Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis

Suzanne E Eldridge; Aida Barawi; Hui Wang; Anke J Roelofs; Magdalena Kaneva; Zeyu Guan; Helen Lydon; Bethan L Thomas; Anne-Sophie Thorup; Beatriz F Fernandez; Sara Caxaria; Danielle Strachan; Ahmed Ali; Kanatheepan Shanmuganathan; Costantino Pitzalis; James R Whiteford; Frances Henson; Andrew W McCaskie; Cosimo De Bari; Francesco Dell'Accio

doi:10.1126/scitranslmed.aax9086

Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis

Suzanne E Eldridge^*, Aida Barawi, Hui Wang, Anke J Roelofs, Magdalena Kaneva, Zeyu Guan, Helen Lydon, Bethan L Thomas, Anne-Sophie Thorup, Beatriz F Fernandez, Sara Caxaria, Danielle Strachan, Ahmed Ali, Kanatheepan Shanmuganathan, Costantino Pitzalis, James R Whiteford, Frances Henson, Andrew W McCaskie, Cosimo De Bari, Francesco Dell'Accio^*

^*Corresponding author for this work

School of Genetics and Cancer

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

Abstract

Cartilage loss leads to osteoarthritis, the most common cause of disability for which there is no cure. Cartilage regeneration, therefore, is a priority in medicine. We report that agrin is a potent chondrogenic factor and that a single intraarticular administration of agrin induced long-lasting regeneration of critical-size osteochondral defects in mice, with restoration of tissue architecture and bone-cartilage interface. Agrin attracted joint resident progenitor cells to the site of injury and, through simultaneous activation of CREB and suppression of canonical WNT signaling downstream of β-catenin, induced expression of the chondrogenic stem cell marker GDF5 and differentiation into stable articular chondrocytes, forming stable articular cartilage. In sheep, an agrin-containing collagen gel resulted in long-lasting regeneration of bone and cartilage, which promoted increased ambulatory activity. Our findings support the therapeutic use of agrin for joint surface regeneration.

Original language	English
Journal	Science Translational Medicine
Volume	12
Issue number	559
DOIs	https://doi.org/10.1126/scitranslmed.aax9086
Publication status	Published - 2 Sept 2020

Keywords / Materials (for Non-textual outputs)

Agrin
Animals
Cartilage, Articular
Cell Differentiation
Chondrocytes
Chondrogenesis
Mice
Sheep
Tissue Scaffolds

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10.1126/scitranslmed.aax9086

https://aura.abdn.ac.uk/bitstream/handle/2164/15360/Bari_et_al_STM_AgrinInducesLong_AAM.pdf

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Eldridge, S. E., Barawi, A., Wang, H., Roelofs, A. J., Kaneva, M., Guan, Z., Lydon, H., Thomas, B. L., Thorup, A.-S., Fernandez, B. F., Caxaria, S., Strachan, D., Ali, A., Shanmuganathan, K., Pitzalis, C., Whiteford, J. R., Henson, F., McCaskie, A. W., De Bari, C., & Dell'Accio, F. (2020). Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis. Science Translational Medicine, 12(559). https://doi.org/10.1126/scitranslmed.aax9086

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title = "Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis",

abstract = "Cartilage loss leads to osteoarthritis, the most common cause of disability for which there is no cure. Cartilage regeneration, therefore, is a priority in medicine. We report that agrin is a potent chondrogenic factor and that a single intraarticular administration of agrin induced long-lasting regeneration of critical-size osteochondral defects in mice, with restoration of tissue architecture and bone-cartilage interface. Agrin attracted joint resident progenitor cells to the site of injury and, through simultaneous activation of CREB and suppression of canonical WNT signaling downstream of β-catenin, induced expression of the chondrogenic stem cell marker GDF5 and differentiation into stable articular chondrocytes, forming stable articular cartilage. In sheep, an agrin-containing collagen gel resulted in long-lasting regeneration of bone and cartilage, which promoted increased ambulatory activity. Our findings support the therapeutic use of agrin for joint surface regeneration.",

keywords = "Agrin, Animals, Cartilage, Articular, Cell Differentiation, Chondrocytes, Chondrogenesis, Mice, Sheep, Tissue Scaffolds",

