一种同时分离培养大鼠肝细胞及肝枯否细胞技术的建立

目的:建立简便、经济的同步分离培养肝细胞及kupffer细胞的方法.方法:采用肝脏原位灌洗结合离体胶原酶灌注消化的方法获得总细胞悬液,差速离心分离肝细胞及肝非实质细胞,经多次低速离心可分离肝细胞,经percoll密度梯度离心以及选择性贴壁法得到纯化的kupffer细胞.台盼蓝染色鉴定细胞活力.使用倒置相差显微镜、HE染色、PAS染色及白蛋白免疫组织化学染色对培养肝细胞的形态及功能进行检测.使用光学显微镜、荧光显微镜及CD68免疫荧光染色鉴定分离的kupffer细胞.结果:体外成功的同步分离培养了肝细胞及kupffer细胞,肝细胞产率为1.37± 0.53× 108/大鼠,kupffer得率为3.45± 0.41×106/g肝脏.细胞存活率及纯度都可达90％.肝细胞培养24h后呈典型肝细胞形态,7天后仍具有糖原合成和白蛋白合成能力.贴壁后的kupffer细胞呈典型的星型或三角形,且其标志分子CD68免疫荧光染色阳性.结论:应用改良的原位灌注方法可以很好的同时分离具有活性及功能的肝细胞和kupffer细胞.     

小鼠Kupffer细胞分离及细胞培养

目的 采用在体胶原酶灌注、不连续密度梯度离心、选择性贴壁3步法分离Kupffer细胞（Kupffer cells,KCs）,探讨其在分离小鼠KCs的应用及其对KCs生物活性的影响.方法 根据原位灌注和梯度离心方法不同随机分为4组：无胶原酶原位灌注＋3层梯度离心组（A）、无胶原酶原位灌注＋双层梯度离心组（B）、胶原酶原位灌注＋3层梯度离心组（C）和胶原酶原位灌注＋双层梯度离心组（D）.采用F4/80（BM8）免疫染色及吞墨实验判断细胞纯度和功能、台盼蓝拒染实验判断细胞的活力,探讨不同方法KCs分离的效果及细胞活性.结果 刚分离的KCs细胞近似圆形,接种l h后收获细胞纯度较高,但细胞得率相对较低.培养4 h后KCs得率相对较高,培养28 d仍能存活.免疫荧光可显示分离的为KCs,台盼蓝染色显示各组细胞的活力均在90 %左右,在体胶原酶灌注和双层梯度离心可以增加KCs的得率,双层梯度离心法可以增加分离KCs的纯度.结论 在体胶原酶灌注对提高KCs得率较为重要,在体胶原酶灌注、不连续密度梯度离心、选择性贴壁3步法分离小鼠KCs的的方法简便、高效、稳定,培养的KCs具有良好的细胞生物学性状.     

Exoerythrocytic Merozoites of Plasmodium berghei in Rat Hepatic Kupffer Cells

SYNOPSIS. Liver biopsies of white rates infected by Plasmodium berghei sporozoites were examined by electron microscopy. Intrahepatocytic schizont development was confirmed. In addition, at 60 and 70 h after sporozoite inoculation, exoerythrocytic merozoites were noted in Kupffer cells of liver sinusoids. Although it is theoretically possible that this observation may be of merozoite development in Kupffer cells, the authors suspect that this example of phagocytosis would be one of the host's natural defenses against sporozoite-transmitted malaria.     

In Vivo Delivery of Antisense Oligodeoxynucleotides into Rat Kupffer Cells

Abstract

Kupffer cells play a key role in the pathogenesis of liver diseases. Liver injury is believed to result from an excessive release of cytokines and prostanoids from these cells. A targeted delivery of antisense oligonucleotides into Kupffer cells might reduce or prevent liver injury. In this report, we describe a method in which anionic liposome-encapsulated antisense phosphorothioate oligodeoxynucleotides (S-Oligos) are delivered to Kupffer cells in vivo. Delivery was assessed using an antisense S-Oligo (TJU-2749) targeted against the 3’ untranslated region of rat tumor necrosis factor-α mRNA. At 90 min post-intravenous injection, 90% of the S-Oligo was absorbed from circulation. Of this, 40% was found in the liver and 10% in spleen. Other organs, including lungs, kidneys, muscle, stomach, brain, testes and small intestine, showed only minor incorporation (<5%). Greater than 65% of the liver-associated S-Oligo was found in Kupffer cells. Relative accumulation of S-Oligo in Kupffer cells was 200-fold that of the combined body tissues. For an average injected dose of 1.2 mg antisense/Kg body weight, the intracellular concentration of the S-Oligo attained in Kupffer cells was 65 μM. These studies suggest that liposome-encapsulated delivery provides an efficient means of targeting antisense molecules to Kupffer cells in vivo.     

