Expression of Neuronal Proteins in Cells from Normal Adult Rat Brain Propagated in Serial Culture

Abstract: Cells have been cultured from the brains of 60-day-old rats and propagated through 12 passages. The cells contain the high and middle, but not low, molecular weight neurofilament subunits and neuron-specific enolase, demonstrated by immunoblotting and immunocyto-chemistry with redundant antibodies. The cells did not have the morphology of neurons when cultured in medium containing fetal calf serum and growth factors. In low serum medium containing the same growth factors with the addition of dibutyryl cyclic AMP, the cells became smaller and developed long processes. Three clonal lines derived from these cultures had the same properties. These observations are in agreement with recent observations using mouse and human brain tissue and demonstrate that proteins normally associated with neurons can be found in dividing cells cultured from the brains of young adult rats.     

Selenium Regulates Gene Expression for Estrogen Sulfotransferase and Alpha 2U-globulin in Rat Liver

Dietary intake of the essential trace element selenium (Se) regulates expression of genes for seleno-proteins and certain non-Se-containing proteins. However, these proteins do not account for all of Se's biological effects. The objective of this work was to identify additional genes whose expression is regulated by Se. Identification of these genes may reveal new functions for Se or define mechanisms for its biological effects. Weanling male Sprague-Dawley rats were fed a Torula yeast-based Se-deficient basal diet or the same diet supplemented with 0.5 mg Se/kg diet as sodium selenite for 13 weeks. Total RNA was used as template for RNA fingerprinting. Two differentially expressed cDNA fragments were identified and cloned. The first had 99% nucleotide identity with rat liver estrogen sulfotransferase (EST) isoform-6. The second had 99% nucleotide sequence identity with rat liver 2u-globulin. The mRNA levels for both were markedly reduced in Se deficiency. Laser densitometry showed that EST mRNA in Se deficiency was 7.3% of that in Se-adequate rat liver. The level of 2u-globulin mRNA in Se-deficient rat liver was only 12.6% of that in Se-adequate rat liver. These results indicate that dietary Se may play a role in steroid hormone metabolism in rat liver.     

Time-dependent Alteration of Cytoskeletal Proteins in Cerebral Cortex of Rat During 2,5-Hexanedione-induced Neuropathy

To investigate the mechanisms of the axonopathy induced by 2,5-hexanedione (2,5-HD), male Wistar rats were administered at a dosage of 400 mg/kg/day 2,5-HD (five times per week). The rats produced a slightly, moderately, or severely abnormal neurological changes, respectively, after 2, 4, or 8 weeks of treatment. The cerebrums were Triton-extracted and ultracentrifuged to yield a pellet fraction and a corresponding supernatant fraction. The relative levels of six cytoskeletal proteins (NF-L, NF-M, NF-H, α-tubulin, β-tubulin, and β-actin) in both fractions were determined by immunoblotting. The results showed that NFs content in HD-treated rats demonstrated a progressive decline as the intoxication of HD continued. As for microtubule proteins, the levels of α-tubulin and β-tubulin demonstrated some inconsistent changes. The content of α-tubulin kept unchangeable, while the content of β-tubulin increased significantly at the late stage of HD exposure. Furthermore, the content of β-actin in both fractions remained unaffected throughout the study. These findings suggest that HD intoxication resulted in a progressive decline of NFs, which was highly correlated with the development of HD-induced neuropathy.     

Expression of Cytoskeletal Proteins in Neurons of the Rat Sensorimotor Cortex upon Hypoperfusion of the Brain and Sensitization by Cerebral Antigen

Neurophysiology - Relatively mild disturbances in the blood supply of the rat brain provided by ligation of one common carotid artery leading to relatively mild disturbances of the cerebral blood...     

