Abstract
Only few naturally occurring cyclic imines have been fully structurally elucidated or synthesized to date. The configuration at the C-4 carbon plays a pivotal role in the neurotoxicity of many of these metabolites, for example, gymnodomines (GYMs) and spirolides (SPXs). However, the stereochemistry at this position is not accessible by nuclear Overhauser effect—nuclear magnetic resonance spectroscopy (NOE-NMR) due to unconstrained rotation of the single carbon bond between C-4 and C-5. Consequently, the relative configuration of GYMs and SPXs at C-4 and its role in protein binding remains elusive. Here, we determined the stereochemical configuration at carbon C-4 in the butenolide ring of spirolide- and gymnodimine-phycotoxins by comparison of measured 13C NMR shifts with values obtained in silico using force field, semiempirical and density functional theory methods. This comparison demonstrated that modeled data support S configuration at C-4 for all studied SPXs and GYMs, suggesting a biosynthetically conserved relative configuration at carbon C-4 among these toxins.
Highlights
Macrocyclic imine (CI) phycotoxins are produced by several marine dinoflagellates and share the spiroimine structural motif [1]
The representative geometries were subjected to geometry optimization and simulation of shielding tensors on the B3LYP level of theory including the conductor-like polarizable continuum model (CPCM) as the solvation model
The in silico assessment of the C-4 stereochemistry indicated S configuration for all GYMs and SPXs tested in this study
Summary
Macrocyclic imine (CI) phycotoxins are produced by several marine dinoflagellates and share the spiroimine structural motif [1]. CI toxins include several toxin classes (e.g., pinnatoxins, gymnodimines (GYMs), spirolides (SPXs), pteriatoxins) with striking structural diversity. These compounds are potent inhibitors of the nicotinic (nAChR) and muscarinic acetylcholine receptors [3]. The structural motifs most commonly linked to their bioactivity are the spiroimine and spiroketal rings [4]. Due to their prominent effect on nAChR, SPXs received attention as agents against neurodegenerative diseases [5,6,7]. Only few naturally occurring CIs have been fully structurally
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