Drosophila represents an excellent model to dissect the roles played by the evolutionary conserved family of eukaryotic dyskerins. These multifunctional proteins are involved in the formation of H/ ACA snoRNP and telomerase complexes, both involved in essential cellular tasks. Since fly telomere integrity is guaranteed by a different mechanism, we used this organism to investigate the specific role played by dyskerin in somatic stem cell maintenance. To this aim, we focussed on Drosophila midgut, a hierarchically organized and well characterized model for stemness analysis. Surprisingly, the ubiquitous loss of the protein uniquely affects the formation of the larval stem cell niches, without altering other midgut cell types. The number of adult midgut precursor stem cells is dramatically reduced, and this effect is not caused by premature differentiation and is cell-autonomous. Moreover, a few dispersed precursors found in the depleted midguts can maintain stem identity and the ability to divide asymmetrically, nor show cell-growth defects or undergo apoptosis. Instead, their loss is mainly specifically dependent on defective amplification. These studies establish a strict link between dyskerin and somatic stem cell maintenance in a telomerase-lacking organism, indicating that loss of stemness can be regarded as a conserved, telomerase-independent effect of dyskerin dysfunction.

Drosophila dyskerin is required for somatic stem cell homeostasis / Vicidomini, Rosario; Petrizzo, Arianna; DI GIOVANNI, Annamaria; Cassese, Laura; Lombardi, Antonella Anna; Pragliola, Caterina; Furia, Maria. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 7:1(2017), pp. 1-14. [10.1038/s41598-017-00446-8]

Drosophila dyskerin is required for somatic stem cell homeostasis

VICIDOMINI, ROSARIO;PETRIZZO, ARIANNA;DI GIOVANNI, ANNAMARIA;FURIA, MARIA
2017

Abstract

Drosophila represents an excellent model to dissect the roles played by the evolutionary conserved family of eukaryotic dyskerins. These multifunctional proteins are involved in the formation of H/ ACA snoRNP and telomerase complexes, both involved in essential cellular tasks. Since fly telomere integrity is guaranteed by a different mechanism, we used this organism to investigate the specific role played by dyskerin in somatic stem cell maintenance. To this aim, we focussed on Drosophila midgut, a hierarchically organized and well characterized model for stemness analysis. Surprisingly, the ubiquitous loss of the protein uniquely affects the formation of the larval stem cell niches, without altering other midgut cell types. The number of adult midgut precursor stem cells is dramatically reduced, and this effect is not caused by premature differentiation and is cell-autonomous. Moreover, a few dispersed precursors found in the depleted midguts can maintain stem identity and the ability to divide asymmetrically, nor show cell-growth defects or undergo apoptosis. Instead, their loss is mainly specifically dependent on defective amplification. These studies establish a strict link between dyskerin and somatic stem cell maintenance in a telomerase-lacking organism, indicating that loss of stemness can be regarded as a conserved, telomerase-independent effect of dyskerin dysfunction.
2017
Drosophila dyskerin is required for somatic stem cell homeostasis / Vicidomini, Rosario; Petrizzo, Arianna; DI GIOVANNI, Annamaria; Cassese, Laura; Lombardi, Antonella Anna; Pragliola, Caterina; Furia, Maria. - In: SCIENTIFIC REPORTS. - ISSN 2045-2322. - 7:1(2017), pp. 1-14. [10.1038/s41598-017-00446-8]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/667608
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