Neuroscience
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Excessive discomfort after exposure to bright light often occurs after ocular injury and during headache. Although the trigeminal nerve is necessary for light-evoked discomfort, the mechanisms underlying this phenomenon, often referred to generally as photophobia, are not well defined. Quantitative Fos-like immunoreactivity (Fos-LI) was used to determine the pattern of neuronal activation in the caudal brainstem after bright light stimulation and, secondly, whether a neurovascular mechanism within the eye contributes to this response. ⋯ Lidocaine applied to the ocular surface had no effect on Fos-LI produced in trigeminal brainstem regions. These results suggested that multiple regions of the caudal trigeminal brainstem complex integrate light-related sensory information. Fos-LI produced at the dPa5 and NTS, coupled with norepinephrine-induced inhibition, was consistent with the hypothesis that light-evoked activation of trigeminal brainstem neurons involves an intraocular neurovascular mechanism with little contribution from neurons that supply the ocular surface.
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Recent studies revealed that vasopressinergic neurons have a high content of cys-leukotriene C(4) (LTC(4)) synthase, a critical enzyme in cys-leukotriene synthesis that may play a role in regulating vasopressin secretion. This study investigates the role of this enzyme in arginine vasopressin (AVP) release during experimentally induced sepsis. Male Wistar rats received an i.c.v. injection of 3-[1-(p-chlorobenzyl)-5-(isopropyl)-3-tert-butylthioindol-2-yl]-2, 2-dimethylpropanoic acid (MK-886) (1.0 microg/kg), a leukotrienes (LTs) synthesis inhibitor, or vehicle, 1 h before cecal ligation and puncture (CLP) or sham operation. ⋯ In the final phase of sepsis, the plasma AVP level and the hypothalamic LTC(4) synthase content were at basal levels. The central administration of MK-886 increased the hypothalamic LTC(4) synthase content but did not alter the plasma and neurohypophysis AVP levels observed, or the blood pressure during this phase. These results suggest that the central LTs are involved in the vasopressin release observed during sepsis.
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The basal forebrain (BF) contains a diffuse array of cholinergic and non-cholinergic neurons that project to the cerebral cortex and basolateral nuclear complex of the amygdala (BLC). Previous studies have shown that the GABAergic subpopulation of non-cholinergic corticopetal BF neurons selectively innervates cortical interneurons. Although several investigations in both rodents and primates have indicated that some BF neurons projecting to the BLC are non-cholinergic, there have been no studies that have attempted to identify the neurochemical phenotype(s) of these neurons. ⋯ Injections of Fluorogold confined to the rat BLC, and centered in the basolateral nucleus, produced extensive retrograde labeling in the ventral pallidum and substantia innominata regions of the BF. Although the great majority of retrogradely labeled neurons were not double-labeled, about 10% of these neurons, located mainly along the ventral aspects of the fundus striati and globus pallidus, exhibited immunoreactivity for PV or GAD. The results of this investigation contradict the long-held belief that there is no extra-amygdalar source of GABAergic inputs to the BLC, and indicate that the cortex-like BLC, in addition to the cortex proper, receives inhibitory inputs from the basal forebrain.
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Injury to the cerebellum and brainstem is becoming increasingly recognized in prematurely born infants. The role of infection/inflammation in mediating damage to those structures in the preterm brain is largely unknown. Preterm fetal sheep (70% gestation) received either saline-vehicle (control group; n=11) or Escherichia coli lipopolysaccharide (100 ng intravenous [i.v.]; lipopolysaccharide [LPS] group; n=9), and were allowed to recover for 3 days before sacrifice. ⋯ Ionized calcium binding adapter molecule 1 (Iba1)-positive cells which had the morphology of activated microglia were commonly observed in areas of injury. There was no obvious injury to the cerebellar cortex or to cerebellar Purkinje cells, and no obvious injury in any region of the brainstem. These data provide support for a role of infection/inflammation in selective white matter injury in the immature cerebellum, and demonstrate a differential vulnerability of the brainstem and cerebellar white matter to injury at this time.
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Recent studies have suggested that docosahexaenoic acid (DHA) enhances neuronal differentiation of neural stem cells (NSCs) isolated from rat embryonic day 14.5. However the underlying mechanism remains largely unknown. ⋯ In this study, we show that treatment with DHA under differentiation conditions without basic fibroblast growth factor, (1) increases Tuj-1 and MAP2 positive cells in NSCs, (2) that the expression level of Hes1 mRNA and protein decreased significantly from day 1 to day 4, on the other hand, the NeuroD mRNA expression level increased from day 1 to day 4 after treatment with DHA and (3) decreased the percentage of S-phase cells, which correlated with prolonged expression of cyclin-dependent kinase inhibitor p27(kip1), suggesting that DHA enhances neuronal differentiation of NSCs, in part, by controlling the bHLH transcription factors and promoting cell cycle exit. We therefore speculate that DHA is one of the essential key molecules for neuronal differentiation of NSCs.