1 H− 15 N HMBC spectra of norditerpenoid alkaloids and their synthetic azabicyclic analogues were obtained to investigate the impacts of the through-space effect of steric compression, protonation, and formation of intramolecular hydrogen bonding on the 15 N NMR spectroscopy of these natural products and their piperidine-containing analogues. A rare 15 N NMR effect of steric compression is demonstrated in half-cage A/E-rings of norditerpenoid alkaloid free bases and their synthetic azabicyclic analogues, in which the distribution of the lone pair of electrons of the tertiary amine N-atom is sterically restricted by bridged cycloalkanes, e.g., cyclopentane, cyclohexane, and cycloheptane rings. This results in significant changes in the 15 N chemical shift, typically by at least ∼10 ppm. The lone pair of electrons of the N-atom in the piperidine ring are sterically compressed whether the bridged cyclohexane ring adopts a chair or boat conformation. The 15 N chemical shifts of 1α-OMe norditerpenoid alkaloid free bases significantly increase (Δδ N ≥ 15.6 ppm) on alkaloid protonation and thence the formation of an intramolecular hydrogen bond between N + -H and 1α-OMe. The intramolecular hydrogen bonds between the N-atom and 1α-OH of 1α-OH norditerpenoid alkaloid free bases, karacoline, condelphine, and neoline stabilize their A-rings, adopting an unusual twisted-boat conformation, and they also significantly increase δ N of the tertiary amine N-atom.
The skeletal conformations of naturally occurring norditerpenoid alkaloids fix their substituent functional groups in space, thereby directing their bioactivities.
This highlight focuses on norditerpenoid alkaloids from Aconitum and Delphinium where their structural differences result in pharmacological diversity that ranges from poisons to drugs.
Methyllycaconitine (MLA), 1, is a naturally
occurring
norditerpenoid alkaloid that is a highly potent (IC50 =
2 nM) selective antagonist of α7 nicotinic acetylcholine receptors
(nAChRs). Several structural factors affect its activity such as the
neopentyl ester side-chain and the piperidine ring N-side-chain. The
synthesis of simplified AE-bicyclic analogues 14–21 possessing different ester and nitrogen side-chains was
achieved in three steps. The antagonist effects of synthetic analogues
were examined on human α7 nAChRs and compared to that of MLA 1. The most efficacious analogue (16) reduced
α7 nAChR agonist responses [1 nM acetylcholine (ACh)] to 53.2
± 1.9% compared to 3.4 ± 0.2% for MLA 1. This
demonstrates that simpler analogues of MLA 1 possess
antagonist effects on human α7 nAChRs but also indicates that
further optimization may be possible to achieve antagonist activity
comparable to that of MLA 1.
There are famous examples of simple (e.g., hemlock, Conium maculatum L.) and complex (e.g., opium poppy, Papaver somniferum L., Papaveraceae) piperidine-alkaloid-containing plants. Many of these are highly poisonous, whilst pepper is well-known gastronomically, and several substituted piperidine alkaloids are therapeutically beneficial as a function of dose and mode of action. This review covers the taxonomy of the genera Aconitum, Delphinium, and the controversial Consolida. As part of studying the biodiversity of norditerpenoid alkaloids (NDAS), the majority of which possess an N-ethyl group, we also quantified the fragment occurrence count in the SciFinder database for NDA skeletons. The wide range of NDA biodiversity is also captured in a review of over 100 recently reported isolated alkaloids. Ring A substitution at position 1 is important to determine the NDA skeleton conformation. In this overview of naturally occurring highly oxygenated NDAs from traditional Aconitum and Delphinium plants, consideration is given to functional effect and to real functional evidence. Their high potential biological activity makes them useful candidate molecules for further investigation as lead compounds in the development of selective drugs.
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