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Autonomic neuropathy in streptozotocin diabetic rats: effect of acetyl-l-carnitine

The present study was designed to characterize cardiac autonomic neuropathy in streptozotocin-induced (45 mg/kg i.v.) diabetic rat by analysis of heart rate variability (HRV), and to assess, in this model, the effects of treatment with acetyl-L-carnitine (ALC). Heart rate was reduced in diabetic rats (332+/-22 vs. 411+/-35 beat per min; P<0.0001). This bradycardia was partly reversed with ALC (369+/-52 beat per min; P<0.05 vs. untreated). Both time- and frequency-domain parameters of HRV were significantly reduced in diabetic rats. The reduction of spectral power was around 50% at high frequencies and about 70% at low frequencies, suggesting a decrease of parasympathetic activity. Low/high frequency ratio was significantly decreased in diabetic rats suggesting decreased sympathetic tone, while nonlinear analysis indicated a reduction of the chaotic complexity of heart rate dynamics in diabetic rats. Standard deviation of heart rate in ALC-treated rats was significantly higher than in untreated diabetic rats (P<0.0001). ALC counteracts the reduction of the power spectrum observed in diabetic animals (P<0.0005) normalizing the spectra profile. ALC restored chaotic complexity of heart rate dynamics. These results on the whole indicate that both sympathetic and parasympathetic cardiac tone were reduced significantly in diabetic rats and that ALC treatment prevents the development of autonomic neuropathy in streptozotocin-induced diabetes in rats.

Acetyl-l-carnitine treatment increases choline acetyltransferase activity and NGF levels in the CNS of adult rats following total fimbria-fornix transection

Transection of the fimbria-fornix in adult rats is a useful model for producing impairments of cholinergic activity in the hippocampus (HIPP) and atrophy of the medial septum cholinergic perikarya, similar to those observed during senescence, that are possibly due to the lack of nerve growth factor (NGF) retrogradely transported from the hippocampus. In our investigation we used choline acetyltransferase (ChAT) as an index of cholinergic activity in HIPP, frontal cortex (FCX), septum and nucleus basalis magnocellularis (NBM) along with measurements of NGF levels in the HIPP. Three-month-old rats with unilateral total fimbria transection received acetyl-L-carnitine (ALCAR) (150 mg/kg/day) in drinking water for 1 week before and 4 weeks after the lesion). ALCAR is a substance known to ameliorate some morphological and functional disturbances in the aging central nervous system (CNS). ChAT activity in septum and FCX, and NGF levels in HIPP were significantly increased in the treated group, compared with untreated control groups, while no changes were found in the NBM. On the other hand, a similar ALCAR treatment in unoperated animals induced an increase in ChAT activity in FCX but not in septum nor in NBM. These data are suggestive of a neurotrophic property of ALCAR exerted on those central cholinergic pathways typically damaged by aging.

Acetyl-l-carnitine restores choline acetyltransferase activity in the hippocampus of rats with partial unilateral fimbria-fornix transection

Transection of the fimbria‐fornix bundle in adult rats results in degeneration of the septo‐hippocampal cholinergic pathway, reminiscent of that occurring in aging as well as Alzheimer disease. We report here a study of the effect of a treatment with acetyl‐l‐carnitine (ALCAR) in three‐month‐old Fischer 344 rats bearing a partial unilateral fimbria‐fornix transection. ALCAR is known to ameliorate some morphological and functional disturbances in the aged central nervous system (CNS). We used choline acetyltransferase (ChAT) and acetyl cholinesterase (AChE) as markers of central cholinergic function, and nerve growth factor (NGF) levels as indicative of the trophic regulation of the medio‐septal cholinergic system. ChAT and AChE activities were significantly reduced in the hippocampus (HIPP) ipsilateral to the lesion as compared to the contralateral one, while no changes were observed in the septum (SPT), nucleus basalis magnocellularis (NBM) or frontal cortex (FCX). ALCAR treatment restored ChAT activity in the ipsilateral HIPP, while AChE levels were not different from those of untreated animals, and did not affect NGF content in either SPT or HIPP.

