The extracellular matrix (ECM) consists of proteins,
glycosaminoglycans and glycoproteins, that support the dynamic
interactions between cells, including intercellular communication,
cell attachment, cell differentiation, cell growth and migration. As
such, the ECM represents an essential and very sensitive system
within the tissue microenvironment that is involved in processes
such as tissue regeneration and carcinogenesis. The aim of the
present review is to evaluate its diversity through Ca2+ signaling
and its role in muscle cell function. Here, we discuss some
methodological approaches dissecting Ca2+ handling mechanisms
in myogenic and non-myogenic cells, e.g. the importance of Ca2+
and calpains in muscle dystrophy. We also consider the
reconstruction of skeletal muscle by colonization of decellularized
ECM with muscle-derived cells isolated from skeletal muscle.
Therefore, it is necessary to establish new methodological
procedures based on Ca2+ signaling in skeletal muscle cells and
their effect on ECM homeostasis, allowing the monitoring of
skeletal muscle reconstruction and organ repair.