Matrix metalloproteinases are hallmark early biomarkers and therapeutic targets in FSHD
Usuk Jung, Erdong Wei, Haseeb Ahsan, Ana Mitanoska, Kenric Chen, Michael Kyba, Darko Bosnakovski
Usuk Jung, Erdong Wei, Haseeb Ahsan, Ana Mitanoska, Kenric Chen, Michael Kyba, Darko Bosnakovski
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Research Article Cell biology Muscle biology

Matrix metalloproteinases are hallmark early biomarkers and therapeutic targets in FSHD

Abstract

Matrix remodeling by metalloproteinases (MMPs) is essential for maintaining muscle homeostasis; however, their dysregulation can drive degenerative processes. By interrogating biopsy RNA-Seq data, we showed that MMP expression correlated with disease severity in facioscapulohumeral muscular dystrophy (FSHD). In the iDUX4pA FSHD mouse model, MMP levels also progressively increased in response to double homeobox 4–induced (DUX4-induced) muscle degeneration. Single-cell RNA-Seq further identified fibroadipogenic progenitors (FAPs) and macrophages as the primary sources of MMPs, particularly MMP2, MMP14, and MMP19, in dystrophic muscle. Treatment with the pan-MMP inhibitor batimastat alleviated inflammation and fibrosis, improved muscle structure, and decreased the number of FAPs and infiltrating macrophages. These findings underscore the role of MMPs in driving muscle degeneration in FSHD, highlight MMPs as functional biomarkers of disease, and support MMP inhibitors as a DUX4-independent therapeutic approach to limit fibroadipogenesis and promote muscle regeneration.

Authors

Usuk Jung, Erdong Wei, Haseeb Ahsan, Ana Mitanoska, Kenric Chen, Michael Kyba, Darko Bosnakovski

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Figure 5

MMP inhibition reduces mononuclear cell infiltration in iDUX4 mice.

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MMP inhibition reduces mononuclear cell infiltration in iDUX4 mice. (A) ...
(A) Representative FACS profile for CD45CD31PDGFRα+ (FAPs) or CD31+PDGFRα (ECs), CD45SCA1+ cells, CD11b+CD68+, and CD11b+GR-1+ (myeloid-derived suppressor cells) in the quadriceps from WT, iDUX4 (Dox), and batimastat-treated iDUX4 (Dox+Bat) mice. (B) Quantification of cell populations. Cell frequencies are represented as percentages of the parent cell population. Data are presented as mean ± SEM; *P < 0.05, **P < 0.01, ***P < 0.001, and ****P < 0.0001 by 1-way ANOVA followed by Tukey’s post hoc tests; WT (n = 9); Dox (n = 9); Dox+Bat (n = 8).