Fmoc solid-phase synthesis of RF9 optimization with mass spectrometry verification

IF 0.4 Q3 MEDICINE, GENERAL & INTERNAL

Current Issues in Pharmacy and Medical Sciences Pub Date : 2022-07-01 DOI:10.2478/cipms-2022-0003

Marta Orocz, Kinga Hartman, M. Smoluch, J. Silberring, P. Mielczarek

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Abstract

Abstract The RF9 compound, which is an antagonist of the FF neuropeptide receptors is used as a therapeutic substance to improve the effectiveness of opioids in the chronic treatment of pain. The purpose of this study was to find the most efficient method of RF9 synthesis. The optimization experiment involved solid-phase peptide synthesis. The Fmoc strategy is based on the usage of the 9-fluorenylmethoxycarbonyl group to block reactive amino groups. Commonly applied RF9 synthesis is based on DIC/HOBt activation of 1-adamantanecarboxylic acid prior to its substitution. The experiments carried out in this research were based on the routinely applied DIC/HOBt carboxylic group activation and this scheme was compared with the COMU/DIPEA and DIC approach. The obtained results showed that COMU/DIPEA was the most efficient and effective method of RF9 synthesis. Using this strategy, pure compound was obtained, without any by-products, and at a highest yield. The use of COMU/DIPEA can be an excellent alternative to the routinely used RF9 synthesis.

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Fmoc固相合成RF9的质谱验证优化

RF9化合物是FF神经肽受体的拮抗剂，作为一种治疗物质被用于提高阿片类药物在慢性疼痛治疗中的有效性。本研究的目的是寻找合成RF9最有效的方法。优化实验涉及固相多肽合成。Fmoc策略是基于使用9-芴基甲氧羰基来阻断活性氨基。常用的RF9合成方法是在取代1-金刚烷羧酸之前通过DIC/HOBt活化。本研究采用DIC/HOBt羧基活化法进行实验，并与COMU/DIPEA和DIC方法进行了比较。结果表明，COMU/DIPEA是合成RF9最有效的方法。采用该方法可得到纯度高、无副产物的化合物。使用COMU/DIPEA可以是常规使用RF9合成的一个很好的替代方案。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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