| Multilayered Fabrication Assembly Technique to Engineer a Corneal Stromal Equivalent
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Author:
Date:
2021-03-20
[Abstract] Tissue engineering has emerged as a strategy to combat the donor shortage of human corneas for transplantation. Synthetic corneal substitutes are currently unable to support the normal phenotype of human cells and so decellularized animal corneas have been deployed to more closely provide the topographical and biochemical cues to promote cell attachment and function. Although full thickness decellularized corneas can support corneal cells, the cells are slow to populate the scaffold and density declines from the surface. To avoid these problems, this protocol describes the stacking of ...
[摘要] [摘要]组织工程学已成为一种解决人类角膜移植供体短缺的策略。合成的角膜替代物目前不能支持人类细胞的正常表型,因此已经使用脱细胞的动物角膜来更紧密地提供地形和生化线索以促进细胞附着和功能。尽管全厚度的脱细胞角膜可以支持角膜细胞,但这些细胞填充支架的速度很慢,并且密度从表面降低。为了避免这些问题,该协议描述了脱细胞层的交替层的堆叠 猪角膜片和载有细胞的胶原蛋白水凝胶可产生角膜构建体。通过将猪角膜冷冻切片,用去污剂和核酸酶使它们脱细胞,最后进行空气干燥以储存和易于制造,从而获得了薄片。然后将角膜基质细胞封装在I型胶原溶液中,并在这些薄片之间进行浇铸。该协议提出了一种快速的方法,以确保仅使用组织来源的材料即可在整个构建体中获得高细胞度。
图形摘要:
获得角膜基质等效物的主要过程概述
[背景]角膜失明影响着全球数百万人,治疗主要依赖于人类供体角膜的移植(Gain等人,2016)。由于这些捐赠是稀缺的,因此需要基于生物材料的组织工程学的替代方案。正在开发各种各样的策略和材料来工程化角膜组织,一种有前途的方法是使用脱细胞的动物角膜(Fernández- Pérez和Ahearne ...
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| In vitro AMPylation/Adenylylation of Alpha-synuclein by HYPE/FICD
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Author:
Date:
2020-09-20
[Abstract] One of the major histopathological hallmarks of Parkinson’s disease are Lewy bodies (LBs) –cytoplasmic inclusions, enriched with fibrillar forms of the presynaptic protein alpha-synuclein (α-syn). Progressive deposition of α-syn into LBs is enabled by its propensity to fibrillize into insoluble aggregates. We recently described a marked reduction in α-syn fibrillation in vitro upon posttranslational modification (PTM) by the Fic (Filamentation induced by cAMP) family adenylyltransferase HYPE/FICD (Huntingtin yeast-interacting protein E/FICD). Specifically, HYPE utilizes ATP to ...
[摘要] [摘要 ] 帕金森氏病的主要组织病理学标志之一是路易体(LB) –细胞质内含物,富含纤维状形式的突触前蛋白α-突触核蛋白(α-syn)。由于α-syn易于原纤维化成不溶性聚集体,因此可以逐步沉积到LBs中。我们最近描述了Fic(由cAMP诱导的细丝化)家族腺苷酸转移酶HYPE / FICD(与亨廷顿酵母相互作用的蛋白E / FICD)在翻译后修饰(PTM)后体外α-syn纤颤的明显减少。具体而言,HYPE利用ATP在称为AMPylation 或adenylylation 的PTM中,以AMP(单磷酸腺苷)共价修饰α-syn's N末端和NAC(非淀粉样β成分)区域中的关键苏氨酸残基。HYPE底物(例如α-syn)的体外AMPyl化反应现状使用多种ATP类似物,包括放射性标记的α - 32 P-ATP 或α - 33 P-ATP,荧光ATP类似物,生物素化ATP类似物(N6- [6-六甲基] -ATP-生物素),以及基于点击化学的烷基-ATP方法检测基于凝胶的AMPylation 。当前描述HYPE介导AMPylation 的分步方案的文献依赖于α - 33 P-ATP核苷酸,而不是更常见的α - 32 P-ATP。尽管有效,但前一种方法需要长时间且危险的DMSO-PPO(二甲基亚砜- 聚苯基恶唑)沉淀。因此,我们提供了基于α - 33 ...
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| Preparation of Purified Gram-positive Bacterial Cell Wall and Detection in Placenta and Fetal Tissues
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Author:
Date:
2016-12-05
[Abstract] Cell wall is a complex biopolymer on the surface of all Gram-positive bacteria. During infection, cell wall is recognized by the innate immune receptor Toll-like receptor 2 causing intense inflammation and tissue damage. In animal models, cell wall traffics from the blood stream to many organs in the body, including brain, heart, placenta and fetus. This protocol describes how to prepare purified cell wall from Streptococcus pneumoniae, detect its distribution in animal tissues, and study the tissue response using the placenta and fetal brain as examples.
[摘要] 细胞壁是所有革兰氏阳性菌表面上的复杂生物聚合物。在感染期间,细胞壁被先天免疫受体Toll样受体2识别,引起强烈的炎症和组织损伤。在动物模型中,从血流到体内许多器官(包括脑,心脏,胎盘和胎儿)的细胞壁运输。该协议描述了如何从肺炎链球菌制备纯化的细胞壁,检测其在动物组织中的分布,并且使用胎盘和胎脑作为实例研究组织反应。
关键词: 细胞壁,肽聚糖,细菌炎症,神经增殖,胎儿神经发生,胎盘运输,Toll样受体2配体,肺炎链球菌
/strong>宿主对感染的反应涉及许多细菌组分的识别,包括细胞壁(CW),一种形成所有革兰氏阳性细菌表面的复合大分子。革兰氏阳性细菌的CW由肽聚糖和磷壁酸的共价网络形成。肺炎链球菌是肺炎,败血症和脑膜炎的主要原因,已经成为研究对包括CW在内的革兰氏阳性细菌感染的先天免疫反应的重要模式生物体。 当肺炎链球菌(肺炎球菌)感染时,CW成分在生长期或抗生素诱导的死亡期间从细菌释放,它在血流中循环并穿过细胞屏障,包括胎盘和血脑屏障。 CW组分具有等于或大于完整细菌的炎性活性(Tuomanen等人,1985a和1985b)。 ...
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