Benavides J, Schoemaker H, Dana C, Claustre Y, Delahaye M, Prouteau M, Manoury P, Allen J, Scatton B, Langer S Z
Synthélabo Recherche, Central Nervous System Department, Bagneux, France.
Arzneimittelforschung. 1995 May;45(5):551-8.
The interaction of mizolastine (CAS 108612-45-9, SL 85.0324) with histamine H1 receptors has been evaluated in the rodent. Mizolastine inhibited with high affinity (IC50 = 47 nmol/l) the binding of [3H]pyrilamine to histamine H1 receptors in guinea pig cerebellar membranes and sections. The order of potency of mizolastine and various H1 antagonists in this binding assay was the following: cyproheptadine > pyrilamine > mequitazine > mizolastine > astemizole > terfenadine > cetirizine > loratadine. Mizolastine also potently antagonized the contractile effects of histamine in the guinea pig ileum (pA2 = 8.5) and histamine-induced stimulation of phosphoinositide turnover in rat cortical slices (IC50 = 0.35 mumol/l). In contrast, this compound displayed very low affinity for serotonergic, noradrenergic and muscarinic cholinergic receptors as evidenced in both binding assays and functional tests. In guinea pig cerebellar membranes, [3H]mizolastine labelled in a saturable and reversible manner a single population of binding sites with Kd and Bmax values of 1.1 nmol/l and 635 fmol/mg protein, respectively. [3H]Mizolastine binding in guinea pig cerebellar membranes was inhibited by histamine (IC50 = 30 mumol/l) and by drugs that possess affinity for the H1 receptor such as pyrilamine (IC50 = 1 nmol/1), DL-chlorphenyramine (IC50 = 6.4 nmol/l) terfenadine (IC50 = 6 nmol/l) and loratadine (IC50 = 50 nmol/l). At concentrations lower than 10 mumol/l, the H2 receptor ligands dimaprit and cimetidine and the H3 receptor ligands burimamide and 4-methyl-histamine failed to displace [3H]mizolastine binding.(ABSTRACT TRUNCATED AT 250 WORDS)
在啮齿动物中评估了咪唑斯汀(CAS 108612-45-9,SL 85.0324)与组胺H1受体的相互作用。咪唑斯汀以高亲和力(IC50 = 47 nmol/L)抑制[3H]吡苄明与豚鼠小脑膜及切片中组胺H1受体的结合。在该结合试验中,咪唑斯汀及各种H1拮抗剂的效价顺序如下:赛庚啶>吡苄明>美喹他嗪>咪唑斯汀>阿司咪唑>特非那定>西替利嗪>氯雷他定。咪唑斯汀还能有效拮抗组胺对豚鼠回肠的收缩作用(pA2 = 8.5)以及组胺诱导的大鼠皮质切片中磷酸肌醇转换的刺激作用(IC50 = 0.35 μmol/L)。相比之下,无论是结合试验还是功能测试都表明,该化合物对5-羟色胺能、去甲肾上腺素能和毒蕈碱胆碱能受体的亲和力非常低。在豚鼠小脑膜中,[3H]咪唑斯汀以可饱和且可逆的方式标记了单一的结合位点群体,其Kd和Bmax值分别为1.1 nmol/L和635 fmol/mg蛋白质。豚鼠小脑膜中的[3H]咪唑斯汀结合受到组胺(IC50 = 30 μmol/L)以及对H1受体具有亲和力的药物如吡苄明(IC50 = 1 nmol/L)、DL-氯苯那敏(IC50 = 6.4 nmol/L)、特非那定(IC50 = 6 nmol/L)和氯雷他定(IC50 = 50 nmol/L)的抑制。在浓度低于10 μmol/L时,H2受体配体二甲双胍和西咪替丁以及H3受体配体布立马胺和4-甲基组胺未能取代[3H]咪唑斯汀的结合。(摘要截短于250字)
