芍药苷对溃疡性结肠炎大鼠肠道屏障功能和ERK信号通路的影响

摘要 目的：探究芍药苷对溃疡性结肠炎（UC）发生过程中肠道屏障功能和ERK信号通路的影响。方法：将24只7-8周龄SPF级雄性SD大鼠随机分为4组：正常组（Normal组,未造模及给药的大鼠）、模型组（Model组,100 mg/kg TNBS给药造模）、低剂量芍药苷组（LPF组,100 mg/kg TNBS +10 mg/kg芍药苷给药处理）和高剂量芍药苷组（HPF组,100 mg/kg TNBS +100 mg/kg芍药苷给药处理）,每组6只大鼠。对大鼠推注5%三硝基苯磺酸（TNBS）进行UC大鼠造模,然后灌胃指定浓度的芍药苷,连续处理14 d。通过苏木精伊红（HE）染色进行组织病理学观察,通过阿尔辛蓝（AB）染色计算结肠粘液层厚度。通过ELISA法检测结肠组织中细胞因子（IL-6、IL-1β、TNF-α和IL-10）、髓过氧化物酶（MPO）和粘蛋白（MUC2和MUC5AC）的水平。通过免疫组化检测各组大鼠结肠组织中IL-6和IL-10的蛋白表达。通过Western blotting分析蛋白激酶Cα（PKCα）、p-PKCα、ERK1/2和p-ERK1/2的蛋白表达。结果：与Model组（8.38±0.42 cm）相比,LPF组（9.88±0.49 cm）和HPF组（10.92±0.55 cm）UC大鼠的结肠长度显著增加（P<0.05）。与Model组（22.54±1.13 μm）相比,LPF组（41.07±2.05 μm）和HPF组（50.33±2.52 μm）UC大鼠结肠粘液层厚度显著增加（P<0.05）。与Model组相比,LPF组和HPF组UC大鼠的结肠形态明显改善,结肠组织中IL-6、IL-1β、TNF-α和MPO的水平显著降低,而IL-10显著升高（P<0.05）。与Model组相比,LPF组和HPF组UC大鼠结肠组织中MUC2和MUC5AC水平均显著升高,p-PKCα和p-ERK1/2的磷酸化水平也显著升高（P<0.05）。结论：芍药苷抑制了TNBS诱导的UC大鼠结肠炎症并增加了结肠粘液层厚度,从而保护了肠道屏障功能,其机制可能与ERK信号通路的激活有关。     

两种免疫磁珠分离法分选小鼠骨髓粒-单核祖细胞的效率比较

摘要 目的：提取小鼠骨髓细胞（bone marrow cell, BMC）,用两种不同的免疫磁珠分离（magnetic activated cell sorting, MACS）试剂盒从小鼠BMC中分选提纯粒-单核祖细胞（granulocyte-monocyte progenitor, GMP）,比较这两种免疫磁珠的分选效率。方法：从小鼠股骨和胫骨中提取BMC,通过两种不同的MACS试剂盒,即Lineage阳性细胞清除试剂盒和CD117阳性细胞分选试剂盒,分别得到Lineage-细胞群和CD117⁺细胞群,用代表GMP细胞表面标志物的荧光抗体标记,孵育后通过流式细胞荧光分选技术得到GMP细胞,并且对比得到GMP细胞的效率。结果：每2只野生型C57BL/6J小鼠可共收集骨髓细胞（7.02±1.24）×10⁷个,细胞活力为（91.86±5.24）%。经过Lineage阳性细胞清除试剂盒得到的细胞数量为（5.71±2.86）×10⁶个;经过CD117阳性细胞分选试剂盒得到的细胞数量为（2.70±0.56）×10⁶个。Lineage磁珠分选纯化得到的GMP细胞数占总细胞数的比例为（10.90±1.37）%,CD117磁珠分选纯化得到的GMP细胞数占总细胞数的比例为（4.83±2.08）%。结论：Lineage阳性细胞清除试剂盒能更有效分选小鼠骨髓细胞中的粒-单核祖细胞。     

