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α1-Adrenoceptor Characteristics and Modulators

Alpha 1 Adrenoceptor Activation

α₁-Adrenoceptors are widely distributed, and are activated either by norepinephrine released from sympathetic nerve terminals or by epinephrine released from the adrenal medulla. Receptor activation mediates a variety of functions, including contraction of smooth muscle, cardiac stimulation, cellular proliferation/apoptosis and activation of hepatic gluconeogenesis and glycogenolysis. α₁-Adrenoceptors are also widely distributed within the CNS, where their activation generally results in depolarization and increased neuronal firing rate. Most of the peripheral actions of α₁-adrenoceptors are mediated through phosphatidylinositol turnover, while there is evidence for activation of adenylyl cyclase within the CNS.

Subtypes

Three distinct α₁-adrenoceptor proteins have been cloned; after some confusion in nomenclature, it has now been established that these three recombinant α₁-adrenoceptors, designated as α_1a, α_1b and α_1dcorrespond to the pharmacologically defined α_1a, α_1b and α_1dadrenoceptors in native tissues. Multiple slice variants of the α_1a adrenoceptor have been identified; however, they appear to have identical pharmacological characteristics. The α₁-adrenoceptor mediating contraction of several vascular and urogenital tissues has distinct pharmacology from the other 3 subtypes, and has been designated as the α_1I adrenoceptor. This receptor has not been cloned; it now appears that the α_1I adrenoceptor represents a discrete affinity state of the α_1a adrenoceptor.

Selective Expression

The subcellular location of expressed recombinant α₁-adrenoceptors may be subtype dependent. Chloroethylclonidine, commonly used as a selective α_1b antagonist for receptor subclassification, may be able to alkylate all α₁-adrenoceptors, with its apparent selectivity for α_1b versus α_1a adrenoceptors, at least in cells expressing recombinant receptors, due to accessibility only to the α_1b receptor. Evidence shows that it may be possible to design peptides which can selectively antagonize α₁-adrenoceptor subtypes.

Mediated Response

In most cases, the particular subtype involved in an α₁-adrenoceptor mediated response has not yet been defined. This is due in part to the lack of subtype selective antagonists suitable for in vivo evaluation. Depending on the species and/or vascular bed, each α₁-adrenoceptor subtype can contribute to vascular contraction. For example, contraction of the rat caudal artery is mediated by the α_1a adreceptor, canine aorta by the α_1b and rat aorta by the α_1d adrenoceptor. The response to α₁-adrenoceptor stimulation in many canine and human vessels has α_1I pharmacology. Knockout of either α_1a, α_1b or α_1dadrenoceptor significantly attenuates the pressor response to α₁-adrenoceptor activation in the mouse. Contraction of prostatic and urethral smooth muscle appears to be mediated by the α_1I adrenoceptor. α₁-Adrenoceptor antagonists having selective affinity for α_1a and α_1I adrenoceptors, as well as antagonists having affinity for both α_1a and α_1d adrenoceptors, have been evaluated clinically for the treatment of benign prostatic hyperplasia. However, it appears that these drugs are not superior to the non-subtype selective α₁-adrenoceptor antagonists, which have been proven to be effective for this indication.

Accepted Alpha 1 Adrenoreceptor Modulators

The table below contains accepted modulators and additional information. Compare these modulators as well as several similar products (A0232, SML0460) in the "All Products" section that follows.

Abbreviations

A-61603: N-[5-(4,5-Dihydro-1H-imidazol-2yl)-2-hydroxy-5,6,7,8-tetrahydronaphthalen-1-yl]methanesulfonamide hydrobromide
BMY 7378: 8-[2-[4-(2-Methoxyphenyl)-1-piperazinyl]ethyl]-8-azasprio[4.5]decane-7,9-dione
HEAT: 2-(β-4-Hydroxyphenyl)ethylaminomethyltetralone
L-762,459: (±)-1-(3-{[5-Carbamoyl-2-{2-[(4-hydroxy-3-iodobenzimidoyl)-amino]-ethoxy-methyl}-6-methyl-4-(4-nitrophenyl)-1,4-dihydropyridine-4-carboxylic acid methyl ester
L-765,314: 4-Amino-2-[4-[1-(benzyloxycarbonyl)-2(S)-[[(1,1-dimethylethyl)amino]carbonyl]-piperazinyl]-6,7-dimethoxyquinazoline
RS-17053: (N-[2-(2-Cyclopropylmethoxyphenoxy)ethyl]-5-chloro-α,α-dimethyl-1H-indole-3-ethanamine
SKF-89748: 1,2,3,4-Tetrahydro-8-methoxy-5-(methylthio)-2-naphthalenamine

