Age Dynamics of Telomere Length in Endemic Baikal Planarians

Age-related changes in telomere length (TL) in somatic tissues are not limited only to shortening. It is known that many organisms show different TL dynamics. Such species specificity indicates the complexity of the mechanisms involved in the regulation of TL. Owing to their morphological, physiolog...

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Bibliographic Details
Published in:Molecular biology (New York) 2020-07, Vol.54 (4), p.553-562
Main Authors: Koroleva, A. G., Evtushenko, E. V., Vershinin, A. V., Zaytseva, E. P., Timoshkin, O. A., Kirilchik, S. V.
Format: Article
Language:English
Subjects:
Age
Biochemistry
Biomedical and Life Sciences
Body size
Endemic species
Human Genetics
Life Sciences
Molecular Cell Biology
Ontogeny
Phylogeny
Telomerase
Telomeres
Turbellaria
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Summary:Age-related changes in telomere length (TL) in somatic tissues are not limited only to shortening. It is known that many organisms show different TL dynamics. Such species specificity indicates the complexity of the mechanisms involved in the regulation of TL. Owing to their morphological, physiological, and ecological features, Baikal planarians are an interesting model for studying the TL dynamics and the factors influencing it in comparison with species living outside Baikal. In this work, we investigated telomerase activity and age-related changes in TL in three endemic species of planarians from the Dendrocoelidae family. Two species are giant deep-water species (7–12 cm long, Sorocelis hepatizon and Rimacephalus arecepta ), and one is a coastal shallow species (1 cm long, Baikalobia guttata ). In addition, we investigated the telomere biology in another small Siberian species from the Planariidae family (2 cm in length, Phagocata sibirica ), which is not found in Baikal. TL and telomerase activity were determined using real-time PCR and the TRAP method. Three types of age-related TL dynamics were detected with active telomerase: (1) TL shortening at the juvenile stage of development and subsequent maintenance ( R. arecepta , Ph. sibirica ), (2) gradual TL shortening during ontogeny ( S. hepatizon ) and (3) cyclic dynamics of TL ( B. guttata ). Thus, the changes of TL in the studied planarians does not have an obvious connection with body size, habitat depth, phylogenetic relationship and is probably a consequence of species features in the regulation of telomerase activity.
ISSN:0026-8933
1608-3245
DOI:10.1134/S002689332004007X