A cluster analysis study of acetyl-l-carnitine effect on NMDA receptors in aging

Aging is associated with a reduction in the maximum density of n-methyl-d-aspartate (NMDA)-sensitive glutamate binding sites in the hippocampus of Fischer 344 rats. This study was designed to investigate the effect of acetyl-l-carnitine (ALCAR) on NMDA receptors in the old rat (24 months) after chronic or single-dose treatments. The number of NMDA receptors was significantly decreased in the old rat hippocampus by 19.5% compared with the young rat. A six-month treatment with ALCAR in the old rat attenuated the loss of NMDA binding sites in the hippocampus. A single-dose treatment with ALCAR in the old rat increased the Bmax value by 35%, while no change was observed in the young group. We conclude that ALCAR can exert two actions: a trophic/neuro-preserving one when chronically administered during aging, and a stimulatory one when given at a single dose in the aged rat.

Gastrosparing Effect of New Antiinflammatory Drug Amtolmetin Guacyl in the Rat (Involvement of Nitric Oxide)

The effect of the nonsteroidal antiinflammatorydrug (NSAID) amtolmetin guacyl (AMG) on the gastricmucosa was studied in the rat by means of histologicaland functional techniques. AMG administered at 50-300 mg/kg intragastrically was virtuallydevoid of gastrolesive properties after either acute orrepeated treatment. By contrast, its metabolite,tolmetin (TOL, 15-60 mg/kg, intragastrically) caused dose-dependent gastric damage after bothtreatments. Light and electron microscopy revealed thatAMG induced minimal changes in the surface epitheliumlayer, without signs of vasocongestion or leukocytes adherence. AMG (50 mg/kg intragastrically) didnot change basal gastric potential difference (PD),whereas acetylsalicylic acid and ibuprofen induced fallsin PD of 22 and 27 mV, respectively. AMG (50 mg/kg intragastrically) reduced by 60% the fall in PDinduced by 50% ethanol; this inhibition was dependent onthe incubation time, and was maximal when AMG was given4 hr before ethanol. AMG (100 mg/kg intragastrically) induced an increase in NO synthase type 2(NOS2) activity, which was significantly different fromcontrol values, when AMG was administered 4 hr beforethe test. The metabolites of AMG, tolmetin, MED 5, and guaiacol were ineffective. Pharmacokineticanalysis of the residence time of AMG in the differentareas of the gastrointestinal tract, revealed that AMGremains in the gastrointestinal tract at least for 4 hr, the time necessary for a maximalinduction of NOS2 and for maximal protection againstethanol-induced damage. In conclusion, these dataindicate that the nonsteroidal antiinflammatory drugamtolmetin guacyl is devoid of gastrolesive properties;this gastrosparing effect seems to involve theproduction of nitric oxide, which can counteract thedamaging effects due to prostaglandin inhibition. Thepresence in the stomach of the native molecule ofamtolmetin guacyl seems to be necessary for theprotective effect observed.

A Markovian formalization of heart rate dynamics evinces a quantum-like hypothesis

Most investigations into heart rate dynamics have emphasized continuous functions, whereas the heart beat itself is a discrete event. We present experimental evidence that by considering this quality, the dynamics may be appreciated as a result of singular dynamics arising out of non-Lipschitz formalisms. Markov process analysis demonstrates that heart beats may then be considered in terms of quantum-like constraints.

Age-related increase in the incidence of ventricular arrhythmias in isolated hearts from spontaneously hypertensive rats

SummaryIn order to test the effect of arterial hypertension on cardiac electrical activity, isolated Langendorff perfused hearts from spontaneously hypertensive (SHR) and normotensive (WKY) rats were studied. The incidence of spontaneous ventricular arrhythmias occurring during the control perfusion was 0% (n=28) in WKY, 31% in SHR (n=29, p<0.01), 7% (n=14) in 3-month-old SHR, and 53% in 14-month-old SHR (n=15, p<0.05). The incidence of venticular arrhythmias induced by programmed electrical stimulation (PES=stimulus train+two extrastimuli) was 18% in WKY (n=28), 48% in SHR (n=27, p<0.05), 29% (n=14) in 3-month-old SHR, and 69% (n=13) in 14-month-old SHR (p<0.05). The incidence of PES-induced irreversible ventricular fibrillation was 0% in WKY and in 3-month-old SHR (n=42), whereas it was 38% (n=13) in 14-month-old SHR (p<0.001). Myocardial norepinephrine was significantly reduced in SHR with respect to WKY, but no significant difference was observed between 3-month-old SHR and 14-month-old SHR. Thus, no correlation between myocardial norepinephrine and ventricular arrhythmias could be found. It was concluded that the duration of hypertension was the most important factor in the development of severe ventricular arrhythmias.

