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Age-dependent changes in protein incorporation into collagen-rich tissues of mice by in vivo pulsed SILAC labelling

Age-dependent changes in protein incorporation into collagen-rich tissues of mice by in vivo pulsed SILAC labelling
Age-dependent changes in protein incorporation into collagen-rich tissues of mice by in vivo pulsed SILAC labelling
Collagen-rich tissues have poor reparative capacity that predisposes to common age-related disorders such as osteoporosis and osteoarthritis. We used in vivo pulsed SILAC labelling to quantify new protein incorporation into cartilage, bone, and skin of mice across the healthy life course. We report dynamic turnover of the matrisome, the proteins of the extracellular matrix, in bone and cartilage during skeletal maturation, which was markedly reduced after skeletal maturity. Comparing young adult with older adult mice, new protein incorporation was reduced in all tissues. STRING clustering revealed changes in epigenetic modulators across all tissues, a decline in chondroprotective growth factors such as FGF2 and TGFβ in cartilage, and clusters indicating mitochondrial dysregulation and reduced collagen synthesis in bone. Several pathways were implicated in age-related disease. Fewer changes were observed for skin. This methodology provides dynamic protein data at a tissue level, uncovering age-related molecular changes that may predispose to disease.
2050-084X
Ariosa-Morejon, Yoanna
c9ac2922-90dd-48da-b431-de5380523b83
Santos, Alberto
cf0faa70-cd32-45e5-af5f-51c8940222a2
Fischer, Roman
e95c6d9b-b9c5-43a9-9529-a6cd50ddba0c
Davis, Simon
77c9e91c-a2c6-498a-9128-bf164a8da8de
Charles, Philip
0429b380-0754-4dc1-8def-885c7fa6a086
Thakker, Rajesh
96362e42-8377-43fe-ba4d-8eb1c1a0494c
Wann, Angus K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Vincent, Tonia L.
0b91aad8-492b-489a-b78d-19facab2d0e4
et al.
Ariosa-Morejon, Yoanna
c9ac2922-90dd-48da-b431-de5380523b83
Santos, Alberto
cf0faa70-cd32-45e5-af5f-51c8940222a2
Fischer, Roman
e95c6d9b-b9c5-43a9-9529-a6cd50ddba0c
Davis, Simon
77c9e91c-a2c6-498a-9128-bf164a8da8de
Charles, Philip
0429b380-0754-4dc1-8def-885c7fa6a086
Thakker, Rajesh
96362e42-8377-43fe-ba4d-8eb1c1a0494c
Wann, Angus K.T.
f1b0ea2f-dc8a-4588-a9d8-ae462ed0a993
Vincent, Tonia L.
0b91aad8-492b-489a-b78d-19facab2d0e4

Ariosa-Morejon, Yoanna, Santos, Alberto and Fischer, Roman , et al. (2021) Age-dependent changes in protein incorporation into collagen-rich tissues of mice by in vivo pulsed SILAC labelling. eLife, 10, [e66635]. (doi:10.7554/eLife.66635).

Record type: Article

Abstract

Collagen-rich tissues have poor reparative capacity that predisposes to common age-related disorders such as osteoporosis and osteoarthritis. We used in vivo pulsed SILAC labelling to quantify new protein incorporation into cartilage, bone, and skin of mice across the healthy life course. We report dynamic turnover of the matrisome, the proteins of the extracellular matrix, in bone and cartilage during skeletal maturation, which was markedly reduced after skeletal maturity. Comparing young adult with older adult mice, new protein incorporation was reduced in all tissues. STRING clustering revealed changes in epigenetic modulators across all tissues, a decline in chondroprotective growth factors such as FGF2 and TGFβ in cartilage, and clusters indicating mitochondrial dysregulation and reduced collagen synthesis in bone. Several pathways were implicated in age-related disease. Fewer changes were observed for skin. This methodology provides dynamic protein data at a tissue level, uncovering age-related molecular changes that may predispose to disease.

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Accepted/In Press date: 3 September 2021
Published date: 28 September 2021
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Identifiers

Local EPrints ID: 483437
URI: http://eprints.soton.ac.uk/id/eprint/483437
DOI: doi:10.7554/eLife.66635
ISSN: 2050-084X
PURE UUID: 956b96e4-103a-45ec-bc53-29206e3fbee8
ORCID for Angus K.T. Wann: ORCID iD orcid.org/0000-0002-8224-8661

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Date deposited: 31 Oct 2023 17:30
Last modified: 23 Mar 2024 03:11

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Contributors

Author: Yoanna Ariosa-Morejon
Author: Alberto Santos
Author: Roman Fischer
Author: Simon Davis
Author: Philip Charles
Author: Rajesh Thakker
Author: Angus K.T. Wann ORCID iD
Author: Tonia L. Vincent
Corporate Author: et al.

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