The effects of SP-111, a water-soluble THC derivative, on neuronal activity in the rat brain

The modulation of long-term potentiation by delta-9-tetrahydrocannabinol in the rat hippocampus, in vitro

The duration of long-term potentiation (LTP) of the CA1 evoked field potential in rat hippocampal slices was significantly modulated by pre-treatment of slices with delta-9-tetrahydrocannabinol (THC) added to the incubation media. The three THC doses tested: 10 picomolar (pM), 100 pM, and 1000 pM, resulted in a biphasic change in population spike amplitude, such that 10 pM resulted in an increase, while 100 and 1000 pM resulted in dose-related decreases as compared to the control treatment. Upon subsequent induction of LTP by tetanizing stimulation, the THC treatments resulted in significant changes in the duration but not magnitude of potentiation. The early component of potentiation, post-tetanic potentiation, or PTP, was not affected by the THC treatments. LTP was seen to decay in an exponential manner over the 121 mini post-tetanus monitoring period. For comparisons of LTP duration, therefore, the half-life (t1/2) of LTP was extrapolated from linear regression analysis. The t1/2 values were determined for each treatment group from the slopes of the linear regression analysis of the logarithmically transformed time course data. While the control group t1/2 was determined as 280 min, the t1/2 for the THC groups were: 350 min (10 pM); 91 min (100 pM); and 33 min (1000 pM) doses, respectively. In context with previous reports of the disruptive action of marihuana intoxication on learning and memory, these results suggest that one possible action of THC may be in modulating hippocampal electrophysiology and its role in short-term memory processes.

The actions of THC on the intact hippocampus: a comparison of dentate and CA1 responses

The effects of delta-9-tetrahydrocannabinol were compared on two afferent pathways of the rat hippocampal formation in urethane-anesthetized and chronically implanted awake animals. In urethane-anesthetized rats, THC produced a shift to the right in the input/output relationship without altering the relation between the measures of synaptic wave and the population spike of the CA1 response to contralateral CA3 stimulation. In contrast, the dentate response to perforant path stimulation was not altered by THC. Awake rats exhibited a similar response to THC, however, the CA1 response was less sensitive to THC and there was no change in the maximal response as there was in the anesthetized rat. Paired pulse studies demonstrated that there was a significant increase in paired pulse inhibition at 8 mg/kg in the CA1 region. There was no significant alteration of the dentate response to perforant path stimulation in the awake rat. These results suggest that alterations in limbic electrophysiology induced by THC may be mediated by structures other than the hippocampus.

Changes in hippocampal CA1 population spikes following administration of delta-9-THC

The effects of delta-9-tetrahydrocannabinol (delta-9-THC) on monosynaptic population responses in hippocampal CA1 pyramidal cells were examined in acute rats for several doses and at several post injection time periods. Delta-9-THC enhanced paired pulse inhibition in a dose-dependent manner; however biphasic dose effects were observed on cell responses during low frequency potentiation and on population spikes elicited by a conditioning stimulus. The biphasic responses were such that 2--4 mg/kg THC (IP) excited while 16 mg/kg depressed the stimulus elicited CA1 response. For low doses of THC slight biphasic time effects were observed. Evidence presented suggests that some of THC's actions on hippocampus may be due to direct or indirect actions on GABA-mediated activity.