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Ultrastructural changes in the thymus of the turtle Mauremys caspica in relation to the seasonal cycle

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Summary

Changes in the ultrastructure of the thymus of the turtle Mauremys caspica, with special reference to its non-lymphoid components, were studied in relation to the seasonal cycle. The thymic cortex contains framework-forming epithelial-reticular cells and free macrophages, while the medulla includes, in addition, mature and presumptive pro-interdigitating cells. The ultrastructural features of these cells are generally similar to those described for non-lymphoid components of the mammalian thymus. The turtle thymus undergoes cortical involution in spring, with recovery periods in May–June and during autumn. A moderate involution occurs in winter. At the beginning of spring, cortical (but not medullary) epithelial-reticular cells show degenerative changes, probably related to high levels of circulating testosterone. In spring and autumn, mature interdigitating cells are absent, but macrophages, monocytes, and pro-interdigitating cells are found. During May–June, the cortical epithelial-reticular population recovers and macrophages, monocytes, and interdigitating cells are actively phagocytic. In summer, the epithelial-reticular cells in both cortex and medulla display normal ultrastructural features; mature and immature interdigitating cells are absent and some macrophages are detected occasionally. The results suggest that non-lymphoid components of the reptilian thymus can play a role in governing T-lymphocyte differentiation, and that the thymic cortex and medulla exhibit different cycles of seasonal activity.

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Authors and Affiliations

  1. Departamento de Biologia Celular, Facultad de Ciencias Biologicas, Universidad Complutense, E-28040, Madrid, Spain

    J. Leceta, E. Garrido, M. Torroba &  A. G. Zapata

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  1. J. Leceta
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  2. E. Garrido
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  3. M. Torroba
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  4. A. G. Zapata
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Leceta, J., Garrido, E., Torroba, M. et al. Ultrastructural changes in the thymus of the turtle Mauremys caspica in relation to the seasonal cycle. Cell Tissue Res. 256, 213–219 (1989). https://doi.org/10.1007/BF00224736

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  • DOI: https://doi.org/10.1007/BF00224736

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