| Qualitative in vivo Bioluminescence Imaging
|
|
Author:
Date:
2018-09-20
[Abstract] Bioluminescence imaging (BLI) technology is an advanced method of carrying out molecular imaging on live laboratory animals in vivo. This powerful technique is widely-used in studying a variety of biological processes, and it has been an ideal tool in exploring tumor growth and metastatic spread in real-time. This technique ensures the optimal use of laboratory animal resources, particularly the ethical principle of reduction in animal use, given its non-invasive nature, ensuring that ongoing biological processes can be studied over time in the same animal, without the need to euthanize groups of mice at specific time points. In this protocol, the luciferase imaging technique was developed to study the effect of co-inoculating pericytes (contractile, αSMA+ mesenchymal ...
[摘要] 生物发光成像(BLI)技术是一种在体内实验室动物上进行分子成像的先进方法。 这种强大的技术广泛应用于研究各种生物过程,是实时探索肿瘤生长和转移扩散的理想工具。 该技术确保实验室动物资源的最佳利用,特别是减少动物使用的伦理原则,考虑到其非侵入性,确保可以在同一动物中随时间研究正在进行的生物过程,而无需安乐死 小鼠在特定的时间点。 在该方案中,开发了荧光素酶成像技术以研究共同接种周细胞(收缩性,αSMA + 间充质干细胞样细胞,位于微血管内的细胞)对生长和转移性扩散的影响。 卵巢癌使用侵袭性卵巢癌细胞系-OVCAR-5-作为例子。
【背景】生物发光成像(BLI)的原理是基于相对简单的生化过程的发光特性,即,荧光素酶介导的分子底物荧光素氧化产生光。在癌症研究中,BLI是一种流行的工具(Contag et ...
|
|
|
| Lentiviral Knockdown of Transcription Factor STAT1 in Peromyscus leucopus to Assess Its Role in the Restriction of Tick-borne Flaviviruses
|
|
Author:
Date:
2017-12-05
[Abstract] Cellular infection with tick-borne flaviviruses (TBFVs) results in activation of the interferon (IFN) signaling pathway and subsequent upregulation of numerous genes termed IFN stimulated genes (ISGs) (Schoggins et al., 2011). Many ISGs function to prevent virus pathogenesis by acting in a broad or specific manner through protein-protein interactions (Duggal and Emerman, 2012). The potency of the IFN signaling response determines the outcome of TBFV infection (Best, 2017; Carletti et al., 2017). Interestingly, data from our lab show that TBFV replication is significantly restricted in cells of the reservoir species Peromyscus leucopus thereby suggesting a potent antiviral response (Izuogu et al., 2017). We assessed the relative contribution of IFN ...
[摘要] 蜱传黄热病病毒(TBFV)的细胞感染导致干扰素(IFN)信号传导途径的激活和随后称为IFN刺激基因(ISG)(Schoggins等人,2011)的众多基因的上调。许多ISG通过蛋白质 - 蛋白质相互作用以广泛或特定的方式起作用来防止病毒发病(Duggal和Emerman,2012)。 IFN信号反应的效力决定了TBFV感染的结果(Best,2016; Carletti等人,2017)。有趣的是,我们实验室的数据显示TBFV复制在储库物种Peromyscus leucopus的细胞中显着受到限制,从而表明有效的抗病毒应答(Izuogu等人,2017)。我们评估干扰素信号对抗性的相对贡献。通过敲低IFN反应途径中的主要转录因子来抑制白血病。信号转导和转录激活因子1(STAT1)是专门针对在P。 leucopus细胞通过shRNA技术。我们进一步测试了基因敲低对细胞对IFN反应和限制病毒复制的能力的影响;结果表明当STAT1表达被改变时,leucopus细胞对IFN刺激的反应降低,并且对TBFV复制显着更敏感。
【背景】IFN信号是抵抗侵入宿主细胞的黄病毒的第一道防线(Robertson等人,2009; Lazear和Diamond,2015)。通过模式识别受体(PRR)检测与病毒颗粒相关的分子标记,然后通过转录因子引发下游信号从细胞释放1型IFN(Kawai ...
|
|
|
| An Affinity-directed Protein Missile (AdPROM) System for Targeted Destruction of Endogenous Proteins
|
|
Author:
Date:
2017-11-20
[Abstract] We recently reported an Affinity-directed PROtein Missile (AdPROM) system for the targeted proteolysis of endogenous proteins of interest (POI) (Fulcher et al., 2016 and 2017). AdPROM consists of the Von Hippel Lindau (VHL) protein, a Cullin 2 E3 ligase substrate receptor (Bosu and Kipreos, 2008), conjugated to a high affinity polypeptide binder (such as a camelid nanobody) that recognises the target protein in cells. When introduced in cells, the target protein is recruited to the CUL2 E3 ubiquitin ligase complex for ubiquitin-mediated proteasomal degradation. For target protein recruitment, we have utilised both camelid-derived VHH domain nanobodies as well as synthetic polypeptide monobodies based on the human type III fibronectin domain (Sha et al., 2013; Fridy et ...
[摘要] 我们最近报道了一种针对内源性感兴趣蛋白(POI)的靶向蛋白水解的亲和指导PROtein导弹(AdPROM)系统(Fulcher等人,2016和2017)。 AdPROM由Von Hippel Lindau(VHL)蛋白组成,Cullin 2 E3连接酶底物受体(Bosu and Kipreos,2008),与识别细胞中靶蛋白的高亲和力多肽结合剂(如骆驼科纳米抗体)缀合。当在细胞中引入时,靶蛋白质被招募到CUL2 E3泛素连接酶复合体用于泛素介导的蛋白酶体降解。对于靶蛋白的募集,我们使用了基于人类III型纤连蛋白结构域的骆驼科动物来源的VHH结构域纳米抗体以及合成多肽单体(Sharm等人,2013; Fridy等人。,2014; Schmidt et al。,2016)。在此协议中,我们描述了生成AdPROM构建体及其在人细胞系中用于靶蛋白质破坏的详细方法。 AdPROM允许对POI进行功能表征,并且其目标蛋白质破坏的效率克服了RNA干扰方法的许多局限性,这些方法需要长时间的治疗并与脱靶效应相关联,而CRISPR / Cas9基因编辑并不总是可行的。
【背景】该协议使人们能够在哺乳动物细胞系中设计,构建和表达AdPROM VHL-nano ...
|
|
|