We studied the role of matrix metalloproteinase-10 (MMP-10) during skeletal muscle repair after ischemia using a model of femoral artery excision in wild-type (WT) and MMP-10 deficient (Mmp10-/-) mice. Functional changes were analyzed by small animal positron emission tomography and tissue morphology by immunohistochemistry. Gene expression and protein analysis were used to study the molecular mechanisms governed by MMP-10 in hypoxia. Early after ischemia, MMP-10 deficiency resulted in delayed tissue reperfusion (10%, P < 0.01) and in increased necrosis (2-fold, P < 0.01), neutrophil (4-fold, P < 0.01), and macrophage (1.5-fold, P < 0.01) infiltration. These differences at early time points resulted in delayed myotube regeneration in Mmp10-/- soleus at later stages (regenerating myofibers: 30 ± 9% WT vs. 68 ± 10% Mmp10-/-, P < 0.01). The injection of MMP-10 into Mmp10-/- mice rescued the observed phenotype. A molecular analysis revealed higher levels of Cxcl1 mRNA (10-fold, P < 0.05) and protein (30%) in the ischemic Mmp10-/- muscle resulting from a lack of transcriptional inhibition by MMP-10. This was further confirmed using siRNA against MMP-10 in vivo. Our results demonstrate an important role of MMP-10 for proper muscle repair after ischemia, and suggest that chemokine regulation such as Cxcl1 by MMP-10 is involved in muscle regeneration.

Functional MMP-10 is required for efficient tissue repair after experimental hind limb ischemia

Mazzone M.;
2015-01-01

Abstract

We studied the role of matrix metalloproteinase-10 (MMP-10) during skeletal muscle repair after ischemia using a model of femoral artery excision in wild-type (WT) and MMP-10 deficient (Mmp10-/-) mice. Functional changes were analyzed by small animal positron emission tomography and tissue morphology by immunohistochemistry. Gene expression and protein analysis were used to study the molecular mechanisms governed by MMP-10 in hypoxia. Early after ischemia, MMP-10 deficiency resulted in delayed tissue reperfusion (10%, P < 0.01) and in increased necrosis (2-fold, P < 0.01), neutrophil (4-fold, P < 0.01), and macrophage (1.5-fold, P < 0.01) infiltration. These differences at early time points resulted in delayed myotube regeneration in Mmp10-/- soleus at later stages (regenerating myofibers: 30 ± 9% WT vs. 68 ± 10% Mmp10-/-, P < 0.01). The injection of MMP-10 into Mmp10-/- mice rescued the observed phenotype. A molecular analysis revealed higher levels of Cxcl1 mRNA (10-fold, P < 0.05) and protein (30%) in the ischemic Mmp10-/- muscle resulting from a lack of transcriptional inhibition by MMP-10. This was further confirmed using siRNA against MMP-10 in vivo. Our results demonstrate an important role of MMP-10 for proper muscle repair after ischemia, and suggest that chemokine regulation such as Cxcl1 by MMP-10 is involved in muscle regeneration.
2015
29
3
960
972
https://faseb.onlinelibrary.wiley.com/doi/full/10.1096/fj.14-259689
Hypoxia; Inflammation; Matrix; Metalloproteinase; Regeneration; Animals; Blotting, Western; Chemokine CXCL1; Elapid Venoms; Hindlimb; Ischemia; Male; Matrix Metalloproteinase 10; Mice; Mice, Inbred C57BL; Muscular Diseases; Neurotoxins; Regeneration; Reperfusion Injury; Wound Healing; Disease Models, Animal
Gomez-Rodriguez V.; Orbe J.; Martinez-Aguilar E.; Rodriguez J.A.; Fernandez-Alonso L.; Serneels J.; Bobadilla M.; Perez-Ruiz A.; Collantes M.; Mazzone...espandi
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2318/1841754
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