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Supramolecular structure, in vivo biological activities and molecular‐docking‐based potential cardiotoxic exploration of aconine hydrochloride monohydrate as a novel salt form

Despite the high profile of aconine in WuTou injection, there has been no preparative technology or structural studies of its salt as the pharmaceutical product. The lack of any halide salt forms is surprising as aconine contains a tertiary nitrogen atom. In this work, aconine was prepared from the...

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Published in:Acta crystallographica Section B, Structural science, crystal engineering and materials Structural science, crystal engineering and materials, 2020-04, Vol.76 (2), p.208-224
Main Authors: Li, Han-qing, Xu, Jia-yin, Gao, Yuan-yuan, Jin, Liang, Chen, Jian-ming, Chen, Feng-zheng
Format: Article
Language:English
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Summary:Despite the high profile of aconine in WuTou injection, there has been no preparative technology or structural studies of its salt as the pharmaceutical product. The lack of any halide salt forms is surprising as aconine contains a tertiary nitrogen atom. In this work, aconine was prepared from the degradation of aconitine in Aconiti kusnezoffii radix (CaoWu). A green chemistry technique was applied to enrich the lipophilic‐poor aconine. Reaction of aconine with hydrochloride acid resulted in protonation of the nitrogen atom and gave a novel salt form (C25H42NO9+·Cl−·H2O; aconine hydrochloride monohydrate, AHM), whose cation in the crystal structure was elucidated based on extensive spectroscopic and X‐ray crystallographic analyses. The AHM crystal had a Z′ = 3 structure with three independent cation–anion pairs, with profound conformational differences among the aconine cations. The central framework of each aconine cation was compared with that of previously reported aconitine, proving that protonation of the nitrogen atom induced the structure rearrangement. In the crystal of AHM, aconine cations, chloride anions and water molecules interacted through inter‐species O—H…Cl and O—H…O hydrogen bonds; this complex hydrogen‐bonding network stabilizes the supramolecular structure. The seriously disordered solvent molecules were treated using the PLATON SQUEEZE procedure [Spek (2015). Acta Cryst. C71, 9–18] and their atoms were therefore omitted from the refinement. Bioactivity studies indicated that AHM promoted in vitro proliferative activities of RAW264.7 cells. Molecular docking suggested AHM could target cardiotoxic protein through the hydrogen‐bonding interactions. The structural confirmation of AHM offers a rational approach for improving the pharmaceutical technology of WuTou injection. A crystallographic study of aconine hydrochloride monohydrate (AHM) as a novel salt form is reported. A green chemistry technique and structural confirmation of AHM have offered a rational approach for improving the pharmaceutical technology of WuTou injection, together with the potential for obtaining a potent drug with minor toxicity.
ISSN:2052-5206
2052-5192
2052-5206
DOI:10.1107/S2052520620001250