| Abstract: | Disturbances in circadian rhythms are commonly observed in the development of several medical conditions and may also be involved in the pathophysiology of sepsis. Melatonin, with its antioxidative and anti-inflammatory effects, is known to modulate the response to endotoxemia. In this paper, we investigated the circadian variation with or without melatonin administration in an experimental endotoxemia model based on lipopolysaccharide (LPS). Sixty male Sprague-Dawley rats were assigned to six groups receiving an intraperitoneal injection of either LPS (5?mg/kg), LPS?+?melatonin (1?mg/kg), or LPS?+?melatonin (10?mg/kg) at either daytime or nighttime. Superoxide dismutase (SOD) was analyzed in liver samples collected after decapitation. Furthermore, inflammatory plasma markers (cytokines interleukin IL]-6, IL-10) and oxidative plasma markers (ascorbic acid AA], dehydroascorbic acid DHA], and malondialdehyde MDA]) were analyzed before and 5?h after the onset of endotoxemia. There were significant higher levels of SOD (p?<?0.05), IL-6 (p?<?0.01), and IL-10 (p?<?0.05) during nighttime endotoxemia compared with daytime. At daytime, melatonin 1 and 10?mg reduced the levels of MDA and increased SOD, IL-6, IL-10, and DHA (p?<?0.05). At nighttime, melatonin reduced the levels of MDA and increased DHA (p?<?0.05). Additionally, 10?mg melatonin resulted in lower levels of AA during daytime (p?<?0.05). No dose relationship of melatonin was observed. The results showed that the response induced by experimental endotoxemia was dependent on time of day. Melatonin administration modulated the inflammatory and oxidative stress responses induced by endotoxemia and also resulted in higher levels of antioxidants during daytime. The effect of circadian time on the endotoxemia response and possible modulatory effects of melatonin need further investigations in a human endotoxemia model. |
