Surface Proteins of Cultured Mouse Cerebellar Cells

Surface proteins of cultured monolayer cells from embryonic and early postnatal C57BL/6J mouse cerebella were identified by a lactoperoxidase-catalysed ¹³¹iodine labelling technique. Major iodinated polypeptides have molecular weights of approximately 200, 145, 120, 100, 85, 65, 50, and 30 X 10³ (P200, P145, ?) as estimated by sodium dodecylsulphate polyacrylamide gel electrophoresis. Membrane glycoproteins, of apparent molecular weights 200, 145, 100, 85, and 50 X 10³, are detected by biosynthetic labelling with [³H]fucose. The two major iodinated proteins are the glycoproteins P200 and P145. P145 is released from the cells into the medium together with other surface proteins. No changes in the patterns of labelled cerebellar cell surface proteins are detectable between embryonic day 17 and postnatal day 10. A pattern similar to the one seen with cerebellum is obtained with embryonic day 12 and 17 cerebral cortex. Cultured retinal cells from 2-day-old mice, skin fibroblasts, and l -cells display a distinctly different pattern, which does not contain P145 as a major iodinated component. In granule cell-enriched fractions of cerebellar cells the two glycoproteins P200 and P145 are proportionately increased, while three proteins, P100, P85, and P50, are more abundant in the glial cell-enriched fraction. These three polypeptides are also enriched in cells obtained from staggerer mutant mice. An antiserum against 4-day-old cerebellar cells (anti-NS-4) precipitates the 145 and 200 X 10³ molecular weight proteins, from lysates of both embryonic cerebral and postnatal cerebellar cells. From lysates of mouse retinal cells, anti-NS-4 antiserum precipitates two proteins with molecular weights of 140 and 210 X 10³. Rohrer H. and Schachner M. Surface proteins of cultured mouse cerebellar cells. J. Neurochem. 35, 792–803 (1980).     

Proliferation of Cultured Mouse Choroid Plexus Epithelial Cells

The choroid plexus (ChP) epithelium is a multifunctional tissue found in the ventricles of the brain. The major function of the ChP epithelium is to produce cerebrospinal fluid (CSF) that bathes and nourishes the central nervous system (CNS). In addition to the CSF, ChP epithelial cells (CPECs) produce and secrete numerous neurotrophic factors that support brain homeostasis, such as adult hippocampal neurogenesis. Accordingly, damage and dysfunction to CPECs are thought to accelerate and intensify multiple disease phenotypes, and CPEC regeneration would represent a potential therapeutic approach for these diseases. However, previous reports suggest that CPECs rarely divide, although this has not been extensively studied in response to extrinsic factors. Utilizing a cell-cycle reporter mouse line and live cell imaging, we identified scratch injury and the growth factors insulin-like growth factor 1 (IGF-1) and epidermal growth factor (EGF) as extrinsic cues that promote increased CPEC expansion in vitro. Furthermore, we found that IGF-1 and EGF treatment enhances scratch injury-induced proliferation. Finally, we established whole tissue explant cultures and observed that IGF-1 and EGF promote CPEC division within the intact ChP epithelium. We conclude that although CPECs normally have a slow turnover rate, they expand in response to external stimuli such as injury and/or growth factors, which provides a potential avenue for enhancing ChP function after brain injury or neurodegeneration.     

Creatine Transport in Cultured Cells of Rat and Mouse Brain

Astroglia-rich cultures derived from brains of newborn rats or mice use a transport system for the uptake of creatine. The uptake system is saturable, Na+-dependent, and highly specific for creatine and Na+. Kinetic studies on rat cells revealed a Km value for creatine of 45 microM, a Vmax of 17 nmol x h-1 x (mg of protein)-1, and a Km value of 55 mM for Na+. The carrier is competitively inhibited by guanidinopropionate (Ki = 15 microM). No such transport system was found in neuron-rich primary cultures from embryonic rat brain. It is hypothesized that creatine transport is an astroglial rather than a neuronal function.     