一种体外快速分离脂肪来源干细胞的方法

目的:以小鼠为模型,建立一种基于流式细胞仪为检测手段的快速分离脂肪来源干细胞的方法,解决间充质干细胞进入实际应用过程中遇到的难题。方法:取BALB/c小鼠腹股沟内侧的皮下脂肪组织,采用Ⅰ型胶原酶消化等系列措施,获取脂肪干细胞(adipose-derived stem cells,ADSCs)。所得细胞分离培养4代后,流式细胞仪分选出CD73+CD45-ADSCs后成骨诱导分化。碱性磷酸酶染色和实时荧光定量PCR检测其分化情况。结果:刚分离培养的ADSCs细胞普遍呈圆形或椭圆形,传至第三代的细胞,非MSCs细胞逐渐被淘汰,剩余的细胞形态逐渐变得一致,细胞形态呈梭形。流式细胞仪检测发现ADSCs细胞表面抗原标记CD73+CD45-为20.7%。所得的ADSCs成骨诱导分化后碱性磷酸酶(alkaline phosphatase,ALP)染色呈阳性,实时荧光定量PCR检测成骨标志基因发现它们表达上调,其中ALP的表达高达22倍。结论:本方法可以获得纯度较高的ADSCs,且耗时少成本低;且提示可采用该方法来获得大量的人源ADSCs用于组织工程修复。     

运用植块法培养脑微血管内皮细胞

探讨简易可行的脑微血管内皮细胞(brain microvascular endothelial cells,BMECs培)养方法,为研究BMECs细胞在脑血管疾病中的重要作用提供技术支持。分离出生后1~7天内的SD乳鼠大脑皮质区,植块法培养BMECs细胞。用倒置显微镜观察BMECs细胞的形态以及从皮质块迁出的过程;MTT比色法检测BMECs细胞的生长曲线;采用免疫组化染色检测VIII因子相关抗原和CD34抗原,以鉴定内皮细胞。结果发现,大脑皮质块植块法培养的大鼠BMECs细胞呈单层贴壁生长,细胞形态以长梭形、多角形三角形、四边形为主,呈典型的“铺路石”样征象,经鉴定为内皮细胞,第三代纯度达95%以上。提示该方法具有经济、简便、要求条件不高,易于纯化的优点,可作为大鼠BMECs细胞体外培养的良好模型。     

一种获取精确胚胎天数鼠脑皮质神经细胞原代培养方法

目的:探讨获取精确胚胎天数鼠脑皮质神经细胞原代培养方法.方法:首先将性成熟雌雄SD大鼠1∶1合笼于代谢饲养盒内,次日观察有无阴栓(同时做阴道涂片),若有记为E0.取E17孕鼠断颈处死,无菌状态下取出子宫,剥离羊膜与胚外膜,取得胚胎.胚胎断头,在解剖显微镜下用尖镊沿双眼、小脑和脑干腹侧切取大脑皮质,用0.125％胰酶进行温和消化,采用MEM加10％胎牛血清、10％马血清和1％ L-Glutamine混合培养基,用0.73 MPoly-L-Omithine Hydrobromide处理的培养板入37℃,10％CO2孵箱内培养.结果:雌鼠一次可排出阴栓3-5个不等,阴栓为奶黄色、锥体形、质韧.同时做阴道涂片可见活动精子;获取得胚胎脑皮质细胞呈贴壁生长,其胞体饱满,折光性好,突起明显,与周围细胞形成网络连接.结论:用阴栓并精子涂片判断胚胎胎龄简便而准确;E17胚胎适宜体外培养获得脑皮质细胞;组合培养基加处理过的培养板和10％ CO2孵箱浓度的新方法获得了状态良好的脑皮质神经细胞.     

