[HTML][HTML] Circadian rhythm of glycoprotein secretion in the vas deferens of the moth, Spodoptera littoralis

P Bebas, E Maksimiuk, B Gvakharia, B Cymborowski… - BMC physiology, 2002 - Springer
P Bebas, E Maksimiuk, B Gvakharia, B Cymborowski, JM Giebultowicz
BMC physiology, 2002Springer
Background Reproductive systems of male moths contain circadian clocks, which time the
release of sperm bundles from the testis to the upper vas deferens (UVD) and their
subsequent transfer from the UVD to the seminal vesicles. Sperm bundles are released from
the testis in the evening and are retained in the vas deferens lumen overnight before being
transferred to the seminal vesicles. The biological significance of periodic sperm retention in
the UVD lumen is not understood. In this study we asked whether there are circadian …
Background
Reproductive systems of male moths contain circadian clocks, which time the release of sperm bundles from the testis to the upper vas deferens (UVD) and their subsequent transfer from the UVD to the seminal vesicles. Sperm bundles are released from the testis in the evening and are retained in the vas deferens lumen overnight before being transferred to the seminal vesicles. The biological significance of periodic sperm retention in the UVD lumen is not understood. In this study we asked whether there are circadian rhythms in the UVD that are correlated with sperm retention.
Results
We investigated the carbohydrate-rich material present in the UVD wall and lumen during the daily cycle of sperm release using the periodic acid-Shiff reaction (PAS). Males raised in 16:8 light-dark cycles (LD) showed a clear rhythm in the levels of PAS-positive granules in the apical portion of the UVD epithelium. The peak of granule accumulation occurred in the middle of the night and coincided with the maximum presence of sperm bundles in the UVD lumen. These rhythms persisted in constant darkness (DD), indicating that they have circadian nature. They were abolished, however, in constant light (LL) resulting in random patterns of PAS-positive material in the UVD wall. Gel-separation of the UVD homogenates from LD moths followed by detection of carbohydrates on blots revealed daily rhythms in the abundance of specific glycoproteins in the wall and lumen of the UVD.
Conclusion
Secretory activity of the vas deferens epithelium is regulated by the circadian clock. Daily rhythms in accumulation and secretion of several glycoproteins are co-ordinated with periodic retention of sperm in the vas deferens lumen.
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