奈玛特韦在应激条件下水解功能的不平等行为：支持制剂前研究的结构和理论方法

Unequal Behaviour between Hydrolysable Functions of Nirmatrelvir under Stress Conditions: Structural and Theoretical Approaches in Support of Preformulation Studies.

作者信息

Secretan Philippe-Henri, Annereau Maxime, Kini-Matondo Willy, Prost Bastien, Prudhomme Jade, Bournane Lina, Paul Muriel, Yagoubi Najet, Sadou-Yayé Hassane, Do Bernard

机构信息

Matériaux et Santé, Université Paris-Saclay, 92296 Châtenay-Malabry, France.

Clinical Pharmacy Department, Gustave Roussy Cancer Campus, 114 Rue Edouard Vaillant, 94800 Villejuif, France.

出版信息

Pharmaceutics. 2022 Aug 17;14(8):1720. doi: 10.3390/pharmaceutics14081720.

DOI:10.3390/pharmaceutics14081720

PMID:36015346

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9412384/

Abstract

Nirmatrelvir is an antiviral drug approved for the treatment of COVID-19. The available dosage form consists of tablets marketed under the brand name PAXLOVID. Although knowledge of nirmatrelvir's intrinsic stability may be useful for any potential development of other pharmaceutical forms, no data regarding this matter is available to date. Preliminary forced degradation studies have shown that the molecule is stable under oxidative and photolytic conditions, while hydrolytic conditions, both acidic and basic, have proven deleterious. Indeed, the molecule presents a priori several functions that can undergo hydrolysis, i.e., three amide moieties and a nitrile function. However, considering the degradation products formed under forced conditions and which were detected and identified by LC-UV-HRMS, the hydrolysis process leading to their formation is selective since it involved only 2 of the 4 hydrolysable functions of the molecule. Ab initio studies based on density functional theory (DFT) have helped better understand these reactivity differences in aqueous media. Some hydrolyzable functions of nirmatrelvir differ from others in terms of electrostatic potential and Fukui functions, and this seems to correlate with the forced degradation outcomes.

摘要

奈玛特韦是一种被批准用于治疗新冠病毒病的抗病毒药物。现有的剂型为以PAXLOVID为品牌名销售的片剂。尽管了解奈玛特韦的内在稳定性可能对其他药物剂型的任何潜在开发有用，但迄今为止尚无关于此事的数据。初步的强制降解研究表明，该分子在氧化和光解条件下是稳定的，而酸性和碱性的水解条件已被证明是有害的。实际上，该分子先验地具有几个可发生水解的官能团，即三个酰胺基团和一个腈官能团。然而，考虑到在强制条件下形成的降解产物，并通过液相色谱 - 紫外 - 高分辨质谱检测和鉴定，导致其形成的水解过程是选择性的，因为它只涉及分子中4个可水解官能团中的2个。基于密度泛函理论（DFT）的从头算研究有助于更好地理解在水性介质中的这些反应性差异。奈玛特韦的一些可水解官能团在静电势和福井函数方面与其他官能团不同，这似乎与强制降解结果相关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bc77/9412384/3b95cdc6258d/pharmaceutics-14-01720-g001.jpg

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奈玛特韦在应激条件下水解功能的不平等行为：支持制剂前研究的结构和理论方法

Unequal Behaviour between Hydrolysable Functions of Nirmatrelvir under Stress Conditions: Structural and Theoretical Approaches in Support of Preformulation Studies.

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