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Heparin-Binding Epidermal-like Growth Factor (HB-EGF) Reduces Cell Death in an Organoid Model of Retinal Damage 肝素结合表皮样生长因子(HB-EGF)可减少视网膜损伤类器官模型中的细胞死亡
Pub Date : 2024-07-05 DOI: 10.3390/organoids3030010
M. N. H. Tang, M. Moosajee, Najam A Sharif, G. A. Limb, K. Eastlake
In zebrafish and various mammalian species, HB-EGF has been shown to promote Müller glia proliferation and activation of repair mechanisms that have not been fully investigated in human retina. In the current study, 70- to 90-day-old human retinal organoids were treated with 20 μM 4-hydroxytamoxifen (4-OHT), and CRX, REC, NRL, PAX6, VIM, GFAP, and VSX2 gene and protein expression were assessed at various times points after treatment. Organoids with or without 4-OHT-induced damage were then cultured with HB-EGF for 7 days. We showed that 20 μM 4-OHT caused a reduction in the number of recoverin-positive cells; an increase in the number of TUNEL-positive cells; and downregulation of the photoreceptor gene markers CRX, NRL, and REC. Culture of organoids with HB-EGF for 7 days after 4-OHT-induced damage caused a marked reduction in the number of TUNEL-positive cells and small increases in the number of Ki67-positive cells and PAX6 and NOTCH1 gene expression. The current results suggest that treatment of human ESC-derived retinal organoids with 4-OHT may be used as a model of retinal degeneration in vitro. Furthermore, HB-EGF treatment of human retinal organoids increases proliferating Müller cells, but only after 4-OHT induced damage, and may be an indication of Muller reactivity in response to photoreceptor damage. Further studies will aim to identify factors that may induce Müller cell-mediated regeneration of the human retina, aiding in the development of therapies for retinal degeneration.
在斑马鱼和各种哺乳动物中,HB-EGF 被证明能促进 Müller 胶质增殖和修复机制的激活,而在人类视网膜中,HB-EGF 尚未得到充分研究。在本研究中,用 20 μM 4-hydroxytamoxifen (4-OHT) 处理 70 至 90 天大的人类视网膜器官组织,并在处理后的不同时间点评估 CRX、REC、NRL、PAX6、VIM、GFAP 和 VSX2 基因和蛋白的表达。然后用 HB-EGF 培养有或无 4-OHT 诱导损伤的器官组织 7 天。我们发现,20 μM 4-OHT 会导致恢复素阳性细胞数量减少;TUNEL 阳性细胞数量增加;感光基因标记 CRX、NRL 和 REC 下调。在 4-OHT 诱导的损伤后用 HB-EGF 培养器官组织 7 天,TUNEL 阳性细胞的数量明显减少,Ki67 阳性细胞的数量以及 PAX6 和 NOTCH1 基因的表达略有增加。目前的研究结果表明,用4-OHT处理人ESC衍生的视网膜器官组织可用作体外视网膜变性的模型。此外,用HB-EGF处理人视网膜器官组织可增加增殖的Müller细胞,但仅在4-OHT诱导的损伤之后,这可能是Muller对感光细胞损伤反应的一种迹象。进一步的研究旨在确定可能诱导Müller细胞介导的人类视网膜再生的因素,从而帮助开发治疗视网膜变性的疗法。
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引用次数: 0
Development and Optimization of a Lactate Dehydrogenase Assay Adapted to 3D Cell Cultures 开发并优化适用于三维细胞培养的乳酸脱氢酶检测方法
Pub Date : 2024-06-05 DOI: 10.3390/organoids3020008
Héloïse Castiglione, Lucie Madrange, Thomas Lemonnier, Jean-Philippe Deslys, Frank Yates, Pierre-Antoine Vigneron
In recent years, 3D cell culture systems have emerged as sophisticated in vitro models, providing valuable insights into human physiology and diseases. The transition from traditional 2D to advanced 3D cultures has introduced novel obstacles, complicating the characterization and analysis of these models. While the lactate dehydrogenase (LDH) activity assay has long been a standard readout for viability and cytotoxicity assessments in 2D cultures, its applicability in long-term 3D cultures is hindered by inappropriate normalization and low LDH stability over time. In response to these challenges, we propose an optimization of LDH assays, including a crucial normalization step based on total protein quantification and a storage method using an LDH preservation buffer. We applied it to compare unexposed cerebral organoids with organoids exposed to a toxic dose of valproic acid, and showed efficient normalization of cellular viability as well as enhanced LDH stability within the buffer. Importantly, normalized LDH activity results obtained were independent of organoid dimension and cell density. This refined LDH assay, tailored to address 3D culture constraints, allows for the transposition of this routine test from 2D to 3D cultures.
