BrainMeta.com Forum > Paracetamol; how does it work again?

Orbz

Aug 01, 2007, 08:20 PM

One of the most popular analgesics used in medicine exerts its effects through indirect activation of cannabioid receptors. Essentially paracetamol is a pro-drug which gets metabolised into N-arachidonoylphenolamine which then works to inhibit reuptake of anandamide (the bodies endogenous cannabinoid) in a fashion that would be akin to cocaine inhibiting reuptake of dopamine...
Will we now see a link between paracetamol abuse and psychosis?

Abstract

QUOTE

Paracetamol (acetaminophen) is one of the most popular and widely used drugs for the treatment of pain and fever. It occupies a unique position among analgesic drugs. Unlike NSAIDs it is almost unanimously considered to have no antiinflammatory activity and does not produce gastrointestinal damage or untoward cardiorenal effects. Unlike opiates it is almost ineffective in intense pain and has no depressant effect on respiration. Although paracetamol has been used clinically for more than a century, its mode of action has been a mystery until about one year ago, when two independent groups (Zygmunt and colleagues and Bertolini and colleagues) produced experimental data unequivocally demonstrating that the analgesic effect of paracetamol is due to the indirect activation of cannabinoid CB(1) receptors. In brain and spinal cord, paracetamol, following deacetylation to its primary amine (p-aminophenol), is conjugated with arachidonic acid to form N-arachidonoylphenolamine, a compound already known (AM404) as an endogenous cannabinoid. The involved enzyme is fatty acid amide hydrolase. N-arachidonoylphenolamine is an agonist at TRPV1 receptors and an inhibitor of cellular anandamide uptake, which leads to increased levels of endogenous cannabinoids; moreover, it inhibits cyclooxygenases in the brain, albeit at concentrations that are probably not attainable with analgesic doses of paracetamol. CB(1) receptor antagonist, at a dose level that completely prevents the analgesic activity of a selective CB(1) receptor agonist, completely prevents the analgesic activity of paracetamol. Thus, paracetamol acts as a pro-drug, the active one being a cannabinoid. These findings finally explain the mechanism of action of paracetamol and the peculiarity of its effects, including the behavioral ones. Curiously, just when the first CB(1) agonists are being introduced for pain treatment, it comes out that an indirect cannabino-mimetic had been extensively used (and sometimes overused) for more than a century.

CNS Drug Rev. 2006 Fall-Winter;12(3-4):250-75
Paracetamol: new vistas of an old drug.
Bertolini A, Ferrari A, Ottani A, Guerzoni S, Tacchi R, Leone S.

Hey Hey

Aug 01, 2007, 09:06 PM

The participation of the endocannabinoid system is not entirely surprising considering that paracetamol could be deacetylated and then conjugated with arachidonic acid to form the bioactive AM404 compound (N-arachidonoyl-phenolamine), an analgesic agent that activates cannabinoid receptors and inhibits cellular uptake of endocannabinoid compounds.

E.D. HÃ¶gestÃ¤tt, Bo A.G. JÃ¶nsson, A. Ermund, D.A. Andersson, H. BjÃ¶rk, J.P. Alexander, B.F. Cravatt, A.I. Basbaum and P.M. Zygmunt, Conversion of acetaminophen to the bioactive N-acylphenolamine AM404 via fatty acid amide hydrolase-dependent arachidonic acid conjugation in the nervous system, J. Biol. Chem. 36 (2005), pp. 31405â€“31412.

A study has also established the peripheral antiallodynic and antihyperalgesic effects of paracetamol. These antinociceptive effects are mediated by both cannabinoid CB1 and CB2 receptors in a model of neuropathic pain since both cannabinoid receptor antagonists inhibited paracetamol actions. The local transformation of paracetamol into AM404, an inhibitor of endocannabinoid transport, could lead to increased tissue levels of endocannabinoids such as anandamide and 2-arachidonoyl glycerol, and therefore explain the antinociceptive effects of paracetamol.

MÃ©lina Dania, JosÃ©e Guindona, Chantal Lamberta and Pierre Beaulieua European Journal of Pharmacology. Article in Press, Corrected Proof July 2007.

Orbz

Aug 01, 2007, 09:17 PM

Do you know what TRPV1 receptors do?