不同培养基对流式细胞仪分选外周血T细胞的影响

摘要 目的：通过探讨用于流式分选的T细胞体外扩增的无血清培养基，提高过继细胞的增殖能力和活性。方法：采用人外周血淋巴细胞分离管制备外周血单个核细胞，再用流式细胞分选仪从6例健康志愿者的外周血单个核细胞中分选CD3+T细胞到4种常用的培养基中：X-VIVO 15、KBM 581、TexMACS GMP和10 % FBS/1640，观察并记录培养细胞的状态和体外增殖能力。于第3天，第6天和第8天，通过胎盼蓝染色后进行活细胞计数。于第8天用凋亡试剂盒检测扩增细胞的凋亡情况，并用流式细胞分析仪检测细胞的免疫表型。结果：X-VIVO 15、TexMACS GMP和10 % FBS/1640作为流式细胞分选的接收液仅少量细胞碎片，而分选在KBM 581的细胞大量死亡，显著高于X-VIVO 15组（P<0.05）。X-VIVO 15中扩增的细胞数量最多，增殖检测结果显示活细胞在X-VIVO 15中快速增殖且细胞凋亡率显著低于KBM 581 和 TexMACS GMP（P<0.05）。4种培养基扩增的细胞主要呈现效应记忆型。其中，X-VIVO 15中效应记忆型T细胞比例显著高于TexMACS GMP（P<0.05）。TexMACS中效应细胞比例显著高于10 % FBS/1640（P<0.05）。结论：X-VIVO 15无血清培养基扩增流式分选的T细胞具有高增殖能力、细胞活性和记忆表型，适用于经流式分选后细胞的体外扩增。     

肺鳞状细胞癌和腺癌PD-L1蛋白及相关miRNA表达差异的研究

摘要 目的：探讨肺鳞状细胞癌（鳞癌）和腺癌PD-L1蛋白及相关miRNA表达的差异。方法：2019年5月至2020年11月来我院就诊的非小细胞肺癌初治患者纳入本项研究；按照病理类型，将患者分为腺癌组和鳞癌组；H&E染色检测免疫细胞数量；免疫组化检测PD-L1、ki-67、PD-1、CTLA-4和LAG-3的表达；miRNA测序筛选鳞癌和腺癌间差异表达的miRNA。结果：H&E染色结果显示鳞癌组微环境中免疫细胞的数量为86.86±8.96个/高倍视野（HPF），腺癌组的数量为26.29±3.99个/HPF（t=6.173，P＜0.001）；肺鳞癌组微环境免疫细胞PD-1、CTLA-4和LAG-3阳性表达的比例分别为53.71±6.88%、35.29±3.25%和34.43±3.29%，腺癌组阳性表达的比例分别为22.29±3.80%、13.43±2.32%和24.00±1.98%（t=3.997，P=0.002；t=5.476，P＜0.001；t=2.719，P=0.019）；肺鳞癌组患者PD-L1蛋白阳性表达的比例为76.67%，腺癌组的比例为36.67%（P=0.001）；肺鳞癌PD-L1（miR-135、miR-24和miR-30b等）和PD-1（miR-802、miR-155和miR-3127-5p等）相关miRNA的表达均显著高于腺癌。结论：肺鳞癌PD-L1蛋白及相关miRNA的表达、微环境免疫细胞PD-1、CTLA-4和LAG-3阳性比例均显著高于腺癌。     