All Products

References

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Chen Z, Rogge G, Hague C, Alewood D, Colless B, Lewis RJ, Minneman KP. 2004. Subtype-selective Noncompetitive or Competitive Inhibition of Human ? 1 -Adrenergic Receptors by ?-TIA. J. Biol. Chem.. 279(34):35326-35333. https://doi.org/10.1074/jbc.m403703200

Ford APDW, Daniels DV, Chang DJ, Gever JR, Jasper JR, Lesnick JD, Clarke DE. 1997. Pharmacological pleiotropism of the human recombinant?1A-adrenoceptor: implications for?1-adrenoceptor classification. 121(6):1127-1135. https://doi.org/10.1038/sj.bjp.0701207

Hieble J. 2000. Drugs targeting adrenergic receptors: does interaction with a specific subtype confer therapeutic advantage?. Curr Opin Drug Disc Dev. 3(4):370-382.

Hieble JP, Bondinell W, Ruffolo RR. 1995. .alpha.- and .beta.-Adrenoceptors: From the Gene to the Clinic. Part 1. Molecular Biology and Adrenoceptor Subclassification. J. Med. Chem.. 38(18):3415-3444. https://doi.org/10.1021/jm00018a001

Shannon Kava M, Blue DR, Vimont RL, Clarke DE, Ford APDW. 1998. ?1L-Adrenoceptor mediation of smooth muscle contraction in rabbit bladder neck: a model for lower urinary tract tissues of man. 123(7):1359-1366. https://doi.org/10.1038/sj.bjp.0701748

Kojima Y, Sasaki S, Hayashi Y, Tsujimoto G, Kohri K. 2009. Subtypes of ?1-adrenoceptors in BPH: future prospects for personalized medicine. Nat Rev Urol. 6(1):44-53. https://doi.org/10.1038/ncpuro1276

Kojima Y, Kubota Y, Sasaki S, Hayashi Y, Kohri K. 2009. Translational Pharmacology in Aging Men with Benign Prostatic Hyperplasia: Molecular and Clinical Approaches to Alpha1-Adrenoceptors. CAS. 2(3):223-239. https://doi.org/10.2174/1874609810902030223

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O'Malley SS, Chen TB, Francis BE, Gibson RE, Burns H, DiSalvo J, Bayne ML, Wetzel JM, Nagarathnam D, Marzabadi M, et al. 1998. Characterization of specific binding of L-762,459, a selective ?1A-adrenoceptor radioligand to rat and human tissues. European Journal of Pharmacology. 348(2-3):287-295. https://doi.org/10.1016/s0014-2999(98)00149-6

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Ruffolo RR, Bondinell W, Hieble JP. 1995. .alpha.- and .beta.-Adrenoceptors: From the Gene to the Clinic. 2. Structure-Activity Relationships and Therapeutic Applications. J. Med. Chem.. 38(19):3681-3716. https://doi.org/10.1021/jm00019a001

12.

Schwinn DA, Price RR. 1999. Molecular Pharmacology of Human α₁-Adrenergic Receptors:Unique Features of the α_1a-Subtype. 36(Suppl. 1):7-10. https://doi.org/10.1159/000052311

13.

Tanoue A, Nasa Y, Koshimizu T, Shinoura H, Oshikawa S, Kawai T, Sunada S, Takeo S, Tsujimoto G. 2002. The ?1D-adrenergic receptor directly regulates arterial blood pressure via vasoconstriction. J. Clin. Invest.. 109(6):765-775. https://doi.org/10.1172/jci200214001

14.

Yamada S, Ito Y, Tsukada H. 2011. ?1-Adrenoceptors and muscarinic receptors in voiding function - binding characteristics of therapeutic agents in relation to the pharmacokinetics. 72(2):205-217. https://doi.org/10.1111/j.1365-2125.2011.03922.x

15.

Yan M, Sun J, I Bird P, Liu DL, Grigg M, Lim YL. 2001. ?1A- and ?1B-adrenoceptors are the major subtypes in human saphenous vein. Life Sciences. 68(10):1191-1198. https://doi.org/10.1016/s0024-3205(00)01027-4

16.

Ziolkowski N, Grover AK. 2010. Functional linkage as a direction for studies in oxidative stress: ?-adrenergic receptorsThis review is one of a selection of papers published in a Special Issue on Oxidative Stress in Health and Disease.. Can. J. Physiol. Pharmacol.. 88(3):220-232. https://doi.org/10.1139/y10-013

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