Calvete J A, Donegan J L, Hayes R J, Oates N S, Sloan T P
Br J Pharmacol. 1984 Nov;83(3):723-31. doi: 10.1111/j.1476-5381.1984.tb16226.x.
The ability of histamine to inhibit the overall contractile ('twitch') response of the isolated vas deferens of the mouse to electrical field stimulation (64 V pulse, 1 ms pulse width, frequency 0.2 Hz) was studied in nine inbred mouse strains. The strains were also characterized in terms of the potency of the histamine H2-receptor antagonist cimetidine in its inhibition of histamine-mediated effects. An apparently bimodal inter-strain variation (8-10 fold) in both characteristics was encountered, with three strains (SWR, A2G and C57BL/10ScSn) relatively sensitive (S) to both agonist and antagonist actions, and six (C3H, A, C57/BL6, DBA/2, Balb/C and 129/Sv) relatively insensitive (IS). These strain differences were independent of extracellular calcium concentration in the range 1.25-5 mM, and also independent of the frequency of tissue stimulation over the range 0.2-6.4 Hz. Representative S (SWR and A2G) and IS (DBA/2 and C3H) mouse vasa were also characterized in terms of their sensitivity to the agonist actions of dimaprit and the antagonist actions of tiotidine. In the S strain tissues, dimaprit produced 50% inhibition of the twitch response at 4.6-1.8 microM (mean +/- s.d.) and was able to elicit complete inhibition of the twitch response at concentrations greater than 100 microM, whereas 48.7 +/- 11.9 microM dimaprit was required to produce 50% inhibition of the twitch response in tissues from IS mice. In addition, the agonist actions of dimaprit were incomplete in the latter tissues, the drug eliciting no more than 75% inhibition of the twitch response at concentrations in the range 300-1000 microM. Tiotidine produced competitive antagonism of the actions of both histamine and dimaprit, the strain differences being of the same magnitude as those observed for cimetidine. 4 Mating of a representative S (SWR) and IS (129/Sv) strain produced F, mice with intermediate histamine and cimetidine sensitivities relative to the parental strains. A backcross of male F1 to female IS mice produced progeny displaying a range of histamine and cimetidine sensitivities representative of those seen in tissues from F1 and IS parental animals, however, the data were not bimodal. Thus, the backcross data provided no evidence to support single gene inheritance of histamine sensitivity and might suggest that more than one gene is responsible for these differences between S and IS mice.
在9个近交系小鼠品系中研究了组胺抑制小鼠离体输精管对电场刺激(64V脉冲,1ms脉冲宽度,频率0.2Hz)的整体收缩(“抽搐”)反应的能力。还根据组胺H2受体拮抗剂西咪替丁抑制组胺介导作用的效力对这些品系进行了表征。在这两个特征方面均遇到了明显的双峰品系间差异(8 - 10倍),其中三个品系(SWR、A2G和C57BL/10ScSn)对激动剂和拮抗剂作用相对敏感(S),六个品系(C3H、A、C57/BL6、DBA/2、Balb/C和129/Sv)相对不敏感(IS)。这些品系差异在1.25 - 5mM的细胞外钙浓度范围内以及在0.2 - 6.4Hz的组织刺激频率范围内均与细胞外钙浓度无关。还根据代表性的S(SWR和A2G)和IS(DBA/2和C3H)小鼠输精管对二甲双胍的激动剂作用和替奥替丁的拮抗剂作用的敏感性进行了表征。在S品系组织中,二甲双胍在4.6 - 1.8 microM(平均值±标准差)时产生50%的抽搐反应抑制,并且在浓度大于100 microM时能够引发抽搐反应的完全抑制,而在IS小鼠组织中产生50%的抽搐反应抑制需要48.7±11.9 microM的二甲双胍。此外,二甲双胍在后者组织中的激动剂作用不完全,在300 - 1000 microM浓度范围内,该药物引发的抽搐反应抑制不超过75%。替奥替丁对组胺和二甲双胍的作用均产生竞争性拮抗,品系差异与观察到的西咪替丁的差异大小相同。将代表性的S(SWR)和IS(129/Sv)品系进行交配产生的F1小鼠对组胺和西咪替丁的敏感性相对于亲本品系为中间水平。雄性F1与雌性IS小鼠的回交产生的后代显示出一系列组胺和西咪替丁敏感性,代表了在F1和亲本IS动物组织中看到的敏感性,然而,数据不是双峰的。因此,回交数据没有提供证据支持组胺敏感性的单基因遗传,并且可能表明不止一个基因负责S和IS小鼠之间这些差异。