The biological clock regulates circadian rhythm and is important for sustaining homeostasis. Here we examined the response of biological clock genes to systemic inflammatory stimulation.

At 08:00 h (= Zeitgeber time [ZT] 01), male Wistar rats (7-wk-old) maintained on a 12:12 h light:dark cycle (light on 07:00–19:00 h) received intravenous injection of 1 mg/kg lipopolysaccharide (LPS group) or 0.3 mL saline (control group). They were then sacrificed every 4 h (09:00 h = ZT 02, 13:00 h = ZT 06, 17:00 h = ZT 10, 21:00 h = ZT 14, 01:00 h = ZT 18, 05:00 h = ZT 22) over a 2-d period, and blood, brain, and liver samples were obtained for analysis (n = 4 at each time for each group). The expression levels of clock gene, rPer2, and those of clock controlled gene, rDBP, were quantified in the suprachiasmatic nucleus by in situ hybridization, while those of rPer1, rPer2, rDBP, rPPARA, and rFKBP51 in the liver were determined by quantitative RT-PCR.

In the suprachiasmatic nucleus of control rats, rPer2 and rDBP mRNA expression levels showed robust circadian patterns with peak levels at ZT 06 and ZT 10, respectively. LPS significantly suppressed both genes on day 1 but recovery was noted on day 2. Similarly, LPS significantly suppressed rPer1, rPer2, rDBP, rPPARA, and rFKBP51 mRNA expression levels in the liver on day 1 but recovery was noted on day 2, whereas a robust circadian pattern was noted in the control group.

Our results indicate that LPS causes transient suppression of the biological clock genes and suggest that the biological clock plays an important role in the response to systemic inflammatory stimulation.