C. Llorens scite author profile

There is both theoretical and therapeutic interest in establishing whether the signals conveyed by the enkephalins are turned off under the action of a specific peptidase which might, in this case, represent a target for a new class of psychoactive agents. Enkephalinase, a dipeptidyl carboxypeptidase cleaving the Gly3-Phe4 bond of enkephalins and distinct fropm angiotensin coverting enzyme (ACE), might be selectively involved in enkephalinergic transmission. It is a membrane-bound enzyme whose localization in the vicinity of opiate receptors in the central nervous system is suggested by parallel regional and subcellular distributions as well as by the effects of lesions. Such a role is further supported by the ontogenetic development of enkephalinase, its substrate specificity accounting for the increased biological activity of several enkephalin analogues and its adaptive increase following chronic treatment with morphine. To investigate the functional role of this enzyme further, we have designed a potent and specific enkephalinase inhibitor. We report here that this compound, thiorphan [(DL-3-mercapto-2-benzylpropanoyl)-glycine; patent no. 8008601] protects the enkephalins from the action of enkephalinase in vitro in nanomolar concentration and in vivo after either intracerebroventricular or systemic administration. In addition, thiorphan itself displays antinociceptive activity which is blocked by naloxone, an antagonist of opiate receptors.

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Regional distribution of a high-affinity enkephalin-degrading peptidase (‘enkephalinase’) and effects of lesions suggest localization in the vicinity of opiate receptors in brain

Malfroy

Swerts

Llorens

et al. 1979

Neuroscience Letters

118

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Enkephalin Dipeptidyl Carboxypeptidase (Enkephalinase) Activity: Selective Radioassay, Properties, and Regional Distribution in Human Brain

Llorens

Malfroy

Gacel³

et al. 1982

Journal of Neurochemistry

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The compound [3H]Tyr1,D-Ala2,Leu-OH5]enkephalin has been synthesised as a potentially selective substrate for enkephalin dipeptidyl carboxypeptidase (enkephalinase) activity in brain. Incubations in the presence of homogenates and particulate fractions from rodent and human brain result in the formation of [3H]Tyr-D-Ala-Gly, which can be conveniently isolated by polystyrene bead column chromatography. The enzyme activity responsible for the hydrolysis of the Gly3-Phe4 amide bond of this substrate displays close resemblance to that hydrolysing the natural enkephalins at the same level. In addition, enkephalinase activity characterised in postmortem human brain is closely similar to that in rodent brain, with regard to optimal pH and apparent affinities of various substrates and inhibitors, including the potent compound thiorphan. Enkephalinase activity is distributed in a highly heterogeneous fashion among regions of human brain, the highest levels being found in globus pallidus and pars reticulata of the substantia nigra. This distribution is poorly correlated with that of opiate receptor binding sites but displays some resemblance to that of reported Met5-enkephalin levels.

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C. Llorens

The enkephalinase inhibitor thiorphan shows antinociceptive activity in mice

Regional distribution of a high-affinity enkephalin-degrading peptidase (‘enkephalinase’) and effects of lesions suggest localization in the vicinity of opiate receptors in brain

Enkephalin Dipeptidyl Carboxypeptidase (Enkephalinase) Activity: Selective Radioassay, Properties, and Regional Distribution in Human Brain

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