Complex I syndrome in striatum and frontal cortex in a rat model of Parkinson disease.

Mitochondrial dysfunction named complex I syndrome was observed in striatum mitochondria of rotenone treated rats (2 mg rotenone/kg, i. p., for 30 or 60 days) in an animal model of Parkinson disease. After 60 days of rotenone treatment, the animals showed: (a) 6-fold increased bradykinesia and 60% decreased locomotor activity; (b) 35-34% decreases in striatum O2 uptake and in state 3 mitochondrial respiration with malate-glutamate as substrate; (c) 43-57% diminished striatum complex I activity with 60-71% decreased striatum mitochondrial NOS activity, determined both as biochemical activity and as functional activity (by the NO inhibition of active respiration); (d) 34-40% increased rates of mitochondrial O2•- and H2O2 productions and 36-46% increased contents of the products of phospholipid peroxidation and of protein oxidation; and (e) 24% decreased striatum mitochondrial content, likely associated to decreased NO-dependent mitochondrial biogenesis. Intermediate values were observed after 30 days of rotenone treatment. Frontal cortex tissue and mitochondria showed similar but less marked changes. Rotenone-treated rats showed mitochondrial complex I syndrome associated with cellular oxidative stress in the dopaminergic brain areas of striatum and frontal cortex, a fact that describes the high sensitivity of mitochondrial complex I to inactivation by oxidative reactions.

Meta-analysis of the efficacy of sorafenib for hepatocellular carcinoma.

PURPOSE: By carrying out a meta-analysis of randomized controlled trials that compared sorafenib or combined chemotherapy with placebo or combined chemotherapy, the effectiveness of sorafenib in hepatocellular carcinoma was evaluated in the present study, which also provided clinical practice guidelines of evidence-based-medicine. METHODS: We reviewed PubMed citations concerning sorafenib treating hepatocellular carcinoma in randomized controlled trials from Jan 2000 to July 2012. All the literature was extracted by Cochrane systematic reviews and underwent meta-analysis with RewMan 5.0 software. RESULTS: Finally, four papers documenting randomized controlled studies were included. Compared with controls, sorafenib was shown to significantly increase overall survival (OS), time to progression (TTP), and disease control rates (DCR), but not the time to symptom progression (TTSP) in hepatocellular carcinoma patients. The incidence of grade-III/IV adverse reactions, including hand- foot-skin reactions, diarrhea, hypertension and skin rash or desquamation, in sorafenib treatment group was higher than that in controls. However, there was no significant difference in the incidence of hypodynamia between the two groups. CONCLUSIONS: Sorafenib exerts significant curative effects in hepatocellular carcinoma.

Acute central administration of immepip, a histamine H3 receptor agonist, suppresses hypothalamic histamine release and elicits feeding behavior in rats.

Histamine suppresses feeding behavior via histamine H1 receptors in the hypothalamus. This study was performed to examine whether the acute reduction of histamine release in the hypothalamus caused by immepip, a histamine H3 agonist, modulates the feeding behavior of rats. Rats had a catheter implanted in the third cerebral ventricle (i3v) and were given central injections of phosphate-buffered-saline or immepip (100-300 pmol/rat). Following the i3v administration of immepip, the rats developed dose-dependent hypokinesia within 10 min of administration. Next to hypokinesia, the rats showed significant dose-dependent feeding behavior. High-performance liquid chromatography (HPLC) confirmed the reduction in histamine release in the hypothalamus of rats following i3v administration of immepip. These results suggest that i3v administration of immepip, an H3 receptor agonist, suppresses hypothalamic histamine release and elicits feeding behavior in rats.

Acanthopanax senticosus Harms as a prophylactic for MPTP-induced Parkinson's disease in rats.

