PLOD2, a Key Factor for MRL MSC Metabolism and Chondroprotective Properties

Overview

Journal Stem Cell Res Ther

Publisher Biomed Central

Date 2024 Mar 8

PMID 38454524

Authors

Sarah Bahraoui

Gautier Tejedor

Anne-Laure Mausset-Bonnefont

Francois Autelitano

Audrey Barthelaix

Claudia Terraza-Aguirre

Vincent Gisbert

Yoan Arribat

Christian Jorgensen

Mingxing Wei

Farida Djouad

Affiliations

Soon will be listed here.

Abstract

Background: Initially discovered for its ability to regenerate ear holes, the Murphy Roth Large (MRL) mouse has been the subject of multiple research studies aimed at evaluating its ability to regenerate other body tissues and at deciphering the mechanisms underlying it. These enhanced abilities to regenerate, retained during adulthood, protect the MRL mouse from degenerative diseases such as osteoarthritis (OA). Here, we hypothesized that mesenchymal stromal/stem cells (MSC) derived from the regenerative MRL mouse could be involved in their regenerative potential through the release of pro-regenerative mediators.

Method: To address this hypothesis, we compared the secretome of MRL and BL6 MSC and identified several candidate molecules expressed at significantly higher levels by MRL MSC than by BL6 MSC. We selected one candidate, Plod2, and performed functional in vitro assays to evaluate its role on MRL MSC properties including metabolic profile, migration, and chondroprotective effects. To assess its contribution to MRL protection against OA, we used an experimental model for osteoarthritis induced by collagenase (CiOA).

Results: Among the candidate molecules highly expressed by MRL MSC, we focused our attention on procollagen-lysine,2-oxoglutarate 5-dioxygenase 2 (PLOD2). Plod2 silencing induced a decrease in the glycolytic function of MRL MSC, resulting in the alteration of their migratory and chondroprotective abilities in vitro. In vivo, we showed that Plod2 silencing in MRL MSC significantly impaired their capacity to protect mouse from developing OA.

Conclusion: Our results demonstrate that the chondroprotective and therapeutic properties of MRL MSC in the CiOA experimental model are in part mediated by PLOD2.

Citing Articles

The HIF-1α/PLOD2 axis integrates extracellular matrix organization and cell metabolism leading to aberrant musculoskeletal repair.

Kang H, Strong A, Sun Y, Guo L, Juan C, Bancroft A Bone Res. 2024; 12(1):17.

PMID: 38472175 PMC: 10933265. DOI: 10.1038/s41413-024-00320-0.

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