Delbert S. Botes, Jesus Daniel Loya, Mahboubeh Ghahremani, Bailee B. Newham, Mikaela I. Aleman, Gary C. George, Daniel K. Unruh and Kristin M. Hutchins
{"title":"Efficient mechanochemistry of beta blockers: neutralization, salification, and effect of liquid additives†","authors":"Delbert S. Botes, Jesus Daniel Loya, Mahboubeh Ghahremani, Bailee B. Newham, Mikaela I. Aleman, Gary C. George, Daniel K. Unruh and Kristin M. Hutchins","doi":"10.1039/D4MR00078A","DOIUrl":null,"url":null,"abstract":"<p >Beta blockers are a class of ubiquitous cardiovascular drugs that have collectively received little attention from a crystal engineering standpoint. Here, we describe the use of mechanochemistry in the salification of five beta blockers (propranolol, metoprolol, acebutolol, atenolol, and labetalol) with nicotinic and isonicotinic acid. Firstly, liquid assisted grinding (LAG) was used to neutralize the commercial beta blocker salts, enabling the efficient gram-scale formation of the free bases, which are essential for cocrystallization. Thereafter, 1 : 1 mechanochemical cocrystallizations were successful in all but one case and nine salts were characterized, eight of which are novel. Furthermore, the racemic free base crystal structure of acebutolol is reported for the first time, as well as the first multicomponent crystal of labetalol that is not a simple salt. Salification was enabled by the large p<em>K</em><small><sub>a</sub></small> differences between the components, which facilitated the protonation of the basic amine on the beta blockers' alkanolamine skeleton. Thereafter, charge-assisted hydrogen bonding promoted cocrystallization. We envisage salification to be applicable to any beta blocker, considering the current study encompasses approximately one quarter of this drug class. Lastly, the role of different liquid additives in the LAG process was assessed, and the solvent identity was found to play a substantial role in the mechanochemical outcome, although it did not strictly correlate with polarity. This study demonstrates that LAG screening with a wide selection of solvents provides a path to achieve full conversion to products, explore the crystal landscape of multicomponent crystals, and assist in identifying additional phases and/or late stage polymorphs in solid form development.</p>","PeriodicalId":101140,"journal":{"name":"RSC Mechanochemistry","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2024-08-19","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://pubs.rsc.org/en/content/articlepdf/2024/mr/d4mr00078a?page=search","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"RSC Mechanochemistry","FirstCategoryId":"1085","ListUrlMain":"https://pubs.rsc.org/en/content/articlelanding/2024/mr/d4mr00078a","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Beta blockers are a class of ubiquitous cardiovascular drugs that have collectively received little attention from a crystal engineering standpoint. Here, we describe the use of mechanochemistry in the salification of five beta blockers (propranolol, metoprolol, acebutolol, atenolol, and labetalol) with nicotinic and isonicotinic acid. Firstly, liquid assisted grinding (LAG) was used to neutralize the commercial beta blocker salts, enabling the efficient gram-scale formation of the free bases, which are essential for cocrystallization. Thereafter, 1 : 1 mechanochemical cocrystallizations were successful in all but one case and nine salts were characterized, eight of which are novel. Furthermore, the racemic free base crystal structure of acebutolol is reported for the first time, as well as the first multicomponent crystal of labetalol that is not a simple salt. Salification was enabled by the large pKa differences between the components, which facilitated the protonation of the basic amine on the beta blockers' alkanolamine skeleton. Thereafter, charge-assisted hydrogen bonding promoted cocrystallization. We envisage salification to be applicable to any beta blocker, considering the current study encompasses approximately one quarter of this drug class. Lastly, the role of different liquid additives in the LAG process was assessed, and the solvent identity was found to play a substantial role in the mechanochemical outcome, although it did not strictly correlate with polarity. This study demonstrates that LAG screening with a wide selection of solvents provides a path to achieve full conversion to products, explore the crystal landscape of multicomponent crystals, and assist in identifying additional phases and/or late stage polymorphs in solid form development.
β受体阻滞剂是一类无处不在的心血管药物,但从晶体工程学的角度来看,它们却很少受到关注。在此,我们介绍了利用机械化学将五种β受体阻滞剂(普萘洛尔、美托洛尔、醋丁洛尔、阿替洛尔和拉贝洛尔)与烟酸和异烟酸盐化的过程。首先,采用液体辅助研磨法(LAG)中和商用β受体阻滞剂盐,从而有效地形成克级规模的游离碱,游离碱对共晶体化至关重要。此后,1 :1 机械化学合成结晶除一种情况外均获得成功,共鉴定出九种盐类,其中八种为新型盐类。此外,还首次报道了醋丁洛尔的外消旋游离碱晶体结构,以及拉贝洛尔的首个非简单盐的多组分晶体。由于各组分之间的 pKa 差异较大,这有利于β受体阻滞剂烷醇胺骨架上的碱性胺发生质子化,从而实现盐化。此后,电荷辅助氢键促进了共晶体化。考虑到目前的研究涵盖了大约四分之一的β受体阻滞剂,我们认为盐析法适用于任何β受体阻滞剂。最后,我们评估了不同液体添加剂在 LAG 过程中的作用,发现溶剂特性在机械化学结果中起着重要作用,尽管它与极性并无严格关联。这项研究表明,使用多种溶剂进行 LAG 筛选为实现产品的完全转化、探索多组分晶体的晶体结构以及协助确定固体形式开发中的附加相和/或后期多晶型提供了一条途径。
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