近年来,三维细胞培养系统已成为复杂的体外模型,为人类生理学和疾病提供了宝贵的见解。从传统的二维培养过渡到先进的三维培养,引入了新的障碍,使这些模型的表征和分析变得更加复杂。虽然乳酸脱氢酶(LDH)活性测定长期以来一直是二维培养物存活率和细胞毒性评估的标准读数,但其在长期三维培养物中的适用性却因归一化不当和 LDH 随时间变化稳定性低而受到阻碍。为了应对这些挑战,我们提出了一种优化 LDH 检测的方法,包括基于总蛋白定量的关键归一化步骤和使用 LDH 保存缓冲液的储存方法。我们将其应用于比较未暴露的脑器官组织和暴露于毒性剂量丙戊酸的器官组织,结果表明细胞活力的有效归一化以及缓冲液中 LDH 稳定性的增强。重要的是,归一化的 LDH 活性结果与类器官尺寸和细胞密度无关。这种经过改进的 LDH 检测方法专门针对三维培养的限制因素而定制,可将这一常规检测从二维培养转移到三维培养。
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引用次数: 0
Treatment of Canine Type 1 Diabetes Mellitus: The Long Road from Twice Daily Insulin Injection towards Long-Lasting Cell-Based Therapy 犬 1 型糖尿病的治疗:从每日两次注射胰岛素到长效细胞疗法的漫长之路
Pub Date : 2024-04-04 DOI: 10.3390/organoids3020006
Flavia C. M. Oliveira, A. Voorbij, Elisa C. Pereira, Leonor M. M. Alves e Almeida, Geanne R. Moraes, Joana T. De Oliveira, Boyd H. T. Gouw, Sabrina A. M. Legatti, Hans S. Kooistra, B. Spee, Andre M. C. Meneses, Louis C. Penning
For over 150 years, researchers have studied the (patho)physiology of the endocrine pancreas and devised treatment options for diabetes mellitus (DM). However, no cure has been developed so far. In dogs, diabetes mellitus type 1 (T1DM) is the most common presentation. Treatment consists of twice daily insulin injections, monitored by spatial blood glucose measurements. Even though dogs were instrumental in the discovery of insulin and islet transplantations, the treatment in diabetic dogs has remained unchanged for decades. Providing twice daily insulin injections is demanding for both owners and dogs and may result in hypoglycaemic events, creating the need for new treatment strategies. Novel regenerative medicine-based tools, such as improved β-cell culture protocols and artificial devices, have sparked hope for a cure. In human medicine, emerging technologies such as the transplantation of insulin-producing β-cells, generated by stem cell differentiation, with or without an encapsulation device, are currently tested in phase I/II clinical trials. As the pathogenesis of T1DM is remarkably similar between humans and dogs, novel treatment methods could be implemented in canine medicine. This review briefly summarises the physiology of the canine endocrine pancreas and the pathophysiology of canine DM before exploring current and possible future treatment options for canine DM.
150 多年来,研究人员一直在研究胰腺内分泌的(病理)生理学,并设计出糖尿病(DM)的治疗方案。然而,迄今为止还没有找到治疗方法。在狗身上,1 型糖尿病(T1DM)是最常见的表现。治疗方法包括每天注射两次胰岛素,并通过空间血糖测量进行监测。尽管狗在胰岛素和胰岛移植的发现过程中发挥了重要作用,但几十年来,糖尿病狗的治疗方法一直没有改变。每天注射两次胰岛素对主人和狗的要求都很高,而且可能导致低血糖事件,因此需要新的治疗策略。以再生医学为基础的新型工具,如改进的β细胞培养方案和人工设备,为治愈糖尿病带来了希望。在人类医学领域,一些新兴技术,如移植干细胞分化产生的胰岛素分泌β细胞,无论是否使用封装装置,目前都在进行I/II期临床试验。由于 T1DM 的发病机理在人类和犬类之间非常相似,新的治疗方法可以在犬类医学中应用。本综述简要概述了犬内分泌胰腺的生理学和犬 DM 的病理生理学,然后探讨了犬 DM 目前和未来可能的治疗方案。
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引用次数: 0
Generation of Trophoblast Organoids from Chorionic Villus Sampling 从绒毛取样中生成滋养层细胞器质
Pub Date : 2024-03-05 DOI: 10.3390/organoids3010005
B. V. van Rijn, Diane Van Opstal, Nicole van Koetsveld, Maarten Knapen, Joost Gribnau, Olivier Schäffers
Studying human placental development and function presents significant challenges due to the inherent difficulties in obtaining and maintaining placental tissue throughout the course of an ongoing pregnancy. Here, we provide a detailed protocol for generating trophoblast organoids from chorionic villi obtained during ongoing pregnancy. Our method results in efficient generation of trophoblast organoids from chorionic villus sampling, does not require preselection of chorionic villi, and controls contamination of decidual gland organoids. The resulting trophoblast organoids spontaneously form syncytiotrophoblasts that start secreting hCG hormone amongst other placenta-specific factors. Our approach facilitates the generation of trophoblast organoids from a variety of genetic backgrounds, including trisomies and gene mutations, and can be aligned with prenatal diagnostic routines. The protocol requires up to 14 days and can be carried out by users with expertise in cell culture.
