Regional distribution and cellular expression of tryptophan hydroxylase messenger RNA in postmortem human brainstem and pineal gland

The characterization and cellular localization of tryptophan hydroxylase mRNA in the human brainstem and pineal gland were investigated by using northern blot analysis and in situ hybridization histochemistry. Northern analysis of human pineal gland revealed the presence of two mRNA species that were absent in RNA isolated from human raphe. In situ hybridization experiments revealed very dense hybridization signal corresponding to tryptophan hydroxylase mRNA in cells throughout the pineal gland. In contrast, tryptophan hydroxylase mRNA was heterogeneously distributed in neurons in the dorsal and median raphe nuclei. Within the dorsal raphe, the ventrolateral and interfascicular subnuclei contained the greatest number of tryptophan hydroxylase mRNA-positive neurons. Also, the cellular concentration of tryptophan hydroxylase mRNA varied widely within the dorsal and median raphe. Comparison of the cellular concentration of tryptophan hydroxylase mRNA between the pineal gland and the raphe nuclei revealed an 11- and 46-fold greater average grain density of tryptophan hydroxylase mRNA positive cells in the pineal gland compared with the dorsal and median raphe, respectively. These findings are the first to demonstrate the cellular localization of tryptophan hydroxylase mRNA in the human brain and pineal gland as well as heterogeneity in the cellular concentration within and between these tissues.     

p-Chlorophenylalanine Changes Serotonin Transporter mRNA Levels and Expression of the Gene Product

Abstract: After a single intraperitoneal injection of the irreversible tryptophan hydroxylase inhibitor p -chlorophenylalanine (PCPA; 300 mg/kg), there was a rapid down-regulation of serotonin (5-HT) transporter mRNA levels in cell bodies. This change was significant at 1 and 2 days after PCPA administration within the ventromedial but not the dorsomedial portion of the dorsal raphe nucleus. Seven days after PCPA treatment, 5-HT transporter mRNA levels were significantly elevated compared with controls in both regions of the dorsal raphe nucleus. PCPA administration produced no change in the [³H]-citalopram binding and synaptosomal [³H]5-HT uptake in terminal regions at 2 and 7 days after treatment but significantly reduced both these parameters by ∼20% in the hippocampus and in cerebral cortex 14 days after PCPA administration. The striatum showed a lower sensitivity to this effect. No significant changes were observed in the levels of [³H]citalopram binding to 5-HT cell bodies in the dorsal raphe nucleus. In the same animals used for 5-HT transporter mRNA level measurements, levels of tryptophan hydroxylase mRNA in neurons of the ventromedial and dorsomedial portions of the dorsal raphe nucleus were increased 2 days after PCPA administration and fell to control levels 7 days after injection in the ventromedial region but not in the dorsomedial portion of the dorsal raphe nucleus, where they remained significantly higher than controls. Altogether, these results show that changes in 5-HT transporter mRNA are not temporally related to changes in 5-HT transporter protein levels. In addition, our results suggest that the 5-HT transporter and tryptophan hydroxylase genes are regulated by different mechanisms. We also provide further evidence that dorsal raphe 5-HT neurons are differentially regulated by drugs, depending on their location.     

Expression of Size-Selected RNA Encoding Brain Serotonin Transporter in Xenopus laevis Oocytes

The mRNA that encodes a serotonin transporter was expressed using the Xenopus laevis oocyte expression system. Poly(A)+ RNA isolated from mouse brainstem was injected into Xenopus laevis oocytes, and the ability of oocytes to take up serotonin was measured 3 days postinjection. RNA-dependent serotonin uptake was sensitive to citalopram, a specific inhibitor of serotonin uptake, whereas background levels of serotonin uptake were not citalopram sensitive. Two RNA size fractions, 4.0 and 4.5 kb, were most efficient in stimulating uptake. Injection into Xenopus laevis oocytes of the 4.5-kb size fraction of mouse brainstem RNA resulted in threefold more serotonin uptake than did injection of unfractionated poly(A)+ RNA.     

