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  • Ergot alkaloid mycotoxins: physiological effects, metabolism and distribution of the residual toxin in mice.

Ergot alkaloid mycotoxins: physiological effects, metabolism and distribution of the residual toxin in mice.

Scientific reports (2020-06-18)
Priyanka Reddy, Joanne Hemsworth, Kathryn M Guthridge, Antony Vinh, Simone Vassiliadis, Vilnis Ezernieks, German C Spangenberg, Simone J Rochfort
ABSTRACT

The complex ergot alkaloids, ergovaline and ergotamine, cause dysregulation of physiological functions, characterised by vasoconstriction as well as thermoregulatory and cardiovascular effects in grazing livestock. To assess the effect of the mycotoxins, blood pressure and heart rate of male mice were measured, and metabolite profiling undertaken to determine relative abundances of both ergotamine and its metabolic products in body and brain tissue. Ergotamine showed similar cardiovascular effects to ergovaline, causing elevations in blood pressure and reduced heart rate. Bradycardia was preserved at low-levels of ergovaline despite no changes in blood pressure. Ergotamine was identified in kidney, liver and brainstem but not in other regions of the brain, which indicates region-specific effects of the toxin. The structural configuration of two biotransformation products of ergotamine were determined and identified in the liver and kidney, but not the brain. Thus, the dysregulation in respiratory, thermoregulatory, cardiac and vasomotor function, evoked by ergot alkaloids in animals observed in various studies, could be partially explained by dysfunction in the autonomic nervous system, located in the brainstem.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Amberlite CG50, macroreticular
Sigma-Aldrich
Ergotamine D-tartrate, ≥97.0% (calc. based on dry substance, NT)