author = "Eldridge, \{Suzanne E\} and Aida Barawi and Hui Wang and Roelofs, \{Anke J\} and Magdalena Kaneva and Zeyu Guan and Helen Lydon and Thomas, \{Bethan L\} and Anne-Sophie Thorup and Fernandez, \{Beatriz F\} and Sara Caxaria and Danielle Strachan and Ahmed Ali and Kanatheepan Shanmuganathan and Costantino Pitzalis and Whiteford, \{James R\} and Frances Henson and McCaskie, \{Andrew W\} and \{De Bari\}, Cosimo and Francesco Dell'Accio",

note = "Copyright {\textcopyright} 2020 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works.",

year = "2020",

month = sep,

day = "2",

doi = "10.1126/scitranslmed.aax9086",

language = "English",

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Eldridge, SE, Barawi, A, Wang, H, Roelofs, AJ, Kaneva, M, Guan, Z, Lydon, H, Thomas, BL, Thorup, A-S, Fernandez, BF, Caxaria, S, Strachan, D, Ali, A, Shanmuganathan, K, Pitzalis, C, Whiteford, JR, Henson, F, McCaskie, AW, De Bari, C & Dell'Accio, F 2020, 'Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis', Science Translational Medicine, vol. 12, no. 559. https://doi.org/10.1126/scitranslmed.aax9086

TY - JOUR

T1 - Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis

AU - Eldridge, Suzanne E

AU - Barawi, Aida

AU - Wang, Hui

AU - Roelofs, Anke J

AU - Kaneva, Magdalena

AU - Guan, Zeyu

AU - Lydon, Helen

AU - Thomas, Bethan L

AU - Thorup, Anne-Sophie

AU - Fernandez, Beatriz F

AU - Caxaria, Sara

AU - Strachan, Danielle

AU - Ali, Ahmed

AU - Shanmuganathan, Kanatheepan

AU - Pitzalis, Costantino

AU - Whiteford, James R

AU - Henson, Frances

AU - McCaskie, Andrew W

AU - De Bari, Cosimo

AU - Dell'Accio, Francesco

PY - 2020/9/2

Y1 - 2020/9/2

N2 - Cartilage loss leads to osteoarthritis, the most common cause of disability for which there is no cure. Cartilage regeneration, therefore, is a priority in medicine. We report that agrin is a potent chondrogenic factor and that a single intraarticular administration of agrin induced long-lasting regeneration of critical-size osteochondral defects in mice, with restoration of tissue architecture and bone-cartilage interface. Agrin attracted joint resident progenitor cells to the site of injury and, through simultaneous activation of CREB and suppression of canonical WNT signaling downstream of β-catenin, induced expression of the chondrogenic stem cell marker GDF5 and differentiation into stable articular chondrocytes, forming stable articular cartilage. In sheep, an agrin-containing collagen gel resulted in long-lasting regeneration of bone and cartilage, which promoted increased ambulatory activity. Our findings support the therapeutic use of agrin for joint surface regeneration.

AB - Cartilage loss leads to osteoarthritis, the most common cause of disability for which there is no cure. Cartilage regeneration, therefore, is a priority in medicine. We report that agrin is a potent chondrogenic factor and that a single intraarticular administration of agrin induced long-lasting regeneration of critical-size osteochondral defects in mice, with restoration of tissue architecture and bone-cartilage interface. Agrin attracted joint resident progenitor cells to the site of injury and, through simultaneous activation of CREB and suppression of canonical WNT signaling downstream of β-catenin, induced expression of the chondrogenic stem cell marker GDF5 and differentiation into stable articular chondrocytes, forming stable articular cartilage. In sheep, an agrin-containing collagen gel resulted in long-lasting regeneration of bone and cartilage, which promoted increased ambulatory activity. Our findings support the therapeutic use of agrin for joint surface regeneration.

KW - Agrin

KW - Animals

KW - Cartilage, Articular

KW - Cell Differentiation

KW - Chondrocytes

KW - Chondrogenesis

KW - Mice

KW - Sheep

KW - Tissue Scaffolds

U2 - 10.1126/scitranslmed.aax9086

DO - 10.1126/scitranslmed.aax9086

M3 - Article

C2 - 32878982

SN - 1946-6234

VL - 12

JO - Science Translational Medicine

JF - Science Translational Medicine

IS - 559

ER -

Agrin induces long-term osteochondral regeneration by supporting repair morphogenesis

Abstract

Keywords / Materials (for Non-textual outputs)

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