Rat brain thioltransferase: regional distribution, immunological characterization, and localization by fluorescent in situ hybridization

Thioltransferase (TTase) is a member of the family of thiol-disulfide oxidoreductases that are involved in the maintenance of sulfhydryl homeostasis in cells by catalyzing thiol-disulfide interchange reactions. One of the major consequences of oxidative stress in brain is the formation of protein-glutathione mixed disulfides (through oxidation of protein thiols), which can be reversed by TTase during the recovery of brain from oxidative stress. We therefore examined the presence of TTase in brain regions from rat. In the rat, TTase activity in the whole brain was comparable with the corresponding activity in liver, but significantly higher in hippocampus. The enzyme activity was significantly lower in striatum and cerebellum compared with activity in whole brain. Rat brain TTase shared immunological similarity with the human red blood cell enzyme, but not with the pig liver enzyme. The constitutive expression of the mRNA to TTase was demonstrable by northern blotting. Localization of the TTase mRNA in rat brain by fluorescent in situ hybridization showed the presence of high amounts of mRNA in the olfactory bulb, cortex, and hippocampus and its predominant localization in the neurons. TTase mRNA was also present in Purkinje cells in the cerebellum, in giant reticular neurons in the midbrain, and in the striatal and thalamic neurons. This study demonstrates the constitutive presence of a functional TTase system in brain and delineates the regional and cellular localization of the enzyme in rat brain.     

小鼠胚胎干细胞移植入成体大鼠脑内的区域特异性存活与分化

全能区域非特异性的胚胎干细胞是研究成体不同脑区控制干细胞分化能力的十分有力的工具。胚胎干细胞源性神经前体细胞移植入成体脑后可分化为功能性神经元,但是未分化的胚胎干细胞在成体脑内各个部位的存活、生长与分化的潜能差异尚不清楚。本文旨在探讨成体脑组织对胚胎干细胞的影响及胚胎干细胞在成体脑内的一系列行为。将少量转绿色荧光蛋白未分化的小鼠胚胎干细胞移植入成体大鼠脑内不同部位,分别于移植5、14和28d后处死大鼠,进行形态学观察及免疫组化定性,以了解未分化的小鼠胚胎干细胞在大鼠脑内不同区域的存活、生长与分化。结果发现未分化的小鼠胚胎干细胞可逐步整合入受体组织并向nestin阳性神经前体细胞分化。移植细胞及其后裔在海马生长最为旺盛,而在隔区最差（P〈0．01）;移植细胞分化为神经干细胞的效率也是在海马最高,而在隔区最低（P〈0．01）。提示只有部分脑区适合胚胎干细胞及其后裔生存,并提供促进其分化的有益环境。因此,由于位置特异的微环境因子及环境因素的存在,宿主组织特性对决定中枢神经系统疾病的细胞替代疗法策略是相当重要的。     

Presence of Conjugated Catecholamines in Rat Brain: A New Method of Analysis of Catecholamine Sulfates

Abstract: A new method of measuring catecholamine (CA) sulfate permitted us to detect its presence in rat brain for the first time. The procedure consisted of separating the CA sulfate from the free CA by alumina adsorption followed by passage through Dowex, and measuring the CA sulfate by a radioenzymatic assay in the presence of a sulfatase. This method permitted demonstration of the presence of dopamine sulfate, and occasionally, of norepinephrine and epinephrine sulfate in the hypothalamus, striatum, and hippocampus of rat brain.     

Penetration of thyroliberin in the blood and brain regions at intranasal or intravenous administration

The maximum amounts of the thyroliberin in the blood and brain of rats at intranasal and intravenous administration were determined. It is found that rat hippocampal, cortical, and cerebellar membranes contain two types of specific binding sites (high- and low-affinity) for the labeled ligand. It was shown that, at intranasal and intravenous administration, maximum amounts of the thyroliberin were detected in the cerebellum and then in the cortex and hippocampus. The degradation of the thyroliberin in the rat brain and its regions at intranasal and intravenous administration was studied. It is shown that the degree of degradation and the formation of proteolytic products of the thyroliberin is different in different regions of the rat brain.     

