Neuroscience
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Mutations in parkin were first identified in a group of Japanese patients who developed autosomal recessive juvenile Parkinsonism with clinical symptoms similar to idiopathic Parkinson's disease (PD). Parkin is an E3 ligase that targets a number of substrates for ubiquitination. ⋯ We found that p32 can regulate mitochondrial morphology and dynamics by promoting parkin degradation through autophagy. These results suggest that parkin might be an important effector in the regulation of morphology and dynamics of mitochondria.
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Central chemoreflex stimulation produces an increase in phrenic nerve activity (PNA) and sympathetic nerve activity (SNA). The A5 noradrenergic region projects to several brainstem areas involved in autonomic regulation and contributes to the increase in SNA elicited by peripheral chemoreflex activation. The aim of the present study was to further test the hypothesis that the A5 noradrenergic region could contribute to central chemoreflex activation. ⋯ Injections of the immunotoxin anti-dopamine β-hydroxylase-saporin (anti-DβH-SAP) into the A5 region destroyed TH⁺ neurons but spared facial motoneurons and the chemosensitive neurons in the retrotrapezoid nucleus that express the transcription factor Phox2b and that are non-catecholaminergic (TH⁻Phox2b⁺). Two weeks after selective destruction of the A5 region with the anti-DβH-SAP toxin, the increase in MAP (Δ=+22±5 mmHg, P<0.05), sSNA (Δ=+68±9%, P<0.05), and PNA amplitude was reduced after central chemoreflex activation. These results suggest that A5 noradrenergic neurons contribute to the increase in MAP, sSNA, and PNA activation during central chemoreflex stimulation.
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Pregnant rats were treated daily with 1 g/L of L-glutamate in their drinking water during pregnancy and/or lactation. The effect on adenosine A₁ receptor (A₁R) and A(2A) receptor (A(2A)R) in brains from both mothers and 15-day-old neonates was assayed using radioligand binding and real time PCR assays. Mothers receiving L-glutamate during gestation, lactation, and throughout gestation and lactation showed a significant decrease in total A₁R number (water+water, 302±49 fmol/mg; L-glutamate+water, 109±11 fmol/mg, P<0.01; water+L-glutamate, 52±13 fmol/mg, P<0.01; L-glutamate+L-glutamate, 128±33 fmol/mg, P<0.05). ⋯ Concerning adenosine A(2A)R, radioligand binding assays revealed that Bmax parameter was significantly increased in male and female neonates exposed to L-glutamate during lactation (male neonates: water+water, 214±23 fmol/mg; water+L-glutamate, 581±49 fmol/mg; P<0.01; female neonates: water+water, 51±10 fmol/mg; water+L-glutamate, 282±52 fmol/mg; P<0.05). No variations were found in mRNA level coding adenosine A(2A)R in maternal or neonatal brain. In summary, long-term L-glutamate treatment during gestation and lactation promotes a significant down-regulation of A₁R in whole brain from both mother and neonates and a significant up-regulation of A(2A)R in neonates exposed to L-glutamate during lactation.
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We have shown that isoflurane application at the onset of reperfusion (postconditioning) reduces brain ischemic injury in rats. This study was designed to determine whether this protection involved activation of prosurvival protein kinases and maintenance of normal mitochondrial membrane permeability. Two-month-old male rats were subjected to a 90-min middle cerebral arterial occlusion. ⋯ Isoflurane postconditioning reduced oxygen-glucose deprivation-induced injury of rat cortical neuronal cultures and increased phospho-Akt in these cells. The isoflurane postconditioning-induced protection in the neuronal cultures was decreased by the Akt inhibitor LY294002. These results suggest that isoflurane postconditioning effects may be mediated by Akt and involve reduced mitochondrial membrane permeability.
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Previous research suggests the infralimbic cortex is important in situations when there is competition between goal-directed and habitual responding. Here we used a response conflict procedure to further explore the involvement of the infralimbic cortex in this relationship. Rats received training on two instrumental biconditional discriminations, one auditory and one visual, in two distinct contexts. ⋯ Rats receiving control infusions into the infralimbic cortex showed a significant interference effect, producing more responses to the over-trained (habitual), but context-inappropriate, stimulus element of the incongruent compound. This interference effect was abolished by inactivation of the infralimbic cortex; animals showed a reduced tendency to produce the habitual but inappropriate response compared with animals receiving control infusions. This finding provides evidence that the infralimbic cortex is involved in attenuating the influence of goal-directed behavior, for example context-appropriate responding.