Nociceptin, also named orphanin FQ, (N/OFQ) is the endogenous agonist of ORL1, opioid receptorlike orphan receptor 1, the 1st de-orphanized G-protein coupled receptor (GPCR) which was renamed as N/OFQ peptide receptor (NOR) and enlisted in the opioid receptor family. Orexins, consisting of orexins A and B (also named hypocretin 1 and 2), are endogenous peptide agonists of the 2nd de-orphanized GPCR family, OX1 and OX2. Nociceptin inhibits, while orexins enhance, neuronal activity. Nociceptin was so named because it induces hyperalgesia, but orexins are analgesic, when given in the brain. The hyperalgesic effect of N/OFQ was believed to be due to its inhibition of stress-induced analgesia (SIA) generated by the i.c.v. procedure. Orexins, however, were reported to contribute to SIA. SIA is a phenomenon of reducing pain sensation in humans or animals during stress and can be mediated by endogenous opioids or cannabinoids in the periaqueductal gray (PAG), a midbrain region for initiating descending pain inhibition. We previously found that microinjection of orexin A in the ventrolateral PAG (vlPAG) induced analgesia through endocannabinoid signaling. Orexin A activates the OX1 receptors, a GqPCR family, leading to phospholipase C (PLC) activation and yielding diacylglycerol (DAG) which can be converted by DAG lipase (DAGL) into 2-arachidonoylglycerol (2-AG), an endocannabinoid. The generated 2-AG can produce retrograde inhibition of GABA release by activating the presynaptic CB1 receptors. Inhibition of GABAergic synaptic neurotransmission in the vlPAG results in activation of the descending pain inhibitory pathway, leading to analgesia. Since hypothalamic orexins are activated during stress and orexins contribute to SIA, we hypothesize that during stress, the orexin neurons in the lateral hypothalamus, which project to the vlPAG are activated; the released orexins then activate the OX1 receptors and initiate the endocannabinoid mediated retrograde disinhibition in the PAG via PLC-DAGL enzymatic pathway. In addition, we also hypothesize that N/OFQ, when given in the brain, will hyperpolarize the hypothalamic orexins to decrease the orexin release during stress, and then produces hyperalgesia through inhibiting orexin-mediated SIA in the PAG, which is endocannabinoid-dependent. We got the results : 1) orexin neurons are activated during SIA by the immunohistochemical approach; 2) SIA was induced by restrain stress in naïve mice but not in the mice pre-injected intraperitoneally with OX1R antagonist (SB 334867) or CB1 antagonist (AM 251) in the hot-plate test; 3) SIA was blocked by intra-PAG microinjection of OX1 antagonist (SB334867) or CB 1 antagonist (AM 251) in the hot-plate test.; 4) SIA behavior seems to be expressed through the OX 1 receptor, but not OX 2 receptor mediated; 5) NOR agonist seems to play a role in the stress-induced analgesia animal model; 6) Ro 64-6198 has hypolocomotor activity effect. According to our present results, we can conclude that: the activation of orexin neurons during the stress releases orexin to activate the OX1 receptor to generate the endocannabinoid by enzyme system to perform the analgesia.