A. Rozza

The Cycloxygenase-2 inhibitor SC58236 is neuroprotective in an in vivo model of focal ischemia in the rat.

Focal ischemia was induced in the fronto-parietal region of rat brain, by injection of Rose Bengal, followed by light activation. Focal ischemia was accompanied by formation of PGD(2) peaking 60-90 min post irradiation and declining thereafter. Increased Cycloxygenase-2 (COX-2) expression was also observed. Control ischemic rats showed distinct morphological alterations with necrosis of neurons, glial cells and blood vessels, surrounded by a halo with pyknotic cells with cytoplasm swelling and vacuolization. Compound SC58236, a selective COX-2 inhibitor, dose-dependently prevented, ischemia-induced eicosanoid formation (area under the curve (AUC) of controls: 3.11 +/- 0.87; AUC of 20 mg/kg SC58236: 0.39 +/- 0.24), and caused significant reduction of damaged area (30.7 and 18.9% at SC58236 20 and 6.6 mg/kg), suggesting that selective inhibitors of COX-2 are neuroprotective.

Inhibition of prostanoid synthesis protects against neuronal damage induced by focal ischemia in rat brain

Changes in prostanoids concentration and effects of the non-specific COX inhibitor indomethacin on prostanoids levels and extension of tissue damage were studied following focal ischemia induction in the fronto-parietal region of rat brain. Ischemia was induced in animals bearing a transcerebral microdialysis probe by injection of Rose Bengal, a photosensitive dye, followed by light activation. Prostanoid levels were determined in the dialysate using immunoenzymatic techniques. PGD2 levels rose significantly up to 237+/-22 pg/ml compared to a basal level measured before ischemia induction which was below the detection limit. TXB2 changes were smaller and had a different time course. Treatment with indomethacin abolished the ischemia-induced PGD2 release and reduced the extent of injury to the area by 43+/-3.7%. These results suggest that prostanoid release may play an important role in neurodegenerative processes and that cyclooxygenase inhibitors may contribute to protect against cerebral tissue damage.

EFFECT OF GLUTATHIONE AND N- ACETYLCYSTEINE ON IN VITRO AND IN VIVO CARDIAC TOXICITY OF DOXORUBICIN

The effects of two sulfhydryl compounds, glutathione (GSH) and N-acetylcysteine (NAC), on the cardiotoxicity of doxorubicin (DXR) were tested on in vitro and in vivo models. DXR was administered to rats as 4 weekly i.v. doses of 3 mg/kg. GSH (1.5 mmoles/kg), given i.v. 10 min before and 1 hr after DXR, was found to prevent the development of the delayed cardiotoxic effects of DXR, as assessed by electrocardiographic and mechanical parameters, as well as by histological examination of left ventricular preparations. In contrast, equimolar oral doses of NAC (1 hr before and 2 hrs after DXR) were found to be ineffective. Both GSH and NAC prevented the negative inotropic effect produced by DXR on isolated rat atria. A good correlation exists between the cardioprotective effects of the two agents and their ability to enhance the non-protein sulfhydryl group content of the myocardium. Differences observed in vivo between GSH and NAC might be accounted for by pharmacokinetic factors.

Kappa-opioid receptor changes and neurophysiological alterations during cerebral ischemia in rabbits.

Endogenous opioids have been shown to produce beneficial effects in experimental stroke. To evaluate both neurophysiological and biochemical parameters, we induced massive cerebral ischemia in 11 rabbits according to the method standardized in our laboratory, using microspheres injected through the internal carotid artery. Binding studies were performed in the 11 embolized, in nine control, and in five sham-operated rabbits using the appropriate concentration of [3H]dynorphin A (1-8). Neurophysiological parameters were evaluated under baseline conditions and 1 hour after embolization, surgical preparation, or sham operation in 17 rabbits. Comparison of visual readings of the electroencephalograms and analyses of the quantified electroencephalograms under baseline conditions and after embolization indicated a marked and statistically significant (p less than 0.01) increase in bilateral delta activity; histologic examination confirmed bilateral brain edema. Binding studies on kappa-opioid receptors indicate that 1 hour after embolization there were significantly more (28%) kappa-opioid receptors (Bmax) in six embolized rabbits than in five sham-operated animals. No significant changes were observed in the affinity parameters, particularly in the dissociation constant (Kd). Our results indicate a role for endogenous dynorphin peptides in the pathogenesis of stroke.

Aminoacid recovery via microdialysis and photoinduced focal cerebral ischemia in brain cortex of rats

A photochemical method using the Rose Bengal dye as thrombogenic agent was employed to induce focal cerebral ischemia in frontoparietal cortex of rats. A transcerebral microdialysis probe was used to collect samples from ischemic cortical area. An increase in glutamate (6-fold) and in taurine (4-fold) within the first hour occurred. Neuropathological investigations demonstrate a reproducible damaged area surrounded by a thin peripheral area showing neuronal apoptotic phenomena. The method represents a reproducible model of focal cerebral ischemia with neuropathological aspects superimposable to those characteristic of thrombogenic stroke in man. This method could also be relevant in the study of neurotransmitters during the evolution of ischemia. Furthermore, the presence of apoptotic phenomena in the perilesional halo confirms an ischemic penumbra suggesting the significance of preclinical pharmacological trials.

