Wang J, Ando T, Dunn A J
Department of Pharmacology and Therapeutics, Louisiana State University Medical Center, Shreveport 71130-3932, USA.
Neuroimmunomodulation. 1997 Sep-Dec;4(5-6):230-6. doi: 10.1159/000097341.
Lipopolysaccharide (LPS) and homologous cytokines were tested for their effect on core temperature in mice using battery-operated telemetric devices placed in the peritoneal cavity. One microgram LPS injected intraperitoneally (i.p.) induced a biphasic effect on core body temperature (Tc), a rapid decrease in Tc with a peak around 30-45 min followed by a prolonged rise around 150-300 min. When a higher dose of LPS (5 microg) was used, the hypothermia was increased in magnitude and lasted much longer, and no fever was observed. Both the decrease and the increase in Tc caused by LPS were prevented by pretreating the mice with indomethacin, a cyclooxygenase inhibitor, but not by a nitric oxide synthase inhibitor. Mouse interleukin-1beta (mIL-1beta, 100 ng, i.p.) induced changes resembling those to LPS, a short-lived decrease in Tc, followed by a small increase. When 1 microg mIL-1beta was injected a profound hypothermia lasting more than 3 h was observed. Mouse IL-6 (1 microg) failed to alter core temperature after either intravenous (i.v.) or i.p. administration. Human IL-6 was also ineffective. Recombinant mouse tumor necrosis factor-alpha (mTNFalpha) also failed to alter the core temperature of mice when injected at a dose of 1 microg (i.p. or i.v.). However, a higher dose of mTNFalpha (5 microg i.p.) caused a short-lived decrease in Tc, followed by a small increase. Similar results were obtained with LPS and the cytokines in C57Bl/6J mice, except that mIL-1beta was ineffective in this strain. These results indicate that the endocrine, neurochemical and behavioral responses to IL-1, IL-6 and TNFalpha administration cannot be explained by changes in Tc, although they may contribute to them. They also suggest that IL-1beta may account for the fever observed following LPS, but that these cytokines are probably not the only factors involved in LPS-induced changes in Tc.
使用置于腹腔内的电池供电遥测设备,检测脂多糖(LPS)和同源细胞因子对小鼠核心体温的影响。腹腔注射(i.p.)1微克LPS对核心体温(Tc)产生双相效应,Tc迅速下降,在30 - 45分钟左右达到峰值,随后在150 - 300分钟左右持续上升。当使用更高剂量的LPS(5微克)时,体温过低的程度增加且持续时间更长,未观察到发热现象。LPS引起的Tc下降和上升均被环氧化酶抑制剂吲哚美辛预处理小鼠所阻断,但一氧化氮合酶抑制剂则不能。小鼠白细胞介素-1β(mIL-1β,100纳克,i.p.)引起的变化与LPS相似,Tc短暂下降,随后小幅上升。当注射1微克mIL-1β时,观察到持续超过3小时的深度体温过低。小鼠IL-6(1微克)静脉注射(i.v.)或腹腔注射后均未能改变核心体温。人IL-6也无效。重组小鼠肿瘤坏死因子-α(mTNFα)以1微克剂量(i.p.或i.v.)注射时也未能改变小鼠的核心体温。然而,更高剂量的mTNFα(5微克i.p.)导致Tc短暂下降,随后小幅上升。在C57Bl/6J小鼠中使用LPS和细胞因子也得到了类似结果,只是mIL-1β在该品系中无效。这些结果表明,尽管IL-1、IL-6和TNFα给药后的内分泌、神经化学和行为反应可能与Tc变化有关,但不能用Tc变化来解释。它们还表明,IL-1β可能是LPS后观察到的发热的原因,但这些细胞因子可能不是LPS诱导Tc变化的唯一因素。
