We measured local cerebral blood flow over 24 hours in 10 unanesthetized, freely moving rats to determine whether blood flow in the hippocampus fluctuated as a function of time of day. We measured hydrogen clearance at 1-hour intervals using a polyurethane-coated platinum electrode with a 1-mm bare tip implanted in the dorsal hippocampus. Individual rats displayed a wide range of local cerebral blood flow values (from 30 to 100 ml/min/100 g tissue) in a day. In seven of the 10 rats, the overall mean hippocampal blood flow for the dark cycle (7 PM-5 AM) was significantly (p<0.001, 0.01, or 0.05) greater than that for the light cycle (6 AM-6 PM), showing an average increase of 20%. Further, the maximum mean hippocampal blood flow at 11 PM in all 10 rats was 42% greater than the minimum at noon. Our study demonstrates for the first time that local cerebral blood flow in the hippocampus shows diurnal variation. (Stroke
Previous studies by us and others led us to hypothesize that there are separate LHRH pulse and surge generators in the rat brain. The present study was designed to detect the activity of LHRH pulse generator by checking changes in LH secretion and the multiunit activity (MUA) of the arcuate-median eminence region of the hypothalamus during infusions of naloxone (NAL, 2 mg/h) in the proestrous rat in which the LHRH surge generator activity was blocked by pentobarbital sodium (PB, 32 mg/kg bw, ip). The animals were subjected to blood sampling in the morning (1000-1300 h) or afternoon (1400-1700), and injected with PB at 09.45 or 13.45, respectively. During saline infusions in the rat given PB injection at either 09.45 or 13.45, serum LH levels were low but fluctuated significantly, suggesting a pulsatile secretion in either the morning or the afternoon period. The pulse intervals were an average 28.2 min in the morning and 42.2 min in the afternoon. NAL infusions decreased the pulse interval significantly, to 22.0 min in the morning and to 27.0 min in the afternoon. In the electrophysiological experiment, characteristic increases in the MUA (volleys), which occur in association with the initiation of an LH pulse and therefore are considered to represent an increased activity of the LHRH pulse generator, appeared during NAL (5 mg/h) infusions in either the morning or the afternoon. These results strongly suggest that separate LHRH pulse and surge generators exist in the brain, and that, even during the critical period of proestrus, the activity of LHRH pulse generator is disclosed by PB, which, on the other hand, arrests the surge generator.
Because Fos is thought to be induced in neurons that are activated, we examined whether luteinizing hormone-releasing hormone (LHRH) neurons expressed Fos protein when they were stimulated by an opioid receptor antagonist naloxone (NAL), expecting to identify LHRH neurons which are regulated by opioid neurons directly or indirectly. Further, we examined whether an ovulation-blocking dosage of pentobarbital sodium (PB) would affect the NAL-induced Fos expression. Female rats were infused with naloxone (5 mg/kg/h) for 90 min (10.00-11.30) in the morning of proestrus, during which infusion blood sampling was done, and were killed by i.v. injection with an overdose of PB at 11.30-12.00. Dual immunoperoxidase/immunofluorescence staining for both Fos and LHRH revealed that some LHRH immunoreactive (ir) neurons in the forebrain expressed Fos-ir, associated with an increase in serum LH concentrations, but little co-localization was found in rats in proestrus which were infused with saline as the control. The proportion of LHRH-ir neurons which expressed Fos-ir was about 35-62% in the caudal part of the forebrain including the mediobasal hypothalamus, and this was larger than that (10%) in the rostral part of the forebrain including the preoptic area. PB injection (32 mg/kg bw, i.p.) 15 min prior to the beginning of NAL infusion significantly enhanced the increase in LH secretion due to NAL, and also enhanced Fos-ir expression in LHRH-ir neurons. Together with the well-established fact that PB blocks the LHRH surge generator and our previous findings that NAL stimulates the LHRH pulse generator even in the PB-blocked proestrous rat, these results strongly suggest that the LHRH pulse generator exists in the mediobasal hypothalamus which contains LHRH neurons that are responsive to NAL and express Fos protein.
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