Moisés Rubio-Osornio

Copper reduces striatal protein nitration and tyrosine hydroxylase inactivation induced by MPP+ in rats

Striatal administration of 1-methyl-4-phenylpyridinium (MPP(+)), the active metabolite of 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP), causes nigrostriatal dopaminergic pathway damage similar to that observed in Parkinsons disease. Copper acts as a prosthetic group of several antioxidant enzymes and recent data show that copper attenuated MPP(+)-evoked neurotoxicity. We evaluated the effect of copper (as a supplement) upon proteins nitration (60 kDa) and tyrosine hydroxylase (TH) inactivation induced by MPP(+) (10 microg/8 microL) injection into the rat striatum. Copper pretreatment (10 micromol/kg i.p.) prevented both MPP(+)-induced proteins nitration and TH inactivation. Copper treatment also prevented the dopamine-depleting effect of MPP(+) injection. Those results were accompanied by a significant reduction of enzymatic activity of the constitutive nitric oxide synthase (cNOS), whereas, the protein levels of the three isoforms of NOS remained unchanged. Results indicate that the effect of copper against MPP(+)-induced proteins nitration and TH inactivation in the striatum of rat may be mediated by a reduction of cNOS activity.

Comparison of antioxidant activity of hydroethanolic fresh and aged garlic extracts and their effects on cerebral ischemia

Antioxidant properties and protective effect of aged garlic extract (AGE) and of 20% hydroethanolic fresh extracts from garlic clove (GCE) and skin (GSE) on cerebral ischemia were evaluated by administering extracts at the beginning of reperfusion in a rat model of stroke. All three extracts scavenged superoxide anion, peroxynitrite anion, and peroxyl radicals, but with different efficiencies; furthermore, GCE and GSE scavenged hydroxyl radicals and GSE scavenged singlet oxygen. These extracts significantly prevented reduction of neuronal nuclear antigen in the infarcted area, although no improvement in neurological function was observed. Importantly, GCE and GSE contained S-allylcystein, a compound associated with AGEs neuroprotective effect against damage induced by cerebral ischemia. Extracts decreased mRNA expression of NR1- and NR2B-NMDA-receptor subunits and prevented ischemia-induced reduction in mitochondrial potential and in ATP synthesis. These results indicate that antioxidants present in garlic extracts may regulate ROS concentrations during ischemia, favour pro-survival pathways, and attenuate mitochondrial dysfunction.

Induction of ferroxidase enzymatic activity by copper reduces MPP + -evoked neurotoxicity in rats

Parkinsons disease (PD) is a neurodegenerative disorder characterized by decreased dopamine, intracellular inclusions (Lewy bodies) and brain iron deposits. PD has also been related with reduced ferroxidase activity, diminished antioxidant defenses and lipid peroxidation. Striatal injection of 1-methyl-4-phenylpyridinium (MPP(+)) into rodents reproduces the major biochemical characteristics of PD, including oxidative stress. Copper (Cu) plays an important role as prosthetic group of several proteins involved in iron metabolism and antioxidant responses, such as ceruloplasmin (Cp). In the present study, intraperitoneal CuSO4 injection (10μmol/kg) produced an insignificant increase of Cu content in striatum and midbrain (17.5% and 7%, respectively). After 10 and 11h, Cu induced 6- and 4-fold increase Cp mRNA in midbrain and striatum, respectively. Cu-supplement also produced a time-dependent increase ferroxidase activity in striatal tissue, reaching a maximum 16h after Cu treatment in midbrain; while, ferrous iron content diminished 18% in striatum and 8% in midbrain. In regard the PD model, we found that MPP(+) (10μg/8μL, intrastriatal), induced a significant (P<0.05) reduction of striatal ferroxidase activity; this effect was reverted by Cu pre-treatment 16h before MPP(+). Likewise, Cu-supplement prevented lipid fluorescent products formation in striatum, evaluated (P<0.01) 6h after MPP(+). In the long term, apomorphine-evoked circling behavior was evaluated 6 days after MPP(+) injury; Cu pre-treatment significantly reduced (P<0.05) the apomorphine-induced ipsilateral turns in MPP(+)-lesioned rats. These results suggest that Cu-induced expression of Cp could be an interesting scope against the deleterious effects of iron deposits in PD.

