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Erscheinungsjahr
- 2012 (2)
Dokumenttyp
Sprache
- Englisch (2)
Schlagworte
- Claviceps purpurea (2) (entfernen)
The degradation and epimerization of ergot alkaloids (EAs) in rye flour were investigated after baking cookies and subsequently subjecting them to an in vitro digestion model. Different steps of digestion were analyzed using salivary, gastric, and duodenal juices. The degradation and bidirectional conversion of the toxicologically relevant (R)-epimers and the biologically inactive (S)-epimers for seven pairs of EAs were determined by a HPLC method coupled with fluorescence detection. Baking cookies resulted in degradation of EAs (2–30 %) and a shift in the epimeric ratio toward the (S)-epimer for all EAs. The applied digestion model led to a selective toxification of ergotamine and ergosine, two ergotamine-type EAs. The initial percentage of the toxic (R)-epimer in relation to the total toxin content was considerably increased after digestion of cookies. Ergotamine and ergosine increased from 32 to 51 % and 35 to 55 %, respectively. In contrast, EAs of the ergotoxine type (ergocornine, α- and β-ergocryptine, and ergocristine) showed an epimeric shift toward their biologically inactive (S)-epimers. Further experiments indicated that the selective epimerization of ergotamine EAs occurs in the duodenal juice only. These results demonstrate that toxification of EAs in the intestinal tract should be taken into consideration.
The fungus Claviceps purpurea grows on grasses
and cereal grains and produces six predominant ergot
alkaloids. These toxic substances undergo different transformation
reactions during storage and cereal processing. One
of these reactions is the addition of water to a double bond in
the ergoline skeleton. Since light is required for this process,
the substances formed were named lumi-ergot alkaloids.
From these, a new asymmetric carbon and consequently two
epimers with different polarities are formed. For investigations
of lumi-ergot alkaloids, ergometrine was used exemplarily
as it represents one of the six ergot alkaloids
predominantly formed by Claviceps purpurea. The main
reaction product, the less polar compound of the two lumiergometrine
epimers, was separated by HPLC and unambiguously
identified as 10-(S)-lumi-ergometrine using X-ray
structural analysis. A HPLC-MS/MS method was developed
for the detection of this substance in sclerotia extracts. Using
this method, the existence of both epimeric forms of lumiergometrine
could be proved in the sclerotia. This is the first
time that the existence of a lumi-transformation product of
ergot alkaloids was proved in naturally grown samples.