal sensory nerves.^[2] Antihistamines have also been used with great success in the treatment of brown recluse (genus Loxosceles) spider bites, as well as other arthropod bites that cause necrosis.^[3]

Clinical: H₁- and H₂-receptor antagonists

H₁-receptor antagonists

In common use, the term antihistamine refers only to compounds that inhibit action at the H₁ receptor (and not H₂, etc.).

Rather than "true" antagonists, H₁-antihistamines are actually inverse agonists at the histamine H₁-receptor.^[4] Clinically, H₁ antagonists are used to treat allergic reactions. Sedation is a common side effect, and some H₁ antagonists, such as diphenhydramine and doxylamine, are also used to treat insomnia.

Second-generation antihistamines cross the blood–brain barrier to a much lower degree than the first-generation antihistamines. Their main benefit is they primarily affect peripheral histamine receptors, so are less sedating. However, high doses can still induce the central nervous system drowsiness.

H1 antagonist examples include:

Acrivastine
Azelastine
Bilastine
Brompheniramine
Buclizine
Bromodiphenhydramine
Carbinoxamine
Cetirizine (Zyrtec; metabolite of hydroxyzine, its prodrug)
Chlorpromazine (antipsychotic)
Cyclizine
Chlorpheniramine
Chlorodiphenhydramine
Clemastine
Cyproheptadine
Desloratadine
Dexbrompheniramine
Dexchlorpheniramine
Dimenhydrinate (most commonly used as an antiemetic)
Dimetindene
Diphenhydramine (Benadryl)
Doxylamine (most commonly used as an over-the-counter drug sedative)
Ebastine
Embramine
Fexofenadine (Allegra)
Hydroxyzine (Vistaril)
Levocetirizine
Loratadine (Claritin)
Meclozine (most commonly used as an antiemetic)
Mirtazapine (primarily used to treat depression, also has antiemetic and appetite-stimulating effects)
Olopatadine (used locally)
Orphenadrine (a close relative of diphenhydramine used mainly as a skeletal muscle relaxant and anti-Parkinsons agent)
Phenindamine
Pheniramine
Phenyltoloxamine
Promethazine
Pyrilamine
Quetiapine (antipsychotic; trade name Seroquel)
Rupatadine
Tripelennamine
Triprolidine

H₂-receptor antagonists

H₂ antagonists, like H₁ antagonists, are also inverse agonists and not true antagonists. They act on H₂ histamine receptors found principally in the parietal cells of the gastric mucosa, which are part of the endogenous signaling pathway for gastric acid secretion. Normally, histamine acts on H₂ to stimulate acid secretion; drugs that block H₂ signaling thus reduce the secretion of gastric acid. H₂ antagonists are among first-line therapy to treat gastrointestinal conditions including peptic ulcers and gastroesophageal reflux disease. Some formulations are available over the counter. Most side effects are due to cross-reactivity with unintended receptors. Cimetidine, for example, is notorious for antagonizing androgenic testosterone and DHT receptors at high doses.

Examples include:

Experimental: H₃- and H₄-receptor antagonists

These are experimental agents and do not yet have a defined clinical use, although a number of drugs are currently in human trials. H₃-antagonists have a stimulant and nootropic effect, and are being investigated for the treatment of conditions such as ADHD, Alzheimer's disease, and schizophrenia, whereas H₄-antagonists appear to have an immunomodulatory role and are being investigated as anti-inflammatory and analgesic drugs.

H₃-receptor antagonists

An H₃-receptor antagonist is a classification of drugs used to block the action of histamine at the H₃ receptor. Unlike the H₁ and H₂ receptors which have primarily peripheral actions, but cause sedation if they are blocked in the brain, H₃ receptors are primarily found in the brain and are inhibitory autoreceptors located on histaminergic nerve terminals, which modulate the release of histamine. Histamine release in the brain triggers secondary release of excitatory neurotransmitters such as glutamate and acetylcholine via stimulation of H₁ receptors in the cerebral cortex. Consequently unlike the H₁ antagonist antihistamines which are sedating, H₃ antagonists have stimulant and nootropic effects, and are being researched as potential drugs for the treatment of neurodegenerative conditions such as Alzheimer's disease.