A Simple and Efficient Method to Isolate Macrophages from Mixed Primary Cultures of Adult Liver Cells

Kupffer cells are liver-specific resident macrophages and play an important role in the physiological and pathological functions of the liver^1-3. Although the isolation methods of liver macrophages have been well-described^4-6, most of these methods require sophisticated equipment, such as a centrifugal elutriator and technical skills. Here, we provide a novel method to obtain liver macrophages in sufficient number and purity from mixed primary cultures of adult rat liver cells, as schematically illustrated in Figure 1.After dissociation of the liver cells by two-step perfusion method^7,8,a fraction mostly composed of parenchymal hepatocytes is prepared and seeded into T75 tissue culture flasks with culture medium composed of DMEM and 10% FCS.Parenchymal hepatocytes lose the epithelial cell morphology within a few days in culture, degenerate or transform into fibroblast-like cells (Figure 2). As the culture proceeds, around day 6, phase contrast-bright, round macrophage-like cells start to proliferate on the fibroblastic cell sheet (Figure 2). The growth of the macrophage-like cells continue and reach to maximum levels around day 12, covering the cell sheet on the flask surface. By shaking of the culture flasks, macrophages are readily suspended into the culture medium. Subsequent transfer and short incubation in plastic dishes result in selective adhesion of macrophages(Figure 3), where as other contaminating cells remain suspended. After several rinses with PBS, attached macrophages are harvested. More than 10⁶ cells can be harvested repeatedly from the same T75 tissue culture flask at two to three day intervals for more than two weeks(Figure 3).The purities of the isolated macrophages were 95 to 99%, as evaluated by flow cytometry or immunocytochemistry with rat macrophage-specific antibodies (Figure 4).The isolated cells show active phagocytosis of polystylene beads (Figure 5), proliferative response to recombinant GM-CSF, secretion of inflammatory/anti-inflammatory cytokines upon stimulation with LPS, and formation of multinucleated giant cells⁹.In conclusion, we provide a simple and efficient method to obtain liver macrophages in sufficient number and purity without complex equipment and skills.This method might be applicable to other mammalian species.     

Isolation and Primary Culture of Rat Hepatic Cells

Primary hepatocyte culture is a valuable tool that has been extensively used in basic research of liver function, disease, pathophysiology, pharmacology and other related subjects. The method based on two-step collagenase perfusion for isolation of intact hepatocytes was first introduced by Berry and Friend in 1969 ¹ and, since then, has undergone many modifications. The most commonly used technique was described by Seglenin 1976 ². Essentially, hepatocytes are dissociated from anesthetized adult rats by a non-recirculating collagenase perfusion through the portal vein. The isolated cells are then filtered through a 100 μm pore size mesh nylon filter, and cultured onto plates. After 4-hour culture, the medium is replaced with serum-containing or serum-free medium, e.g. HepatoZYME-SFM, for additional time to culture. These procedures require surgical and sterile culture steps that can be better demonstrated by video than by text. Here, we document the detailed steps for these procedures by both video and written protocol, which allow consistently in the generation of viable hepatocytes in large numbers.     

大鼠精原干细胞的微滴培养法

精原干细胞（spermatogonial stem cells,SSCs）作为成体干细胞的一类,既具有自我更新和分化的潜能,又可向子代传递遗传信息。阐明其增殖过程及分化特性对SSCs的进一步应用具有重要意义。小鼠SSCs的微滴培养研究显示,微滴培养技术与常规培养方法相比具有独特的优势。然而其他物种的SSCs能否实现微滴培养尚有待证实。该研究旨在利用微滴培养法建立大鼠SSCs体外培养技术。5、8、10、20、40个大鼠SSCs分别置于20此微滴中培养,用丝裂霉素处理的STO细胞作为滋养层。倒置显微镜观察记录大鼠SSCs的增殖状态。一个月后,对微滴培养的SSCs进行免疫荧光双标记染色鉴定。结果显示,一个微滴内接种5个SSCs就能实现扩增培养;培养一个月后,SSC仍然表达其特异的标记基因分子如CDH1、OCT4、PLZF、Thy1和Gfra1。体外诱导分析显示,微滴培养的大鼠SSCs具有分化为精母细胞的能力。大鼠SSCs微滴培养法的建立,为其他物种SSCs的培养提供了借鉴,也为再生医学和生命科学相关领域的研究提供了技术平台。     

