Caveolins are structural and functional proteins in plasma membrane invaginations called caveolae. Mutations in Caveolin-3 cause myopathies of variable severity. The pathogenicity of the Caveolin-3 variant G55S is still unclear. Here, we report on three patients suffering from mild to moderate myopathy. In all three patients, but also in two seemingly unaffected family members of patient one the G55S variant was found. Histology revealed moderate chronic myopathic changes and reduced sarcolemmal Caveolin-3 immunoreactivity in all three cases. Immunoblots for Caveolin-3 were abnormal in all cases. By electron microscopy, enlarged caveolae were detected in case one and three and vacuolar myopathy in case two. EM studies of RCMH myoblasts transfected with G55S Caveolin-3 revealed autophagic vacuoles. The alterations in Golgi morphology were in line with pathological Caveolin-3 deposits in this organelle detected by immunofluorescence and indicative for activation of autophagy. Phospho-blotting demonstrated that G55S affects EGFR signaling. Proteomic profiling of transfected RCMH myoblasts demonstrated alterations in levels of physiologically relevant proteins which are indicative for antagonization of G55S Caveolin-3 expression. Some proteomic alterations were enhanced by osmotic/mechanical stress. In conclusion, our results suggest that the G55S Caveolin-3 sequence variant can be compensated by cellular defense mechanisms and that additional stress may lead to vulnerability of G55S Caveolin-3 expressing muscle cells.