Synthesis and Secretion of Transferrin by Cultured Mouse Hepatoma Cells

The mouse hepatoma cell (Hepa-1) in tissue culture has been shown to synthesize and secrete three electrophoretically distinct transferrins. Each of these forms of transferrin has a molecular weight of 77,000, as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The concentration of each form is indicated by its staining intensity, which is highest in the form with the fastest mobility and lowest in the form with the slowest mobility. The relative rate of transferrin synthesis has been determined in log-phase and stationary-phase cells; the data indicate that the relative rate of synthesis increases twofold in stationary-phase cells. When the incorporation of [³H]leucine into transferrin reaches steady state, the rate of secretion is equal to the rate of synthesis; the rate of secretion also increases twofold in stationary-phase cells. Our studies also show that transferrin synthesis accounts for 0.98% of the total protein synthesis in log-phase cells and for 1.8% in stationary-phase cells. This is the level of synthesis that has been determined by in vivo studies. We conclude that after continuous culture for several years these hepatoma cells have maintained one of the characteristics of the differentiated liver cell, namely, the ability to synthesize and secrete transferrin.     

小鼠皮肤黑色素瘤细胞在三种不同基质上的趋电性比较

微小直流电场具有指导细胞进行定向迁移的作用。各种细胞外基质的物理、化学性质会影响细胞的迁移。该研究以小鼠皮肤黑色素瘤细胞（B16-F10）为模型,比较微直流电场（250mV／mm）指导下细胞在平滑基底与两种不同市售基质Matrigel及FNC上的趋电性。结果显示,黑色素瘤细胞在三种基底上均有明显的向电场阴极迁移的趋电运动,但在不同基质上细胞趋电的方向性无显著差异,但细胞迁移速度及在细胞沿电场进行定向迁移的持续性有显著差异。     

Recovery of Aging-Related Size Increase of Skin Epithelial Cells: In vivo Mouse and In vitro Human Study

The size increase of skin epithelial cells during aging is well-known. Here we demonstrate that treatment of aging cells with cytochalasin B substantially decreases cell size. This decrease was demonstrated on a mouse model and on human skin cells in vitro. Six nude mice were treated by topical application of cytochalasin B on skin of the dorsal left midsection for 140 days (the right side served as control for placebo treatment). An average decrease in cell size of 56±16% resulted. A reduction of cell size was also observed on primary human skin epithelial cells of different in vitro age (passages from 1 to 8). A cell strain obtained from a pool of 6 human subjects was treated with cytochalasin B in vitro for 12 hours. We observed a decrease in cell size that became statistically significant and reached 20–40% for cells of older passage (6–8 passages) whereas no substantial change was observed for younger cells. These results may be important for understanding the aging processes, and for cosmetic treatment of aging skin.     

Activation and Suppression of Melanogenesis in Mouse Melanoma Cells by Hybridization with Chick Embryonic Cells

Sendai virus-induced fusion of 6-thioguanine-resistant mouse melanoma cells (TG14) with various types of chick embryonic tissue cells resulted in the formation of hybrid cells. Isolated hybrid clones possessed almost complete sets of the cell chromosomes of the parent mouse and several dot-like chromosomes of the chick. Each type of hybrid clone showed characteristic tyrosinase activity that resulted in melanin production. An enhanced production of melanin was observed in the hybrids between not highly pigmented TG14 cells and retinal pigment cells. Electrophoretic analyses showed that banding patterns of tyrosinase were not of chick type but of mouse melanoma type. Numerous stage 111 and IV melanosomes of the mouse melanoma type were observed in pigmented hybrid clones. On the other hand, hybrid cells between mouse melanoma cells and chick embryonic liver cells exhibited lower tyrosinase activity.     

Gold Nanoparticle Uptake by Tumour Cells of B16 Mouse Melanoma

Because of their photo-optical distinctiveness and biocompatibility, gold nanoparticles have proven to be powerful tools in various nanomedical applications. In this article, we discuss the advantage of gold nanoparticles in image diagnostic application of melanoma. It has demonstrated the potential role of gold nanoparticles in the study of tumour tissue architecture and the utility of gold nanoparticles in the hystopathological exam of B16 melanoma with the benefit of fluorescence emission of gold nanoparticles in UV spectrum. The optical properties of colloidal gold nanoparticles allow spectroscopic detection and identification of melanoma cells. The method proposed is easy, inexpensive and reliable for hystopathological analysis of melanoma. The fluorescence images in the cryosections of tissues depicted a strong luminescence property of gold nanoparticles uptaken in melanoma, results that confirm the role of the gold nanoparticles in biological labelling and imaging applications. To emphasize the AuNPs influence over the biological tissues, a study of the chemical bonds configuration was performed using Raman spectrometry.     