The aim of this study was to determine whether Acanthopanax senticosus Harms (ASH) offers protection against Parkinson's disease (PD) and its related depressive behaviors in rats administered 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP). We examined how ASH affected the MPTP-induced loss of tyrosine hydroxylase (TH)-positive neurons in the midbrain of rats. Extract from the stem bark of ASH prepared with hot water was dissolved in distilled water. Rats were then orally administered ASH (250 mg/kg) once a day for 2 weeks before ASH administration plus an intraperitoneal injection of MPTP (20 mg/kg). The pole test and catalepsy test were used to evaluate the effects of ASH administration on bradykinesia and depressive behaviors in the PD model of rats given MPTP for 2 weeks. Treatment with ASH for 2 weeks resulted in prophylactic effects on MPTP-induced Parkinsonian bradykinesia and catalepsy. Immunohistochemistical analysis using TH antibody showed that ASH provided cytoprotective effects against MPTP-induced loss of dopamine (DA) cells. The present results suggest that it may be possible to use ASH for the prevention of nigral degenerative disorders, e.g., PD with depression, caused by exposure to toxic substances.

A paradoxical acute effect of levodopa in de novo parkinsonian patients: worsening of some bradykinetic components.

Reports of alterations of reaction times (RTs) in Parkinson's disease are often discordant, particularly when the aim of the research is investigation of the relationship between levodopa (LD) administration and RTs. Slowing of simple RT in a group of de novo parkinsonian patients 30-90 min after administration of LD (Madopar 250) was recently reported. This temporary phenomenon was attributed to a sedative effect of LD. Our present study aimed to repeat these investigations using Multiple Delayed Reaction Verbochronometry (MDRV). We conclude that such a slowing is not a temporary phenomenon but may represent the increased time necessary for the subject to adequately perform the reaction tasks.

Maze learning and motor activity deficits in adult mice induced by iron exposure during a critical postnatal period.

Newborn mice were administered Fe(2+) (iron succinate: 7.5 mg/kg, b. wt) on either Days 3-5, 10-12 or 19-21, or vehicle (saline) at the same times, postnatally. Spontaneous motor behaviour and radial arm maze learning were tested at the age of 3 months. It was found that mice treated with Fe(2+) during postnatal Days 10-12 were markedly hypokinetic during the 1st 20-min test period and hyperkinetic during the 3rd and final 20-min test period. These mice showed an almost complete lack of habituation of spontaneous motor activity parameters to the test chambers. In the radial arm maze, the Days 10-12 treatment group evidenced significantly both more errors in arm choices and longer latencies to acquire all eight pellets; these mice showed also a severe trial-to-trial retention deficit as indexed by retention quotients. These behavioural deficits were observed also in animals treated with Fe(2+) during postnatal Days 3-5, but the effects were less pronounced, indicating the higher susceptibility of the brain for Fe(2+)-induced damage during Days 10-12 postpartum. Treatment with Fe(2+) on Days 19-21 did not induce behavioural alterations in comparison with its respective control (vehicle) group. Analysis of total brain iron content indicated significantly more iron (microg/g) accumulation in the basal ganglia, but not frontal cortex, of mice from the Days 3-5 and 10-12 Fe(2+) (7.5 mg/kg) treatment groups. The contribution of iron overload during the immediate postnatal to later functional deficits seems to implicate symptoms of Parkinsonism but the kinetics of iron uptake to the brain and its regional distribution at this critical period of development awaits elucidation.

Ventroposterolateral pallidotomy.

Recent laboratory experiments have produced increasing evidence that nigral-striatal dopamine deficiency causes an inhibitory hyperactivity in the medial globus pallidus (MGP), where it freezes the initiation of movement and thus causes bradykinesia, rigidity and tremor. Surgical lesions in the ventroposterolateral (VPL) pallidum in man not only improve the parkinsonian bradykinesia, but also the tremor, rigidity, and the L-dopa-induced dyskinesias disappear or diminish. The present study shows that VPL pallidotomy improves several psychomotor functions, such as walking speed and manual dexterity. Right-sided VPL thalamotomy also increases the speed and accuracy in verbal performance. Ventrolateral thalamotomy increases bradykinesia. The findings support the concept that the parkinsonian symptoms in man develop in the MGP. Intact pathways from MGP via thalamus to the premotor and motor cortex seem necessary for normal motor functioning. The author also discusses the mechanisms of pallidotomy and thalamotomy.