Updated project metadata. The Z-disc is a protein-rich structure critically important for myofibril development and integrity. Since a role of the Z-disc for signal integration and transduction was recently suggested, its precise phosphorylation landscape warranted in-depth analysis. We therefore established a site-resolved protein phosphorylation map of the Z-disc in skeletal myocytes and found that it is a phosphorylation hotspot in living cells, underscoring its functions in signalling and disease-related processes. In an exemplary fashion, we analysed the actin-binding multi-adaptor protein filamin C (FLNc), which is essential for Z-disc assembly and maintenance, and found that PKC phosphorylation at distinct serine residues in its hinge 2 region prevents its cleavage at an adjacent tyrosine residue by calpain 1. With this quantitative in vivo kinase assay, we show that the phosphorylation site S2625 in mouse FLNc is significantly down-regulated upon treatment of C2C12 myotubes with the PKCα inhibitor Gö6976.