基于网络药理学探讨治疗甲状腺癌的靶向药物

目的:甲状腺癌是一种常见的内分泌系统恶性肿瘤,在全球新诊断的肿瘤中占比约2.1%。近年来,甲状腺癌的发病率呈现上升趋势,对人类健康构成了严重威胁。本研究综述了当前用于甲状腺癌治疗的靶向药物,并运用网络药理学方法进行了分析,以揭示其作用机制和可能的治疗靶点为目的,为进一步研究和临床实践甲状腺癌靶向药物应用提供新的思路。方法:首先,通过文献的检索,对目前治疗甲状腺癌的靶向药物进行了检索,包括索拉非尼、仑伐替尼、凡德他尼、卡博替尼等。再从网络药理学的角度进行探究,借助DrugBank、Uniprot数据库和文献检索分子靶点与药物作用靶点。GeneCards和DrugBank和数据库,利用VENNY 2.1网站将所得到的有效成分靶点与Thyroid Carcinoma靶点构建韦恩图。采用STRING数据库和Cytoscape软件构建蛋白–蛋白相互作用网络及“药物–潜在活性成分–作用靶点”相互作用网络(PPI)。通过DAVID数据库对共同靶点进一步进行基因本体论(GO)功能分析和京都基因与基因组百科全书(KEEG)通路富集分析,筛选关键通路,并通过微生信绘制GO网络图、KEGG图和关键靶点–通路图,揭示药物可能发挥作用的机制。结果:通过针对甲状腺癌的靶向治疗药物主要有索拉非尼、仑伐替尼、凡德他尼、卡博替尼等多种分子靶向药物。基于数据库和软件筛选,确定有效成分及其相关靶点。结合药物–组分–靶点网络图揭示在胚胎发育、细胞增殖等方面的重要性。分析GO功能富集揭示药物调节多细胞生物发育、细胞增殖等生物学过程发挥作用。KEGG功能富集分析显示MAPK讯号路径、PI3K-AKT讯号路径等多条机制路径与甲状腺癌治疗高度相关。结论:分析目前治疗甲状腺癌的靶向药物及其作用机制,揭示临床药物通过多途径介入治疗甲状腺癌的发生和发展。同时构建的药物–成分–靶点网络及功能富集分析为进一步临床整合治疗提供重要参考。Objective: Thyroid cancer is a common malignant tumor of the endocrine system, accounting for approximately 2.1% of newly diagnosed tumors on the globe. In recent years, the incidence rate of thyroid cancer is on the rise, posing a serious threat to human health. Therefore, this study reviews the targeted drugs currently used for the treatment of thyroid cancer and analyzes them using network pharmacology methods to reveal their mechanisms of action and potential therapeutic targets, providing new ideas for further research and clinical practice of the applications of targeted drug in thyroid cancer. Methods: First, a search was done on the current targeted drugs for the treatment of thyroid cancer by searching relevant literatures, including sorafenib, lenvatinib, vandetanib, cabozantinib and so on. Then, exploring from the perspective of network pharmacology, DrugBank, Uniprot databases, literature searches were used to identify molecular targets and drug targets. GeneCards, DrugBank and databases were searched and the VENNY 2.1 website was used to construct a Venn diagram by combining the obtained effective ingredient targets with thyroid cancer targets. Protein-Protein Interaction Networks and Drug-Potential Active Ingredient-Target Interaction Networks (PPI) were constructed using STRING database and Cytoscape software. Gene Ontology (GO) functional analysis and Kyoto Encyclopedia of Genes and Genomes (KEEG) pathway enrichment analysis were further conducted on common targets through the DAVID database to screen for key pathways. GO network diagrams, KEGG diagrams and key target pathways diagrams were drawn using Microbiology Data to reveal the possible mechanisms of drug functions. Results: Currently, the targeted therapeutic drugs for thyroid cancer mainly include molecular targeted drugs such as sorafenib, lenvatinib, vandetanib, cabozantinib and so on. Based on databases and software screening, the effective ingredients and related targets were determined. Combining with the drug-component-target network diagram, the importance of some targets in embryonic development, cell proliferation, and other aspects were revealed. Analyzing GO functional enrichment revealed that drugs exert their effects by regulating biological processes such as multicellular biological development and cell proliferation. KEGG functional enrichment analysis showed that multiple pathways such as MAPK signaling pathway and PI3K-AKT signaling pathway and so on were highly correlated with the treatment of thyroid cancer. Conclusion: We analyzed the current targeted drugs for the treatment of thyroid cancer and their mechanisms of function, revealing that clinical drugs intervene in the treatment of the occurrence and development of thyroid cancer through multiple pathways. At the same time, the constructed drug-component-target network and functional enrichment analysis provide important references for further clinical integrated therapy.

