Design, Synthesis, and Evaluation of Trihalomethyl Ketone Derivatives of Neocarzilin A as Improved Antimetastatic Agents.

IF 3.8 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY ACS Bio & Med Chem Au Pub Date : 2024-11-05 eCollection Date: 2024-12-18 DOI:10.1021/acsbiomedchemau.4c00087

Noah M Moriarty, Annaleigh M Benton, Lauren E Gartenhaus, Andrew R Nelson, Haley A Harper, Carli J McMahan, Bennett D Elzey, Jason A Hanna, Elizabeth I Parkinson

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Abstract

Vesicle Amine Transport-1 (VAT1) is a protein that is overexpressed in many cancers, including breast cancer, glioblastoma, and angiosarcoma. High VAT1 expression correlates with poor overall survival, and genetic knockout models of VAT1 indicate potent antimigratory activity, suggesting that VAT1 is a promising antimetastasis target. Recently, the natural product neocarzilin A (NCA) from Streptomyces carzinostaticus was reported to be the first validated small-molecule inhibitor of VAT1, having strong activity in metastasis models of angiosarcoma and breast cancer. While knockdown of VAT1 has no effect on cell viability, NCA has significant cytotoxicity, suggesting that NCA is not selective for VAT1. Additionally, NCA has poor aqueous solubility, making in vivo administration of NCA challenging and thus limiting its therapeutic potential. Here, we report the design, synthesis, bioactivity, and pharmacokinetics of novel NCA derivatives with improved drug-like properties. Specifically, we have developed derivatives with altered warheads, replacing chlorines on the trichloroketone with fluorines. Using a modified synthetic route, we accessed NCA derivatives with greater than 25-fold improvements in solubility and 30-fold improvements in the antimigratory to antiproliferative bioactivity ratio. The two best derivatives, along with the parent, were analyzed for oral bioavailability, with the two more soluble derivatives showing greatly improved bioavailability. Overall, these studies have resulted in the development of VAT1 inhibitors with improved properties, which will enable further study of the pharmacological inhibition of VAT1 as an antimetastatic strategy. Additionally, these studies provide insights into novel trihalomethyl ketone warheads and identify chlorodifluoroketone as a potent and selective new warhead.

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新卡伐林A三卤甲酮衍生物的设计、合成和评价。

囊泡胺转运-1 （VAT1）是一种在许多癌症中过度表达的蛋白，包括乳腺癌、胶质母细胞瘤和血管肉瘤。VAT1的高表达与较差的总生存期相关，并且VAT1的基因敲除模型显示出强大的抗迁移活性，这表明VAT1是一个有希望的抗转移靶点。最近，来自carzinostaticus链霉菌（Streptomyces carzinostaticus）的天然产物neocarzilin A （NCA）被报道为首个被证实的VAT1小分子抑制剂，在血管肉瘤和乳腺癌转移模型中具有很强的活性。虽然VAT1的敲除对细胞活力没有影响，但NCA具有显著的细胞毒性，这表明NCA对VAT1没有选择性。此外，NCA的水溶性较差，使得体内给药具有挑战性，从而限制了其治疗潜力。在这里，我们报告的设计，合成，生物活性和药代动力学的新型NCA衍生物与改进的药物样性质。具体地说，我们已经研制出带有改型弹头的衍生物，用氟取代三氯酮上的氯。通过改进的合成路线，我们获得了NCA衍生物，其溶解度提高了25倍以上，抗迁移与抗增殖生物活性比提高了30倍。对两种最佳衍生物及其母体进行了口服生物利用度分析，结果表明，两种较易溶的衍生物的生物利用度大大提高。总的来说，这些研究已经开发出性能更好的VAT1抑制剂，这将使进一步研究VAT1的药理抑制作为抗转移策略成为可能。此外，这些研究提供了对新型三卤甲酮弹头的见解，并确定氯二氟酮是一种有效和选择性的新弹头。

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ACS Bio & Med Chem Au 药物、生物、化学-

CiteScore

4.10

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0.00%

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期刊介绍： ACS Bio & Med Chem Au is a broad scope open access journal which publishes short letters comprehensive articles reviews and perspectives in all aspects of biological and medicinal chemistry. Studies providing fundamental insights or describing novel syntheses as well as clinical or other applications-based work are welcomed.This broad scope includes experimental and theoretical studies on the chemical physical mechanistic and/or structural basis of biological or cell function in all domains of life. It encompasses the fields of chemical biology synthetic biology disease biology cell biology agriculture and food natural products research nucleic acid biology neuroscience structural biology and biophysics.The journal publishes studies that pertain to a broad range of medicinal chemistry including compound design and optimization biological evaluation molecular mechanistic understanding of drug delivery and drug delivery systems imaging agents and pharmacology and translational science of both small and large bioactive molecules. Novel computational cheminformatics and structural studies for the identification (or structure-activity relationship analysis) of bioactive molecules ligands and their targets are also welcome. The journal will consider computational studies applying established computational methods but only in combination with novel and original experimental data (e.g. in cases where new compounds have been designed and tested).Also included in the scope of the journal are articles relating to infectious diseases research on pathogens host-pathogen interactions therapeutics diagnostics vaccines drug-delivery systems and other biomedical technology development pertaining to infectious diseases.

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