Building skeletally diverse architectures on the Indoline Scaffold: the discovery of a chemical probe of focal adhesion kinase signaling networks.

Prakesch M; Bijian K; Campagna-Slater V; Quevillon S; Joseph R; Wei CQ; Sesmilo E; Reayi A; Poondra RR; Barnes ML; Leek DM; Xu B; Lougheed C; Schapira M; Alaoui-Jamali M; Arya P

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Building skeletally diverse architectures on the Indoline Scaffold: the discovery of a chemical probe of focal adhesion kinase signaling networks.

机译：在Indoline支架上构建骨骼多样的体系结构：发现了粘着斑激酶信号传导网络的化学探针。

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Inspired by bioactive indoline alkaloid natural products, here, we report a divergent synthesis approach that led to skeletally diverse indoline alkaloid-inspired compounds. The natural product-inspired compounds obtained were then subjected to a series of in vitro and cellular assays to examine their properties as modulators of focal adhesion kinase (FAK) activity. This study resulted in the identification of a promising lead inhibitor of FAK (42), which also showed activity in a wound healing and cell invasion assay. The in silico study of the lead compound (42) was also undertaken.

机译：受生物活性二氢吲哚生物碱天然产物的启发，在这里，我们报告了一种不同的合成方法，该方法导致骨骼上不同的二氢吲哚啉生物碱启发的化合物。然后，将获得的受天然产物启发的化合物进行一系列体外和细胞分析，以检查其作为粘着斑激酶（FAK）活性调节剂的特性。这项研究导致鉴定出一种有前途的FAK铅抑制剂（42），该抑制剂在伤口愈合和细胞侵袭试验中也显示出活性。还对铅化合物（42）进行了计算机分析。

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《Bioorganic and medicinal chemistry》 |2008年第21期|共7页
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Prakesch M; Bijian K; Campagna-Slater V; Quevillon S; Joseph R; Wei CQ; Sesmilo E; Reayi A; Poondra RR; Barnes ML; Leek DM; Xu B; Lougheed C; Schapira M; Alaoui-Jamali M; Arya P;
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正文语种 eng
中图分类药学;生物化学;
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1. Building skeletally diverse architectures on the Indoline Scaffold: the discovery of a chemical probe of focal adhesion kinase signaling networks. [J] . Prakesch M, Bijian K, Campagna-Slater V, Bioorganic and medicinal chemistry . 2008,第21期

机译：在Indoline支架上构建骨骼多样的体系结构：发现了粘着斑激酶信号传导网络的化学探针。
2. Part 2: Building diverse natural-product-like architectures from a tetrahydroaminoquinoline scaffold. Modular solution- and solid-phase approaches for use in high-throughput generation of chemical probes [J] . Sharma U, Srivastava S, Prakesch M, Journal of combinatorial chemistry . 2006,第5期

机译：第2部分：从四氢氨基喹啉骨架中构建各种类似于天然产物的结构。用于高通量化学探针生成的模块化溶液和固相方法
3. Inhibition of focal adhesion kinase (FAK) signaling in focal adhesions decreases cell motility and proliferation. [J] . A P Gilmore, L H Romer Molecular biology of the cell . 1996,第8期

机译：在粘着斑中抑制粘着斑激酶（FAK）信号传导会降低细胞运动性和增殖。
4. Extracellular matrix proteins mediate osteogenic differentiation of human mesenchymal stem cells on phosphate functionalized gels through integrin mediated focal adhesion kinase signaling [C] . Navakanth Gandavarapu, Kristi S. Anseth Annual meeting of the Society for Biomaterials . 2011

机译：细胞外基质蛋白通过整合素介导的粘着斑激酶信号传导介导人间充质干细胞在磷酸盐功能化凝胶上的成骨分化
5. Roles of phospholipase D2 and focal adhesion kinase in mitogenic signalling and cellular adhesion. [D] . Knoepp, Stewart McAlpine. 2003

机译：磷脂酶D2和粘着斑激酶在促有丝分裂信号传导和细胞粘附中的作用。
6. Focal Adhesion Kinase as a RhoA-activable Signaling Scaffold Mediating Akt Activation and Cardiomyocyte Protection [O] . Dominic P. Del Re, Shigeki Miyamoto, Joan Heller Brown 2008

机译：黏着斑激酶作为RhoA激活信号转导介导。 Akt激活和心肌细胞保护
7. Discovery of Indoline-Based, Natural-Product-like Compounds as Probes of Focal Adhesion Kinase Signaling Pathways [O] . Poondra Rajamohan R., Kumar N. Niranjan, Bijian Krikor, 2009

机译：发现基于吲哚啉的天然产物样化合物作为粘着斑激酶信号通路的探针
8. Deconstruction of Oncogenic K-RAS Signaling Reveals Focal Adhesion Kinase as a Novel Therapeutic Target in NSCLC. [R] . Scaglioni, P. P. 2016

机译：致癌K-Ras信号的解构揭示了局灶性粘附激酶作为NsCLC中的新型治疗靶点。

Building skeletally diverse architectures on the Indoline Scaffold: the discovery of a chemical probe of focal adhesion kinase signaling networks.

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