研究报告: 基于AS1411适配体的DNA-RNA杂交载体的抗肿瘤研究

目的 研究连接适配体的DNA-RNA分子作为杂交载体靶向肿瘤细胞并导入功能性RNA分子进入细胞的有效性，以及对肿瘤细胞的影响。方法 设计合成短的互补DNA、RNA分子，组装成DNA-RNA杂合链；连接AS1411适配体为靶向分子，再分别连接p21 saRNA和TIGIT siRNA作为药物分子，记为P21 saRNA和TIGIT siRNA，构成杂交载体，通用结构式为AS1411-DNA/RNA-sxRNA；检测AS1411-DNA/RNA-sxRNA能否靶向结合并进入肿瘤细胞及其对瘤细胞生存、迁移、侵袭和凋亡的影响。结果 将设计的杂交载体各部分等摩尔加入杂交缓冲体系并于特定温度条件下孵育，TBM聚丙烯酰胺凝胶电泳检测到AS1411-DNA/RNA-sxRNA成功组装；AS1411-DNA/RNA-sxRNA杂交载体在10%血清条件下也显示出良好的抗降解稳定性；荧光显微镜和激光共聚焦显微镜下观察，SKOV3细胞表面及胞内存在绿色大量荧光信号，杂交载体成功进入肿瘤细胞。杂交载体孵育后：在mRNA水平上，p21基因表达（2.14±0.25）是对照组（1.02±0.10）2倍以上，P<0.05；TIGIT基因表达（0.63±0.09）低于对照组（1.09±0.15），P<0.05；在蛋白质水平上，p21基因表达（1.57±0.16）是对照组（1.10±0.09）1.5倍以上，P<0.05；TIGIT基因表达（0.61±0.12）低于对照组（1.01±0.07），P<0.05。CCK-8实验显示，P21 saRNA（3.10±0.13）和TIGIT siRNA（2.91±0.13）杂交载体孵育组与空白对照组（3.67±0.15）相比，卵巢癌细胞增殖能力显著下降（P<0.05）；划痕实验结果显示，P21 saRNA孵育组愈合率（42.53±2.90）%、TIGIT siRNA孵育组愈合率（36.23±3.43）%，明显低于空白对照组（76.47±3.64）%，P<0.05；Transwell检测迁移能力发现：P21 saRNA孵育组（128.25±5.36）、TIGIT siRNA孵育组（119.50±8.79）低于对照组（186.5±8.56）；侵袭能力：P21 saRNA孵育组（145.5±9.45）、TIGIT siRNA孵育组（112.25±5.63）也显著低于对照组（202.50±10.12），P<0.05；细胞凋亡率：P21 saRNA孵育组（11.74%±2.47%）、TIGIT siRNA孵育组（17.12%±2.04%）明显高于对照组（5.66%±1.44%），P<0.05。结论 所制备的AS1411-DNA/RNA-sxRNA杂交载体能够有效靶向肿瘤细胞，携带功能性小RNA靶向导入肿瘤细胞并调控目的基因表达，使肿瘤细胞的增殖、侵袭和迁移能力受到抑制；该结果为利用DNA-RNA偶联AS1411适配体作为靶向工具的杂交载体，靶向杀伤表面表达NCL蛋白的肿瘤细胞提供了实验基础。     

葛根素对U14宫颈癌小鼠血液流变学、脾淋巴细胞增殖及细胞毒性影响

摘要 目的：研究葛根素治疗对U14宫颈癌小鼠血液流变学、脾淋巴细胞增殖活性及对宫颈癌细胞毒性的影响。方法：45只雌性昆明小鼠随机分为对照组、模型组和葛根素组。模型组和葛根素组小鼠通过腋下注射U14小鼠宫颈癌细胞建立U14宫颈癌移植瘤小鼠,并且葛根素小鼠通过葛根素灌胃进行治疗,对照组和模型组小鼠给予等量生理盐水。比较各组小鼠血流变学、脾淋巴细胞增殖活性及对宫颈癌细胞毒性。结果：经葛根素治疗的葛根素组宫颈癌小鼠肿瘤重量显著低于模型组小鼠（P<0.05）,葛根素治疗宫颈癌小鼠的抑瘤率是（42.91±12.91）%。宫颈癌小鼠低切/高切全血粘度、血浆粘度值以及血细胞比容均显著升高（P<0.05）,而葛根素治疗可显著降低宫颈癌小鼠低切/高切全血粘度、血浆粘度值以及血细胞比容（P<0.05）。宫颈癌小鼠脾脏重量、脾脏指数和脾淋巴细胞体外增殖能力均显著下降（P<0.05）,而葛根素治疗可显著提高宫颈癌小鼠脾脏重量、脾脏指数和脾淋巴细胞体外增殖能力（P<0.05）。此外,经葛根素治疗的宫颈癌小鼠脾淋巴细胞对U14宫颈癌细胞细胞毒性显著高于模型组宫颈癌小鼠（P<0.05）。结论：葛根素治疗可降低U14宫颈癌小鼠血液粘度、改善血流变性质,并且可以提高脾淋巴细胞的增殖活性和对宫颈癌细胞的杀伤力。     

