Sakurai Takayuki, Takai Ryo, Bürgin Heinrich, Ishihara Kana, Sakamoto Yuichiro, Amano Jun, Higuchi Yoshinobu, Chiba Shuichi, Singer Thomas, Kawamura Akinori, Suzuki Masami, Müller Lutz
Fuji Gotemba Research Labs, Chugai Pharmaceutical Co., Ltd., Shizuoka, Japan.
Birth Defects Res B Dev Reprod Toxicol. 2012 Aug;95(4):304-17. doi: 10.1002/bdrb.21019. Epub 2012 Jul 5.
Possible effects of interleukin-6 (IL-6) on reproductive performance, embryonal development, parturition, and postnatal development have been suggested based on protein/mRNA expression level of IL-6 in related organs, but less is known about functions of IL-6 signals in these areas. Following two different approaches have been employed to investigate the role of IL-6 signals in fertility and pre-/postnatal development: administration of a rat anti-mouse IL-6 receptor antibody, MR16-1, to mice as a neutralizing antibody system, and B6.129S2-Il6(tm1Kopf)/J (IL-6 knockout [KO]) mice as a KO system. By intravenously dosing 50 mg/kg of MR16-1 every 3 days, animals in male and female fertility studies and dams in a pre-/postnatal development study exhibited plasma MR16-1 concentrations much higher than the effective plasma concentration, indicating that MR16-1 exposure was sufficient to completely block IL-6 signals. The concentration of MR16-1 in the plasma of fetuses exceeded that in the plasma of pregnant animals, and MR16-1 concentration in milk was about one-fourth of that in plasma. Both the transient IL-6 signal blockade by MR16-1, and the constitutive IL-6 signal inhibition using IL-6 KO mice in a combined fertility and pre-/postnatal development study, revealed no biologically important effects on fertility, early embryonic development to implantation, or pre-/postnatal development, including IgG/IgM production by keyhole limpet hemocyanin sensitization. These results indicate that IL-6 signals have no unique, noncompensable roles in reproduction and development in the whole body system, although contributions of IL-6 in the signaling network appear to exist, as suggested by previously published investigations.
基于白细胞介素-6(IL-6)在相关器官中的蛋白质/信使核糖核酸表达水平,有人提出了IL-6对生殖性能、胚胎发育、分娩及产后发育的可能影响,但人们对IL-6信号在这些方面的功能了解较少。为了研究IL-6信号在生育力及产前/产后发育中的作用,采用了两种不同的方法:给小鼠注射大鼠抗小鼠IL-6受体抗体MR16-1作为中和抗体系统,以及使用B6.129S2-Il6(tm1Kopf)/J(IL-6基因敲除[KO])小鼠作为基因敲除系统。通过每3天静脉注射50 mg/kg的MR16-1,雄性和雌性生育力研究中的动物以及产前/产后发育研究中的母鼠血浆MR16-1浓度远高于有效血浆浓度,表明MR16-1暴露足以完全阻断IL-6信号。胎儿血浆中的MR16-1浓度超过了怀孕动物血浆中的浓度,而乳汁中的MR16-1浓度约为血浆中的四分之一。在一项综合生育力及产前/产后发育研究中,MR16-1对IL-6信号进行的短暂阻断以及使用IL-6基因敲除小鼠对IL-6信号进行的组成性抑制,均未显示出对生育力、早期胚胎发育至着床或产前/产后发育(包括通过钥孔戚血蓝蛋白致敏产生IgG/IgM)有生物学上的重要影响。这些结果表明,尽管先前发表的研究表明IL-6在信号网络中似乎有作用,但IL-6信号在全身系统的生殖和发育中并没有独特的、不可替代的作用。
