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ABSTRACT: Substance P exerts its various biochemical effects mainly via interactions through neurokinin-1 receptors (NK1). Recently, the NK1 receptor has attracted considerable interest for its possible role in a variety of psychiatric disorders including depression and anxiety. However, little is known regarding the anatomical distribution of NK1 in the human central nervous system (CNS). Riboprobe in situ hybridization, quantitative PCR and in vitro autoradiography were performed. Highest NK1 mRNA levels were localized in the locus coeruleus and ventral striatum, while moderate hybridization signals were observed in the cerebral cortex (most abundant in the visual cortex), hippocampus and different amygdaloid nuclei. Very low levels of the NK1 mRNA were detected in the cerebellum and thalamus. In view of the existence of a long and short isoform of the NK1 receptor, it was of interest to assess whether there was a differential distribution of the two splice variants in the human CNS and peripheral tissues. A quantitative TaqMan PCR analysis showed that the long NK1 isoform was the most prevalent throughout the human brain, while in peripheral tissues the truncated form was the most represented. 3H-Substance P autoradiography revealed a good correlation between receptor binding sites and NK1 mRNA expression throughout the brain, with the highest levels of binding in the locus coeruleus. These results provide the anatomical evidence that the NK1 receptors have a strong association with neuronal systems relevant to mood regulation and stress in the human brain, but do not suggest a region-specific role of the two isoforms in the CNS.
European Journal of Neuroscience 06/2003; 17(9):1736-46. · 3.63 Impact Factor
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[show abstract]
[hide abstract]
ABSTRACT: Substance P exerts its various biochemical effects mainly via interactions through neurokinin-1 receptors (NK1). Recently, the NK1 receptor has attracted considerable interest for its possible role in a variety of psychiatric disorders including depression and anxiety. However, little is known regarding the anatomical distribution of NK1 in the human central nervous system (CNS). Riboprobe in situ hybridization, quantitative PCR and in vitro autoradiography were performed. Highest NK1 mRNA levels were localized in the locus coeruleus and ventral striatum, while moderate hybridization signals were observed in the cerebral cortex (most abundant in the visual cortex), hippocampus and different amygdaloid nuclei. Very low levels of the NK1 mRNA were detected in the cerebellum and thalamus. In view of the existence of a long and short isoform of the NK1 receptor, it was of interest to assess whether there was a differential distribution of the two splice variants in the human CNS and peripheral tissues. A quantitative TaqMan PCR analysis showed that the long NK1 isoform was the most prevalent throughout the human brain, while in peripheral tissues the truncated form was the most represented. 3H-Substance P autoradiography revealed a good correlation between receptor binding sites and NK1 mRNA expression throughout the brain, with the highest levels of binding in the locus coeruleus. These results provide the anatomical evidence that the NK1 receptors have a strong association with neuronal systems relevant to mood regulation and stress in the human brain, but do not suggest a region-specific role of the two isoforms in the CNS.
European Journal of Neuroscience 05/2003; 17(9):1736 - 1746. · 3.63 Impact Factor
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ABSTRACT: Previously, we observed specific alterations of neuropeptide Y (NPY) and Y1 receptor mRNA expression in discrete regions of the Flinders Sensitive Line rats (FSL), an animal model of depression. In order to clarify the correlation between mRNA expression and protein content, radioimmunoassay and receptor autoradiography were currently performed. In the FSL rats, NPY-like immunoreactivity (NPY-LI) was decreased in the hippocampal CA region, while Y1 binding sites were increased; NPY-LI was increased in the arcuate nucleus. Fluoxetine treatment elevated NPY-LI in the arcuate and anterior cingulate cortex and increased Y1 binding sites in the medial amygdala and occipital cortex in both strains. No differences were found regarding the Y2 binding sites. The results demonstrate a good correlation between NPY peptide and mRNA expression, and sustain the possible involvement of NPY and Y1 receptors in depression.
Neuroscience Letters.
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ABSTRACT: To investigate the possible link between neuropeptide Y (NPY) and depression, we analyzed NPY and its receptors in different limbic-related regions in the Flinder sensitive line (FSL), a genetic animal model of depression. In situ hybridization histochemistry was used to measure mRNA expression levels of NPY and NPY receptors, Y1 and Y2, in the FSL as compared to the control Flinder resistant Line rats (FRL). In the FSL rats, NPY mRNA expression levels were significantly decreased in the nucleus accumbens and CA regions, but increased in the arcuate nucleus and anterior cingulate cortex. Y1 receptor mRNA expression was decreased in different cortical regions (retrosplenial, anterior cingulate, and occipital) and in the hippocampal dentate gyrus. Y2 mRNA expression levels did not differ between FSL and FRL animals. The effect of the antidepressant drug fluoxetine (a serotonin reuptake inhibitor) in the two rat strains was also studied. There was an increase of the NPY mRNA hybridization signal in the arcuate nucleus of both strains following the antidepressant treatment (10 μmol/kg; daily for 14 days). However, in other brain regions, fluoxetine administration caused a differential effect on the induction of NPY-related genes in the two rat strains: in the CA region and dentate gyrus NPY mRNA expression was increased in the FSL, but decreased in the FRL. In contrast, Y1 mRNA levels tended to be decreased by fluoxetine in the nucleus accumbens of the FSL rats, but increased in the FRL. These findings suggest an involvement of the Y1, but not the Y2, receptor subtype in depressive disorder. Overall, the results appear to sustain the importance of the FSL rats as an animal model of depression in view of the impairment of NPY genes and the ability of fluoxetine treatment to normalize NPY-related gene expression selectively in this strain.
Molecular Brain Research.
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ABSTRACT: The possible link between estrogen and serotonin (5-HT) in depression was investigated using a genetic animal model of depression, the Flinders Sensitive Line (FSL) rats, in comparison to control Flinders Resistant Line rats. The mRNA levels of the estrogen receptor (ER) α and β subtypes and the 5-HT1A and 5-HT2A receptors were analyzed in several limbic-related areas of ovariectomized FSL and FRL rats treated with 17β-estradiol (0.15 μg/g) or vehicle. The FSL animals were shown to express significantly lower levels of the 5-HT2A receptor transcripts in the perirhinal cortex, piriform cortex, and medial anterodorsal amygdala and higher levels in the CA 2–3 region of the hippocampus. The only significant difference between the rat lines in ER mRNA expression was found in the medial posterodorsal amygdala, where the FSL rats showed lower ERα expression levels. Overall, estradiol treatment increased 5-HT2A and decreased 5-HT1A receptor mRNA levels in several of the examined regions of both lines. Thus, in many areas, estradiol was found to regulate the 5-HT receptor mRNA expression in the opposite direction to the alterations found in the FSL rats. These findings further support the implication of 5-HT receptors, in particular the 5-HT2A subtype, in the etiology of affective disorders. Moreover, the ability of estradiol to regulate the expression of the 5-HT1A and 5-HT2A receptor genes might account for the reported influence of gonadal hormones in mood and depression.
Molecular Brain Research.