Electrical Stimulation Accelerates and Enhances Expression of Regeneration-Associated Genes in Regenerating Rat Femoral Motoneurons

1. In this study we investigated whether electrical stimulation accelerates the upregulation of Talpha1-tubulin and GAP-43 (regeneration-associated genes; RAGs) and the downregulation of the medium-molecular-weight neurofilament (NFM), in concert with stimulation-induced acceleration of BDNF and trkB gene expression and axonal regeneration. 2. Two weeks prior to unilateral femoral nerve transection and suture, fluorogold (Fluorochrome Inc., Denver) or fluororuby (Dextran tetramethylrhodamine, Mol. Probes, D-1817, Eugene, OR) was injected into quadriceps muscles of the left and right hindlimbs to label the femoral motoneuron pools as previously described. Over a period of 7 days, fresh spinal cords were processed for semiquantitation of mRNA by using in situ hybridization. 3. There was an increase in Talpha1-tubulin and GAP-43 mRNA and a decline in the NFM mRNA at 7 days after nerve suture and sham stimulation but not in intact nerves. In contrast, 1-h stimulation of sutured but not intact nerves dramatically accelerated the changes in gene expression: mRNA levels of Talpha1-tubulin and GAP-43 were significantly elevated above control levels by 2 days while NFM mRNA was significantly reduced by 2 days in the sutured nerves. Thereby, the neurofilament/tubulin expression ratio was reduced at 2 days after suture and stimulation, possibly allowing more tubulin to be transported faster into the growing axons to accelerate the elongation rate following stimulation. Importantly, the changes in RAGs and NFM gene expression were delayed relative to the accelerated upregulation of BDNF and trkB mRNA by electrical stimulation. 4. The temporal sequence of upregulation of BDNF and trkB, altered gene expression of RAGs and NFM, and accelerated axonal outgrowth from the proximal nerve stump are consistent with a key role of BDNF and trkB in mediating the altered expression of RAGs and, in turn, the promotion of axonal outgrowth after electrical stimulation.     

Functional Expression of T-Type Ca2+ Channels in Spinal Motoneurons of the Adult Turtle

Voltage-gated Ca²⁺ (Ca_V) channels are transmembrane proteins comprising three subfamilies named Ca_V1, Ca_V2 and Ca_V3. The Ca_V3 channel subfamily groups the low-voltage activated Ca²⁺ channels (LVA or T-type) a significant role in regulating neuronal excitability. Ca_V3 channel activity may lead to the generation of complex patterns of action potential firing such as the postinhibitory rebound (PIR). In the adult spinal cord, these channels have been found in dorsal horn interneurons where they control physiological events near the resting potential and participate in determining excitability. In motoneurons, Ca_V3 channels have been found during development, but their functional expression has not yet been reported in adult animals. Here, we show evidence for the presence of Ca_V3 channel-mediated PIR in motoneurons of the adult turtle spinal cord. Our results indicate that Ni²⁺ and NNC55-0396, two antagonists of Ca_V3 channel activity, inhibited PIR in the adult turtle spinal cord. Molecular biology and biochemical assays revealed the expression of the Ca_V3.1 channel isotype and its localization in motoneurons. Together, these results provide evidence for the expression of Ca_V3.1 channels in the spinal cord of adult animals and show also that these channels may contribute to determine the excitability of motoneurons.     

DCC Expression by Neurons Regulates Synaptic Plasticity in the Adult Brain

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Highlights? DCC and netrin-1 are enriched at synapses in the adult mouse forebrain ? DCC is enriched in the PSD and regulates dendritic spine morphology ? LTP induction and memory formation require DCC expression by neurons ? DCC activation of Src is required for NMDAR-dependent LTP in adult CNS     

Membrane-Associated Cytoskeletal Proteins in Squid Giant Axons

Abstract: Cytoskeletal proteins (e.g., tubulin, actin, and neurofilament proteins) in the squid giant axon are separable into KF-soluble and -insoluble forms. The KF-insoluble cytoskeletal components appear to constitute the major proteins in the subaxolemmal fibrous network on the inner surface of the axon. These cytoskeletal proteins and the subaxolemmal network are both highly soluble in KI solutions. Whereas giant axons tolerate prolonged perfusions in KF solutions with no loss of excitable properties, a relatively short perfusion with KI solution completely eliminates the excitability of the axon. The loss of this excitability correlates with the simultaneous dissolution of the subaxolemmal network of cytoskeletal proteins and the release of its proteins into the perfusate. These data support the hypothesis that cytoskeletal proteins associated with the inner surface of the axolemma are involved in the regulation of axonal excitability.     

