Phlpp1 facilitates post-traumatic osteoarthritis and is induced by inflammation and promoter demethylation in human osteoarthritis

E. W. Bradley; L. R. Carpio; M. E. McGee-Lawrence; C. Castillejo Becerra; D. F. Amanatullah; L. E. Ta; M. Otero; M. B. Goldring; S. Kakar; J. J. Westendorf

doi:10.1016/j.joca.2015.12.014

Phlpp1 facilitates post-traumatic osteoarthritis and is induced by inflammation and promoter demethylation in human osteoarthritis

E. W. Bradley, L. R. Carpio, M. E. McGee-Lawrence, C. Castillejo Becerra, D. F. Amanatullah, L. E. Ta, M. Otero, M. B. Goldring, S. Kakar, J. J. Westendorf

Biochemistry, Molecular Biology, and Biophysics (CBS)

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Abstract

Objective: Osteoarthritis (OA) is the most common form of arthritis and a leading cause of disability. OA is characterized by articular chondrocyte deterioration, subchondral bone changes and debilitating pain. One strategy to promote cartilage regeneration and repair is to accelerate proliferation and matrix production of articular chondrocytes. We previously reported that the protein phosphatase Phlpp1 controls chondrocyte differentiation by regulating the activities of anabolic kinases. Here we examined the role of Phlpp1 in OA progression in a murine model. We also assessed PHLPP1 expression and promoter methylation. Design: Knee joints of WT and Phlpp1^-/- mice were surgically destabilized by transection of the medial meniscal ligament (DMM). Mice were assessed for signs of OA progression via radiographic and histological analyses, and pain assessment for mechanical hypersensitivity using the von Frey assay. Methylation of the PHLPP1 promoter and PHLPP1 expression were evaluated in human articular cartilage and chondrocyte cell lines. Results: Following DMM surgeries, Phlpp1 deficient mice showed fewer signs of OA and cartilage degeneration. Mechanical allodynia associated with DMM surgeries was also attenuated in Phlpp1^-/- mice. PHLPP1 was highly expressed in human articular cartilage from OA patients, but was undetectable in cartilage specimens from femoral neck fractures (FNFxs). Higher PHLPP1 levels correlated with less PHLPP1 promoter CpG methylation in cartilage from OA patients. Blocking cytosine methylation or treatment with inflammatory mediators enhanced PHLPP1 expression in human chondrocyte cell lines. Conclusion: Phlpp1 deficiency protects against OA progression while CpG demethylation and inflammatory cytokines promote PHLPP1 expression.

Original language	English (US)
Pages (from-to)	1021-1028
Number of pages	8
Journal	Osteoarthritis and Cartilage
Volume	24
Issue number	6
DOIs	https://doi.org/10.1016/j.joca.2015.12.014
State	Published - Jun 1 2016

Bibliographical note

Funding Information:
We thank Xiaodong Li, David Razidlo, Bridget Stensgard and the Mayo Division of Biomedical Statistics and Informatics for technical assistance. This work was made possible by research and training grants from the National Institutes of Health ( AR065397 , GM055252 and AR68103 ), Regenerative Medicine Minnesota ( MRM 2015 6272 ), the Mayo Clinic Center for Individualized Medicine , and the Mayo Graduate School . These contents are solely the responsibility of the authors and do not necessarily represent the official views of the NIH.

Publisher Copyright:
© 2015 Osteoarthritis Research Society International.

Keywords

Articular cartilage
DMM mouse model
DNA methylation
Il6
Mechanical allodynia
TNFα

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Bradley, E. W., Carpio, L. R., McGee-Lawrence, M. E., Castillejo Becerra, C., Amanatullah, D. F., Ta, L. E., Otero, M., Goldring, M. B., Kakar, S., & Westendorf, J. J. (2016). Phlpp1 facilitates post-traumatic osteoarthritis and is induced by inflammation and promoter demethylation in human osteoarthritis. Osteoarthritis and Cartilage, 24(6), 1021-1028. https://doi.org/10.1016/j.joca.2015.12.014

Bradley, EW, Carpio, LR, McGee-Lawrence, ME, Castillejo Becerra, C, Amanatullah, DF, Ta, LE, Otero, M, Goldring, MB, Kakar, S & Westendorf, JJ 2016, 'Phlpp1 facilitates post-traumatic osteoarthritis and is induced by inflammation and promoter demethylation in human osteoarthritis', Osteoarthritis and Cartilage, vol. 24, no. 6, pp. 1021-1028. https://doi.org/10.1016/j.joca.2015.12.014

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abstract = "Objective: Osteoarthritis (OA) is the most common form of arthritis and a leading cause of disability. OA is characterized by articular chondrocyte deterioration, subchondral bone changes and debilitating pain. One strategy to promote cartilage regeneration and repair is to accelerate proliferation and matrix production of articular chondrocytes. We previously reported that the protein phosphatase Phlpp1 controls chondrocyte differentiation by regulating the activities of anabolic kinases. Here we examined the role of Phlpp1 in OA progression in a murine model. We also assessed PHLPP1 expression and promoter methylation. Design: Knee joints of WT and Phlpp1-/- mice were surgically destabilized by transection of the medial meniscal ligament (DMM). Mice were assessed for signs of OA progression via radiographic and histological analyses, and pain assessment for mechanical hypersensitivity using the von Frey assay. Methylation of the PHLPP1 promoter and PHLPP1 expression were evaluated in human articular cartilage and chondrocyte cell lines. Results: Following DMM surgeries, Phlpp1 deficient mice showed fewer signs of OA and cartilage degeneration. Mechanical allodynia associated with DMM surgeries was also attenuated in Phlpp1-/- mice. PHLPP1 was highly expressed in human articular cartilage from OA patients, but was undetectable in cartilage specimens from femoral neck fractures (FNFxs). Higher PHLPP1 levels correlated with less PHLPP1 promoter CpG methylation in cartilage from OA patients. Blocking cytosine methylation or treatment with inflammatory mediators enhanced PHLPP1 expression in human chondrocyte cell lines. Conclusion: Phlpp1 deficiency protects against OA progression while CpG demethylation and inflammatory cytokines promote PHLPP1 expression.",