Hypothermia Protects the Brain from Transient Global Ischemia/Reperfusion by Attenuating Endoplasmic Reticulum Response-Induced Apoptosis through CHOP

Endoplasmic reticulum (ER) stress has been implicated in the pathology of cerebral ischemia. Apoptotic cell death occurs during prolonged period of stress or when the adaptive response fails. Hypothermia blocked the TNF or Fas-mediated extrinsic apoptosis pathway and the mitochondria pathway of apoptosis, however, whether hypothermia can block endoplasmic reticulum mediated apoptosis is never known. This study aimed to elucidate whether hypothermia attenuates brain cerebral ischemia/reperfusion (I/R) damage by suppressing ER stress-induced apoptosis. A 15 min global cerebral ischemia rat model was used in this study. Terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) positive cells in hippocampus CA1 were assessed after reperfusion of the brain. The expressions of C/EBP-homolo gous protein (CHOP) and glucose-regulated protein 78 (GRP78) in ischemic hippocampus CA1 were measured at 6, 12, 24 and 48 h after reperfusion. The results showed that hypothermia significantly attenuated brain I/R injury, as shown by reduction in cell apoptosis, CHOP expression, and increase in GRP78 expression. These results suggest that hypothermia could protect brain from I/R injury by suppressing ER stress-induced apoptosis.     

The multiple untranslated first exons and promoters system of the oestrogen receptor gene in the brain and peripheral tissues of the rat and monkey and the developing rat cerebral cortex

Recent studies on the human oestrogen receptor (ER) gene have revealed the complex system with the multiple untranslated first exons and promoters in the ER gene expression. Little information is however available on the system in the ER gene of the rat or nonhuman primate. The rat genomic library was first screened by the rat ER cDNA (0–1) probe. One of the four positive clones (λ rEgEl) was subcloned and sequenced. The nucleotide sequence was found to contain the exon 0, the intron 0, and the exon 1 with its 3′-ends. The novel untranslated first exons, the exon ON and the exon OS, were further identified. These results indicated the presence of at least four subtypes of the rat ER mRNAs; the messages transcribed from promoter P-0 (ER mRNA (0–1)), putative promoter P-1 (ER mRNA (1–1)), promoter P-ON (ER mRNA (ON-1)) and promoter P-OS (ER mRNA (OS-1)). The P-O- or P-1 driven message (0–1) or (1–1) appeared to be expressed most strongly in major oestrogen central- (anterior pituitary, AP, hypothalamus–preoptic area, HPOA, and amygdala, AMG) and peripheral targets (uterus and ovary). The message (ON-1) was strongly expressed in the liver and kidney, but not in the HPOA, AMG, cerebral cortex, CC, and cerebellum, Ce. The OS-1 message was expressed variably but generally in the tissues examined except for the CC and Ce. Thus, the region- and tissue specific expression of the rat ER gene is likely to be regulated by the multiple untranslated exons and promoters system. Furthermore, when the ER mRNA subtypes were examined in the rat neonatal CC where the ER protein level rose transiently, considered as a model for the development of the ER or progestin receptor A and B isoforms, the expression of the ER mRNAs seemed to be differential postnatally, implicating some stage dependent usage of the promoters in the development. In the monkey, we identified the untranslated first exon OS, the homologue of the rat exon OS. Interestingly, the exon C was found to consist of two different exons, the exon OK and the exon OG. By the alternative usage of the promoters and the alternative splicing, at least six ER mRNA subtypes, that is, ER mRNAs (0–1), (1–1), (OS-1), (OS-OG-1), (OK-1) and (OK-OG-1) were identified in the monkey tissues. These messages were also differentially distributed in the monkey brain and other tissues. It was noteworthy that the P-OK driven messages were expressed almost exclusively in the monkey liver. These results have suggested that the systems of the multiple untranslated first exons and promoters and the alternative splicing are involved in the regulation of the region- and tissue specific expression of the ER gene in the brain and peripheral tissues of the rat and monkey. Stage-related usage of the promoters was also suggested in the ER gene expression in the CC of the postnatal rat in development.     

Detection of endogenous biotin in various tissues: novel functions in the hippocampus and implications for its use in avidin-biotin technology

Significant amounts of endogenous biotin were detected by avidin-peroxidase in fixed rat kidney, liver, and brain. The staining was indistinguishable from the true signals of immunoreactivity and could not be consistently blocked by pretreatment with avidin. The finding that certain neurons in the hippocampus contain more biotin than neurons in other areas of the brain suggests that biotin might have novel functions in the brain other than its well-known role as cofactor of carboxylases. Critical examination of published immunohistochemical localization studies on rat kidney strongly suggests that many false-positive results have been considered as true signals. Interference of endogenous biotin in any study using avidin-biotin technology must be considered if biological tissues are involved. The published data obtained by this method should therefore be reevaluated. Furthermore, appropriate controls, blockers and caution in interpreting results must be exercised, not only in immunohistochemistry but also in any applications of avidin-biotin technology.     

