Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus

E.G.J. Ripmeester; M.M.J. Caron; G.G.H. van den Akker; D.A.M. Surtel; A. Cremers; P. Balaskas; P. Dyer; B.A.C. Housmans; A. Chabronova; A. Smagul; Y.X. Fang; L.W. van Rhijn; M.J. Peffers; T.J.M. Welting

doi:10.1038/s41598-020-70453-9

Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus

E.G.J. Ripmeester, M.M.J. Caron, G.G.H. van den Akker, D.A.M. Surtel, A. Cremers, P. Balaskas, P. Dyer, B.A.C. Housmans, A. Chabronova, A. Smagul, Y.X. Fang, L.W. van Rhijn, M.J. Peffers, T.J.M. Welting^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Although pathways controlling ribosome activity have been described to regulate chondrocyte homeostasis in osteoarthritis, ribosome biogenesis in osteoarthritis is unexplored. We hypothesized that U3 snoRNA, a non-coding RNA involved in ribosomal RNA maturation, is critical for chondrocyte protein translation capacity in osteoarthritis. U3 snoRNA was one of a number of snoRNAs with decreased expression in osteoarthritic cartilage and osteoarthritic chondrocytes. OA synovial fluid impacted U3 snoRNA expression by affecting U3 snoRNA gene promoter activity, while BMP7 was able to increase its expression. Altering U3 snoRNA expression resulted in changes in chondrocyte phenotype. Interference with U3 snoRNA expression led to reduction of rRNA levels and translational capacity, whilst induced expression of U3 snoRNA was accompanied by increased 18S and 28S rRNA levels and elevated protein translation. Whole proteome analysis revealed a global impact of reduced U3 snoRNA expression on protein translational processes and inflammatory pathways. For the first time we demonstrate implications of a snoRNA in osteoarthritis chondrocyte biology and investigated its role in the chondrocyte differentiation status, rRNA levels and protein translational capacity.

Original language	English
Article number	13426
Number of pages	14
Journal	Scientific Reports
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41598-020-70453-9
Publication status	Published - 10 Aug 2020

Keywords

analysis reveals
apoptosis
biogenesis
endoplasmic-reticulum stress
hypertrophy
p53
pathogenesis
pre-ribosomal-rna
progression
proteomic analysis
ANALYSIS REVEALS
APOPTOSIS
ENDOPLASMIC-RETICULUM STRESS
PRE-RIBOSOMAL-RNA
P53
PATHOGENESIS
HYPERTROPHY
BIOGENESIS
PROTEOMIC ANALYSIS
PROGRESSION

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Ripmeester, E. G. J., Caron, M. M. J., van den Akker, G. G. H., Surtel, D. A. M., Cremers, A., Balaskas, P., Dyer, P., Housmans, B. A. C., Chabronova, A., Smagul, A., Fang, Y. X., van Rhijn, L. W., Peffers, M. J., & Welting, T. J. M. (2020). Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus. Scientific Reports, 10(1), Article 13426. https://doi.org/10.1038/s41598-020-70453-9

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title = "Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus",

abstract = "Although pathways controlling ribosome activity have been described to regulate chondrocyte homeostasis in osteoarthritis, ribosome biogenesis in osteoarthritis is unexplored. We hypothesized that U3 snoRNA, a non-coding RNA involved in ribosomal RNA maturation, is critical for chondrocyte protein translation capacity in osteoarthritis. U3 snoRNA was one of a number of snoRNAs with decreased expression in osteoarthritic cartilage and osteoarthritic chondrocytes. OA synovial fluid impacted U3 snoRNA expression by affecting U3 snoRNA gene promoter activity, while BMP7 was able to increase its expression. Altering U3 snoRNA expression resulted in changes in chondrocyte phenotype. Interference with U3 snoRNA expression led to reduction of rRNA levels and translational capacity, whilst induced expression of U3 snoRNA was accompanied by increased 18S and 28S rRNA levels and elevated protein translation. Whole proteome analysis revealed a global impact of reduced U3 snoRNA expression on protein translational processes and inflammatory pathways. For the first time we demonstrate implications of a snoRNA in osteoarthritis chondrocyte biology and investigated its role in the chondrocyte differentiation status, rRNA levels and protein translational capacity.",

keywords = "analysis reveals, apoptosis, biogenesis, endoplasmic-reticulum stress, hypertrophy, p53, pathogenesis, pre-ribosomal-rna, progression, proteomic analysis, ANALYSIS REVEALS, APOPTOSIS, ENDOPLASMIC-RETICULUM STRESS, PRE-RIBOSOMAL-RNA, P53, PATHOGENESIS, HYPERTROPHY, BIOGENESIS, PROTEOMIC ANALYSIS, PROGRESSION",

author = "E.G.J. Ripmeester and M.M.J. Caron and {van den Akker}, G.G.H. and D.A.M. Surtel and A. Cremers and P. Balaskas and P. Dyer and B.A.C. Housmans and A. Chabronova and A. Smagul and Y.X. Fang and {van Rhijn}, L.W. and M.J. Peffers and T.J.M. Welting",

note = "Funding Information: This work was financially supported by the Dutch Arthritis Association (Grants LLP14 and 17-2-401), a Wellcome Trust Clinical Intermediate Fellowship 107471/Z/15/Z, and by the Medical Research Council (MRC) and Versus Arthritis as part of the Medical Research Council Versus Arthritis Centre for Integrated Research into Musculoskeletal Ageing (CIMA) [MR/R502182/1]. The MRC Versus Arthritis Centre for Integrated Research into Musculoskeletal Ageing is a collaboration between the Universities of Liverpool, Sheffield and Newcastle. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. The authors are grateful to Dr. P. Emans, Dr. P. Feczko and Dr. T. Boymans for their support in collecting the OA patient material. Publisher Copyright: {\textcopyright} 2020, The Author(s).",

