PMID- 9256167
OWN - NLM
STAT- MEDLINE
DCOM- 19970827
LR  - 20190623
IS  - 0006-2952 (Print)
IS  - 0006-2952 (Linking)
VI  - 53
IP  - 12
DP  - 1997 Jun 15
TI  - Time course of the effects of different cannabimimetics on prolactin and 
      gonadotrophin secretion: evidence for the presence of CB1 receptors in 
      hypothalamic structures and their involvement in the effects of cannabimimetics.
PG  - 1919-27
AB  - Several reports have demonstrated that (-)-delta9-tetrahydrocannabinol 
      (delta9-THC) and arachidonylethanolamide [anandamide (AEA)] were able to inhibit 
      prolactin (PRL) secretion from the anterior pituitary gland in male rodents, 
      whereas ovarian phase-dependent effects were seen in females. However, in most of 
      these studies, the analysis of PRL levels was performed at times longer than 30 
      min after cannabinoid administration. In the present study, we examined the time 
      course of the effects of three different cannabimimetics, delta9-THC, AEA, and 
      AM356 (R-methanandamide), a more stable analog of AEA, on PRL and gonadotrophin 
      secretion in male Wistar rats. In addition, we characterized the presence of 
      cannabinoid receptors in hypothalamic structures related to neuroendocrine 
      control and studied their potential involvement in the effects of 
      cannabimimetics. We found that the three compounds decreased plasma luteinizing 
      hormone (LH) levels, although only the effects of delta9-THC were statistically 
      significant. The inhibitory effect was already apparent at 40 min after 
      administration, but only in the case of delta9-THC did it persist up to 180 min 
      after administration. No significant changes were seen in plasma 
      follicle-stimulating hormone (FSH) levels after the administration of any of the 
      three different cannabimimetics at any of the four times analyzed. Both AEA and 
      AM356 produced a significant decrease in plasma PRL levels, which appeared at 20 
      min after administration and persisted up to 60 min, waning after this time. 
      Interestingly, the time course of the effect of delta9-THC resembled that of AEA 
      and AM356 only during the later part of the response, because delta9-THC produced 
      a marked increase in plasma PRL levels at 20 min, no changes at 40 min and a 
      decrease from 60 min up to 180 min. In additional experiments, we tried to 
      elucidate which of these two phases observed after delta9-THC administration was 
      mediated by the activation of cannabinoid receptors. These receptors are present 
      in hypothalamic structures related to neuroendocrine control, with the highest 
      densities in the arcuate nucleus (dorsal area) and the medial preoptic area, and 
      the lowest in the lateral hypothalamic area, although none of these regions 
      exhibited high densities for this receptor as compared with classical regions 
      containing cannabinoid receptors, such as the basal ganglia. The activation of 
      these receptors by delta9-THC seems to be involved in the inhibitory phase of the 
      effect of this cannabinoid on PRL release, but not in the early stimulation; when 
      these receptors were blocked with a specific antagonist, SR141716, the 
      stimulation by delta9-THC was still observed, but the late inhibition was 
      abolished. In summary, AEA and AM356 markedly decreased PRL release and slightly 
      decreased LH secretion, with no changes on FSH release. delta9-THC also produced 
      a marked inhibition of LH secretion, but its effects on PRL were biphasic with an 
      early stimulation not mediated by the activation of cannabinoid receptors, 
      followed by a late and cannabinoid receptor-mediated inhibition. Their site of 
      action may well be the hypothalamic structures related to neuroendocrine control, 
      which contain a small, but probably very active, population of cannabinoid 
      receptors.
FAU - Fernandez-Ruiz, J J
AU  - Fernandez-Ruiz JJ
AD  - Department of Biochemistry, Faculty of Medicine, Complutense University, Madrid, 
      Spain. jjfr@eucmax.sim.ucm.es
FAU - Munoz, R M
AU  - Munoz RM
FAU - Romero, J
AU  - Romero J
FAU - Villanua, M A
AU  - Villanua MA
FAU - Makriyannis, A
AU  - Makriyannis A
FAU - Ramos, J A
AU  - Ramos JA
LA  - eng
GR  - DA 3801/DA/NIDA NIH HHS/United States
GR  - DA 9158/DA/NIDA NIH HHS/United States
PT  - Journal Article
PT  - Research Support, Non-U.S. Gov't
PT  - Research Support, U.S. Gov't, P.H.S.
PL  - England
TA  - Biochem Pharmacol
JT  - Biochemical pharmacology
JID - 0101032
RN  - 0 (Arachidonic Acids)
RN  - 0 (Endocannabinoids)
RN  - 0 (Gonadotropins, Pituitary)
RN  - 0 (Piperidines)
RN  - 0 (Polyunsaturated Alkamides)
RN  - 0 (Pyrazoles)
RN  - 0 (Receptors, Cannabinoid)
RN  - 0 (Receptors, Drug)
RN  - 150314-39-9 (methanandamide)
RN  - 7J8897W37S (Dronabinol)
RN  - 9002-62-4 (Prolactin)
RN  - RML78EN3XE (Rimonabant)
RN  - UR5G69TJKH (anandamide)
SB  - IM
MH  - Animals
MH  - Arachidonic Acids/*pharmacology
MH  - Autoradiography
MH  - Dronabinol/*pharmacology
MH  - Endocannabinoids
MH  - Gonadotropins, Pituitary/*blood
MH  - Hypothalamus/metabolism
MH  - Male
MH  - Piperidines/pharmacology
MH  - Polyunsaturated Alkamides
MH  - Prolactin/*blood
MH  - Pyrazoles/pharmacology
MH  - Rats
MH  - Rats, Wistar
MH  - Receptors, Cannabinoid
MH  - Receptors, Drug/antagonists & inhibitors/*drug effects
MH  - Rimonabant
MH  - Time Factors
EDAT- 1997/06/15 00:00
MHDA- 1997/06/15 00:01
CRDT- 1997/06/15 00:00
PHST- 1997/06/15 00:00 [pubmed]
PHST- 1997/06/15 00:01 [medline]
PHST- 1997/06/15 00:00 [entrez]
AID - S0006295297001688 [pii]
AID - 10.1016/s0006-2952(97)00168-8 [doi]
PST - ppublish
SO  - Biochem Pharmacol. 1997 Jun 15;53(12):1919-27. doi: 
      10.1016/s0006-2952(97)00168-8.