Your search keyword '"Kawaguchi, Mitsuru"' showing total 2 results

1. Effect of three peptidase inhibitors on antinociceptive potential and toxicity with intracerebroventricular administration of dynorphin A (1-17) or (1-13) in the rat

Author

Ajimi, Junko, Yoshikawa, Masanobu, Takahashi, Shigeru, Miura, Masaaki, Tsukamoto, Hideo, Kawaguchi, Mitsuru, Kobayashi, Hiroyuki, and Suzuki, Toshiyasu

Subjects

Dynorphins -- Research -- Physiological aspects, Toxicity -- Analysis, Enzyme inhibitors -- Physiological aspects -- Research, Captopril -- Research, Health

Abstract

Purpose The N- and C-terminal regions of dynorphin (Dyn) A (1-17) activate opioid and N-methyl-D-aspartate receptors, respectively. Earlier studies demonstrated that Dyn-converting enzyme cleaved Dyn A (1-17) mainly at the [Arg.sup.6]-[Arg.sup.7] bond, resulting in the production of N- and C-terminal region peptide fragments, and that this enzyme was not inhibited by a mixture of the three peptidase inhibitors (PIs) amastatin (A), captopril (C), and phosphoramidon (P). The purpose of the present study was to evaluate antinociceptive potential and toxicity with intracerebroventricular administration of Dyn A (1-17) or (1-13) under pretreatment with a mixture of A, C, and P and/or Dyn-converting enzyme inhibitor (p-hydroxymercuribenzoate). Methods Peptide fragments from Dyn A (1-17) following incubation with membrane preparation under pretreatment with a mixture of the three PIs was identified by matrix-assisted laser desorption ionization time-of-flight mass spectrometer (MALDI-TOF-MS). Infusion of drugs and peptides into the third ventricle in rats was performed via indwelling cannulae. Induction of antinociception and toxicity by Dyn A (1-17), Dyn A (1-13), Dyn A (1-6), or Dyn A (7-17) were determined by the tail-flick test and induction of barrel rotation, respectively. The effects of the PIs on antinociception and toxicity were evaluated by a dose-response study and a comparison of differences among various combinations of Dyn A (1-17) or Dyn A (1-13) and the three PIs and p-hydroxymercuribenzoate. Results MALDI-TOF-MS analysis identified Dyn A (1-6) and Dyn A (1-10) fragments as products following incubation of Dyn A (1-17) with membrane preparation of rat midbrain under pretreatment with a mixture of the three PIs. Pretreatment with a mixture of the three PIs produced an approximately 30-fold augmentation in antinociception induced by low-dose intracerebroventricular administration of Dyn A (1-17) or (1-13) in a [mu]-, [delta]- and [kappa]-opioid receptor antagonist-reversible manner, but without signs of toxicity such as barrel rotation in the rat. Dyn A (1-17)-induced antinociception and toxicity was greater than that of Dyn A (1-6), Dyn A (1-13), or Dyn A (7-17) at the same dose. Dyn A (1-17)-induced antinociception and toxicity under pretreatment with various combinations of the three PIs and p-hydroxymercuribenzoate was greater than that with a mixture of the three PIs alone. Conclusion These findings suggest that administration of a mixture of the three PIs increases Dyn A (1-17)- or (1-13)-induced antinociception under physiological conditions without toxicity. Keywords Dynorphin A * Peptidase * Dynorphin-converting enzyme * Antinociception * Toxicity, Introduction Dynorphin (Dyn) A (1-17) activates both opioid and nonopioid receptors, with its N- and C-terminal regions activating opioid and N-methyl-D-aspartate (NMDA) receptors, respectively. At physiological concentrations, Dyn A (1-17) [...]

Published

2015

2. Potentiation of [[Met.sup.5]]enkephalin-induced antinociception by mixture of three peptidase inhibitors in rat

Author

Murata, Tomohiko, Yoshikawa, Masanobu, Watanabe, Mariko, Takahashi, Shigeru, Kawaguchi, Mitsuru, Kobayashi, Hiroyuki, and Suzuki, Toshiyasu

Subjects

Protease inhibitors -- Dosage and administration -- Complications and side effects, Enkephalin, Methionine -- Dosage and administration -- Complications and side effects, Health

Abstract

Purpose Previous in vitro studies have shown that degradation of opioid peptides during incubation with cerebral membrane preparations is almost completely prevented by a mixture of three peptidase inhibitors (PIs), namely, amastatin, captopril, and phosphoramidon. In the present in vivo study, we evaluate the effects of intrathecal administration of these PIs on antinociception by [[Met.sup.5]]-enkephalin (ME) or PIs themselves. Methods Drugs were administered into the thoracolumbar level of the spinal cord in the intrathecal space in rat. Induction of antinociception was measured by the tail immersion assay, with 55 °C as the nociceptive stimulus. Effects of PIs on antinociception were evaluated by doseresponse study (ME, 1-20 nmol; PIs, 1-20 nmol each), by comparison of differences among two combinations of PIs (amastatin and captopril; captopril and phosphoramidon; amastatin and phosphoramidon) and three PIs (amastatin, captopril, and phosphoramidon), and by using opioid receptor selective antagonists. Results Intrathecal administration of ME with these three PIs or PIs alone significantly and dose dependently increased antinociception in a μ- and δ-opioid receptor antagonist-reversible manner; moreover, the degree of antinociception with a combination of any two of these was less than that with all three, indicating that any residual single peptidase could inactivate significant amounts of ME. Conclusion The present data, together with those of earlier studies, clearly demonstrate that amastatin-, captopril-, and phosphoramidon-sensitive enzymes play an important role in inactivation of opioid peptides at the spinal level. Keywords Antinociception * Peptidase-inhibitors * Methionine-enkephalin * Tail-flick response, Introduction Endogenous opioid peptide levels depend on the activity of opioid peptide-degrading enzymes, which terminate their action at the synaptic cleft. Enkephalins are hydrolyzed by five types of peptidase [1, [...]

Published

2014