Hey Hey

Aug 01, 2007, 09:27 PM

QUOTE(Orbz @ Aug 02, 2007, 06:17 AM)

Do you know what TRPV1 receptors do?

TRPV1 receptors are molecular integrators of various physico-chemical noxious stimuli.

--

A major advance was the discovery and molecular cloning of the capsaicin receptor which is expressed on C and AÎ´ fibers. Based on the structure of its ligand, the capsaicin receptor was originally named the vanilloid receptor 1 (VR1) but it was soon recognized that it was a cation channel and has since been renamed transient receptor potential vanilloid type 1 (TRPV1). TRPV1 is a non-selective cation channel and when activated, permits the flow of cations such as sodium and calcium from the outside to the inside of the cell. Cation influx, of which sodium is likely to be the most important, causes the depolarization of TRPV1-bearing neurons and leads to release of neurotransmitters, such as substance P, from nerve terminals. Capsaicin, by activating TRPV1, is highly specific for C and AÎ´ fibers and causes neuronal release of substance P and CGRP.

TRPV1 is not only activated by capsaicin, but also by heat and protons.

Rodger A. Liddle. Biochimica et Biophysica Acta (BBA) - Molecular Basis of Disease. The role of Transient Receptor Potential Vanilloid 1 (TRPV1) channels in pancreatitis. Article in Press, Corrected Proof July 2007.

Orbz

Aug 02, 2007, 10:21 PM

After a closer inspection of the paper, the reason we may not be all getting stoned off of heads on paracetamol is probably because of a rate limiting metabolic step of turning paracetamol into N-arachidonoylphenolamine. It must get saturated quite quickly with other metabolic options in more plentiful supply...

K. Spig

Aug 07, 2007, 10:18 AM

Actually there is an established paracetamol abuse syndrom - it is very well known as "analgesic overuse headache" and has much in common with dependence disorders as well as psychotic features in certain patients.

QUOTE(Orbz @ Aug 01, 2007, 08:20 PM)

One of the most popular analgesics used in medicine exerts its effects through indirect activation of cannabioid receptors. Essentially paracetamol is a pro-drug which gets metabolised into N-arachidonoylphenolamine which then works to inhibit reuptake of anandamide (the bodies endogenous cannabinoid) in a fashion that would be akin to cocaine inhibiting reuptake of dopamine...
Will we now see a link between paracetamol abuse and psychosis?

Abstract

QUOTE

Paracetamol (acetaminophen) is one of the most popular and widely used drugs for the treatment of pain and fever. It occupies a unique position among analgesic drugs. Unlike NSAIDs it is almost unanimously considered to have no antiinflammatory activity and does not produce gastrointestinal damage or untoward cardiorenal effects. Unlike opiates it is almost ineffective in intense pain and has no depressant effect on respiration. Although paracetamol has been used clinically for more than a century, its mode of action has been a mystery until about one year ago, when two independent groups (Zygmunt and colleagues and Bertolini and colleagues) produced experimental data unequivocally demonstrating that the analgesic effect of paracetamol is due to the indirect activation of cannabinoid CB(1) receptors. In brain and spinal cord, paracetamol, following deacetylation to its primary amine (p-aminophenol), is conjugated with arachidonic acid to form N-arachidonoylphenolamine, a compound already known (AM404) as an endogenous cannabinoid. The involved enzyme is fatty acid amide hydrolase. N-arachidonoylphenolamine is an agonist at TRPV1 receptors and an inhibitor of cellular anandamide uptake, which leads to increased levels of endogenous cannabinoids; moreover, it inhibits cyclooxygenases in the brain, albeit at concentrations that are probably not attainable with analgesic doses of paracetamol. CB(1) receptor antagonist, at a dose level that completely prevents the analgesic activity of a selective CB(1) receptor agonist, completely prevents the analgesic activity of paracetamol. Thus, paracetamol acts as a pro-drug, the active one being a cannabinoid. These findings finally explain the mechanism of action of paracetamol and the peculiarity of its effects, including the behavioral ones. Curiously, just when the first CB(1) agonists are being introduced for pain treatment, it comes out that an indirect cannabino-mimetic had been extensively used (and sometimes overused) for more than a century.

CNS Drug Rev. 2006 Fall-Winter;12(3-4):250-75
Paracetamol: new vistas of an old drug.
Bertolini A, Ferrari A, Ottani A, Guerzoni S, Tacchi R, Leone S.