Ischemia-induced glutamate release in rat frontoparietal cortex after chronic alcohol and withdrawal

High doses of ethanol increase stroke risk: in this context, a role for excitatory amino acids has been proposed. The present results show that, in frontoparietal cerebral cortex, chronic ethanol treatment (10% v/v in drinking water for 28 days) was able to slightly reduce glutamate release (evaluated through transdialysis coupled with high-pressure liquid chromatography) following focal ischemia as regards non-treated ischemic rats. This reduction was, however, not associated with decreased cerebral damage. In 24-h withdrawing rats, histological and morphometric analyzes showed an exacerbated cerebral damage coupled with higher glutamate and aspartate release compared to controls. These results suggest that adaptive changes following chronic ethanol consumption lead to an increased excitotoxicity that is particularly evident during the withdrawal condition.

Prevention of doxorubicin-induced cardiomyopathy by reduced glutathione.

SummaryThe aim of the present investigation was to evaluate the potential cardioprotective effect of reduced glutathione (GSH) against the delayed cardiomyopathy induced by doxorubicin (DXR) in a well-documented rat model. DXR was administered i.v. at a weekly dose of 3 mg/kg for a total of 4 doses; 250 or 500 mg/kg of GSH was given i.v. 10 min before and 2 h after each DXR injection, resulting in a total weekly dose of 500 or 1000 mg/kg, respectively. The development of cardiotoxicity was monitored in vivo by means of electrocardiography (QaT duration), and was evaluated by measuring the contractile performance of isolated atria and by light and electron microscopy of left ventricular samples excised 5 weeks after the last DXR administration. DXR was found to impair body weight gain and to produce an irreversible and time-dependent prolongation of QaT, a decrease in myocardial contractility of isolated atria and typical morphologic alterations, including myocyte vacuolization and myofibrillar loss. Pretreatment with GSH at a dose of 500 mg/kg×2, but not at 250 mg/kg×2, partially prevented the impairment of body weight gain, QaT prolongation in ECG and the decrease in myocardial contractility of isolated atria induced by DXR. Alterations of the morphologic pattern were also significantly reduced in animals receiving the higher dose of GSH. Determinations of the cardiac non-protein sulfhydryl group content showed that GSH, at doses higher than or equal to 500 mg/kg, significantly increased this parameter, irrespective of the presence of DXR. In conclusion, the present data indirectly support the hypothesis that oxidative damage is involved in DXR cardiotoxicity and indicate that maintenance of the reduced thiol pool could be an important issue in myocardial protection.

The Rat Model in the Comparative Evaluation of Anthracyclines Cardiotoxicity

In the present investigation, the cardiotoxic effects of three anthracycline analogs (doxorubicin, 4′-epi-doxorubicin and 4′-deoxy-doxorubicin) were compared. For this purpose, 9.0 mg/kg of doxorubicin, divided into three closely spaced sub-doses, were injected intravenously in rats. The two derivatives were administered according to the same time schedule and their doses were chosen on the basis of the clinically adopted ratio, doxorubicin : 4′-epidoxorubicin : 4′-deoxy-doxorubicin = 1:1: 0.5. The degree of cardiomyopathy induced by the three anthracyclines was evaluated by ECG changes and morphological alterations. Doxorubicin was found to produce a significant degree of cardiotoxicity, thus confirming the validity of the experimental model adopted. Both 4′-substituted derivatives proved to be less cardiotoxic than the parent compound, although not completely devoid of this side effect.

Evaluation of cardiotoxicity of a new anthracycline derivative: 4'-deoxy-4'-iodo-doxorubicin

SummaryThe present study in rats was performed to evaluate the cardiotoxic activity of 4′ -deoxy-4′ -iodo-doxorubicin (4′-deoxy-4′-I-DXR), a new anthracycline derivative with interesting antineoplastic properties and possible lower cardiotoxicity than doxorubicin (DXR). DXR produced ECG alterations consisting of a progressive and irreversible prolongation of SaT and QaT. In contrast, in 4′-deoxy-4′-I-DXR-treated rats the increase in SaT and QaT duration was significantly lower than that observed in DXR-treated rats and slightly increased over controls.DXR produced significant histologic changes in myocardium consisting of myocyte vacuolization and myofibrillar loss. No significant modifications were observed in mitochondria. In contrast, no significant cardiac lesions were observed in 4′-deoxy-4′-I-DXR-treated rats. These results suggest that this new anthracycline derivative has a significantly lower degree of cardiotoxic activity than DXR.

K-opioid receptor changes in experimental models of cerebral ischaemia and atherosclerosis in the rabbit

Thromboembolic phenomena and transient ischaemic attacks (TIA) are considered the basis of ischaemic pathologies. The aim of the present research is to investigate the involvement of k-opioid receptors in cerebral blood flow (CBF) impairment which results in experimental stroke or dietary atherosclerosis in rabbits. CBF measurement showed a significant decrease in rabbits submitted to embolization and/or atherosclerosis. Binding studies showed that massive cerebral ischaemia and atherosclerosis produced a significant increase in the number of k-opioid receptors (Bmax), without changing (KD) affinity values. In conclusion, the results obtained seem to indicate that the increase in k-opioid receptors might play a crucial role in a common cerebral biochemical mechanism both in ischaemic and atherosclerotic pathologies.