Angiotensin II Inactivation Process in Cultured Mouse Spinal Cord Cells

The pattern of hydrolysis of [3H]angiotensin II ( [3H]AII; 20 nM) by intact cells was studied on cultured mouse spinal cord cells. Degradation products were identified by HPLC analysis after incubation for 2 h at 37 degrees C. In the absence of peptidase inhibitors, 70% of [3H]AII was degraded, and the main labeled metabolite was [3H]tyrosine (40% of total radioactivity). Minor quantities of [3H]AII1-5 and [3H]AII4-8 were formed. Results obtained in the presence of various inhibitors indicate that several enzymes were involved in the AII-hydrolyzing process. Dipeptidyl aminopeptidase III (EC 3.4.14.4) could play a critical role, as suggested by the formation of [3H]Val3-Tyr4 and [3H]-Tyr4-Ile5 in the presence of bestatin (2 X 10(-5) M). This hypothesis was confirmed by the potency of dipeptidyl amino-peptidase III inhibitors to inhibit both [3H]AII hydrolysis and formation of these 3H-labeled dipeptides. An arylamidase-like activity could also be participating in [3H]AII hydrolysis, because higher concentrations of bestatin (10(-4) M) in association with dipeptidyl aminopeptidase III inhibitors totally inhibited [3H]tyrosine formation, increased protection of [3H]AII and [3H]AII1-7 formed, and provoked a slight accumulation of [3H]AII2-8. These results suggest that the formation of [3H]AII2-8 is due to the action of a bestatin-insensitive acidic aminopeptidase and that the Pro7-Phe8 cleavage is also a step of AII hydrolysis, resulting from the action of an unidentified peptidase different from prolyl endopeptidase.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of Muscarinic Receptor-Mediated Cyclic GMP Synthesis by Cultured Mouse Neuroblastoma Cells

Mouse neuroblastoma clone N1E-115 has muscarinic acetylcholine receptors that mediate cyclic GMP synthesis. This receptor-mediated response is not significantly higher than background until the cells have been maintained in the stationary phase for at least 1 week. The basis of the influence of time in culture on the cyclic GMP response was investigated. The relative amount of cyclic GMP synthesized by intact cells was measured by radioactively labeling the GTP pool with [³H]guanine, incubating cells with agonists, and then chromatographically isolating [³H]cyclic GMP. Carbamylcholine-, ionophore X-537A-, and sodium azide-induced cyclic GMP formation increased with time in culture to a maximum of 13-, 9-, and 2.5-fold above basal, respectively. There was no change in the number or the apparent affinity of the muscarinic receptors as measured by [³H]quinuclidinyl benzylate ([³H]QNB) binding. In addition, there was no change in the apparent affinity of the receptors for agonist as measured by the ability of carbamylcholine to displace the specific binding of [³H]QNB. Guanylate cyclase activity per milligram protein and per cell in-creased six- and sevenfold, respectively, from day 0 to day 22. However, this increase in guanylate cyclase appeared to precede the marked increase in sensitivity of the cells to agonists. These data suggest that, in addition to guanylate cyclase and muscarinic receptors, there is another factor which is responsible for the development of this muscarinic receptor-mediated response.     

Effects of Divalent Cations on the Glycolipids from Cultured Mouse Neuroblastoma Cells

