Seasonal variation in the regulation of testosterone levels in the eastern mud snail (Ilyanassa obsoleta)

Some gastropods appear to utilize a strategy for regulating testosterone levels that is atypical of such processes thus far identified in other metazoans. While most animals convert testosterone largely to polar derivatives that are readily eliminated from the organism, the mud snail Ilyanassa obsol...

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Veröffentlicht in:Invertebrate biology 2004-09, Vol.123 (3), p.237-243
Hauptverfasser: Gooding, Meredith P., LeBlanc, Gerald A.
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Sprache:eng
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Zusammenfassung:Some gastropods appear to utilize a strategy for regulating testosterone levels that is atypical of such processes thus far identified in other metazoans. While most animals convert testosterone largely to polar derivatives that are readily eliminated from the organism, the mud snail Ilyanassa obsoleta converts testosterone to apolar testosterone-fatty acid esters that are retained by the organism. In the present study, we tested the hypothesis that fatty acid esterification serves to store testosterone and that stored testosterone-fatty acid ester pools vary through the reproductive cycle of the snail. This hypothesis was tested by 1) modulating total testosterone levels in individual snails and measuring the amount of the hormone stored as the fatty acid ester relative to the amount retained as free steroid and 2) measuring changes in esterified testosterone in a field population of snails during their reproductive cycle. Adult snails were experimentally manipulated to contain from ~36-300% the level of total testosterone measured in unmanipulated individuals. The amount of testosterone-fatty acid ester present in these organisms increased in direct proportion to the level of total testosterone, while, free testosterone levels remained relatively constant. These observations suggest that free testosterone levels are regulated in the snail by fatty acid esterification/de-esterification processes. Among field sampled snails, testosterone existed predominantly in the free, non-esterified form at the onset and end of the egg laying period. At other times, the majority of testosterone was sequestered as fatty acid esters. This study provides compelling evidence that free testosterone levels in the mud snail are regulated through fatty acid esterification/de-esterification processes and this regulatory function contributes to seasonal fluctuations in free testosterone levels.
ISSN:1077-8306
1744-7410
DOI:10.1111/j.1744-7410.2004.tb00158.x