Examples of selective H₃ antagonists include:

H₄-receptor antagonists

Examples:

Thioperamide
JNJ 7777120
VUF-6002

Others

Atypical antihistaminics

They inhibit the enzymatic activity of histidine decarboxylase:

Mast cell stabilizers

Mast cell stabilizers appear to stabilize the mast cells to prevent degranulation and mediator release. These drugs are not usually classified as histamine antagonists, but have similar indications. Examples include:

References

^ Sicherer, Scott H. M.D., Understanding and Managing Your Child's Food Allergy. Baltimore: The Johns Hopkins University Press, 2006 ISBN 0-8018-8492-6.
^ Monroe, EW; Daly, AF; Shalhoub, RF (1997). "Appraisal of the validity of histmine-induced wheal and flare is used to predict the clinical efficacy of antihistamines". The Journal of allergy and clinical immunology 99 (2): S798–806.

^ Paul K. Carlton Jr, MD, FACS The Texas A&M University Health Science Center, College Station, Tex
^ Leurs R, Church MK, Taglialatela M (2002). "H₁-antihistamines: inverse agonism, anti-inflammatory actions and cardiac effects". Clin Exp Allergy 32 (4): 489–98.

^ Yoneyama H, Shimoda A, Araki L, et al. (March 2008). "Efficient approaches to S-alkyl-N-alkylisothioureas: syntheses of histamine H3 antagonist clobenpropit and its analogues". The Journal of Organic Chemistry 73 (6): 2096–104.

^ Fox GB, Esbenshade TA, Pan JB, Radek RJ, Krueger KM, Yao BB, Browman KE, Buckley MJ, Ballard ME, Komater VA, Miner H, Zhang M, Faghih R, Rueter LE, Bitner RS, Drescher KU, Wetter J, Marsh K, Lemaire M, Porsolt RD, Bennani YL, Sullivan JP, Cowart MD, Decker MW, Hancock AA (April 2005). receptor antagonist"₃"Pharmacological properties of ABT-239 [4-(2-{2-[(2R)-2-Methylpyrrolidinyl]ethyl}-benzofuran-5-yl)benzonitrile]: II. Neurophysiological characterization and broad preclinical efficacy in cognition and schizophrenia of a potent and selective histamine H. Journal of Pharmacology and Experimental Therapeutics 313 (1): 176–90.

^ LLigneau X, Lin J, Vanni-Mercier G, Jouvet M, Muir JL, Ganellin CR, Stark H, Elz S, Schunack W, Schwartz J (November 1998). -receptor antagonist"₃"Neurochemical and behavioral effects of ciproxifan, a potent histamine H. The Journal of Pharmacology and Experimental Therapeutics 287 (2): 658–66.

^ Esbenshade TA, Fox GB, Krueger KM, Baranowski JL, Miller TR, Kang CH, Denny LI, Witte DG, Yao BB, Pan JB, Faghih R, Bennani YL, Williams M, Hancock AA (1 September 2004). "Pharmacological and behavioral properties of A-349821, a selective and potent human histamine H3 receptor antagonist".

External links

Histamine antagonist at the US National Library of Medicine Medical Subject Headings (MeSH)

Antihistamines (R06)

Aminoalkyl ethers

Bromazine (bromodiphenhydramine)

Carbinoxamine

Clemastine

Chlorphenoxamine

Diphenylpyraline

Diphenhydramine

Doxylamine

Orphenadrine

Phenyltoloxamine

Substituted alkylamines

Brompheniramine

Chlorphenamine

Dexbrompheniramine (+pseudoephedrine)

Dexchlorpheniramine (+betamethasone)

Dimetindene

Pheniramine

Talastine

Substituted ethylenediamines

Chloropyramine

Histapyrrodine

Mepyramine

Methapyrilene

Tripelennamine (pyribenzamine)

Phenothiazine derivatives

Alimemazine

Hydroxyethylpromethazine

Isothipendyl

Mequitazine

Methdilazine

Oxomemazine

Promethazine

Piperazine derivatives

Buclizine

Cetirizine

Chlorcyclizine

Cinnarizine

Cyclizine

Hydroxyzine

Levocetirizine

Meclizine

Niaprazine

Oxatomide

Others for systemic use

Antazoline

Azatadine

Bamipine

Cyproheptadine

Deptropine

Ebastine

Emedastine

Epinastine

Ketotifen

Latrepirdine

Mebhydrolin

Mizolastine

Olopatadine

Phenindamine

Pimethixene

Pyrrobutamine

Quifenadine

Rupatadine

Triprolidine

selective (Acrivastine

Astemizole

Azelastine

Bilastine

Desloratadine

Fexofenadine

Loratadine

Terfenadine)