齐墩果酸对APP/PS-1双转基因AD小鼠的神经保护作用研究

摘要 目的：研究齐墩果酸（Oleanolic Acid，OA）对APP/PS-1双转基因阿尔茨海默病（Alzheimer''s disease，AD）小鼠模型神经保护作用及机制。方法：选取6月龄APP/PS-1雄性小鼠21只，随机分为模型组（0.5% CMC-Na）、阳性组（多奈哌齐组，0.7 mg?kg^-1）、齐墩果酸组（10 mg?kg^-1）每组7只，6月龄同背景SPF级C57BL/6小鼠7只为对照组。灌胃8周之后通过Morris水迷宫实验观察小鼠学习记忆能力的改变，HE染色观察神经元细胞形态，ELISA检测血清中Aβ1-42含量；免疫组化检测Aβ_1-42、APP、Iba1蛋白表达情况；Western blot检测APP、Iba1蛋白表达水平。结果：（1）对照组，模型组，阳性组及齐墩果酸组进入有效区域次数分别为7.00±2.09，1.00±0.89，3.67±1.97，4.33±2.50，与模型组相比，对照组，阳性组，齐墩果酸组均有统计学意义（P<0.05）；（2）血清Aβ_1-42含量按上述顺序依次为4.98±0.25，2.50±0.66，4.63±0.73，4.36±0.97，与模型组相比，对照组，阳性组，齐墩果酸组均有统计学意义（P<0.05）；（3）免疫组化结果显示与模型组相比，对照组，阳性组，齐墩果酸组Aβ_1-42、APP、Iba1蛋白阳性细胞数减少；（4）WB结果：对照组，模型组，阳性组，齐墩果酸组APP蛋白相对表达量分别为0.52±0.17，1.38±0.35，0.89±0.25，0.93±0.27；这四组的IBA1蛋白相对表达量分别为0.98±0.34，1.79±0.74，1.06±0.61，0.88±0.49，与模型组相比，野生对照组，阳性组，齐墩果酸组APP、IBA1蛋白相对含量有统计学意义（P<0.05）。结论：齐墩果酸组可以改善APP/PS-1模型小鼠记忆力及认知功能，降低海马神经元的损伤，并通过下调Aβ_1-42、APP、Iba1蛋白的表达水平来发挥保护神经作用。     

口腔白斑抑癌基因DAPK和TIG1高甲基化表达研究

摘要 目的：探讨抑癌基因DAPK、TIG1高甲基化在口腔白斑中表达状态及其对口腔癌发生发展中的作用。方法：取77例口腔白斑、32例口腔鳞癌、32份正常口腔黏膜组织,用实时定量甲基化特异性PCR技术检测组织中DAPK、TIG1高甲基化表达并进行统计学分析。结果：DAPK在口腔鳞癌组织中高甲基化表达率为46.9%,表达量为（0.0728±0.1617）,明显高于其在口腔白斑组织（19.5%,0.0070±0.0172）和口腔正常组织（18.8%,0.0021±0.0050）中的表达,差异有统计学意义（P<0.05）。DAPK高甲基化表达与口腔白斑组织上皮异常增生程度相关,上皮增生高风险组相对于低风险组DAPK高甲基化表达风险增加（OR,1.013;95% CI,1.004-1.023;P=0.004）。TIG1高甲基化在正常组织中未表达,在口腔鳞癌组织和口腔白斑组织表达为（28.1%,0.0174±0.0440）和（27.3%,0.0035±0.0076）,与正常组织相比具有统计学意义（P<0.05）。结论：抑癌基因 DAPK、TIG1高甲基化有望成为口腔黏膜癌变早期标志物。     

利用谱系追踪方法探究Lgr5在胰腺组织及其类器官中的表达

富含亮氨酸重复序列G蛋白偶联受体5 (leucine-rich repeat containing G protein-coupled receptor 5, Lgr5)在体内分布广泛,可以作为多种上皮组织(包括小肠、结肠、胃和毛囊)中干细胞的标记物。为了探究小鼠(Mus musculus)胰腺发育过程中导管上皮细胞及体外培养的胰腺导管类器官中Lgr5的表达情况,本研究利用Lgr5-Cre^ERT2+/–和Rosa26-mTmG杂交后的转基因小鼠,经Tamoxifen(他莫昔芬)诱导后,观察不同发育阶段胰腺组织切片的荧光表达情况,并通过三维培养建立成体小鼠胰腺导管类器官,观察诱导后类器官细胞中的荧光变化。结果显示：Tamoxifen诱导的正常成体转基因小鼠胰腺导管内未检测到表达Lgr5的细胞;通过对孕鼠及哺乳母鼠注射Tamoxifen,在胚胎发育15.5d和新生小鼠胰腺中也未发现Lgr5阳性细胞;但是将4-hydroxyTamoxifen (4-羟基–他莫昔芬)添加到培养基中,在Lgr5-Cre^ERT2+/–;Rosa26-mTmG转基因小鼠胰...     

