Romanovsky A A, Simons C T, Székely M, Kulchitsky V A
Thermoregulation Laboratory, Legacy Portland Hospitals, Oregon 97227, USA.
Am J Physiol. 1997 Jul;273(1 Pt 2):R407-13. doi: 10.1152/ajpregu.1997.273.1.R407.
Experimentally, systemic inflammation induced by a bolus intravenous injection of lipopolysaccharide (LPS) may be accompanied by three different thermoregulatory responses: monophasic fever (the typical response to low doses of LPS), biphasic fever (medium doses), and hypothermia (high doses). In our recent study [Romanovsky, A. A., V. A. Kulchitsky, C. T. Simons, N. Sugimoto, and M. Székely. Am. J. Physiol. (Regulatory Integrative Comp. Physiol.). In press], monophasic fever did not occur in subdiaphragmatically vagotomized rats. In the present work, we asked whether vagotomy affects the two other types of thermoregulatory response. Adult Wistar rats were vagotomized (or sham operated) and had an intravenous catheter implanted. On day 28 postvagotomy, the thermal responses to the intravenous injection of Escherichia coli LPS (0, 1, 10, 100, or 1,000 micrograms/kg) were tested in either a neutral (30 degrees C) or slightly cool (25 degrees C) environment. Three major results were obtained. 1) In the sham-operated rats, the 1 microgram/kg dose of LPS caused at 30 degrees C a monophasic fever with a maximal colonic temperature (Tc) rise of approximately 0.6 degree C; this response was abated (no Tc changes) in the vagotomized rats. 2) At 30 degrees C, all responses to higher doses of LPS (10-1,000 micrograms/kg) were represented by biphasic fevers (the higher the dose, the less pronounced the first and the more pronounced the second phase was); none of these biphasic fevers was altered in the vagotomized animals. 3) In response to the 1,000 micrograms/kg dose at 25 degrees C, hypothermia occurred: Tc changed by -0.5 +/- 0.1 degree C (nadir); this hypothermia was exaggerated (-1.1 +/- 0.1 degrees C) in the vagotomized rats. It is concluded that vagal afferentation may be important in the mediation of the response to minor amounts of circulating LPS, whereas the response to larger amounts is brought about mostly (if not exclusively) by nonvagal mechanisms. This difference may be explained by the dose-dependent mechanisms of the processing of exogenous pyrogens. Vagotomized animals also appear to be more sensitive to the hypothermizing action of LPS in a cool environment; the mechanisms of this phenomenon remain speculative.
实验中,静脉推注脂多糖(LPS)所诱发的全身性炎症可能伴有三种不同的体温调节反应:单相热(对低剂量LPS的典型反应)、双相热(中等剂量)和体温过低(高剂量)。在我们最近的研究中[罗曼诺夫斯基,A. A.,V. A. 库尔奇茨基,C. T. 西蒙斯,N. 杉本,和M. 塞克利。《美国生理学杂志》(调节整合与比较生理学)。即将发表],膈下迷走神经切断的大鼠未出现单相热。在本研究中,我们探究了迷走神经切断是否会影响其他两种体温调节反应类型。成年Wistar大鼠接受迷走神经切断术(或假手术)并植入静脉导管。在迷走神经切断术后第28天,在中性(30℃)或稍凉(25℃)环境中测试大鼠对静脉注射大肠杆菌LPS(0、1、10、100或1000微克/千克)的热反应。获得了三个主要结果。1)在假手术大鼠中,1微克/千克剂量的LPS在30℃时引起单相热,结肠最高温度(Tc)升高约0.6℃;在迷走神经切断的大鼠中,这种反应减弱(Tc无变化)。2)在30℃时,对更高剂量LPS(10 - 1000微克/千克)的所有反应均表现为双相热(剂量越高,第一相越不明显,第二相越明显);在迷走神经切断的动物中,这些双相热均未改变。3)在25℃时,对1000微克/千克剂量的反应出现体温过低:Tc变化为 - 0.5±0.1℃(最低点);在迷走神经切断的大鼠中,这种体温过低更为明显( - 1.1±0.1℃)。得出的结论是,迷走神经传入在介导对少量循环LPS的反应中可能很重要,而对大量LPS的反应主要(如果不是唯一)由非迷走神经机制引起。这种差异可能由外源性致热原处理的剂量依赖性机制来解释。迷走神经切断的动物在凉爽环境中似乎对LPS的降温作用也更敏感;这种现象的机制仍属推测。