Abstract: The influence of divalent cations on glycosphingolipid metabolism was examined in the NB41A mouse neuroblastoma clonal cell line. HPLC methods were utilized to quantitate the effects on neutral glycolipids and monosialogangliosides. NB41A cells were shown to contain G_M3, G_M2, G_M1, G_D3, and G_D1a by HPLC and TLC. The neutral glycosphingolipids consisted of glucosylceramide (GlcCer), lactosylceramide (LacCer), GaINAc(β1→4) Gal(β1→4)Glc(β1→1)Cer (GgOse₃Cer), and GaINAc(β1→3)Gal(α1→4) Gal-(β1→4)Glc(β1→1)Cer (GbOse₃Cer) according to their HPLC behavior. Cells grown in the presence of 1.85 mm -EGTA showed a two- to threefold increase in G_M3 whereas other glycosphingolipids were only slightly affected. When cells were grown in the presence of 1.45 mm -EGTA plus 0.4 mm -EDTA a similar increase in G_M3 was observed but this change was now accompanied by decreases in G_M2, G_M1 GgOse₃Cer, and GbOse₄Cer. The EGTA-EDTA effects were reversed when growth was in the presence of Ca²⁺ sufficient to bind all chelator. Mn²⁺ replacement reversed the chelator effects differentially; G_M2 and G_M1 levels were the most sensitive to increases in Mn²⁺ concentration; GgOse₃Cer and GbOse₄Cer were also sensitive, whereas G_M3 was the least affected. These results suggest calcium serves an important regulatory role on G_M3 levels and that manganese concentration may regulate the levels of galactosamine-containing glycolipids in mouse NB41A neuroblastoma cells.     

Inhibitory Effects of Whisky Polyphenols on Melanogenesis in Mouse B16 Melanoma Cells

Whisky exerts an inhibitory effect on melanogenesis in B16 cells, the anti-melanogenic activity being positively correlated with the aging period and anti-oxidative activity of whisky. We examined the correlation between the inhibition of melanogenesis and the concentration of each compound in various whiskies to evaluate the importance of 11 different whisky polyphenols, including ellagic acid, gallic acid and lyoniresinol, in the anti-melanogenic activity of whisky. The concentration of all the compounds was positively correlated with the anti-melanogenic activity of whisky. Ellagic acid, gallic acid and lyoniresinol were the predominant polyphenols in the whiskies measured by HPLC. These three compounds also significantly inhibited the melanogenesis and tyrosinase activity in B16 cells. Ellagic acid, gallic acid and lyoniresinol were confirmed as the major participants in the anti-melanogenic activity of whisky.     

小鼠生殖细胞体外分化与发育机制

小鼠作为发育机制的模式动物,其生殖细胞分化与发育的研究一直是发育生物学研究的重点之一。主要综述了小鼠原始生殖细胞的起源、迁移与增殖的机制,以及原始生殖细胞向生殖细胞的分化,卵母细胞与精子的发生与发育机理,讨论了胚胎干细胞向生殖细胞体外诱导分化以及生殖细胞体外培养的应用前景。     

Replication of Radiation-Induced Murine Leukemia Virus in Normal and Transformed Mouse Cells

Autonomous radiation-induced leukemia virus (RadLV) replication could be detected in mouse 3T3 cells by the development of interference with murine sarcoma virus (MSV), the appearance of covert helper activity for defective MSV, and by the induction of cytopathic effect type foci in MSV-transformed, leukemia virus-negative (S+L-) cells. A chronic infection of either 3T3 or S+L- cells with RadLV could be established. Both RadLV infectivity and helper activity were demonstrated in the same peak at a buoyant density of 1.16 g/cm(3). Additionally a soluble inhibitor of MSV focus formation was found which could be separated from infectious RadLV. Examination of cell clones derived from chronically infected 3T3 cells showed that essentially every cell was infected and produced both infectious RadLV and low levels of inhibitor. Quantitative comparisons of autonomously replicating RadLV in normal 3T3 and S+L- cells suggested that RadLV may consist of several populations of virus of varying replicative potential. Apparently 99% of RadLV can be assayed only as helper units in normal cells or as replicative units in S+L- cells. To explain the atypical results, a model for RadLV deficiency is proposed.     