For topical use

Bamipine

Chloropyramine

Chlorphenoxamine

Clemastine

Dimetindene

Diphenhydramine

Isothipendyl

Mepyramine

Promethazine

Thenalidine

Histaminergics

Receptor
(ligands)

H₁

Agonists: 2-Pyridylethylamine

Betahistine

Histamine

HTMT

UR-AK49
Antagonists: 1st generation: 4-Methyldiphenhydramine

Alimemazine

Antazoline

Azatadine

Bamipine

Benzatropine/Benztropine

Bepotastine

Bromazine

Brompheniramine

Buclizine

Captodiame

Carbinoxamine

Chlorcyclizine

Chloropyramine

Chlorothen

Chlorphenamine

Chlorphenoxamine

Cinnarizine

Clemastine

Clobenzepam

Clocinizine

Cyclizine

Cyproheptadine

Dacemazine

Deptropine

Dexbrompheniramine

Dexchlorpheniramine

Dimenhydrinate

Dimetindene

Diphenhydramine

Diphenylpyraline

Doxylamine

Embramine

Etodroxizine

Etybenzatropine/Ethylbenztropine

Etymemazine

Flunarizine

Histapyrrodine

Homochlorcyclizine

Hydroxyethylpromethazine

Hydroxyzine

Isopromethazine

Isothipendyl

Meclozine

Mepyramine/Pyrilamine

Mequitazine

Methafurylene

Methapyrilene

Methdilazine

Moxastine

Niaprazine

Orphenadrine

Oxatomide

Oxomemazine

Phenindamine

Pheniramine

Phenyltoloxamine

Pimethixene

Piperoxan

Pipoxizine

Promethazine

Propiomazine

Pyrrobutamine

Talastine

Thenalidine

Thenyldiamine

Thiazinamium

Thonzylamine

Tolpropamine

Tripelennamine

Triprolidine; 2nd generation: Acrivastine

Alinastine

Astemizole

Azelastine

Bamirastine

Barmastine

Bepiastine

Bepotastine

Bilastine

Cabastinen

Carebastine

Cetirizine

Clemastine

Clemizole

Clobenztropine

Dorastine

Ebastine

Emedastine

Epinastine

Flezelastine

Ketotifen

Latrepirdine

Levocabastine

Linetastine

Loratadine

Mapinastine

Mebhydrolin

Mizolastine

Moxastine

Noberastine

Octastine

Olopatadine

Perastine

Piclopastine

Rocastine

Rupatadine

Setastine

Talastine

Temelastine

Terfenadine

Zepastine; 3rd generation: Desloratadine

Fexofenadine

Levocetirizine; Ungrouped: Belarizine

Efletirizine

Elbanizine

Flotrenizine

Medrylamine

Napactadine

Pibaxizine

Tagorizine

Trelnarizine

Trenizine

Vapitadine; Miscellaneous: Tricyclic antidepressants (amitriptyline,

doxepin,

trimipramine, etc)

Tetracyclic antidepressants (mianserin,

mirtazapine, etc)

Typical antipsychotics (chlorpromazine,

thioridazine, etc)

Atypical antipsychotics (clozapine,

olanzapine,

quetiapine, etc)

H₂

Agonists: Amthamine

Betazole

Dimaprit

Histamine

HTMT

Impromidine

UR-AK49
Antagonists: Bisfentidine

Burimamide

Cimetidine

Dalcotidine

Donetidine

Ebrotidine

Etintidine

Famotidine

Lafutidine

Lamtidine

Lavoltidine/Loxtidine

Lupitidine

Metiamide

Mifentidine

Niperotidine

Nizatidine

Osutidine

Oxmetidine

Pibutidine

Quisultazine/Quisultidine

Ramixotidine

Ranitidine

Roxatidine

Sufotidine

Tiotidine

Tuvatidine

Venritidine

Xaltidine

H₃

Agonists: α-Methylhistamine

Cipralisant

Histamine

Imetit

Immepip

Immethridine

Methimepip

Proxyfan
Antagonists: A-349,821

A-423,579

ABT-239

Betahistine

Burimamide

Ciproxifan

Clobenpropit

Conessine

GSK-189,254

Impentamine

Iodophenpropit

JNJ-5,207,852

MK-0249

NNC-38-1,049

PF-03654746

Pitolisant

SCH-79,687

Thioperamide

VUF-5,681

H₄

Agonists: 4-Methylhistamine

α-Methylhistamine

Histamine

VUF-8,430
Antagonists: JNJ-7,777,120

Thioperamide

VUF-6,002

Transporter
(blockers)