溶瘤病毒靶向肿瘤的分子机制

溶瘤病毒(oncolytic virus)能特异性地感染和裂解肿瘤细胞,而并不损伤正常细胞。一些病毒,如呼肠孤病毒,本身即具有溶瘤特性和肿瘤靶向性。近年来,随着肿瘤和病毒分子生物学研究的深入以及现代生物技术的成熟,人们可以利用基因工程手段有目的地改造病毒以使其特异性靶向肿瘤细胞,其中的一些已开发为治疗肿瘤的药物应用于临床研究。溶瘤病毒作为抗肿瘤药物的关键在于提高其靶向性和溶瘤效应,本文主要就溶瘤病毒靶向肿瘤的分子机制作一些探讨。由于肿瘤细胞在遗传和生理特性方面显著区别于正常细胞(尤其是获得或丧失一些功能的突变,或一些基因功能的上调或下调),则溶瘤病毒可特异性地靶向肿瘤细胞中变异的分子或信号通路,如pRB、p53、干扰素、蛋白激酶R、表皮生长因子受体、Ras、Wnt、抗凋亡分子、低氧诱导因子和病毒受体等。溶瘤病毒靶向肿瘤的另一策略是通过删除病毒在正常细胞中复制所必需的基因而实现,而这些基因对于病毒在肿瘤细胞中复制是非必需的。另外,将病毒复制所必需的基因置于肿瘤特异性或组织特异性启动子控制之下,也能使溶瘤病毒靶向肿瘤细胞。

胃癌靶向治疗机制及中西医药物治疗情况的研究进展

胃癌是全球范围内最常见的恶性肿瘤,常采用外科治疗结合生物药物技术手段进行治疗。随着肿瘤生物学的快速发展,肿瘤分子标志物不断涌现,分子靶向治疗因其特异性强、副作用小等优势得到迅速发展,靶向治疗在胃癌中的研究备受关注,但因其耐药性和分子标志物的缺乏等问题导致临床应用受限。目前胃癌的治疗靶点包括人类表皮生长因子受体(EGFR)、人类表皮生长因子受体2(HER-2)、血管内皮生长因子(VEGF)、哺乳动物雷帕霉素靶蛋白(m TOR)、重组人成纤维细胞生长因子受体2(FGFR2)、肝细胞生长因子受体(HGFR/c-MET)、细胞程序性死亡-1(PD-1)和细胞程序性死亡配体-1(PD-L1)等。近几年,随着中药抗肿瘤研究的深入开展,诸如熊果酸、木犀草素等中药活性成分和中药复方制剂治疗胃癌的机制已逐渐阐明。本文通过总结分析常见的胃癌靶向治疗机制及中药治疗胃癌的机制,为进一步开发高效低毒的靶向中药提供思路和借鉴。

肿瘤靶向药物输送载体研究的分析和展望

随着纳米技术的发展,靶向肿瘤的纳米载体成为研究的热点。纳米载体可以通过靶向作用更有效地输送抗肿瘤药物和影像材料用于肿瘤的治疗和诊断。本文对靶向肿瘤的纳米药物载体研究的近况以及发展趋势进行分析和展望,希望从靶向载体制剂设计和开发的角度出发,探讨靶点选择、靶向机制以及载体结构和质量控制方面的关键技术问题,期望对相关研究人员有所启发。

结肠癌及其分型的靶分子修饰递送药物的研究进展

目的:为结肠癌靶向治疗药物的研发提供参考。方法:以"结肠癌""靶分子""分型""靶向机制""修饰递送药物""Colon cancer""Target molecule""Typing""Targeting mechanism""Modified delivery drug"等为关键词,在中国知网、万方数据、PubMed等数据库中组合检索2001年7月-2018年6月发表的相关文献,筛选出能够准确靶向至结肠癌细胞的靶分子,并针对不同类型的结肠癌患者的靶向药物及其靶向特征的研究进展进行综述。结果与结论:共检索到相关文献255篇,其中有效文献54篇。目前,国内外学者研究和应用较多的结肠癌靶分子包括透明质酸、叶酸、小麦胚芽凝集素、核酸适配体、Affibody分子、单克隆抗体、多肽、microRNA等。为了能够更加精准地对结肠癌进行靶向,可以运用逆转录定量聚合酶链反应或者免疫组化法分析候选的生物标志物,将结肠癌分为杯状型、肠上皮细胞型、干细胞型、炎症型以及过渡扩增型CS-TA、CR-TA等6种类型,在研究结肠癌靶向药物时根据结肠癌不同分型选择其靶点及靶分子进行研发。目前,临床上已出现的靶向药物仍然因为对不同的结肠癌患者缺乏选择性使其应用受到限制。虽然可将结肠癌患者分型并据此给予不同的靶向药能够达到事半功倍的效果,但是目前这个分型方法还没有应用到临床上,并且此分型方法也由于样本量的限制,还不够完善。因此,关于结肠癌的分型以及针对不同分型的靶向药物还有必要继续深入研究。