Non-Canonical Wnt Predominates in Activated Rat Hepatic Stellate Cells,Influencing HSC Survival and Paracrine Stimulation of Kupffer Cells

The Wnt system is highly complex and is comprised of canonical and non-canonical pathways leading to the activation of gene expression. Our aim was to examine changes in the expression of Wnt ligands and regulators during hepatic stellate cell (HSC) transdifferentiation and assess the relative contributions of the canonical and non-canonical Wnt pathways in fibrogenic activated HSC. The expression profile of Wnt ligands and regulators in HSC was not supportive for a major role for β-catenin-dependent canonical Wnt signalling, this verified by inability to induce Topflash reporter activity in HSC even when expressing a constitutive active β-catenin. We detected expression of Wnt5a in activated HSC which can signal via non-canonical mechanisms and showed evidence for non-canonical signalling in these cells involving phosphorylation of Dvl2 and pJNK. Stimulation of HSC or Kupffer cells with Wnt5a regulated HSC apoptosis and expression of TGF-β1 and MCP1 respectively. We were unable to confirm a role for β-catenin-dependent canonical Wnt in HSC and instead propose autocrine and paracrine functions for Wnts expressed by activated HSC via non-canonical pathways. The data warrant detailed investigation of Wnt5a in liver fibrosis.     

大鼠脑微血管内皮细胞的分离与原代培养

为了建立大鼠脑微血管内皮细胞体外培养模型,探索纯度较高的大鼠脑微血管内皮细胞分离和原代培养的方法并进行形态学观察。采用2～3周龄的SD大鼠,解剖得到大脑皮质,两次酶消化及牛血清白蛋白或葡聚糖和Percoll梯度离心获得较纯的脑微血管段后,接种于涂布基质的培养皿进行原代培养;培养的细胞采用相差显微镜形态学观察、透射电镜观察及Ⅷ因子相关抗原免疫组化检测鉴定。结果发现,培养12h即可见细胞从贴壁的脑微血管段周围长出,细胞呈短梭形,区域性单层生长,5～7天内皮细胞融合,内皮细胞纯度达90％以上;内皮细胞的贴壁和生长有赖于所涂布的基质,纤连蛋白／Ⅳ型胶原优于鼠尾胶和明胶;Ⅷ因子相关抗原免疫组化检测内皮细胞表达阳性,透射电镜观察可见相邻内皮细胞间存在紧密连接结构。提示该方法能成功进行纯度较高的大鼠脑微血管内皮细胞原代培养,可用于脑微血管内皮的生理、生化及药理学研究,亦可用于构建大鼠血脑屏障模型。     

Differentiation of Rat Lens Epithelial Cells in Tissue Culture

The growth and differentiation of rat lens epithelial cells in tissue culture were studied. Cells could be maintained for a number of generations in an undifferentiated state in suspension culture. When cultured as monolayers, they grew and differentiated in a series of six defined stages described here. These stages include morphological changes (elongation, followed by cell spreading or formation of cell aggregates), and biochemical changes (appearance of y-crystallin protein as detected by immunofluorescence). The process of differentiation appeared to be accelerated in the vicinity of elongated cells, occurred more rapidly at high cell density, and required frequent changes of medium. This suggests that cell-cell communication, and not medium factors, may be essential for promoting differentiation. The final morphology of the differentiated cells differed, depending on the embryonic age of the rats used as a source of lens epithelial cells. This implies that the programme for differentiation changes as a function of the embryonic age of the lens.     

Differential Centrifugation in Culture and Differentiation of Rat Neural Stem Cells

(1) The study of neural stem cells (NSC) has attracted much attention in recent years because of their therapeutic potential. However, the problem in culture and differentiation of NSC was how to obtain single cell suspension that preserves the function of NSC, and remove the debris caused by mechanical dissociation. In the present study, we try to find a simple and effective way to address the problem, i.e. differential centrifugation. (2) After a gentle mechanical dissociation using Pasteur pipette, the suspension was first centrifuged at 100 g for 5 min, and then recentrifuged at 400 g for 6 min. Finally, the two deposits were resuspended and seeded into culture flask respectively. The suspension from the second deposit was allowed for further culture and differentiation. Immunofluorescence technique was used to identify neural stem cell, neuron, astrocyte, and oligodendrocyte. (3) After the second differential centrifugation, single cell suspension was obtained with 2–3 cell clusters, and the cells not only grew to form neurospheres, but also differentiated into neurons, astrocytes, and oligodendrocytes. (4) Differential centrifugation is a simple and effective way to obtain single cell suspension, which will help make large-scale production of neurodifferentiated cells more effective.     