VMAT

Ibogaine

Reserpine

Tetrabenazine

Enzyme
(inhibitors)

HDC

Catechin

Meciadanol

Naringenin

Tritoqualine

HNMT

Amodiaquine

Diphenhydramine

Harmaline

Metoprine

Quinacrine

SKF-91,488

Tacrine

DAO

Aminoguanidine

Others

Endogenous

Histamine; Precursors: L-Histidine; Cofactors: Vitamin B₆

Neuromodulation

Types

♦ Enzyme: Inducer

Inhibitor

♦ Ion channel: Opener

Blocker

♦ Receptor: Agonist

Antagonist

Positive allosteric modulator (PAM)

Negative allosteric modulator (NAM)

Inverse agonist

♦ Transporter [Reuptake]: Enhancer (RE)

Inhibitor (RI)

Releaser (RA)

♦ Miscellaneous: Precursor

Cofactor

Classes

Enzyme

see

Ion channel

Calcium channel blocker (CCB)

Potassium channel blocker (PCB)

Sodium channel blocker (SCB)

Potassium channel opener (PCO)

Receptor &
transporter

BA/M

Adrenergic

Adrenergic receptor agonist (α

β (1

2))

Adrenergic receptor antagonist (α (1

2), β)

Adrenergic reuptake inhibitor (ARI)

Dopaminergic

Dopamine receptor agonist

Dopamine receptor antagonist

Dopamine reuptake inhibitor (DRI)

Histaminergic

Histamine receptor agonist

Histamine receptor antagonist (H₁

H₂

H₃)

Serotonergic

Serotonin receptor agonist

Serotonin Receptor Antagonist (5-HT₃)

Serotonin reuptake inhibitor (SRI)

AA

GABAergic

GABA receptor agonist

GABA receptor antagonist

GABA reuptake inhibitor (GRI)

Glutamatergic

Glutamate receptor agonist (AMPA)

Glutamate receptor antagonist (NMDA)

Glutamate reuptake inhibitor

Cholinergic

Acetylcholine receptor agonist (Muscarinic

Nicotinic)

Acetylcholine receptor antagonist (Muscarinic

Nicotinic (Ganglionic

Muscular))

Endocannabinoid

Cannabinoid receptor agonist

Cannabinoid receptor antagonist

Opioidergic

Opioid modulator

Opioid receptor agonist

Opioid receptor antagonist

Other

Adenosine reuptake inhibitor (AdoRI)

Angiotensin II receptor antagonist

Endothelin receptor antagonist

NK₁ receptor antagonist

Vasopressin receptor antagonist

Miscellaneous

Cofactor (see s)

Precursor (see s)

Categories

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Articles with unsourced statements from May 2013

Antihistamines

Vasoconstrictors

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Antihistamine

Antihistamine

Contents

Clinical effects

Clinical: H₁- and H₂-receptor antagonists

H₁-receptor antagonists

H₂-receptor antagonists

Experimental: H₃- and H₄-receptor antagonists

H₃-receptor antagonists

H₄-receptor antagonists

Others

Atypical antihistaminics

Mast cell stabilizers

References

External links

Categories

Histamine

Encyclopedia Article

Suggestions

Zimelidine

Encyclopedia Article

Pizotifen

Encyclopedia Article

Stimulant

Encyclopedia Article

Insomnia

Encyclopedia Article

Recreational drug use

Encyclopedia Article

Antihistamine

Antihistamine

Contents

Clinical effects

Clinical: H1- and H2-receptor antagonists

H1-receptor antagonists

H2-receptor antagonists

Experimental: H3- and H4-receptor antagonists

H3-receptor antagonists

H4-receptor antagonists

Others

Atypical antihistaminics

Mast cell stabilizers

References

External links

Categories

Histamine

Encyclopedia Article

Suggestions

Zimelidine

Encyclopedia Article

Pizotifen

Encyclopedia Article

Stimulant

Encyclopedia Article

Insomnia

Encyclopedia Article

Recreational drug use

Encyclopedia Article

Clinical: H₁- and H₂-receptor antagonists

H₁-receptor antagonists

H₂-receptor antagonists

Experimental: H₃- and H₄-receptor antagonists

H₃-receptor antagonists

H₄-receptor antagonists