Abstract
We have recently described a class of systemically active inhibitors of the intracellular activity of fatty acid amide hydrolase (FAAH) and traced extensive structure-activity relationships. These compounds, characterized by an N-alkyl carbamic acid O-aryl ester structure, exert potent anxiolytic-like effects in animal models. In the present study, possible relationships between mass spectrometric parameters (related to the propensity of the C(O)--O bond to be cleaved) and FAAH-inhibitory potency were tested. With this aim, a set of our products was analyzed by electrospray ionization mass spectrometry and the protonated molecules were decomposed by low-energy collisions. The experiments were performed by ion trap mass spectrometry, which led to a step-by-step energy deposition, thus favouring the lowest critical energy decomposition channels. For all compounds, breakdown curves relative to [MH](+) ions and to the fragment implying C(O)--O bond cleavage were obtained. The crossing point between these curves was related to the energetics of decomposition and the values found for the investigated compounds were linearly correlated (r(2) = 0.797) with their FAAH-inhibitory activity. This indicates that the energetics of the C(O)--O bond cleavage may be relevant in explaining FAAH inhibition.
Highlights
Various lipid-like substances able to activate cannabinoid (CB) receptors have been discovered in the last decade
Substances which can block fatty acid amide hydrolase (FAAH) are considered of therapeutic interest, because, on inhibiting AEA catabolism, they may inter alia produce analgesic or anxiolytic actions without the undesired effects that accompany the indiscriminate activation of the system caused by exocannabinoids
We described a class of low molecular mass FAAH inhibitors.[3]
Summary
Various lipid-like substances able to activate cannabinoid (CB) receptors have been discovered in the last decade. We described a class of low molecular mass FAAH inhibitors.[3] These compounds have an N-alkyl carbamic acid O-aryl ester structure (2, Fig. 1) and are systemically active in rats and mice.[4,5] They exert profound anxiolytic-like effects in animal models, which are accompanied by rises in cerebral AEA levels and are blocked by CB1 receptor antagonists.[4]
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