Gene Expression in Adult Metafemales of Drosophila Melanogaster

The expression of selected X-linked and autosomal genes was examined in metafemales (3X:2A) compared to diploid sisters. Three enzyme activities (glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, beta-hydroxyacid dehydrogenase) encoded by X-linked genes are not significantly different in the two classes of flies. In contrast, three autosomally encoded enzyme activities (alcohol dehydrogenase, alpha-glycerophosphate dehydrogenase, isocitrate dehydrogenase) are reduced in metafemales. Protein and DNA comparisons between metafemales and diploid sisters show a lowered level of total protein whereas the total DNA measurements are similar. Thus, the total cell number in metafemales is basically unchanged but gene expression is reduced. Phenotypic analysis of three autosomal loci, glass (gl), purple (pr) and pink-peach (pp), show that all three have lowered expression in metafemales while the X-linked loci, white-apricot (wa) and Bar (B), are dosage compensated. Quantitative dot blot analysis of messenger RNA levels of the second chromosomal locus, alcohol dehydrogenase (Adh), and the X chromosomal locus, rudimentary (r), show that Adh has reduced expression and r is partially compensated per total RNA in metafemales. It is proposed that the increased dosage of the X chromosome inversely affects both the X and autosomal gene expression but the simultaneous increased dosage of the structural genes on the X results in dosage compensation. The reduced levels of expression of autosomal genes could contribute to the great inviability of metafemales.     

雄激素对人前列腺细胞中鸟氨酸脱羧酶基因表达的调节作用

 为探讨雄激素对人前列腺中鸟氨酸脱羧酶（ Ｏ Ｄ Ｃ）基因表达的调节作用,以研究雄激素诱导前列腺良性增生的分子机理,分离培养了人胎儿前列腺间质细胞,以 Ｍ Ｔ Ｔ 法测定不同浓度 Ｄ Ｈ Ｔ对细胞的促增殖作用;以最适浓度的 Ｄ Ｈ Ｔ（１ ０００ μｇ／ Ｌ）刺激该细胞,分别于 ０,３,６,１２,２４,３０ ｈ 提取总 Ｒ Ｎ Ａ,用斑点杂交及 Ｎｏｒｔｈｅｒｎ ｂｌｏｔ 法分析测定各组细胞中 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ 的丰度,并对杂交膜进行薄层扫描定量．结果显示：（１） Ｄ Ｈ Ｔ 对前列腺间质细胞的增殖呈双相调节作用,即在低浓度时随着 Ｄ Ｈ Ｔ 浓度的增加,对该细胞的促增殖作用增强,１ ０００ μｇ／ Ｌ时刺激活性最强,高浓度 Ｄ Ｈ Ｔ 对该细胞的刺激作用降低．（２）斑点杂交显示,在 １ ０００ μｇ／ Ｌ Ｄ Ｈ Ｔ 刺激细胞后 ６ ｈ 时, Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ开始明显升高,２４ ｈ 达高峰（约为 ０ ｈ 的 ４８ 倍）,至 ３０ ｈ 有所降低．（３） Ｎｏｒｔｈｅｒｎ ｂｌｏｔ 结果显示,人胎儿前列腺间质细胞中有两种 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ,分别为 ２０ ｋｂ 和 ２６ ｋｂ,经扫描定量结果显示：１ ０００μｇ／ Ｌ Ｄ Ｈ Ｔ 对两种 Ｏ Ｄ Ｃ ｍ Ｒ Ｎ Ａ     

