Role for nerve growth factor in the in vivo regulation of glutathione in response to LPS in mice

Since the redox state regulator glutathione (GSH), which influences lipopolysaccharide (LPS) anorexia, may be controlled by cytokines, we studied the roles of tumour necrosis factor-alpha (TNF alpha) and nerve growth factor (NGF) in the GSH response to intraperitoneal (ip) LPS injection in mice. Basal NGF and total reduced GSH (trGSH) levels were up-regulated in brain and liver of TNF alpha-knock-out (KO) mice, and this was associated with attenuated LPS anorexia. The increases in NGF and trGSH presumably contributed to the attenuated anorexia in response to LPS because transgenic mice over-expressing NGF (NGF-tg mice) also had increased trGSH levels and displayed attenuated anorexia compared to the corresponding wild type (WT) mice. Attenuated LPS anorexia in NGF-tg mice was accompanied by reduced serum TNF alpha and IFN gamma levels compared to WT mice. In response to a second injection of LPS, NGF and trGSH levels, but not TNFa levels changed. This suggests that in vivo tissue trGSH changes following LPS in LPS-naive or LPS-pretreated mice are regulated by NGF rather than TNFa. The finding that genetic TNFa deficiency did not inhibit the acute trGSH response to LPS supports this interpretation. In sum, the results indicate i) that a decrease or increase in NGF is accompanied by a decrease or increase in trGSH levels and ii) that elevated NGF and/or trGSH levels attenuate some of the responses to LPS such as anorexia and cytokine production.