Limb-girdle muscular dystrophy R3 (LGMDR3), a rare genetic disorder characterized by progressive impairment of limb, diaphragmatic, and respiratory muscles, is caused by loss-of-function mutations in the alpha-sarcoglycan gene (SGCA) and aggravated by immune-mediated damage and fibrotic tissue replacement. Pharmacological inhibition of purinergic receptor P2X7 (P2X7R) reduced inflammation and fibrosis in Sgca -/- mice. To further define the role of P2X7R, we generated a double knockout mouse model Sgca -/- P2rx7 -/-. We compared diaphragms isolated from 24-week-old Sgca -/- P2rx7 +/+ and Sgca -/- P2rx7 -/- mice since the diaphragmatic muscle is early and severely damaged by Sgca genetic loss-of-function. Unexpectedly, Sgca -/- P2rx7-/- mice displayed increased extracellular matrix deposition and augmented cellularity in fibrotic areas, in particular, a higher number of CD3+ lymphocytes and Iba1+ macrophages compared to Sgca -/- P2rx7 +/+ mice. Moreover, intense P2X4R signal colocalized with CD3+ and Iba1+ cells, confirming its expression by these infiltrating immune cells. Absence of an improvement of the dystrophic phenotype was histologically confirmed in Sgca -/- P2rx7-/- quadriceps, although the fibrotic reaction was milder than that in diaphragms, suggesting a differential influence of the tissue microenvironment on the receptor functions. Flow cytometric analysis of limb muscle-infiltrating immune cells revealed a decrease in NK cells. Motor performance tests did not reveal any difference between the two genotypes. In conclusion, this study identified a divergent outcome of genetic deletion of the P2rx7 gene as compared to P2X7R blockade in alpha-sarcoglycan dystrophic tissue, suggesting that pharmacological interventions targeting the P2X7R in dystrophic immune-mediated damage require careful definition of a precise time window and dosage.

Genetic Deletion of the Purinergic Receptor P2rx7 Worsens the Phenotype of α‑Sarcoglycan Muscular Dystrophy

Astigiano, Cecilia;Principi, Elisa;Pintus, Sara;Benzi, Andrea;Panicucci, Chiara;Passalacqua, Mario;Del Zotto, Genny;Grassi, Fabio;Bruzzone, Santina;Bruno, Claudio;
2025-01-01

Abstract

Limb-girdle muscular dystrophy R3 (LGMDR3), a rare genetic disorder characterized by progressive impairment of limb, diaphragmatic, and respiratory muscles, is caused by loss-of-function mutations in the alpha-sarcoglycan gene (SGCA) and aggravated by immune-mediated damage and fibrotic tissue replacement. Pharmacological inhibition of purinergic receptor P2X7 (P2X7R) reduced inflammation and fibrosis in Sgca -/- mice. To further define the role of P2X7R, we generated a double knockout mouse model Sgca -/- P2rx7 -/-. We compared diaphragms isolated from 24-week-old Sgca -/- P2rx7 +/+ and Sgca -/- P2rx7 -/- mice since the diaphragmatic muscle is early and severely damaged by Sgca genetic loss-of-function. Unexpectedly, Sgca -/- P2rx7-/- mice displayed increased extracellular matrix deposition and augmented cellularity in fibrotic areas, in particular, a higher number of CD3+ lymphocytes and Iba1+ macrophages compared to Sgca -/- P2rx7 +/+ mice. Moreover, intense P2X4R signal colocalized with CD3+ and Iba1+ cells, confirming its expression by these infiltrating immune cells. Absence of an improvement of the dystrophic phenotype was histologically confirmed in Sgca -/- P2rx7-/- quadriceps, although the fibrotic reaction was milder than that in diaphragms, suggesting a differential influence of the tissue microenvironment on the receptor functions. Flow cytometric analysis of limb muscle-infiltrating immune cells revealed a decrease in NK cells. Motor performance tests did not reveal any difference between the two genotypes. In conclusion, this study identified a divergent outcome of genetic deletion of the P2rx7 gene as compared to P2X7R blockade in alpha-sarcoglycan dystrophic tissue, suggesting that pharmacological interventions targeting the P2X7R in dystrophic immune-mediated damage require careful definition of a precise time window and dosage.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/1267879
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