Marina Attinà scite author profile

Endocannabinoids are lipid mediators thought to modulate central and peripheral neural functions. We report here gas chromatography±electron impact mass spectrometry analysis of human brain, showing that lipid extracts contain anandamide and 2-arachidonoylglycerol (2-AG), the most active endocannabinoids known to date. Human brain also contained the endocannabinoid-like compounds N-oleoylethanolamine, N-palmitoylethanolamine and N-stearoylethanolamine. Anandamide and 2-AG (0.16^0.05 and 0.10^0.05 nmol/mg protein, respectively) represented 7.7% and 4.8% of total endocannabinoid-like compounds, respectively. N-Palmitoyethanolamine was the most abundant (50%), followed by N-oleoyl (23.6%) and N-stearoyl (13.9%) ethanolamines. A similar composition in endocannabinoid-like compounds was found in human neuroblastoma CHP100 and lymphoma U937 cells, and also in rat brain. Remarkably, human meningioma specimens showed an approximately six-fold smaller content of all N-acylethanolamines, but not of 2-AG, and a similar decrease was observed in a human glioblastoma. These ex vivo results fully support the purported roles of endocannabinoids in the nervous system.

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Anandamide degradation and N‐acylethanolamines level in wild‐type and CB₁ cannabinoid receptor knockout mice of different ages

Maccarrone¹,

Attinà

Bari³

et al. 2001

Journal of Neurochemistry

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CD1 mice lacking the CB 1 receptors (knockout, KO) were compared with wild-type littermates for their ability to degrade N-arachidonoylethanolamine (anandamide, AEA) through a membrane transporter (AMT) and a fatty acid amide hydrolase (FAAH). The regional distribution and age-dependence of AMT and FAAH activity were investigated. Anandamide membrane transporter and FAAH increased with age in knockout mice, whereas they showed minor changes in wild-type animals. Remarkably, they were higher in all brain areas of 6-month-old knockout versus wild-type mice, and even higher in 12-month-old animals. The molecular mass (<67 kDa) and isoelectric point (<7.6) of mouse brain FAAH were determined and the FAAH protein content was shown to parallel the enzyme activity. The kinetic constants of AMT and FAAH in the cortex of wild-type and knockout mice at different ages suggested that different amounts of the same proteins were expressed. The cortex and hippocampus of wild-type and knockout mice contained the following N-acylethanolamines: AEA (8% of total), 2-arachidonoylglycerol (5%), N-oleoylethanolamine (20%), N-palmitoylethanolamine (53%) and N-stearoylethanolamine (14%). These compounds were twice as abundant in the hippocampus as in the cortex. Minor differences were observed in AEA or 2-arachidonoylglycerol content in knockout versus wild-type mice, whereas the other compounds were lower in the hippocampus of knockout versus wild-type animals.

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Is the Proton Affinity of Nitric Acid Larger Than the Proton Affinity of Methyl Nitrate? A Direct Experimental Answer

Cacace¹,

Attinà²,

Petris³

et al. 1994

J. Am. Chem. Soc.

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A direct experimental approach based on the evaluation of the ligand exchange equilibrium H20-N02+ + CH30H CH3(H)O-N02+ + H 2 0 has been exploited for the determination of APA = PA(HN03) -PA(CH30N02) at 298 K. The result, APA = 4.0 f 1.2 kcal mol-', is sufficiently accurate to provide firm experimental support to the counterintuitive prediction, based on high-level ab initio calculations, that the PA of HN03 exceeds that of CH3-ON02 by 5.6 f 5 kcal mol-'. Combination of the experimental APA with the known PA of CH30N02 gives PA(HNO3) = 182.0 f 2.3 kcal mol-', in excellent agreement with the theoretically computed value, 182.5 f 3 kcal mol-'. An explanation of the considerably lower PA(HN03) value derived from earlier ICR bracketing experiments is offered, based on the R(H)O-N02+ vs RON02H+ isomerism. whose role in determining the observed PA trend along the RON02 series (R = H, CH3, C2H5) is discussed.

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Electrophilic aromatic nitration in the gas phase

Attinà¹,

Cacace²,

Yanez³

1987

J. Am. Chem. Soc.

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Protonated nitric acid. Structure and relative stability of isomeric H2NO3+ ions in the gas phase

Cacace¹,

Attinà²,

Petris³

et al. 1990

J. Am. Chem. Soc.

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Marina Attinà

Gas chromatography–mass spectrometry analysis of endogenous cannabinoids in healthy and tumoral human brain and human cells in culture

Anandamide degradation and N‐acylethanolamines level in wild‐type and CB₁ cannabinoid receptor knockout mice of different ages

Is the Proton Affinity of Nitric Acid Larger Than the Proton Affinity of Methyl Nitrate? A Direct Experimental Answer

Electrophilic aromatic nitration in the gas phase

Protonated nitric acid. Structure and relative stability of isomeric H2NO3+ ions in the gas phase

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Marina Attinà

Gas chromatography–mass spectrometry analysis of endogenous cannabinoids in healthy and tumoral human brain and human cells in culture

Anandamide degradation and N‐acylethanolamines level in wild‐type and CB1 cannabinoid receptor knockout mice of different ages

Is the Proton Affinity of Nitric Acid Larger Than the Proton Affinity of Methyl Nitrate? A Direct Experimental Answer

Electrophilic aromatic nitration in the gas phase

Protonated nitric acid. Structure and relative stability of isomeric H2NO3+ ions in the gas phase

Contact Info

Product

Resources

About

Anandamide degradation and N‐acylethanolamines level in wild‐type and CB₁ cannabinoid receptor knockout mice of different ages