Insulin Is Released from Rat Brain Neuronal Cells in Culture

Depolarization of neuronal cells in primary culture from the rat brain by potassium ions in the presence of calcium or by veratridine caused a greater than three-fold stimulation of release of immunoreactive insulin. HPLC of the released insulin immunoreactivity from the neuronal cultures comigrated with the two rat insulins. The depolarization-induced release of insulin was inhibited by cycloheximide and was specific for neuronal cultures since potassium ions failed to cause the release in comparably prepared astrocytic glial cells from the rat brain. Prelabelling of neuronal cultures with [3H]leucine followed by depolarization resulted in the release of radioactivity that immunoprecipitated with insulin antibody. The release of [3H]insulin was biphasic. These observations suggest that neuronal cells from the brain have the capacity to synthesize insulin that could be released under depolarization conditions.     

Nervous System-Specific Proteins in Developing Rat Cerebral Cells in Culture

Abstract: The nervous system-specific proteins: synaptin, D1, D2, D3, glial fibrillary acidic protein (GFA) and 14-3-2, were quantified in dissociated cerebral cells from the foetal rat brain at various times of growth in culture. By approximately 1 week in culture, the neuronal membrane markers synaptin, D1, D2, and D3 could all be demonstrated. A maximum concentration of 10–20% for synaptin, D1, and D3 and 160% for D2, in comparison with the levels in adult forebrain, was attained during the 2nd week in vitro. The astroglial gliofilament marker GFA increased continuously, reaching by 38 days of cultivation an 18-fold higher level than the concentration in adult forebrain. The neuronal cytoplasm marker 14-3-2 could be demonstrated in trace amounts, and only after more than 1 week in vitro. Neuronal cell bodies and processes stained by indirect immunofluorescence using an anti-D2 serum were strongly fluorescent after 1 week in vitro. Immunofluorescence staining for GFA revealed a cytoplasmatic filamentous network in perinuclear areas and processes of, presumably, astroblasts.     

Graptopetalum Paraguayense Ameliorates Chemical-Induced Rat Hepatic Fibrosis In Vivo and Inactivates Stellate Cells and Kupffer Cells In Vitro

Background

Graptopetalum paraguayense (GP) is a folk herbal medicine with hepatoprotective effects that is used in Taiwan. The aim of this study was to evaluate the hepatoprotective and antifibrotic effects of GP on experimental hepatic fibrosis in both dimethylnitrosamine (DMN)- and carbon tetrachloride (CCl₄)-induced liver injury rats.

Methods

Hepatic fibrosis-induced rats were fed with the methanolic extract of GP (MGP) by oral administration every day. Immunohistochemistry, biochemical assays, and Western blot analysis were performed. The effects of MGP on the expression of fibrotic markers and cytokines in the primary cultured hepatic stellate cells (HSCs) and Kupffer cells, respectively, were evaluated.

Results

Oral administration of MGP significantly alleviated DMN- or CCl₄-induced liver inflammation and fibrosis. High levels of alanine transaminase, aspartate transaminase, bilirubin, prothrombin activity and mortality rates also decreased in rats treated with MGP. There were significantly decreased hydroxyproline levels in therapeutic rats compared with those of the liver-damaged rats. Collagen I and alpha smooth muscle actin (α-SMA) expression were all reduced by incubation with MGP in primary cultured rat HSCs. Furthermore, MGP induced apoptotic cell death in activated HSCs. MGP also suppressed lipopolysaccharide-stimulated rat Kupffer cell activation by decreasing nitric oxide, tumor necrosis factor-α and interleukin-6 production, and increasing interleukin-10 expression.

Conclusions

The results show that the administration of MGP attenuated toxin-induced hepatic damage and fibrosis in vivo and inhibited HSC and Kupffer cell activation in vitro, suggesting that MGP might be a promising complementary or alternative therapeutic agent for liver inflammation and fibrosis.     

