CCL21/CCR7 axis regulating juvenile cartilage repair can enhance cartilage healing in adults

Joutoku, Zenta; Onodera, Tomohiro; Matsuoka, Morito; Homan, Kentaro; Momma, Daisuke; Baba, Rikiya; Hontani, Kazutoshi; Hamasaki, Masanari; Matsubara, Shin; Hishimura, Ryosuke; Iwasaki, Norimasa

doi:10.1038/s41598-019-41621-3

Cited by 15 publications

(18 citation statements)

References 52 publications

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“…Recent studies by Joutoku et al [ 24 ], using a different animal model showed that local administration of CCL21 to adult rabbits at the knee joints can enhance cartilage repair post osteochondral defect. In Joutoku et al [ 24 ] studies, the experimental defect affected both articular cartilage and osteochondral bone and was deep enough to reach bone marrow [ 24 ]. This allowed the infiltration of mesenchymal stem cells from bone marrow to the injured knee joints for cartilage regeneration.…”

Section: Discussionmentioning

confidence: 99%

Evaluation of CCL21 role in post-knee injury inflammation and early cartilage degeneration

Mohan

Edderkaoui

2021

PLoS ONE

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The expression of some chemokines and chemokine receptors is induced during the development of post-traumatic osteoarthritis (PTOA), but their involvement in the pathogenesis of the disease is unclear. The goal of this study was to test whether CCL21 and CXCL13 play a role in PTOA development. For this purpose, we evaluated the expression profiles of the chemokines Ccl21 and Cxcl13, matrix metalloproteinase enzymes Mmp3 and Mmp13, and inflammatory cell markers in response to partial medial meniscectomy and destabilization (MMD). We then assessed the effect of local administration of CCL21 neutralizing antibody on PTOA development and post-knee injury inflammation. The mRNA expression of both Ccl21 and Cxcl13 was induced early post-surgery, but only Ccl21 mRNA levels remained elevated 4 weeks post-surgery in rat MMD-operated knees compared to controls. This suggests that while both CXCL13 and CCL21 are involved in post-surgery inflammation, CCL21 is necessary for development of PTOA. A significant increase in the mRNA levels of Cd4, Cd8 and Cd20 was observed during the first 3 days post-surgery. Significantly, treatment with CCL21 antibody reduced post-surgical inflammation that was accompanied by a reduction in the expression of Mmp3 and Mmp13 and post-MMD cartilage degradation. Our findings are consistent with a role for CCL21 in mediating changes in early inflammation and subsequent cartilage degeneration in response to knee injury. Our results suggest that targeting CCL21 signaling pathways may yield new therapeutic approaches effective in delaying or preventing PTOA development following injury.

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Section: Discussionmentioning

confidence: 99%

Evaluation of CCL21 role in post-knee injury inflammation and early cartilage degeneration

Mohan

Edderkaoui

2021

PLoS ONE

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“…Interestingly, juvenile mice deficient in CCR7 displayed significantly impaired cartilage healing postinjury (longitudinal full-thickness cartilage injury in the trochlear groove) compared to wild-type controls, while adult CCR7-deficient mice developed similar fibrocartilaginous tissue as controls in response to injury. Moreover, exogenous delivery of CCL21 ligand, whose transient expression had been identified at the injury site in juvenile mice, led to enhanced healing in adult rabbit after osteochondral defects [18]. Collectively, these findings suggest that this signaling pathway could be a promising target for the enhancement of adult tissue regeneration.…”

Section: Aging and The Regenerative Potentialmentioning

confidence: 78%

“…Yet, the biological and molecular mechanisms responsible for enhanced regenerative competence at a younger age remains poorly understood. Joutoku et al have recently studied the involvement of chemokines, namely the CCL21/CCR7 axis, in regulating cartilage regeneration at a younger age [18]. Interestingly, juvenile mice deficient in CCR7 displayed significantly impaired cartilage healing postinjury (longitudinal full-thickness cartilage injury in the trochlear groove) compared to wild-type controls, while adult CCR7-deficient mice developed similar fibrocartilaginous tissue as controls in response to injury.…”

