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The telomere binding protein Pot1 maintains haematopoietic stem cell activity with age

The telomere binding protein Pot1 maintains haematopoietic stem cell activity with age
The telomere binding protein Pot1 maintains haematopoietic stem cell activity with age
Repeated cell divisions and aging impair stem cell function. However, the mechanisms by which this occurs are not fully understood. Here we show that protection of telomeres 1A (Pot1a), a component of the Shelterin complex that protects telomeres, improves haematopoietic stem cell (HSC) activity during aging. Pot1a is highly expressed in young HSCs but declines with age. In mouse HSCs, Pot1a knockdown increases DNA damage response (DDR) and inhibits self-renewal. Conversely, Pot1a overexpression or treatment with POT1a protein prevents DDR, maintained self-renewal activity and rejuvenated aged HSCs upon ex vivo culture. Moreover, treatment of HSCs with exogenous Pot1a inhibits the production of reactive oxygen species, suggesting a non-telomeric role for Pot1a in HSC maintenance. Consistent with these results, treatment with exogenous human POT1 protein maintains human HSC activity in culture. Collectively, these results show that Pot1a/POT1 sustains HSC activity and can be used to expand HSC numbers ex vivo.
Hosokawa, Kentaro
8868fb61-102f-4776-9270-77bf23b52f65
Macarthur, Benjamin
2c0476e7-5d3e-4064-81bb-104e8e88bb6b
Matsumoto, Yoshiko
85ccf5ba-9e7d-4ab6-9906-06ec94d15a0d
Toyama, Hirofumi
4a5e2922-78b0-478d-a9de-c436122022eb
Masuhiro, Yoshikazu
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Hanazawa, Shigemasa
1e920e33-6a0c-47cd-a438-da34570c4805
Suda, Toshio
897b6c6e-ada7-4803-bc44-19041b03180b
Arai, Fumio
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Hosokawa, Kentaro
8868fb61-102f-4776-9270-77bf23b52f65
Macarthur, Benjamin
2c0476e7-5d3e-4064-81bb-104e8e88bb6b
Matsumoto, Yoshiko
85ccf5ba-9e7d-4ab6-9906-06ec94d15a0d
Toyama, Hirofumi
4a5e2922-78b0-478d-a9de-c436122022eb
Masuhiro, Yoshikazu
24bdd3b2-8d52-4776-ad9f-827b0f21bdc8
Hanazawa, Shigemasa
1e920e33-6a0c-47cd-a438-da34570c4805
Suda, Toshio
897b6c6e-ada7-4803-bc44-19041b03180b
Arai, Fumio
6f499041-0756-4b99-a40a-baaa9111221e

Hosokawa, Kentaro, Macarthur, Benjamin, Matsumoto, Yoshiko, Toyama, Hirofumi, Masuhiro, Yoshikazu, Hanazawa, Shigemasa, Suda, Toshio and Arai, Fumio (2017) The telomere binding protein Pot1 maintains haematopoietic stem cell activity with age. Nature Communications, 8 (1), [804]. (doi:10.1038/s41467-017-00935-4).

Record type: Article

Abstract

Repeated cell divisions and aging impair stem cell function. However, the mechanisms by which this occurs are not fully understood. Here we show that protection of telomeres 1A (Pot1a), a component of the Shelterin complex that protects telomeres, improves haematopoietic stem cell (HSC) activity during aging. Pot1a is highly expressed in young HSCs but declines with age. In mouse HSCs, Pot1a knockdown increases DNA damage response (DDR) and inhibits self-renewal. Conversely, Pot1a overexpression or treatment with POT1a protein prevents DDR, maintained self-renewal activity and rejuvenated aged HSCs upon ex vivo culture. Moreover, treatment of HSCs with exogenous Pot1a inhibits the production of reactive oxygen species, suggesting a non-telomeric role for Pot1a in HSC maintenance. Consistent with these results, treatment with exogenous human POT1 protein maintains human HSC activity in culture. Collectively, these results show that Pot1a/POT1 sustains HSC activity and can be used to expand HSC numbers ex vivo.

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Accepted/In Press date: 7 August 2017
e-pub ahead of print date: 6 October 2017
Published date: December 2017

Identifiers

Local EPrints ID: 413651
URI: http://eprints.soton.ac.uk/id/eprint/413651
DOI: doi:10.1038/s41467-017-00935-4
PURE UUID: 11d8a7f7-edb4-4b18-8e3b-c5bd32a9c0db
ORCID for Benjamin Macarthur: ORCID iD orcid.org/0000-0002-5396-9750

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Date deposited: 31 Aug 2017 16:31
Last modified: 16 Mar 2024 05:41

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Contributors

Author: Kentaro Hosokawa
Author: Benjamin Macarthur ORCID iD
Author: Yoshiko Matsumoto
Author: Hirofumi Toyama
Author: Yoshikazu Masuhiro
Author: Shigemasa Hanazawa
Author: Toshio Suda
Author: Fumio Arai

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