Messenger RNA-based vaccines against COVID-19 induce a robust anti-SARS-CoV-2 antibody response with potent viral neutralization activity. Antibody effector functions is determined by its constant region subclasses as well as by its glycosylation patterns, but their role in vaccine efficacy is not well understood. Moreover, whether vaccination induce antibodies with similar Fc structures and protection potential as in COVID-19 patients remains unclear. Here, we analyzed BNT162b2 vaccine-induced IgG subclass distribution and Fc glycosylation patterns, as well as their potential to drive effector function via Fc-gamma receptors and complement pathways. We identified a unique Fc composition of these antiviral protein antibodies that is distinct from COVID-19 patients and convalescences. Vaccine-induced anti-spike SARS-CoV-2 IgG displayed a pro-inflammatory Fc profile and superior Fab- and Fc-mediated function, as compared to antibodies generated during natural viral infection. Moreover, differences in the kinetics of IgG Fc structure formation and their engagement with immune receptors were observed between different age groups. These data highlight the heterogeneity of the IgG Fc response to SARS-CoV-2 infection and vaccination and suggest that they differently support long-lasting protection.