Section: Aging and The Regenerative Potentialmentioning

confidence: 99%

“…Direct cartilage injury is commonly used to study the tissue regenerative potential by producing a partial or a FTCD, focally or longitudinally in the trochlear groove, that can reach into the subchondral bone (Table 1) [18,44,90]. These models help examine the effect of genetic manipulations and exogenously delivered treatments, such as cell therapy and tissue-engineered constructs, on cartilage regeneration.…”

Section: Models Of Oa and Cartilage Damagementioning

confidence: 99%

“…For instance, spontaneous and trauma-induced cartilage injuries appear to differ in terms of molecular signatures and responses to interventions [17], likely due to divergent mechanisms of disease pathogenesis. Also, age and genetic/epigenetic traits may influence the regenerative competence of animals, thus appearing as confounding factors in cartilage-related studies [17,18].…”

Section: Introductionmentioning

confidence: 99%

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Understanding cartilage protection in OA and injury: a spectrum of possibilities

Masson

Krawetz

2020

BMC Musculoskelet Disord

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Background: Osteoarthritis (OA) is a prevalent musculoskeletal disease resulting in progressive degeneration of the hyaline articular cartilage within synovial joints. Current repair treatments for OA often result in poor quality tissue that is functionally ineffective compared to the hyaline cartilage and demonstrates increased failure rates posttreatment. Complicating efforts to improve clinical outcomes, animal models used in pre-clinical research show significant heterogeneity in their regenerative and degenerative responses associated with their species, age, genetic/epigenetic traits, and context of cartilage injury or disease. These can lead to variable outcomes when testing and validating novel therapeutic approaches for OA. Furthermore, it remains unclear whether protection against OA among different model systems is driven by inhibition of cartilage degeneration, enhancement of cartilage regeneration, or any combination thereof. Main text: Understanding the mechanistic basis underlying this context-dependent duality is essential for the rational design of targeted cartilage repair and OA therapies. Here, we discuss some of the critical variables related to the cross-species paradigm of degenerative and regenerative abilities found in pre-clinical animal models, to highlight that a gradient of regenerative competence within cartilage may exist across species and even in the greater human population, and likely influences clinical outcomes. Conclusions: A more complete understanding of the endogenous regenerative potential of cartilage in a species specific context may facilitate the development of effective therapeutic approaches for cartilage injury and/or OA.

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Forgiveness, rumination, and self‐control as the predictors of adolescent life satisfaction: A comparison of two serial mediational models

Liu

2023

Psychology in the Schools

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Research has documented a bidirectional relationship between forgiveness and self‐control, influencing adolescent satisfaction with life. However, the potential psychosocial mechanisms underpinning this association remain nebulous. In that study, two hypothetical models were compared to disentangle the unique role of forgiveness and self‐control independently on life satisfaction. Four hundred and forty‐eight adolescents completed a multisection questionnaire. After controlling for age and gender, results showed: (a) Forgiveness, rumination, and self‐control are significantly associated with life satisfaction among Chinese adolescents; (b) Rumination and self‐control played serial mediating roles in the association between forgiveness and life satisfaction in Model A; (c) Rumination and forgiveness serially mediated the relationship between self‐control and life satisfaction in Model B; (d) Furthermore, the total effect of self‐control on life satisfaction was stronger than that of forgiveness on life satisfaction. This study provides a new entry point for the unique mechanisms between self‐control/forgiveness and life satisfaction, which has important practical implications for developing effective interventions to improve life satisfaction among adolescents.

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CCL21/CCR7 axis regulating juvenile cartilage repair can enhance cartilage healing in adults

Cited by 15 publications

References 52 publications

Evaluation of CCL21 role in post-knee injury inflammation and early cartilage degeneration

Evaluation of CCL21 role in post-knee injury inflammation and early cartilage degeneration

Understanding cartilage protection in OA and injury: a spectrum of possibilities

Forgiveness, rumination, and self‐control as the predictors of adolescent life satisfaction: A comparison of two serial mediational models

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