17-AAG improves cognitive process and increases heat shock protein response in a model lesion with Aβ25–35

Molecular chaperones, or heat shock proteins (HSP), have been implicated in numerous neurodegenerative disorders characterized by the accumulation of protein aggregates, such as Alzheimer disease. The agglomeration of insoluble structures of Aβ is thought to be responsible for neuronal death, which in turn leads to the loss of cognitive functions. Recent findings have shown that the induction of HSP decreases the level of abnormal protein aggregates, as well as demonstrating that 17-(allylamino)-17-demethoxygeldanamycin (17-AAG), an analogue of geldanamycin (GA), increases Aβ clearance through the induction of molecular chaperones in cell culture. In light of this discovery that HSP overexpression can be neuroprotective, the search for a way to pharmacologically induce the overexpression of HSP and other associated chaperones may lead to a promising approach for the treatment of neurodegenerative diseases. The aim of our study was to evaluate both the effect of 17-AAG on the cognitive process and the HSP response in rats injected with Aβ25-35 into the CA1 of the hippocampus. The results show that the injection of Aβ caused a significant increase in the expression of the HSP involved in the regulation of cellular proteostasis. While the HSP did not reverse excitotoxic damage, given that experimental subjects showed learning and memory deficits, the administration of 17-AAG prior to the injection of Aβ25-35 did show an improvement in the behavioral assessment that correlated with the upregulation of HSP70 in subjects injured with Aβ. Overall, our data shows that the pharmacological induction of HSP using 17-AAG may be an alternative treatment of neurodegenerative diseases.

Additive effect of dl-penicillamine plus Prussian blue for the antidotal treatment of thallotoxicosis in rats

DL-penicillamine (DL-P) and Prussian blue (PB) given alone or in combination were tested as possible treatments against acute thallium toxicity. Rats were intoxicated by i.p. injection of thallium (I) acetate at LD(50) (32 mg/kg). A day later, pharmacological treatment was administered until day 4 as follows: (1) vehicles, (2) PB 50mg/kg, by oral route, twice a day, (3) DL-P 25mg/kg i.p. route, twice daily and (4) PB+DL-P. The Estimated Probability Survival (EPS) was recorded during the experiment for each treatment. DL-P alone did not show a significant effect on survival. However, when it was used in combination with PB, it increased the survival significantly (EPS=0.8, P<0.05) as compared to the control group (EPS=0.4). In a different experiment, using 16 mg/kg of Thallium I acetate, the metal levels were analyzed in blood, body organs and brain regions after treatments. DL-P given alone decreased slightly the thallium content in blood, organs and brain. Meanwhile, its administration in combination with PB diminished the thallium levels significantly (P<0.05) in the majority of tissues, at levels lower than those achieved in the PB group. Those results indicate that DL-P administered alone did not prevent the mortality nor accumulation of the metal in body tissues. Its combination with PB could be considered an alternative antidotal treatment in thallium toxicity, because this chelating agent given alone did not cause thallium redistribution to the brain. When given in combination with PB it has an additive effect in the treatment of acute thallotoxicosis.

Epicatechin Reduces Striatal MPP⁺-Induced Damage in Rats through Slight Increases in SOD-Cu,Zn Activity.

