Blatteis C M, Sehic E
Department of Physiology and Biophysics, University of Tennessee, Memphis 38163, USA.
Ann N Y Acad Sci. 1998 May 1;840:608-18. doi: 10.1111/j.1749-6632.1998.tb09600.x.
Fever is induced in response to the entrance of pathogenic microorganisms into the body and is thought to be mediated by cytokines. Because these pathogens most commonly invade the body through its natural barriers and because body temperature is regulated centrally, these mediators are presumed to be produced peripherally and transported by the bloodstream to the brain, to act. It is generally considered that their febrigenic messages are further modulated there by prostaglandin E2 (PGE2). However, the detailed mechanism by which these cytokines signal the brain and activate the febrile response is not yet clear. Indeed, the specific role of each cytokine has been difficult to establish due to complex interactions among them. Furthermore, recent evidence suggests that different pyrogens may induce different cytokines; for example, i.v. LPS (a model of systemic bacterial infection) induces large increases in IL-6, but only small rises in IL-1 and TNF alpha plasma levels. Moreover, their appearance lags the fever onset. We recently found that subdiaphragmatic vagotomy, decomplementation, and blockade of Kupffer cells suppress the febrile response of guinea pigs to i.v. LPS, and that i.v. LPS rapidly stimulates the release of norepinephrine (NE) and, hence, of PGE2 in their preoptic-anterior hypothalamus (POA, the brain region containing the thermoregulatory controller). Based on these and other data in the literature, we hypothesize that LPS fever may be initiated as follows: i.v., LPS-->complement-->Kupffer cells-->cytokines?-->vagal afferents -->n. tractus solitarius?-->A1/A2 cell groups?-->ventral noradrenergic bundle? -->POA-->NE-->PGE2-->fever.
发热是机体对病原微生物侵入的反应,被认为是由细胞因子介导的。由于这些病原体最常通过机体的天然屏障侵入体内,且体温是由中枢调节的,因此推测这些介质是在周围产生,并通过血液循环运输到大脑发挥作用。一般认为,它们的致热信息在那里会被前列腺素E2(PGE2)进一步调节。然而,这些细胞因子向大脑发出信号并激活发热反应的详细机制尚不清楚。事实上,由于它们之间存在复杂的相互作用,每种细胞因子的具体作用难以确定。此外,最近的证据表明,不同的致热原可能诱导不同的细胞因子;例如,静脉注射脂多糖(LPS,全身细菌感染的模型)可使IL-6大幅升高,但仅使IL-1和肿瘤坏死因子α血浆水平小幅升高。而且,它们的出现滞后于发热的开始。我们最近发现,膈下迷走神经切断术、补体灭活和库普弗细胞阻断可抑制豚鼠对静脉注射LPS的发热反应,并且静脉注射LPS可迅速刺激去甲肾上腺素(NE)释放,进而刺激视前区-下丘脑前部(POA,包含体温调节控制器的脑区)释放PGE2。基于这些以及文献中的其他数据,我们假设LPS发热可能如下启动:静脉注射LPS→补体→库普弗细胞→细胞因子?→迷走传入神经→孤束核?→A1/A2细胞群?→腹侧去甲肾上腺素能束?→POA→NE→PGE2→发热。