理论与实践交互渗透培养方案对实习护士的培训效果

目的 探究理论与实践交互渗透培养方案对普外科实习护士的培训效果。 方法 2013年4月—2014年4月期间60例普外科室实习护士进行培训,实验组采取理论与实践交互渗透培养方案,对照组采取常规培养方案。对两组学员培训前、培训后的理论成绩、操作成绩、患者对学员的满意度以及学员队培训方案满意度进行比较。 结果 培训后,实验组的理论成绩为（91.18±3.61） 分,对照组为（82.73±4.84） 分;实验组的操作成绩为（97.34±1.15） 分,对照组为（91.75±2.12） 分。患者对实验组的沟通能力、观察力、主动服务能力、职业操作规范性、职业道德的满意度均高于对照组。实验组学员对本次培训方案的满意度为100.00%,对照组学员的满意度为83.33%。经比较以上项目均具有显著差异,具有统计学意义（P<0.05）。 结论 理论与实践交互渗透培养方案更有利于提高普外科室实习护士的培训效果,学员的满意度更高,值得广泛推广。     

Characteristics of bovine parathyroid cell organoids in culture

Summary Adult bovine parathyroid glands were enzymatically dispersed and groups of 2 to 5 million cells were reassociated into multicellular aggregates (organoids) by rotation in roller tubes in serum-free medium. Fifty to seventy percent of the seeded cells were incorporated into each organoid at 3 d of culture, and in a typical experiment where DNA content was assayed before and after culture 49 ± 3% of the original seeded DNA was present after 19 d of culture. No significant differences in DNA content were observed between experimental groups at any time of culture. The morphology of the cells in organoids was similar to that of cells in fresh tissue as determined by light and electron microscopy. The organoids secreted intact parathyroid hormone (PTH) and COOH-terminal hormone fragments which were similar to those released from monolayer cell cultures. Organoids maintained the ability to modulate PTH secretion in response to extracellular calcium for over 2 wk in culture. Each organoid was cultured separately and secreted PTH such that the mean standard deviation of secretion within groups on a per organoid basis was 16.3% of the mean. Using a perifusion system to study acute regulation over a 2-wk period of culture, PTH secretion was suppressed 58±4% by 2.5 mM compared to that at 0.25 mM calcium. To examine PTH secretion over a range of calcium concentrations, the perifusion system was used to apply 4-h linear gradients of decreasing calcium to fresh tissue slices and to organoids. The results indicated that the calcium (ionized) concentration at 50% secretory suppression (set-point) were 1.30±0.11 and 1.20±0.9 mM for the organoids and slices, respectively. Acute secretory control by calcium decreased after 14 d and was not detectable at 22 d of culture. The results demonstrated that the organoids maintained their differentiated function and tissuelike morphology for extended periods in vitro and therefore represent a suitable model system for studies on the long-term modulation of PTH secretion by vitamin D metabolites, ions, and other agents. This work was supported by grant AM 18323 from the National Institutes of Health, Bethesda, MD. Portions of the work were presented at the Sixth Annual Scientific Meeting of the American Society for Bone and Mineral Research in Hartford, Connecticut, June 26–29, 1984.     

A Video Protocol of Retroviral Infection in Primary Intestinal Organoid Culture

Lgr5-positive stem cells can be supplemented with the essential growth factors Egf, Noggin, and R-Spondin, which allows us to culture ever-expanding primary 3D epithelial structures in vitro. Both the architecture and physiological properties of these ''mini-guts'', also called organoids, closely resemble their in vivo counterparts. This makes them an attractive model system for the small intestinal epithelium. Using retroviral transduction, functional genetics can now be performed by conditional gene overexpression or knockdown. This video demonstrates the procedure of organoid culture, the generation of retroviruses, and the retroviral transduction of organoids to assist phenotypic analysis of the small intestinal epithelium in vitro. This novel organotypic model system in combination with retroviral mediated gene expression provides a valuable tool for rapid analysis of gene function in vitro without the need of costly and time-consuming generation for transgenic animals.     