RNA原位杂交技术及其在植物基因表达研究中的应用

原位杂交 ( In situ Hybridization)是一种在细胞水平上研究基因表达调控的最直接有效的分子生物学技术。这一技术最初应用于动物染色体上的基因物理定位 〔1〕和特定 m RNA在组织中的空间定位〔2〕,后来又作为诊断工具检测感染病毒的细胞 〔3〕。到 80年代后期 ,原位杂交技术开始应用于植物基因表达调控的研究 〔4～ 6〕。植物基因的时空表达研究是探讨植物生长发育机制的重要手段。由于 RNA原位杂交技术能够精确确定基因表达的时空分布 ,而得到了越来越广泛的应用 ;从营养器官生长发育〔7～ 9〕、生殖器官生长发育〔10～ 13〕、自交不…     

Isolation and Sequencing of a Genomic Clone for Mouse Brain Specific Small RNA

We isolated a mouse genomic clone that hybridized with small RNA present in the cytoplasm of the brain. The RNA was about 150 nucleotides long. This RNA seemed to be specific to the brain, since it was not found in the liver or kidney. The clone DNA contained a sequence homologous to 82-nucleotide "identifier" core sequence of cDNA clones of rat. The sequence contained a split promoter for RNA polymerase III and was flanked by a 12-nucleotide direct repeat (ATAAATAATTTA).     

Administration of 8-Hydroxy-2-(Di-n-Propylamino)tetralin in Raphe Nuclei Dorsalis and Medianus Reduces Serotonin Synthesis in the Rat Brain: Differences in Potency and Regional Sensitivity

Following administration of 8-hydroxy-2-(di-n-propylamino)tetralin (8-OH-DPAT; 0.04-5.0 micrograms/0.5 microliter) in the raphe nucleus dorsalis (DR) or medianus (MR), the synthesis of serotonin (5-HT), as assessed by the accumulation of 5-hydroxytryptophan (5-HTP) after decarboxylase inhibition, was measured in various regions of the rat CNS. At all doses, 8-OH-DPAT in the DR significantly reduced 5-HTP accumulation in the striatum, nucleus accumbens, cortex, and prefrontal cortex, whereas even the highest dose had no effect in the hippocampus, hypothalamus, and spinal cord. One microgram of 8-OH-DPAT in the MR significantly reduced 5-HTP accumulation in the nucleus accumbens and prefrontal cortex, and 5 micrograms had an effect in all the areas except the striatum and spinal cord. One and 5 micrograms of 8-OH-DPAT, administered in either the DR or MR, did not significantly modify the accumulation of dihydroxyphenylalanine in the striatum and nucleus accumbens. The results confirm that DR and MR have different sensitivities to 5-HT1A receptor agonists, and that activation of 5-HT1A receptors in these nuclei produces different effects on 5-HT synthesis in different brain regions.     

Decreased Expression of Calmodulin Kinase II and Calcineurin Messenger RNAs in the Mouse Hippocampus After Kainic Acid-Induced Seizures

Abstract: The Ca²⁺/calmodulin-dependent protein kinase II (CaMKII) and the phosphatase calcineurin (CaN) are especially abundant in the mammalian CNS, where they have been implicated repeatedly in different neuronal functions. CaMKII is a holoenzyme that is likely to be constituted of both homomultimers and heteromultimers, CaMKIIα and CaMKIIβ being the most abundant subunits in the brain. CaN is a heterodimer constituted of a catalytic subunit (CaN A) and a regulatory subunit (CaN B), and CaN Aα is the predominant form in the brain. We studied the expression of CaMKIIα, CaMKIIβ, and CaN Aα subunit messenger RNAs in the mouse hippocampus at different times after the administration of a convulsant dose of kainic acid. CaMKIIα and CaN A immunohistochemistry was also performed. We observed a transient decrease in the three messenger RNAs in the kainic acid-treated mice, peaking at 5 or 24 h of treatment. The effect had disappeared completely 8 days after treatment. No significant alterations in CaMKII or CaN immunolabelling were observed in the hippocampus of kainic acid-treated mice. The observed modifications could be due to the neuronal hyperexcitability induced by kainic acid rather than neuronal degeneration, because no areas of neuronal loss were detected. Our results suggest that the expression of CaMKII and CaN mRNAs is down-regulated in neuronal cells in response to the hyperexcitability induced by kainic acid. The transient nature of the effect and the apparent absence of significant modifications in the amount of their corresponding proteins may be related to the absence of neuronal damage.     

Norepinephrine transporter (NET) knock-out upregulates dopamine and serotonin transporters in the mouse brain

The noradrenaline, serotonin and dopamine transporters are three main transporters, which are the target of the antidepressant drugs. In the present study we demonstrate that the life-long deletion of the noradrenaline transporter (NET) induced up-regulation of two other monoamine transporters, dopamine and serotonin (DAT and SERT, respectively). An increase in the binding of [³H]paroxetine to the SERT and [³H]GBR12935 to the DAT was observed in various brain regions of NET-KO mice, without alterations of mRNA encoding these transporters, as measured by in situ hybridization. This important finding impacts the interpretation of previous data indicating the supersensitizity of NET-KO mice for psychostimulants or stronger effect of citalopram in behavioral tests. While using the NET-KO mice in various psychopharmacological studies is very important, one has to be aware that these mice lack NET from the earliest period of their existence, thus compensatory alterations do take place and have to be considered when it comes to interpretation of the obtained results.     

