In a postmortem study of nicotinic receptors in human brain, cigarette smoking was found to be associated with increased (-)-[3H]nicotine binding to membranes prepared from gyrus rectus (Brodmann area 11) (p less than 0.001), hippocampal neocortex (Brodmann area 27), cerebellar cortex (p less than 0.01), hippocampal formation (Ammon's horn + subiculum), and the median raphe nuclei of the midbrain (p less than 0.05) but not the medulla oblongata. Analysis of the binding data suggested that the increased binding reflected an increase in the density of the receptors rather than a change in their affinity for (-)-nicotine. The effects of smoking were not influenced significantly by either the sex or age of the subject. It is concluded that smoking evokes an increase in high-affinity nicotine binding similar to that observed previously in animals treated chronically with nicotine and that the effect of smoking on these sites is probably caused by the nicotine present in the tobacco smoke.
Learning depends on surprise and is not engendered by predictable occurrences. In this functional magnetic resonance imaging (fMRI) study of causal associative learning, we show that dorsolateral prefrontal cortex (DLPFC) is associated specifically with the adjustment of inferential learning on the basis of unpredictability. At the outset, when all associations were unpredictable, DLPFC activation was maximal. This response attenuated with learning but, subsequently, activation here was evoked by surprise violations of the learned association. Furthermore, the magnitude of DLPFC response to a surprise event was sensitive to the relationship that had been learned and was predictive of subsequent behavioral change. In short, the physiological response properties of right DLPFC satisfied specific predictions made by associative learning theory.
The slit diaphragms between the glomerular epithelial foot processes represent a variant of the tight junction that are rapidly replaced by typical tight junctions after perfusion with protamine sulfate (PS). To investigate the mechanism of signaling involved, tyrosine phosphorylation of glomerular proteins was analyzed in newborn, PS-treated, and control rats using antiphosphotyrosine immunoglobulin G. In glomeruli of normal adults, phosphotyrosine (Ptyr) staining was confined largely to mesangial cells by immunofluorescence, whereas in newborn and PS-treated rats, the Ptyr signal was dramatically increased in the glomerular epithelium. By immunogold labeling, it was found that newly phosphorylated proteins were concentrated along the newly formed tight junctions (cell-cell junctions) and the basal membrane of the foot processes (cell-matrix junctions). By immunoblotting, several prominent bands were detected with anti-Ptyr in glomerular lysates of controls; in PS-treated rats, additional bands were detected at 225, 180, and 100 kDa. The 225-kDa protein was identified as ZO-1 by immunoprecipitation with anti-ZO-1 followed by immunoblotting with anti-Ptyr. These findings indicate that ZO-1 is one of the targets for tyrosine phosphorylation after PS treatment. They indicate that phosphorylation of tight junction and other proteins occurs during the formation of tight junctions in glomeruli under circumstances where there are rapid changes in epithelial cell shape.
This paper describes the results of a postmortem study of the effects of tobacco smoking on the concentrations of 5-hydroxytryptamine (5-HT) and 5-hydroxyindoleacetic acid (5-HIAA) as well as the binding of [3H]-8-hydroxy-(di-n-propylamino)-tetralin ([3H]-8-OH-DPAT) and [3H]-ketanserin in six discrete regions of human brain. Smoking was associated with significant decreases in the concentrations of 5-HIAA in the hippocampal neocortex (P less than 0.001), hippocampal formation (P less than 0.05) and the median raphe nuclei (P less than 0.05). The 5-HT level of the hippocampal formation was also significantly reduced in smokers (P less than 0.05). These changes were accompanied by significant increases in the binding of [3H]-8-OH-DPAT in the hippocampal neocortex (P less than 0.01) and hippocampal formation (P less than 0.05). [3H]-Ketanserin binding in the brain regions studied was unaffected by smoking. It is concluded that smoking is associated with a regionally selective decrease in the activity of the serotonergic system of the human hippocampus.
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