EEG power spectra changes and forebrain ischemia in rats.

BACKGROUND Several animal models of cerebral ischemia have been developed to investigate both pathophysiology and pharmacological treatment. The aim of this study was to verify the prognostic value of EEG power spectra analysis in a two-vessel plus hypotension rat model of transient global ischemia. METHODS Spontaneously hypertensive rats (SHRs) and Wistar Kyoto rats (WKYs) were subjected to 20 min bilateral common carotid artery occlusion plus hypotension by sodium nitroprusside followed by reperfusion for seven days. Sham-operated animals served as controls. The changes after ischemia in EEG power spectra, and their relations with neuronal damage and astrocytic response were investigated. RESULTS The EEG analysis revealed that in SHRs and WKYs, ischemia produced a dramatic increase in delta activity and a decrease in theta, beta and alpha activities derived from both cortical and hippocampal areas. EEG activity reverted to normal values more quickly in WKYs than in SHRs which did not recover cortical and hippocampal alpha and beta activities even at six days of reperfusion. SHRs presented more severe damage and intense astrocytosis than WKYs in almost all the brain regions analyzed. In SHRs, hippocampal delta activity was positively correlated with the degree of neuronal necrosis and astrocytic activation, whereas theta, alpha and beta activities correlated negatively. No correlations were found in WKYs. CONCLUSIONS These data indicate that the hippocampal bioelectrical activity recorded in SHRs from the beginning of reperfusion could be useful for predicting the ischemic outcome and evaluating the effects of pharmacological interventions.

Autonomic nervous system activity imbalance in cardiomyopathic hamster

There is strong evidence that autonomic imbalance plays an important role in progression of heart failure. Analysis of heart rate variability (HRV) has achieved substantial acceptance as a noninvasive method for the assessment of autonomic tone. The purpose of this investigation was to study HRV in an experimental model of heart failure using cardiomyopathic (BIO TO.2) hamsters. Animals showed an autonomic imbalance of cardiac control that seems due to attenuation of parasympathetic activity and an enhanced sympathetic tone. The reduction of parasympathetic activity in BIO TO.2 hamsters is suggested by (a) the reduction of the high-frequency (HF) spectrum, and (b) the lack of atropine to generate a response. The increased sympathetic activity is indicated by (a) the decreased time-domain indexes, (b) the increased LF/HF ratio of the power spectrum, and (c) the alteration of HRV indexes induced by propranolol. These results support the notion that in heart failure, there is a similar autonomic imbalance in both human and hamster and suggest that the cardiomyopathic hamster is a suitable experimental model for studying the involvement of the autonomic nervous system in the progression of heart failure.

Valproic acid and bicuculline affect the formation of glycerolipid in rat brain

To ascertain the effects of bicuculline and of sodium valproate on the incorporation of glycerol into rat brain lipid, rats were divided into 5 groups: (a) controls; (b) treated with sodium valproate (400 mg/kg body wt); (c) treated with bicuculline (12.5 ?mol/kg body wt); (d) treated with sodium valproate as in (b) + bicuculline as in (c); and (e) treated with bicuculline (25 ?mol/kg body wt). Only rats of group (c) had seizures, which lasted until the end of the experiment. Each animal received 20 ?Ci of [2-(3)H]glycerol by intraventricular route and was sacrificed 12 min afterwards. Hippocampi and cerebella were taken and lipid extracted and separated by chromatography. The type of treatment influenced very much the fate of injected, labeled glycerol. Indeed, total recovered radioactivity increased following either convulsions or the administration of valproate, whereas both treatments decreased the amount of radioactivity incorporated into lipid. These effects were more evident in cerebella than in hippocampi. The distribution of radioactivity among lipid classes (diglyceride, triglyceride and total phospholipid) was also affected by seizures, which decreased the labeling ratio phospholipid/neutral lipid. The distribution of radioactivity among phospholipid classes was influenced by bicuculline (both at convulsant and non-convulsant doses) and these effects were sometimes antagonized by valproate. We conclude that some effects of bicuculline are exerted through the systemic modifications due to seizures and that other effects are probably connected to neuronal hyperfiring. The data reported in this paper are consistent with both mechanisms of action proposed for valproate, i.e. increased membrane permeability and modifications of GABAergic systems.