1. Kynurenic (KYNA) and quinolinic (QUIN) acids are neuroactive tryptophan metabolites formed along the kynurenine pathway: the first is considered a non-competitive antagonist and the second an agonist of glutamate receptors of NMDA type. The affinity of these compounds for glutamate receptors is, however, relatively low and does not explain KYNA neuroprotective actions in models of post-ischemic brain damage. 2. We evaluated KYNA effects on the release of fibroblast growth factor (FGF)-1, a potent neurotrophic cytokine. Because KYNA exhibits a neuroprotective profile in vitro and in vivo, we anticipated that it could function as an autocrine/paracrine inducer of FGF-1 release. Studies were performed in several models of FGF-1 secretion (FGF-1 transfected NIH 3T3 cells exposed to heat shock, A375 melanoma cells exposed to serum starvation, growth factor deprived human endothelial cells). To our surprise, KYNA, at low concentration, inhibited FGF-1 release in all cellular models. QUIN, a compound having opposite effects on glutamate receptors, also reduced this release, but its potency was significantly lower than that of KYNA. 3. KYNA and QUIN also displayed a major stimulatory effect on the proliferation rate of mouse microglia and human glioblastoma cells, in vitro. 4. Our data suggest that minor changes of local KYNA concentration may modulate FGF-1 release, cell proliferation, and ultimately tissue damage in different pathological conditions.
Hexahydrocannabinols (HHCs), referred to (9R)-HHC and (9S)-HHC diastereoisomers, are low-studied cannabinoids naturally found in small concentrations in the pollen and the seeds of the hemp plants. Despite the lack of in-depth studies about HHCs activity, potency, toxicity, and safety, these cannabinoids are emerging on the light-cannabis (hemp) market probably because legislations still do not clearly regulate them. Here, we describe for the first time the finding of HHCs (42% of (9R)-HHC and 24% of (9S)-HHC) in two samples of hemp-derived resin. The achievement of reference standards by semi-synthetic or isolation approach allows us to develop and validate a gas chromatography mass spectrometry (GC-MS) method for the identification and quantification of HHCs in hemp-derived products. A thorough investigation could be carried out to reveal the possible addition of "new" compounds that might be a matter of safety.
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