Avanbulin

WARNING: This product is for research use only, not for human or veterinary use.

Description:Avanbulin, also known as BAL27862, is a novel synthetic potent inhibitor of tubulin polymerization that induces cancer cell death. BAL27862 is a novel microtubule-destabilizing drug that is currently undergoing phase I clinical evaluation as the prodrug BAL101553. BAL27862 elicits a unique microtubule (MT) phenotype, distinct from paclitaxel, vinblastine and colchicine, has broad in vitro anti-proliferative activity against a diverse range of human tumor lines (low nM IC50s) and induces significant antitumor responses in a range.

Price and Availability

Avanbulin, purity > 98% is not in stock, may be available through custom synthesis. For cost-effective reason, minimum 1 gram order is requested. The product will be characterized by NMR, HPLC and MS analysis. Purity (HPLC) is usually >98%. CoA, QC data, MSDS will be provided when product is successfully made. The estimated lead time is 2-3 months. Please send email to sales@medkoo.com to inquire quote.

Chemical Structure

Theoretical Analysis

MedKoo Cat#: 205822Name: AvanbulinCAS#: 798577-91-0Chemical Formula: C20H17N7O2Exact Mass: 387.14437Molecular Weight: 387.39Elemental Analysis: C, 62.01; H, 4.42; N, 25.31; O, 8.26

Synonym:BAL27862; BAL-27862; BAL 27862; Avanbulin

IUPAC/Chemical Name:3-((4-(1-(2-(4-aminophenyl)-2-oxoethyl)-1H-benzo[d]imidazol-2-yl)-1,2,5-oxadiazol-3-yl)amino)propanenitrile

InChi Key:LSFOZQQVTWFMNS-UHFFFAOYSA-N

InChi Code:InChI=1S/C20H17N7O2/c21-10-3-11-23-19-18(25-29-26-19)20-24-15-4-1-2-5-16(15)27(20)12-17(28)13-6-8-14(22)9-7-13/h1-2,4-9H,3,11-12,22H2,(H,23,26)

SMILES Code:N#CCCNC1=NON=C1C2=NC3=CC=CC=C3N2CC(C4=CC=C(N)C=C4)=O

Technical Data

Additional Information

BAL27862 is a novel MTA that triggers apoptosis in cancer cells. In vitro, BAL27862 destabilizes microtubules to produce a microtubule phenotype distinct from that observed with other MTAs, and retains its antiproliferative activity against P-gp overexpressing tumor cells. BAL27862, when administered intravenously or orally, induces significant antitumor responses in a range of animal models of human cancer, including tumors refractory to conventional treatments. BAL27862 overcomes P-gp overexpression-mediated resistance, and demonstrate that Bcl-2 status and tubulin modifications do not necessarily affect its antitumor activity. Analysis of MDs shows that BAL27862 elicited effects consistent with its destabilizing activity; suppression of MDs was 2-fold lower than observed with PTX. Strikingly, BAL27862 displayed a unique microtubule severing activity. Conclusions: Besides its microtubule-targeting activity, BAL27862 displays unique features in its mechanism of action that make it a promising compound for clinical investigation.  (source: J Clin Oncol 28, 2010 (suppl; abstr e13589)   

References

1: Prota AE, Danel F, Bachmann F, Bargsten K, BueyRM, Pohlmann J, Reinelt S, Lane H, Steinmetz MO. The novelmicrotubule-destabilizing drug BAL27862 binds to  the colchicinesite of tubulin with distinct effects on microtubule organization. J MolBiol. 2014 Apr 17;426(8):1848-60. doi: 10.1016/j.jmb.2014.02.005. Epub2014 Feb 11. PubMed PMID: 24530796.

MedKoo，由化学家和药学家陈清奇博士。北卡罗莱纳州的研究三角区（ResearchTrianglePark,简称RTP)，是一家以研发、生产和销售小分子抗癌化合物为主的医药科技公司，该公司的业务范围主要是为全球所有从事抗癌药物研究和开发的制药公司，高校，研究院所，政府相关机构提供与抗癌药物分子相关的产品、试剂和技术服务。

中文名MedKoo中    文美帝药库医药科技公司创立于2008年总部位于美国东海岸

MedKoo是世界领先的供应商之一的抗癌化学试剂和激酶抑制剂。我们制造、销售和分发高质量的抗癌小分子肿瘤学研究试剂。我们的使命是建立世界上最全面的抗癌小分子的集合。我们也为医药行业提供高质量的研究服务、医学研究机构和学术机构。我们致力于提供优质的服务。

MedKoo是世界领先的供应商之一的抗癌化学试剂和激酶抑制剂。我们制造、销售和分发高质量的抗癌小分子肿瘤学研究试剂。我们的使命是建立世界上最全面的抗癌小分子的集合。我们也为医药行业提供高质量的研究服务、医学研究机构和学术机构。我们致力于提供优质的服务和分子有竞争力的价格。MedKoo是您可靠的合作伙伴采购药物发现和药物分子。

MedKoo是世界的抗癌化学试剂和激酶抑制剂供应商之一。我们制造，销售和分销用于肿瘤学研究的高质量抗癌小分子试剂。我们的使命是建立世界上全面的抗癌小分子集合。我们还为制药行业，医学研究组织和学术机构提供高质量的研究服务。我们致力于以具有竞争力的价格提供服务和分子。MedKoo是您可靠的药物发现和药物分子采购合作伙伴。

CRISPR-Cas9是近年兴起的用于靶向基因组特定位置，进行DNA修饰的重要工具。研究发现CRISPR是细菌为了应对病毒的攻击而演化而来的获得性免疫防御机制。具体来说，在CRISPR和Cas9的作用下，经由小RNA分子的引导，靶向并沉默入侵者遗传物质核酸的关键部分。在该系统中，crRNA（CRISPR-derivedRNA）与tracrRNA（trans-activatingRNA）结合形成的复合物能特异性识别靶基因序列，并引导Cas9核酸内切酶在靶定位点剪切双链DNA，随后，细胞的非同源末端连接修复机制（NHEJ）重新连接断裂处的基因组DNA，并引入插入或缺失突变。另外也可以提供一个外源双链供体DNA（Donor）通过同源重组（HR）整合进断裂处的基因组，从而达到对基因组DNA进行修饰的目的。
目前，CRISPR-Cas9系统的高效基因组编辑功能已被应用于多种生物，包括小鼠、大鼠、斑马鱼、秀丽隐杆线虫，也包含多种细菌和植物，甚至在人体上也有应用。