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author = "Bradley, {E. W.} and Carpio, {L. R.} and McGee-Lawrence, {M. E.} and {Castillejo Becerra}, C. and Amanatullah, {D. F.} and Ta, {L. E.} and M. Otero and Goldring, {M. B.} and S. Kakar and Westendorf, {J. J.}",

note = "Funding Information: We thank Xiaodong Li, David Razidlo, Bridget Stensgard and the Mayo Division of Biomedical Statistics and Informatics for technical assistance. This work was made possible by research and training grants from the National Institutes of Health ( AR065397 , GM055252 and AR68103 ), Regenerative Medicine Minnesota ( MRM 2015 6272 ), the Mayo Clinic Center for Individualized Medicine , and the Mayo Graduate School . These contents are solely the responsibility of the authors and do not necessarily represent the official views of the NIH. Publisher Copyright: {\textcopyright} 2015 Osteoarthritis Research Society International.",

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AU - Bradley, E. W.

AU - Carpio, L. R.

AU - McGee-Lawrence, M. E.

AU - Castillejo Becerra, C.

AU - Amanatullah, D. F.

AU - Ta, L. E.

AU - Otero, M.

AU - Goldring, M. B.

AU - Kakar, S.

AU - Westendorf, J. J.

N1 - Funding Information: We thank Xiaodong Li, David Razidlo, Bridget Stensgard and the Mayo Division of Biomedical Statistics and Informatics for technical assistance. This work was made possible by research and training grants from the National Institutes of Health ( AR065397 , GM055252 and AR68103 ), Regenerative Medicine Minnesota ( MRM 2015 6272 ), the Mayo Clinic Center for Individualized Medicine , and the Mayo Graduate School . These contents are solely the responsibility of the authors and do not necessarily represent the official views of the NIH. Publisher Copyright: © 2015 Osteoarthritis Research Society International.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Objective: Osteoarthritis (OA) is the most common form of arthritis and a leading cause of disability. OA is characterized by articular chondrocyte deterioration, subchondral bone changes and debilitating pain. One strategy to promote cartilage regeneration and repair is to accelerate proliferation and matrix production of articular chondrocytes. We previously reported that the protein phosphatase Phlpp1 controls chondrocyte differentiation by regulating the activities of anabolic kinases. Here we examined the role of Phlpp1 in OA progression in a murine model. We also assessed PHLPP1 expression and promoter methylation. Design: Knee joints of WT and Phlpp1-/- mice were surgically destabilized by transection of the medial meniscal ligament (DMM). Mice were assessed for signs of OA progression via radiographic and histological analyses, and pain assessment for mechanical hypersensitivity using the von Frey assay. Methylation of the PHLPP1 promoter and PHLPP1 expression were evaluated in human articular cartilage and chondrocyte cell lines. Results: Following DMM surgeries, Phlpp1 deficient mice showed fewer signs of OA and cartilage degeneration. Mechanical allodynia associated with DMM surgeries was also attenuated in Phlpp1-/- mice. PHLPP1 was highly expressed in human articular cartilage from OA patients, but was undetectable in cartilage specimens from femoral neck fractures (FNFxs). Higher PHLPP1 levels correlated with less PHLPP1 promoter CpG methylation in cartilage from OA patients. Blocking cytosine methylation or treatment with inflammatory mediators enhanced PHLPP1 expression in human chondrocyte cell lines. Conclusion: Phlpp1 deficiency protects against OA progression while CpG demethylation and inflammatory cytokines promote PHLPP1 expression.

AB - Objective: Osteoarthritis (OA) is the most common form of arthritis and a leading cause of disability. OA is characterized by articular chondrocyte deterioration, subchondral bone changes and debilitating pain. One strategy to promote cartilage regeneration and repair is to accelerate proliferation and matrix production of articular chondrocytes. We previously reported that the protein phosphatase Phlpp1 controls chondrocyte differentiation by regulating the activities of anabolic kinases. Here we examined the role of Phlpp1 in OA progression in a murine model. We also assessed PHLPP1 expression and promoter methylation. Design: Knee joints of WT and Phlpp1-/- mice were surgically destabilized by transection of the medial meniscal ligament (DMM). Mice were assessed for signs of OA progression via radiographic and histological analyses, and pain assessment for mechanical hypersensitivity using the von Frey assay. Methylation of the PHLPP1 promoter and PHLPP1 expression were evaluated in human articular cartilage and chondrocyte cell lines. Results: Following DMM surgeries, Phlpp1 deficient mice showed fewer signs of OA and cartilage degeneration. Mechanical allodynia associated with DMM surgeries was also attenuated in Phlpp1-/- mice. PHLPP1 was highly expressed in human articular cartilage from OA patients, but was undetectable in cartilage specimens from femoral neck fractures (FNFxs). Higher PHLPP1 levels correlated with less PHLPP1 promoter CpG methylation in cartilage from OA patients. Blocking cytosine methylation or treatment with inflammatory mediators enhanced PHLPP1 expression in human chondrocyte cell lines. Conclusion: Phlpp1 deficiency protects against OA progression while CpG demethylation and inflammatory cytokines promote PHLPP1 expression.

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KW - DMM mouse model

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KW - Il6

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Phlpp1 facilitates post-traumatic osteoarthritis and is induced by inflammation and promoter demethylation in human osteoarthritis

Abstract

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