Androgen Inhibits Abdominal Fat Accumulation and Negatively Regulates the PCK1 Gene in Male Chickens

Capons are male chickens whose testes have been surgically incised. Capons show a significant increase in fat accumulation compared to intact male chickens. However, while caponization leads to a significant reduction in androgen levels in roosters, little is known about the molecular mechanisms through which androgen status affects lipogenesis in avian species. Therefore, investigation of the influence of androgens on fat accumulation in the chicken will provide insights into this process. In this study, Affymetrix microarray technology was used to analyze the gene expression profiles of livers from capons and intact male chickens because the liver is the major site of lipogenesis in avian species. Through gene ontology, we found that genes involved in hepatic lipogenic biosynthesis were the most highly enriched. Interestingly, among the upregulated genes, the cytosolic form of the phosphoenolpyruvate carboxykinase (PCK1) gene showed the greatest fold change. Additionally, in conjunction with quantitative real-time PCR data, our results suggested that androgen status negatively regulated the PCK1 gene in male chickens.     

Expression of Focal Adhesion Proteins in the Developing Rat Kidney

Focal adhesions play a critical role as centers that transduce signals by cell-matrix interactions and regulate fundamental processes such as proliferation, migration, and differentiation. Focal adhesion kinase (FAK), paxillin, integrin-linked kinase (ILK), and hydrogen peroxide–inducible clone-5 (Hic-5) are major proteins that contribute to these events. In this study, we investigated the expression of focal adhesion proteins in the developing rat kidney. Western blotting analysis revealed that the protein levels of FAK, p-FAK³⁹⁷, paxillin, p-paxillin¹¹⁸, and Hic-5 were high in embryonic kidneys, while ILK expression persisted from the embryonic to the mature stage. Immunohistochemistry revealed that FAK, p-FAK³⁹⁷, paxillin, and p-paxillin¹¹⁸ were strongly expressed in condensed mesenchymal cells and the ureteric bud. They were detected in elongating tubules and immature glomerular cells in the nephrogenic zone. Hic-5 was predominantly expressed in mesenchymal cells as well as immature glomerular endothelial and mesangial cells, suggesting that Hic-5 might be involved in mesenchymal cell development. ILK expression was similar to that of FAK in the developmental stages. Interestingly, ILK was strongly expressed in podocytes in mature glomeruli. ILK might play a role in epithelial cell differentiation as well as kidney growth and morphogenesis. In conclusion, the temporospatially regulated expression of focal adhesion proteins during kidney development might play a role in morphogenesis and cell differentiation.     

Hemopexin Modulates Expression of Complement Regulatory Proteins in Rat Glomeruli

In systemic hemolysis and in hematuric forms of kidney injury, the major heme scavenging protein, hemopexin (HPX), becomes depleted, and the glomerular microvasculature (glomeruli) is exposed to high concentrations of unbound heme, which, in addition to causing oxidative injury, can activate complement cascades; thus, compounding extent of injury. It is unknown whether unbound heme can also activate specific complement regulatory proteins that could defend against complement-dependent injury. Isolated rat glomeruli were incubated in media supplemented with HPX-deficient (HPX⁻) or HPX-containing (HPX⁺) sera as a means of achieving different degrees of heme partitioning between incubation media and glomerular cells. Expression of heme oxygenase (HO)-1 and of the complement activation inhibitors, decay-accelerating factor (DAF), CD59, and complement receptor-related gene Y (Crry), was assessed by western blot analysis. Expression of HO-1 and of the GPI-anchored DAF and CD59 proteins increased in isolated glomeruli incubated with HPX⁻ sera with no effect on Crry expression. Exogenous heme (hemin) did not further induce DAF but increased Crry expression. HPX modulates heme-mediated induction of complement activation controllers in glomeruli. This effect could be of translational relevance in glomerular injury associated with hematuria.