bFGF反义寡核苷酸增强鼠黑色素瘤B16细胞化疗药物敏感性研究

目的:研究bFGF反义硫代寡核苷酸增强肿瘤细胞对化疗药物敏感性作用。方法:设计、合成bFGF寡核苷酸,用聚乙烯亚胺(polyemyleneimine,PEI)介导bFGF反义硫代寡核苷酸转染入黑色素瘤B16细胞,MTT法检测bFGF反义硫代寡核苷酸及其与化疗药物联合处理后的细胞增殖率;半定量RT-PCR测定bFGF反义硫代寡核苷酸转染后细胞中bFGF mRNA水平;流式细胞仪分析bFGF反义硫代寡核苷酸诱导的细胞凋亡。结果:bFGF反义硫代寡核苷酸对B16细胞增殖的抑制率为64.8%,且呈剂量依赖效应。B16细胞中bFGF mRNA被bFGF反义硫代寡核苷酸显著降低,为对照细胞的57.9%,且bFGF反义硫代寡核苷酸诱导B16细胞凋亡,凋亡率为41.8%。bFGF反义硫代寡核苷酸转染能显著增强B16细胞对阿霉素、5-氟脲嘧啶及顺铂的敏感性,非特异性硫代寡核苷酸不影响阿霉素、5-氟脲嘧啶及顺铂抑制B16细胞增殖。结论:bFGF反义硫代寡核苷酸显著增强B16细胞的化疗敏感性,表明其可协同化疗药物用于治疗肿瘤。     

Effects of Lipids on ENaC Activity in Cultured Mouse Cortical Collecting Duct Cells

Direct effects on epithelial Na⁺ channels (ENaC) activity by lipids, e.g., arachidonic acid (AA), eicosatetraynoic acid (ETYA), linoleic acid (LA), stearic acid (SA), hydroxyeicosatetraenoic acid (HETE), 11,12–epoxyeicosatrienoic acid (EET), (PGF2), and (PGE2), in cultured mouse cortical collecting duct (M1) cells were clarified by using single-channel recordings in this study. In a cell-attached recording, a bath application of 10 μM AA significantly reduced the ENaC open probability (NPo), whereas 10 μM ETYA or 5 μM LA only induced a slight inhibition. The inside-out recording as a standard protocol was thereafter performed to examine effects of these lipids on ENaC activity. Within 10 min after the formation of the inside-out configuration, the NPo of ENaC in cultured mouse cortical collecting duct (M1) cells remained relatively constant. Application of ETYA or LA or SA exhibited a similar inhibition on the channel NPo when applied to the extracellular side, suggesting that fatty acids could exert a nonspecific inhibition on ENaC activity. 11,12-EET, a metabolite of AA via the cytochrome P450 epoxygenase pathway, significantly inhibited the ENaC NPo, whereas 20-HETE, a metabolite of AA via the hydroxylase pathway, only caused a small inhibition of the ENaC NPo, to a similar degree as that seen with ETYA and LA. However, both PGE2 and PGF2α significantly enhanced the ENaC NPo. These results suggest that fatty acids exert a nonspecific effect on ENaC activity due to the interaction between the channel proximity and the lipid. The opposite effects of 11,12-EET and prostaglandin (PG) implicate different mechanisms in regulation of ENaC activity by activation of epoxygenase and cyclooxygenase.     

E-Cadherin Promotes Incorporation of Mouse Epiblast Stem Cells into Normal Development

Mouse epiblast stem cells (mEpiSCs) are pluripotent stem cells derived from epiblasts of postimplantation mouse embryos. Their pluripotency is distinct from that of mouse embryonic stem cells (mESCs) in several cell biological criteria. One of the distinctions is that mEpiSCs contribute either not at all or at much lower efficiency to chimeric embryos after blastocyst injection compared to mESCs. However, here we showed that mEpiSCs can be incorporated into normal development after blastocyst injection by forced expression of the E-cadherin transgene for 2 days in culture. Using this strategy, mEpiSCs gave rise to live-born chimeras from 5% of the manipulated blastocysts. There were no obvious signs of reprogramming of mEpiSCs toward the mESC-like state during the 2 days after induction of the E-cadherin transgene, suggesting that mEpiSCs possess latent ability to integrate into the normal developmental process as its origin, epiblasts.     

Internalization of Embryonal Carcinoma Cells when Aggregated with Normal Mouse Embryos

In the present study, we examined in detail the process of forming chimeric blastocysts between B242g embryonal carcinoma (EC) cells and normal mouse embryos. Electron microscopic observations of the developing aggregates revealed that the embryonic cells spread over the surface of the EC cells, resulting in the internalization of EC cells in the aggregates. When a single blastomere of an 8-cell embryo was aggregated with EC cells, the blastomere spread over and engulfed the EC cells. These results strongly suggest that EC cells are segregated and become situated in the inside position as the development of an aggregate proceeds, and then they are incorporated into the ICM of a blastocyst.