技术转移现状及分层对接方法分析

技术成果“转出去”是发挥创新驱动效能与缓解技术转移困境的重要举措。技术转移失效的重要原因之一在于缺乏对技术需求内在层次的有效把握和管理。基于分层次管理理论,从技术需求微观层次视角出发,构建以技术需求精细化分层体系为核心,以精准识别、分层靶向、精准反馈、为关键要点的技术转移分层靶向机制,以建立华南技术转移中心为技术转移分层靶向机制重要举措。依托知识产权制度保护和大数据驱动的有效支撑,技术转移分层靶向机制能够有效地推动技术供需主体之间的精准对接,引导技术创新要素在不同层次上的组合和配置,从而更有效地实现技术成果的转移和应用。

共载盐酸阿霉素和水飞蓟宾口服肝靶向脂质体机制评价

目的:研究基于胆酸转运体的DSPE-PEG-胆酸修饰脂质体体外细胞转运和摄取及其机制。方法:构建共载盐酸阿霉素(DOX)和水飞蓟宾(silybin)的DSPE-PEG-胆酸修饰脂质体(CA-LP-DOX/silybin),采用表面等离子体共振(surface plasmon resonance,SPR)技术考察CA-LP-DOX/silybin与细胞的相互作用;采用Caco-2细胞转运考察CA-LP-DOX/silybin经肠吸收机制;采用HepG2细胞摄取考察CA-LP-DOX/silybin经肝细胞摄取机制。结果:所建立的CA-LP-DOX/silybin与Caco-2细胞和HepG2细胞均可相互作用,且与HepG2细胞相互作用更强。与未修饰脂质体(LP-DOX/silybin)和游离药物(DOX/silybin)相比,其经Caco-2细胞转运和Hep G2细胞摄取均增强,其摄取量受温度、浓度和内吞抑制剂影响。结论:CA-LP-DOX/silybin能够增强DOX和silybin的细胞转运和摄取,其机制为胆酸转运体介导,且有网格蛋白和小窝蛋白参与的内吞过程。

Molecular Mechanisms Contributing to Resistance to Tyrosine Kinase-Targeted Therapy for Non-Small Cell Lung Cancer

One of the most important pathways in non-small cell lung cancer(NSCLC) is the epidermal growth factor receptor(EGFR) pathway. This pathway affects several crucial processes in tumor development and progression,including tumor cell proliferation,apoptosis regulation,angiogenesis,and metastatic invasion.Targeting EGFR is currently being intensely explored.We are witnessing the development of a number of potential molecular-inhibiting treatments for application in clinical oncology.In the last decade,the tyrosine kinase(TK) domain of the EGFR was identified in NSCLC patients,and it has responded very well with a dramatic clinical improvement to TK inhibitors such are gefitinib and erlotinib.Unfortunately,there were primary and/or secondary resistance to these treatments,as shown by clinical trials.Subsequent molecular biology studies provided some explanations for the drug resistance phenomenon.The molecular mechanisms of resistance need to be clarified.An in-depth understanding of these targeted-therapy resistance may help us explore new strategies for overcoming or reversing the resistance to these inhibitors for the future of NSCLC treatment.

抗体偶联药物的有关进展

化疗肿瘤治疗的常规手段之一,但由于细胞毒药物没有明显的靶向性,导致其副作用十分显著。因此免疫偶联药物由于其良好的靶向性及抗癌活性就成为了研究的热点。文章综述了细胞毒药物与单克隆抗体偶联的各种常用方法,包括使用偶联剂进行偶联、利用肽链进行偶联、利用二硫键进行偶联和利用大分子技术进行偶联,以及抗体偶联药物的研究现状。抗体偶联药物有细胞毒药物、抗体和偶联剂组成,利用各种偶联手段将单克隆抗体与细胞毒药物偶联,不仅可以将细胞毒药物特异性地靶向于肿瘤细胞,而且可以降低细胞毒药物对于正常细胞的杀伤,同时还可以具备缓释、提高药物抗肿瘤活性等效果,是未来肿瘤靶向治疗的发展方向之一。同时文章还结合作者的自身工作,对抗体偶联药物的未来发展方向提出了建议。