Organ Explant Culture of Neonatal Rat Ventricles: A New Model to Study Gene and Cell Therapy

Testing cardiac gene and cell therapies in vitro requires a tissue substrate that survives for several days in culture while maintaining its physiological properties. The purpose of this study was to test whether culture of intact cardiac tissue of neonatal rat ventricles (organ explant culture) may be used as a model to study gene and cell therapy. We compared (immuno) histology and electrophysiology of organ explant cultures to both freshly isolated neonatal rat ventricular tissue and monolayers. (Immuno) histologic studies showed that organ explant cultures retained their fiber orientation, and that expression patterns of α-actinin, connexin-43, and α-smooth muscle actin did not change during culture. Intracellular voltage recordings showed that spontaneous beating was rare in organ explant cultures (20%) and freshly isolated tissue (17%), but common (82%) in monolayers. Accordingly, resting membrane potential was -83.9±4.4 mV in organ explant cultures, −80.5±3.5 mV in freshly isolated tissue, and −60.9±4.3 mV in monolayers. Conduction velocity, measured by optical mapping, was 18.2±1.0 cm/s in organ explant cultures, 18.0±1.2 cm/s in freshly isolated tissue, and 24.3±0.7 cm/s in monolayers. We found no differences in action potential duration (APD) between organ explant cultures and freshly isolated tissue, while APD of monolayers was prolonged (APD at 70% repolarization 88.8±7.8, 79.1±2.9, and 134.0±4.5 ms, respectively). Organ explant cultures and freshly isolated tissue could be paced up to frequencies within the normal range for neonatal rat (CL 150 ms), while monolayers could not. Successful lentiviral (LV) transduction was shown via Egfp gene transfer. Co-culture of organ explant cultures with spontaneously beating cardiomyocytes increased the occurrence of spontaneous beating activity of organ explant cultures to 86%. We conclude that organ explant cultures of neonatal rat ventricle are structurally and electrophysiologically similar to freshly isolated tissue and a suitable new model to study the effects of gene and cell therapy.     

鼠骨髓源性内皮祖细胞的分离培养与鉴定

目的探讨大鼠骨髓源性内皮祖细胞(endothelial progenitor cells,EPCs)的分离培养鉴定的方法.方法 Percoll(1.077 g/ml)分离液分离大鼠骨髓单个核细胞,血管内皮生长因子(Vascular Endothelial Growth Factors, VEGF)和碱性成纤维细胞生长因子(basic Fibroblast Growth Factors, bFGF),对其进行诱导培养,光镜观察EPCs形态,免疫荧光检测血小板内皮细胞粘附分子-1(PECAM-1/CD31)、血管内皮钙粘蛋白(VE-cadherin/CD144)、荆豆凝集素-1(FITC-UEA-1)的表达和摄取Dil荧光标记的乙酰化-低密度脂蛋白(Dil-ac-LDL).结果 诱导培养7 d后,可见集落和铺路石样结构,激光扫描共聚焦显微镜(Laser Scanning Confocal Microscope, LSCM)显示表型为CD31+VE-cadherin+双阳性细胞以及具有内皮细胞功能的Dil-ac-LDL和FITC-UEA-1双染色细胞.结论 采用Percoll(1.077 g/ml)密度梯度离心结合VEGF、bFGF诱导培养可以获得EPCs,说明该培养方法可行.     

前列腺基质细胞的原代培养方法

目的:建立一种操作简单、成功率高、重复性好的前列腺增生组织原代基质细胞(PSC)培养方法。方法:采用胶原酶消化法、组织块贴壁法和胰酶消化组织块贴壁法,从70岁及以上男性的良性前列腺增生组织中分离培养PSC,通过显微镜观察比较PSC的数量、形态、培养周期,用免疫荧光染色法鉴定PSC的纯度。结果:胶原酶消化法得到的贴壁细胞少,细胞体积较小且形态无法铺展,增殖能力较弱;组织块贴壁法培养72h后细胞会从组织边缘缓慢爬出,生长周期长;胰酶消化组织块贴壁法,细胞培养7d后基本融合,折光性强,细胞多呈长梭形,通过免疫荧光染色鉴定,基质细胞纯度在95%以上。结论:利用胰酶消化组织块贴壁法建立了一种易行、高效且重复性好的前列腺增生组织基质细胞培养方法。