year = "2020",

month = aug,

day = "10",

doi = "10.1038/s41598-020-70453-9",

language = "English",

volume = "10",

journal = "Scientific Reports",

issn = "2045-2322",

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Ripmeester, EGJ, Caron, MMJ , van den Akker, GGH , Surtel, DAM , Cremers, A, Balaskas, P, Dyer, P, Housmans, BAC, Chabronova, A, Smagul, A, Fang, YX, van Rhijn, LW, Peffers, MJ & Welting, TJM 2020, 'Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus', Scientific Reports, vol. 10, no. 1, 13426. https://doi.org/10.1038/s41598-020-70453-9

TY - JOUR

T1 - Impaired chondrocyte U3 snoRNA expression in osteoarthritis impacts the chondrocyte protein translation apparatus

AU - Ripmeester, E.G.J.

AU - Caron, M.M.J.

AU - van den Akker, G.G.H.

AU - Surtel, D.A.M.

AU - Cremers, A.

AU - Balaskas, P.

AU - Dyer, P.

AU - Housmans, B.A.C.

AU - Chabronova, A.

AU - Smagul, A.

AU - Fang, Y.X.

AU - van Rhijn, L.W.

AU - Peffers, M.J.

AU - Welting, T.J.M.

N1 - Funding Information: This work was financially supported by the Dutch Arthritis Association (Grants LLP14 and 17-2-401), a Wellcome Trust Clinical Intermediate Fellowship 107471/Z/15/Z, and by the Medical Research Council (MRC) and Versus Arthritis as part of the Medical Research Council Versus Arthritis Centre for Integrated Research into Musculoskeletal Ageing (CIMA) [MR/R502182/1]. The MRC Versus Arthritis Centre for Integrated Research into Musculoskeletal Ageing is a collaboration between the Universities of Liverpool, Sheffield and Newcastle. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript. The authors are grateful to Dr. P. Emans, Dr. P. Feczko and Dr. T. Boymans for their support in collecting the OA patient material. Publisher Copyright: © 2020, The Author(s).

PY - 2020/8/10

Y1 - 2020/8/10

N2 - Although pathways controlling ribosome activity have been described to regulate chondrocyte homeostasis in osteoarthritis, ribosome biogenesis in osteoarthritis is unexplored. We hypothesized that U3 snoRNA, a non-coding RNA involved in ribosomal RNA maturation, is critical for chondrocyte protein translation capacity in osteoarthritis. U3 snoRNA was one of a number of snoRNAs with decreased expression in osteoarthritic cartilage and osteoarthritic chondrocytes. OA synovial fluid impacted U3 snoRNA expression by affecting U3 snoRNA gene promoter activity, while BMP7 was able to increase its expression. Altering U3 snoRNA expression resulted in changes in chondrocyte phenotype. Interference with U3 snoRNA expression led to reduction of rRNA levels and translational capacity, whilst induced expression of U3 snoRNA was accompanied by increased 18S and 28S rRNA levels and elevated protein translation. Whole proteome analysis revealed a global impact of reduced U3 snoRNA expression on protein translational processes and inflammatory pathways. For the first time we demonstrate implications of a snoRNA in osteoarthritis chondrocyte biology and investigated its role in the chondrocyte differentiation status, rRNA levels and protein translational capacity.

AB - Although pathways controlling ribosome activity have been described to regulate chondrocyte homeostasis in osteoarthritis, ribosome biogenesis in osteoarthritis is unexplored. We hypothesized that U3 snoRNA, a non-coding RNA involved in ribosomal RNA maturation, is critical for chondrocyte protein translation capacity in osteoarthritis. U3 snoRNA was one of a number of snoRNAs with decreased expression in osteoarthritic cartilage and osteoarthritic chondrocytes. OA synovial fluid impacted U3 snoRNA expression by affecting U3 snoRNA gene promoter activity, while BMP7 was able to increase its expression. Altering U3 snoRNA expression resulted in changes in chondrocyte phenotype. Interference with U3 snoRNA expression led to reduction of rRNA levels and translational capacity, whilst induced expression of U3 snoRNA was accompanied by increased 18S and 28S rRNA levels and elevated protein translation. Whole proteome analysis revealed a global impact of reduced U3 snoRNA expression on protein translational processes and inflammatory pathways. For the first time we demonstrate implications of a snoRNA in osteoarthritis chondrocyte biology and investigated its role in the chondrocyte differentiation status, rRNA levels and protein translational capacity.

KW - analysis reveals

KW - apoptosis

KW - biogenesis

KW - endoplasmic-reticulum stress

KW - hypertrophy

KW - p53

KW - pathogenesis

KW - pre-ribosomal-rna

KW - progression

KW - proteomic analysis

KW - ANALYSIS REVEALS

KW - APOPTOSIS

KW - ENDOPLASMIC-RETICULUM STRESS

KW - PRE-RIBOSOMAL-RNA

KW - P53

KW - PATHOGENESIS

KW - HYPERTROPHY

KW - BIOGENESIS

KW - PROTEOMIC ANALYSIS

KW - PROGRESSION

U2 - 10.1038/s41598-020-70453-9

DO - 10.1038/s41598-020-70453-9

M3 - Article

C2 - 32778764

SN - 2045-2322

VL - 10

JO - Scientific Reports

JF - Scientific Reports

IS - 1

M1 - 13426

ER -