Expression and cellular localization of the mRNA for the 25-kDa heat-shock protein in the mouse

The 25-kDa heat-shock protein (Hsp25) is a member of the small heat-shock protein family but its function remains largely unknown. In the present study we examined the expression and cellular localization of Hsp25 mRNA in mice under physiological, unstressed conditions using Northern blot and in situ hybridization analyses with specific oligonucleotide probes. At the organ level, high amounts of Hsp25 mRNA were detected in the oesophagus, skin,eye, stomach, lung and urinary bladder, with moderate amounts in the heart, skeletal muscle, aorta, adrenal gland, ovary, testis, uterus, large intestine, and thymus. At the cellular level, intense to moderate signals for Hsp25 mRNA were localized in the muscle cells of smooth, heart and skeletal types, in the epithelial cells of stratified squamous and transitional types and of the oviduct, in the steroid endocrine cells of the adrenal cortex and corpus luteum, as well as in the spermatocytes of the testis. In contrast, the signal was scarcely detectable in the nervous tissues, lymphatic tissues, the columnar epithelial cells of the digestive tract, or the parenchymal cells of the liver, pancreas and kidney. These results suggest some significant role for Hsp25 in distinct populations of mouse cells under physiological conditions.     

博莱霉素同系物对癌基因表达的影响

应用快速酶联免疫法（ELISA）及Northern印迹杂交法研究了博莱霉素（BLM）同系物诱导癌基因表达的作用．通过检测P21和c－myc蛋白表达的改变和药物在RNA的转录水平上对癌基因表达的影响,证明BLM能够抑制c－myc基因的表达．这种抑制作用不仅发生在蛋白质的翻译水平,而且可能发生在RNA的转录水平上．BLMA6及A2对Ras基因亦有极显著的抑制,提示其亦为以p21蛋白为靶点的抗癌抗生素．A6、A2与A5之间的区别提示在同系物之间可能存在不同的抗癌机理     

Differential In Vivo Regulation of mRNA Encoding the Norepinephrine Transporter and Tyrosine Hydroxylase in Rat Adrenal Medulla and Locus Ceruleus

Abstract: To investigate the regulation of norepinephrine transporter mRNA in vivo, we analyzed the effects of reserpine on its expression in the rat adrenal medulla and locus ceruleus. First, PCR was used to clone a 0.5-kb rat cDNA fragment that exhibits 87% nucleotide identity to the corresponding human norepinephrine transporter cDNA sequence. In situ, the cDNA hybridizes specifically within norepinephrine-secreting cells, but in neither dopamine nor serotonin neurons, suggesting strongly it is a partial rat norepinephrine transporter cDNA. Reserpine, 10 mg/kg administered 24 h premortem, decreased steady-state levels of norepinephrine transporter mRNA in the adrenal medulla by ∼65% and in the locus ceruleus by ∼25%, as determined by quantitative in situ hybridization. Northern analysis confirmed the results of the in situ hybridization analysis in the adrenal medulla but did not detect the smaller changes observed in the locus ceruleus. Both analyses showed that reserpine increased tyrosine hydroxylase expression in the adrenal medulla and locus ceruleus. These results suggest that noradrenergic neurons and adrenal chromaffin cells can coordinate opposing changes in systems mediating catecholamine uptake and synthesis, to compensate for catecholamine depletion.     

Expression of atrial natriuretic factor gene in heart ventricular tissue

A novel peptide hormone, atrial natriuretic factor (ANF), was recently isolated and characterized in mammalian atria. This hormone has potent natriuretic, diuretic and vasorelaxant activities. Since ANF bioactivity was initially found in atria but not in ventricles, it was assumed that the ANF gene is specifically expressed in atria. We now report that ANF mRNA is present in ventricular tissue as well as in atria. This is clearly demonstrated by in situ hybridization and by Northern blot analysis. Rat ventricular ANF mRNA concentration is a hundred-fold lower than in atria. As in atria, the 126 amino acids precursor form of ANF is predominant in ventricles and it is present at a thousand-fold lower concentration. The ten-fold discrepancy in the ratio of ANF mRNA to immunoreactivity between atria and ventricles could reflect a higher rate of peptide release in the latter. Thus, ventricular ANF production may be physiologically significant in view of the much larger ventricular mass.