Retromer Dependent Recycling of the Wnt Secretion Factor Wls Is Dispensable for Stem Cell Maintenance in the Mammalian Intestinal Epithelium

In C. elegans and Drosophila, retromer mediated retrograde transport of Wntless (Wls) from endosomes to the trans-Golgi network (TGN) is required for Wnt secretion. When this retrograde transport pathway is blocked, Wls is missorted to lysosomes and degraded, resulting in reduced Wnt secretion and various Wnt related phenotypes. In the mammalian intestine, Wnt signaling is essential to maintain stem cells. This prompted us to ask if retromer mediated Wls recycling is also important for Wnt signaling and stem cell maintenance in this system. To answer this question, we generated a conditional Vps35 ^fl allele. As Vps35 is an essential subunit of the retromer complex, this genetic tool allowed us to inducibly interfere with retromer function in the intestinal epithelium. Using a pan-intestinal epithelial Cre line (Villin-CreERT2), we did not observe defects in crypt or villus morphology after deletion of Vps35 from the intestinal epithelium. Wnt secreted from the mesenchyme of the intestine may compensate for a reduction in epithelial Wnt secretion. To exclude the effect of the mesenchyme, we generated intestinal organoid cultures. Loss of Vps35 in intestinal organoids did not affect the overall morphology of the organoids. We were able to culture Vps35 ^∆/∆ organoids for many passages without Wnt supplementation in the growth medium. However, Wls protein levels were reduced and we observed a subtle growth defect in the Vps35 ^∆/∆ organoids. These results confirm the role of retromer in the retrograde trafficking of Wls in the intestine, but show that retromer mediated Wls recycling is not essential to maintain Wnt signaling or stem cell proliferation in the intestinal epithelium.     

Establishment of intestinal organoid cultures modeling injury-associated epithelial regeneration

The capacity of 3D organoids to mimic physiological tissue organization and functionality has provided an invaluable tool to model development and disease in vitro. However, conventional organoid cultures primarily represent the homeostasis of self-organizing stem cells and their derivatives. Here, we established a novel intestinal organoid culture system composed of 8 components, mainly including VPA, EPZ6438, LDN193189, and R-Spondin 1 conditioned medium, which mimics the gut epithelium regeneration that produces hyperplastic crypts following injury; therefore, these organoids were designated hyperplastic intestinal organoids (Hyper-organoids). Single-cell RNA sequencing identified different regenerative stem cell populations in our Hyper-organoids that shared molecular features with in vivo injury-responsive Lgr5⁺ stem cells or Clu⁺ revival stem cells. Further analysis revealed that VPA and EPZ6438 were indispensable for epigenome reprogramming and regeneration in Hyper-organoids, which functioned through epigenetically regulating YAP signaling. Furthermore, VPA and EPZ6438 synergistically promoted regenerative response in gut upon damage in vivo. In summary, our results demonstrated a new in vitro organoid model to study epithelial regeneration, highlighting the importance of epigenetic reprogramming that pioneers tissue repair.Subject terms: Intestinal stem cells, Regeneration     

Three-dimensional organoid culture unveils resistance to clinical therapies in adult and pediatric glioblastoma

BackgroundGlioblastoma (GBM) is the most common primary brain tumor with a dismal prognosis. The inherent cellular diversity and interactions within tumor microenvironments represent significant challenges to effective treatment. Traditional culture methods such as adherent or sphere cultures may mask such complexities whereas three-dimensional (3D) organoid culture systems derived from patient cancer stem cells (CSCs) can preserve cellular complexity and microenvironments. The objective of this study was to determine if GBM organoids may offer a platform, complimentary to traditional sphere culture methods, to recapitulate patterns of clinical drug resistance arising from 3D growth.MethodsAdult and pediatric surgical specimens were collected and established as organoids. We created organoid microarrays and visualized bulk and spatial differences in cell proliferation using immunohistochemistry (IHC) staining, and cell cycle analysis by flow cytometry paired with 3D regional labeling. We tested the response of CSCs grown in each culture method to temozolomide, ibrutinib, lomustine, ruxolitinib, and radiotherapy.ResultsGBM organoids showed diverse and spatially distinct proliferative cell niches and include heterogeneous populations of CSCs/non-CSCs (marked by SOX2) and cycling/senescent cells. Organoid cultures display a comparatively blunted response to current standard-of-care therapy (combination temozolomide and radiotherapy) that reflects what is seen in practice. Treatment of organoids with clinically relevant drugs showed general therapeutic resistance with drug- and patient-specific antiproliferative, apoptotic, and senescent effects, differing from those of matched sphere cultures.ConclusionsTherapeutic resistance in organoids appears to be driven by altered biological mechanisms rather than physical limitations of therapeutic access. GBM organoids may therefore offer a key technological approach to discover and understand resistance mechanisms of human cancer cells.     

