Pathological increases in neuronal hyperactivity in selective cholinergic and noradrenergic pathways may limit the efficacy of Aβ-based interventions in MCI and Alzheimer’s disease

In spite of compelling evidence linking Aβ disturbances to the pathophysiology of Alzheimer’s disease, Aβ based treatments have consistently failed to produce any beneficial effects both in mild cognitive impairment (MCI) and Alzheimer’s disease (AD) even with successful reductions of toxic aggregated and soluble Aβ species. Before abandoning both the hypothesis and approach, there is a need to examine some overlooked factors that may have contributed to the lack of efficacy, such as the potential druginduced increases in neuronal hyperactivity leading to adverse cognitive effects. In particular, we posit that selective cholinergic and noradrenergic pathways will be especially vulnerable to this adverse effect. If confirmed, this idea could help identify a potentially preventable and treatable obstacle for enhancing the efficacy of therapeutic agents in MCI and AD

Stress-induced decreases in local cerebral glucose utilization in specific regions of the mouse brain

BACKGROUND: Restraint stress in rodents has been reported to activate the hypothalamic-pituitary-adrenocortical (HPA) axis and to increase c-fos expression in regions that express components of the corticotropin-releasing factor (CRF) system. We have previously reported that acute central administration of CRF increased a measure of relative local cerebral glucose utilization (LCGU), a measure of neuronal activity in specific brain regions, and activated the HPA axis in mice. It was hypothesized that the involvement of the CRF system in the stress response would lead to similar changes in relative LCGU after restraint stress. In the present studies the effect of restraint stress on relative LCGU and on the HPA axis in C57BL/6N mice were examined. FINDINGS: Restraint stress activated the HPA axis in a restraint-duration dependent manner, but in contrast to the reported effects of CRF, significantly decreased relative LCGU in frontal cortical, thalamic, hippocampal and temporal dissected regions. These findings support evidence that stressors enforcing limited physical activity reduce relative LCGU, in contrast to high activity stressors such as swim stress. CONCLUSIONS: In conclusion, the present studies do not support the hypothesis that stress-induced changes in relative LCGU are largely mediated by the CRF system. Further studies will help to delineate the role of the CRF system in the early phases of the relative LCGU response to stress and investigate the role of other neurotransmitter systems in this response

Characterization of the Psychological, Physiological and EEG Profile of Acute Betel Quid Intoxication in Naïve Subjects

Betel quid use and abuse is wide spread in Asia but the physiological basis of intoxication and addiction are unknown. In subjects naïve to the habit of betel quid intoxication, the psychological and physiological profile of intoxication has never been reported. We compared the effect of chewing gum or chewing betel quid, and subsequent betel quid intoxication, on psychological assessment, prospective time interval estimation, numerical and character digit span, computerized 2 choice tests and mental tasks such as reading and mathematics with concurrent monitoring of ECG, EEG and face temperature in healthy, non-sleep deprived, male subjects naïve to the habit of chewing betel quid. Betel quid intoxication, dose dependently induced tachycardia (max 30 bpm) and elevated face temperature (0.7°C) (P<0.001) above the effects observed in response to chewing gum (max 12 bpm and 0.3°C) in 12 subjects. Gross behavioral indices of working memory such as numerical or character digit span in 8 subjects, or simple visual-motor performance such as reaction speed or accuracy in a two choice scenario in 8 subjects were not affected by betel quid intoxication. Betel quid intoxication strongly influenced the psychological aspects of perception such as slowing of the prospective perception of passage of a 1 minute time interval in 8 subjects (P<0.05) and perceived increased arousal (P<0.01) and perceived decreased ability to think (P<0.05) in 31 subjects. The EEG spectral profile recorded from mental states associated with open and closed eyes, and mental tasks such as reading and eyes closed mental arithmetic were significantly modified (P<0.05) relative to chewing gum by betel quid intoxication in 10 subjects. The prevalence of betel quid consumption across a range of social and work settings warrants greater investigation of this widespread but largely under researched drug

Application of the vortex-box method to the unsteady incompressible flow over finite wings

Due to the character of the original source materials and the nature of batch digitization, quality control issues may be present in this document. Please report any quality issues you encounter to [email protected], referencing the URI of the item.Not availabl

Time-course and regional distribution of the metabolic effects of bromocriptine in the rat brain.

Local cerebral glucose utilization (LCGU) and motor behavior were examined in awake Fischer-344 rats after administration of the dopaminergic agonist bromocriptine (BROMO). LCGU was measured using the [14C]2-deoxyglucose technique in 63 brain regions at 1,2,3 or 4 h after BROMO 20 mg/kg, and at 4 h after BROMO 100 mg/kg i.p. At 2 h, LCGU was reduced significantly in 13\% of the 63 regions examined. The affected regions are related to the topographical distribution of dopaminergic innervation in the brain. At 3-4 h, LCGU remained depressed in some of the above dopaminergic regions, but was elevated significantly in regions which are involved in sensorimotor function. BROMO also produced two behavioral effects depending on time after administration. Locomotor activity was depressed at 1-2 h, and stereotyped behavior appeared at 3-4 h. The time-dependent effects of BROMO may reflect progressively increasing brain concentrations of the drug or of its active metabolites. The coincidence of locomotor depression and reduction of LCGU in dopaminergic regions suggests a role of dopamine autoreceptors in regulation of motor function. Metabolic stimulation of many non-dopaminergic regions when stereotypy is evident suggests that circuit(s) involving these areas may contribute to stereotypy