Parkinsons disease is a neurodegenerative disorder characterized by movement alterations caused by reduced dopaminergic neurotransmission in the nigrostriatal pathway, presumably by oxidative stress (OS). MPP+ intrastriatal injection leads to the overproduction of free radicals (FR). The increasing formation of FR produces OS, a decline in dopamine (DA) content, and behavioral disorders. Epicatechin (EC) has shown the ability to be FR scavenger, an antioxidant enzyme inductor, a redox state modulator, and transition metal chelator. Acute administration of 100 mg/kg of EC significantly prevented (P < 0.05) the circling MPP+-induced behavior (10 μg/8 μL). Likewise, EC significantly (P < 0.05) reduced the formation of fluorescent lipid products caused by MPP+. MPP+ injection produced (P < 0.05) increased enzymatic activity of the constitutive nitric oxide synthase (cNOS). This effect was blocked with acute EC pretreatment. Cu/Zn-dependent superoxide dismutase (Cu/Zn-SOD) activity was significantly (P < 0.05) reduced as a consequence of MPP+ damage. EC produced a slight increase (≈20%) in Cu/Zn-SOD activity in the control group. Such effects persisted in animals injured with MPP+. The results show that EC is effective against MPP+-induced biochemical and behavioral damage, which is possible by an increase in Cu/Zn-SOD activity.

Increase Signaling of Wnt/β-Catenin Pathway and Presence of Apoptosis in Cerebellum of Kindled Rats

BACKGROUND Epilepsy is one of the most common neurological disorders in humans, and the role of the cerebellum in its physiopathology remains the subject of study. The Purkinje cells (PC), whose axons target the dentate and interpositus nuclei, form the main cerebellar output to forebrain structures involved in epilepsy. Cerebellar atrophy related to loss of PC has been reported in chronic epilepsy although its mechanism remains unclear. Taking into account that an overexpression of β-Catenin has been related with cell death, here we present the signaling of β-Catenin and the type of PC death in cerebellum of rats with seizures induced by the amygdaloid kindling model. METHOD Using an immunohistochemistry and western blot assay for β-Catenin, c-Myc, cyclin D3, TUNEL and caspase-3, in rats chronically implanted with electrodes, receiving 0, 3, 15, and 45 electrical stimuli. RESULTS We found that such rats suffering a major number of stimuli showed the highest amount of marks assessed. CONCLUSION We concluded that there is a higher activity of the Wnt/β-Catenin pathway associated with increased number of stimuli may be related with the presence of apoptosis in the cerebellum treated with amygdala kindling. In this way, we suggest this pathway as one of the mechanisms by which cerebellar neurons death in generalized seizures.

Decreased Expression of Sox-1 in Cerebellum of Rat with Generalized Seizures Induced by Kindling Model

The single feature of all malformations in cortical development is the clinical association with epilepsy. It has been proven that Sox-1 expression is essential during neurodevelopment and it is reported that Sox-1 knockout mice present spontaneous generalized seizures. Particularly in cerebellum, Sox-1 plays a key role in the Bergmann´s glia (BG) function, which allows the correct function of the Purkinje cells (PC). The targets of PC are the dentate and interpositus nuclei, which form the main cerebellar efferents involved in the physiopathology of epilepsy. Here we present the Sox-1 expression in cerebellum of rats during electric amygdala-kindling. We obtained seizures and once they had 3, 15 and 45 electric stimuli, the animals were sacrificed; the cerebellum was processed for inmunohistochemistry and Western blot analysis was performed to determine Sox-1 expression. Liquid chromatography was performed to examine gammaaminobutyric acid (GABA) and glutamate concentration. According to the literature, a progressive increase was observed in the electrographic and behavioral parameters. We found that Sox-1 expression in 15 and 45-stimuli groups had a statistically significant decrease as compared with controls, while the 3-stimuli group was similar to the control group. The concentration of glutamate was increased in rats with 45 stimuli. We can conclude that Sox-1 expression decreases as the number of seizures increases, and this is probably due to an altered glutamate regulation by a dysfunctional BG. In this way, we can suggest this mechanism as a one possible explanation of how the cerebellum participates in the pathophysiology of epilepsy.