Summary:Purpose: The selective contribution of neuronal gap junction (GJ) communication via connexin 36 (Cx36) channels to epileptogenesis and to the maintenance and propagation of seizures was investigated in both the primary focus and the mirror focus by using pharmacologic approaches with the 4-aminopyridine in vivo epilepsy model.Methods: ECoG recording was performed on anesthetized adult rats, in which either quinine, a selective blocker of Cx36, or the broad-spectrum GJ blockers carbenoxolone and octanol were applied locally, before the induction or at already active epileptic foci.Results: The blockade of Cx36 channels by quinine before the induction of epileptiform activity slightly reduced the epileptogenesis. When quinine was applied after 25-30 repetitions of seizures, a new discharge pattern appeared with frequencies >15 Hz at the initiation of seizures. In spite of the increased number of seizures, the summated ictal activity decreased, because of the significant reduction in the duration of the seizures. The amplitudes of the seizure discharges of all the patterns decreased, with the exception of those with frequencies of 11-12 Hz. The blockade of Cx36 channels and the global blockade of the GJ channels resulted in qualitatively different modifications in ictogenesis.Conclusions: The blockade of Cx36 channels at the already active epileptic focus has an anticonvulsive effect and modifies the manifestation of the 1-to 18-Hz seizure discharges. Our findings indicate that the GJ communication via Cx36 channels is differently involved in the synchronization of the activities of the networks generating seizure discharges with different frequencies. Additionally, we conclude that both neuronal and glial GJ communication contribute to the manifestation and propagation of seizures in the adult rat neocortex. Key Words: Gap junctions-Cx36-4-AP-induced seizure-EpileptogenesisIctogenesis-In vivo-Quinine-Carbenoxolone.Epilepsy is one of the most prevalent neurologic disorders worldwide, but pharmacologic therapy remains the best remedy for its treatment. One reason for the incomplete effectiveness of the currently available anticonvulsants is that they were identified by using the same classic epilepsy models, which mainly involve the same actions, without a consideration of the variations in the pathophysiologic mechanisms that result in epilepsy. Growing evidence indicates that, besides the chemical synapses, direct coupling via gap junction (GJ) channels provides a second major pathway, contributing to normal and abnormal physiologic rhythms both during development and in the adult brain (1-3).GJ channels mediating electrical signaling are involved in the physiologic synchronizing mechanism in the brain (3-5) and contribute to pathologic hypersynchrony in various in vitro (6-9) and in vivo (10-13) epilepsy models.
Pycnogenol was applied topically to experimental wounds inflicted on healthy rats by means of a branding iron. The wound-healing time was taken as the number of days required for 50% of the scabs to separate spontaneously from the animals. Application of a gel formulation containing 1% Pycnogenol significantly shortened the wound healing time, by 1.6 days compared with the group treated with gel only (15.4 days). The application of 2% Pycnogenol decreased the healing time by almost 3 days, while 5% Pycnogenol further accelerated the wound-healing process. In parallel, Pycnogenol gels reduced the diameter of the scars remaining following complete scab loss in a concentration-dependent manner. In conclusion, Pycnogenol is a potent active ingredient for the treatment of minor injuries.
The antiinflammatory activities of aqueous extracts prepared from the aerial parts of ten Hungarian Stachys species were investigated in vivo in the carrageenan-induced paw oedema test after intraperitoneal and oral administration to rats. Some of the extracts were found to display significant antiphlogistic effects when administered intraperitoneally and orally; in particular, the extracts of S. alpina, S. germanica, S. officinalis and S. recta demonstrated high activity following intraperitoneal administration. At the same dose of 5.0 mg/kg, these extracts exhibited similar or greater potency than that of the positive control diclofenac-Na. The main iridoids present in the investigated extracts, ajugoside, aucubin, acetylharpagide, harpagide and harpagoside, were also assayed in the same test, and high dose-dependent antiphlogistic effects were recorded for aucubin and harpagoside. These results led to the conclusion that most probably iridoids are responsible for the antiinflammatory effect of Stachys species, but other active constituents or their synergism must also be implicated in the antiinflammatory effect.
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