Neuropeptide Y receptors in rat brain: autoradiographic localization

Neuropeptide Y (NPY) receptor binding sites have been characterized in rat brain using both membrane preparations and receptor autoradiography. Radiolabelled NPY binds with high affinity and specificity to an apparent single class of sites in rat brain membrane preparations. The ligand selectivity pattern reveals strong similarities between central and peripheral NPY receptors. NPY receptors are discretely distributed in rat brain with high densities found in the olfactory bulb, superficial layers of the cortex, ventral hippocampus, lateral septum, various thalamic nuclei and area postrema. The presence of high densities of NPY and NPY receptors in such areas suggests that NPY could serve important functions as a major neurotransmitter/neuromodulator in the central nervous system.     

Differential distribution of rat PDE-7 mRNA in embryonic and adult rat brain

Currently not much is known about the distribution and function of the phosphodiesterase type 7 (PDE-7) enzyme. Therefore, we carried out an extensive distribution analysis of the rat and human PDE-7 byin situ hybridization as well as RT-PCR. We isolated a partial rat cDNA clone that is highly homologous to the sequence of the human PDE-7 gene. RT-PCR tissue distribution analyses revealed expression of the mRNA of the human and rat-enzymes in most of the examined tissues, like adult heart, lung, brain, and liver, as well as in several cell lines of the immune system.In situ hybridization with the rat PDE-7 showed a differential expression pattern during the late phases of the developing rat brain with higher levels of mRNA in cortical and telencephalic structures in d 16, 18 and 20 embryonic stages, whereas in adult rat brain, higher amounts of mRNA could only be detected in cerebellum and, to a lesser extent, in hippocampus and the olfactory system.     

Noladin ether, a putative novel endocannabinoid: inactivation mechanisms and a sensitive method for its quantification in rat tissues

The occurrence of the novel proposed endocannabinoid, noladin ether (2-arachidonyl glyceryl ether, 2-AGE) in various rat organs and brain regions, and its inactivation by intact C6 glioma cells, were studied. 2-AGE was measured by isotope dilution liquid chromatography-atmospheric pressure chemical ionization-mass spectrometry, with a detection limit of 100 fmol. A compound with the same mass and chromatographic/chemical properties as 2-AGE was found in whole brain, with the highest amounts in the thalamus and hippocampus. Synthetic [(3)H]2-AGE was inactivated by intact rat C6 glioma cells by a time- and temperature-dependent process consisting of cellular uptake and partial incorporation into phospholipids. Further data suggested that 2-AGE is taken up by cells via the anandamide/2-arachidonoyl glycerol (2-AG) membrane transporter(s), and biosynthesized in a different way as compared to 2-AG.     

Platelet-activating factor (PAF) receptor in rat brain: PAF mobilizes intracellular Ca2+ in hippocampal neurons.

Platelet-activating factor (PAF), an alkylether phospholipid, is produced in the brain when it is subjected to various stimuli. Using a Xenopus oocyte expression system, we obtained evidence for functional PAF receptor mRNA expression in rat brain. The presence of the PAF receptor was confirmed and shown to be quite ubiquitous in the CNS by RNA blot and radioligand binding studies. To investigate the neuronal functions of PAF, intracellular Ca2+ increase elicited by nanomolar PAF application was analyzed in cultured rat hippocampal cells. Fractions of NMDA-responsive cells and non-NMDA-responsive cells were shown to respond to PAF, suggesting a potential role for PAF in the Ca2+ signaling pathway in the hippocampus.     

Similar high molecular weight forms of growth hormone-releasing hormone are found in rat brain and testis

We have utilized a new radioimmunoassay for rat growth hormone-releasing hormone (GHRH) to investigate the presence of GHRH in different organ systems of adult rat, and specifically the rat central nervous system (CNS). The highest concentration of GHRH was found, as expected, in the hypothalamus, but significant amounts were also located in the brain cortex, predominantly the frontal cortex, as well as in the testis. Smaller amounts were identified in the cerebellum and brain stem. Sephadex and reversed phase high performance liquid chromatography demonstrated that while hypothalamic GHRH exclusively eluted at the position of rat GHRH (1-43), in testis and brain the major form was predominantly (testis) or wholly (brain) of a higher molecular weight. While this molecular species has yet to be further characterized, the data suggest the similar GHRH-like species exist in the CNS as well as the testis.     