A Protocol for Lentiviral Transduction and Downstream Analysis of Intestinal Organoids

Intestinal crypt-villus structures termed organoids, can be kept in sustained culture three dimensionally when supplemented with the appropriate growth factors. Since organoids are highly similar to the original tissue in terms of homeostatic stem cell differentiation, cell polarity and presence of all terminally differentiated cell types known to the adult intestinal epithelium, they serve as an essential resource in experimental research on the epithelium. The possibility to express transgenes or interfering RNA using lentiviral or retroviral vectors in organoids has increased opportunities for functional analysis of the intestinal epithelium and intestinal stem cells, surpassing traditional mouse transgenics in speed and cost. In the current video protocol we show how to utilize transduction of small intestinal organoids with lentiviral vectors illustrated by use of doxycylin inducible transgenes, or IPTG inducible short hairpin RNA for overexpression or gene knockdown. Furthermore, considering organoid culture yields minute cell counts that may even be reduced by experimental treatment, we explain how to process organoids for downstream analysis aimed at quantitative RT-PCR, RNA-microarray and immunohistochemistry. Techniques that enable transgene expression and gene knock down in intestinal organoids contribute to the research potential that these intestinal epithelial structures hold, establishing organoid culture as a new standard in cell culture.     

Primary culture in chemically defined medium of human fetal mammary epithelial cells within reconstituted matrix]

A serum-free primary culture system has been developed which allows for three-dimensional growth and differentiation of normal human fetal mammary epithelial cells within an extracellular matrix preparation. Human fetal mammary epithelial cells were isolated from the mammary glands of human female fetuses, 17 to 39 weeks-old. The "organoids" were embedded within a reconstituted basement membrane matrix prepared from the Engelbreth-Holm-Swarm (EHS) sarcoma according to the method of Hahm and Ip. "Organoids" were grown in either serum-free medium or in medium with fetal calf serum (FCS). The "organoid" proliferated over a 2 to 3 weeks culture period and remained viable for 1 or 2 months within the basement membrane matrix in serum free medium. Several types of colonies were observed; including alveolar-like budding clusters obtained from cultures of mammary gland from fetuses of over 20 weeks age, units with ductule-like projections and stellate-type colonies. Cell proliferation was dependent on the culture medium (with FCS no proliferation was obtained) and on the substratum (without matrix, significantly less growth and development occurred). These types of colonies are obtained when a glandular differentiation of cells budding from the malpighian epithelium is observed. Light microscopic and transmission electron microscopic studies were undertaken at the time of culture. This unique system using normal fetal mammary epithelial cells thus provides a model in which the regulation of human mammary development can be investigated.     

Brain organoids: an ensemble of bioassays to investigate human neurodevelopment and disease

AbstractUnderstanding etiology of human neurological and psychiatric diseases is challenging. Genomic changes, protracted development, and histological features unique to human brain development limit the disease aspects that can be investigated using model organisms. Hence, in order to study phenotypes associated with human brain development, function, and disease, it is necessary to use alternative experimental systems that are accessible, ethically justified, and replicate human context. Human pluripotent stem cell (hPSC)-derived brain organoids offer such a system, which recapitulates features of early human neurodevelopment in vitro, including the generation, proliferation, and differentiation of neural progenitors into neurons and glial cells and the complex interactions among the diverse, emergent cell types of the developing brain in three-dimensions (3-D). In recent years, numerous brain organoid protocols and related techniques have been developed to recapitulate aspects of embryonic and fetal brain development in a reproducible and predictable manner. Altogether, these different organoid technologies provide distinct bioassays to unravel novel, disease-associated phenotypes and mechanisms. In this review, we summarize how the diverse brain organoid methods can be utilized to enhance our understanding of brain disorders.Facts

• Brain organoids offer an in vitro approach to study aspects of human brain development and disease.
• Diverse brain organoid techniques offer bioassays to investigate new phenotypes associated with human brain disorders that are difficult to study in monolayer cultures.
• Brain organoids have been particularly useful to study phenomena and diseases associated with neural progenitor morphology, survival, proliferation, and differentiation.

Open question

• Future brain organoid research needs to aim at later stages of neurodevelopment, linked with neuronal activity and connections, to unravel further disease-associated phenotypes.
• Continued improvement of existing organoid protocols is required to generate standardized methods that recapitulate in vivo-like spatial diversity and complexity.

Subject terms: Neuroscience, Neurological disorders