由于在整个妊娠过程中获取和维持胎盘组织存在固有的困难,因此研究人类胎盘的发育和功能面临着巨大的挑战。在这里,我们提供了一种从妊娠期获得的绒毛中生成滋养层细胞器质的详细方案。我们的方法能有效地从绒毛取样中生成滋养层细胞器质,无需预选绒毛,并能控制蜕膜腺器质的污染。生成的滋养细胞器质会自发形成合胞滋养细胞,并开始分泌 hCG 激素和其他胎盘特异性因子。我们的方法有助于从各种遗传背景(包括三体和基因突变)中生成滋养细胞器质,并可与产前诊断程序保持一致。该方案最长需要 14 天,具有细胞培养专业知识的用户均可操作。
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引用次数: 0
Visualization of Vascular Perfusion of Human Pancreatic Cancer Tissue in the CAM Model and Its Impact on Future Personalized Drug Testing CAM 模型中人类胰腺癌组织血管灌注可视化及其对未来个性化药物测试的影响
Pub Date : 2024-01-08 DOI: 10.3390/organoids3010001
Andreas Ettner-Sitter, Agata Montagner, Jonas Kuenzel, Kathrin Brackmann, Maximilian Schäfer, Robert Schober, Florian Weber, Thiha Aung, Christina Hackl, Silke Haerteis
Although significant improvements have been made in the treatment of pancreatic cancer, its prognosis remains poor with an overall 5-year survival rate of less than 10%. New experimental approaches are necessary to develop novel therapeutics. In this study, the investigation of pancreatic cancer tissue growth in the chorioallantoic membrane (CAM) model and the subsequent use of indocyanine green (ICG) injections for the verification of intratumoral perfusion was conducted. ICG was injected into the CAM vasculature to visualize the perfusion of the tumor tissue. The presence of metastasis was investigated through PCR for the human-specific ALU element in the liver of the chicken embryo. Additionally, the usage of cryopreserved pancreatic tumors was established. Intratumoral perfusion of tumor tissue on the CAM was observed in recently obtained and cryopreserved tumors. ALU-PCR detected metastasis in the chick embryos’ livers. After cryopreservation, the tissue was still vital, and the xenografts generated from these tumors resembled the histological features of the primary tumor. This methodology represents the proof of principle for intravenous drug testing of pancreatic cancer in the CAM model. The cryopreserved tumors can be used for testing novel therapeutics and can be integrated into the molecular tumor board, facilitating personalized tumor treatment.
尽管胰腺癌的治疗取得了重大进展,但其预后仍然很差,5 年总生存率不到 10%。开发新型疗法需要新的实验方法。本研究调查了胰腺癌组织在绒毛膜(CAM)模型中的生长情况,并随后使用吲哚菁绿(ICG)注射来验证瘤内灌注情况。将 ICG 注入 CAM 血管以观察肿瘤组织的灌注情况。通过 PCR 检测鸡胚肝脏中的人类特异性 ALU 元素,研究是否存在转移。此外,还确定了冷冻保存的胰腺肿瘤的用途。在新近获得和冷冻保存的肿瘤中,观察到肿瘤组织在CAM上的瘤内灌注。ALU-PCR 检测到了小鸡胚胎肝脏中的转移瘤。冷冻保存后,肿瘤组织仍具有生命力,由这些肿瘤生成的异种移植物与原发肿瘤的组织学特征相似。这种方法证明了在 CAM 模型中对胰腺癌进行静脉注射药物测试的原理。冷冻保存的肿瘤可用于测试新型疗法,并可整合到肿瘤分子板中,促进肿瘤的个性化治疗。
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Organoids
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