CITRATE OXIDATION IN THE CYTOPLASMIC FRACTION OF RAT BRAIN

Abstract— The cytoplasmic fraction derived from rat brain was shown to possess the ability to oxidize citrate in the presence of NADP, but not in that of NAD. The rate of citrate oxidation is limited by the rate of the aconitase-catalysed isomerization. The dependence of the reaction rate on the protein, citrate and NADP concentrations, and on reaction time, was determined. It was found that 2-oxoglutarate and NADPH, both formed in the citrate oxidation reaction, do not appear in amounts equivalent to the losses of citrate. The possible ways of utilization of the above products in the rat brain cytoplasmic fraction are discussed.
It is suggested that the oxidation of citrate in rat brain cytoplasm may proceed–among other metabolic routes–through its conversion into isocitrate (aconitase) and then 2-oxoglutarate (NADP dehydrogenase) and oxaloacetate (aspartate aminotransferase). In addition it has been shown that hypoxia may markedly effect the activity of the cytoplasmic citrateoxidizing system.     

Alzheimer's disease and estrogen

The preventive effect of estrogen on Alzheimer's disease (AD) has become clear with epidemiological data. Therapeutic effects of estrogen have not yet been established. In this presentation, we report our new basic and clinical data. The estrogen receptor, (ER), and ERβ mRNA were investigated in rat brain. Estradiol-17β (E₂) treatment following OVX reduced the levels of ER mRNA in the hypothalamus. In the substantia innominata (SI), the number of choline acetyltransferase immunoreacive cells increased significantly in the estrogen treatment rat. The neurons in SI projecting to the forebrain cortex contained ER. Increasing amounts of intracellular calcium, peroxidation, and apoptosis with amyloid β were suppressed in neuronal cells from rat pheochromocytoma (PC12) cells with E₂. ER cDNA transfected PC 12 cells elaborated more neurite-like processes with E₂. In clinics, we are currently preparing vaginal progesterone tablets, which essentially may concentrate in the endometrium to prevent endometrial cancer, with few general circulation of progesterone inviting less depression. The therapeutic effects of cyclic estrogen, such as its preventive effect, are suggested in these studies, at least on mild AD.     

Distribution and persistence of kainic acid in brain.

The distribution of ³H-kainic acid in rat brain was studied as a function of time after injections of 5 nmoles into the neostriatum, substantia nigra or cerebellum. More than half of the injected material had disappeared from the injection site and the brain by 1/2 hour post injection. Under the conditions used very small amounts of radioactivity (corresponding to less than 7 pmol/ mg of tissue) were found in areas other than the injection site, suggesting that the histological damage reported in the hippocampus and pyriform cortex after striatal injections may be due to a secondary process not dependent on the presence of toxic concentrations of kainic acid in those areas. No radioactivity was found in the TCA-insoluble material nor did it appear that there was rapid metabolism of the bulk of the kainic acid.     

Epidermal growth factor immunoreactive material in the rat brain. Localization and identification of multiple species

Brains of adult male rats were dissected into five distinct regions: brainstem, cerebellum, hippocampus, diencephalon, and telencephalon. Epidermal growth factor-like immunoreactivity was isolated and characterized by radioimmunoassay and nondenaturing polyacrylamide gel electrophoresis. Radioimmunoassay indicated levels of standard rat epidermal growth factor equivalents ranging from 0.99 to 0.33 ng/g wet weight of brain tissue. Competition curves were not parallel to those generated with standard rat epidermal growth factor, indicating a lack of structural identity between the immunoreactive material in the brain and standard rat epidermal growth factor. Extracts of submandibular gland and blood did, however, produce parallel competition curves. Electrophoresis indicated the presence of multiple bands of immunoreactive material in each of the regions of the brain. The major bands of activity migrated to positions distinct from that of standard rat epidermal growth factor. This is the first demonstration of multiple forms of epidermal growth factor-like immunoreactive material in the central nervous system.