Spike-specific IgG4 generated post BNT162b2 mRNA vaccination is inhibitory when directly competing with functional IgG subclasses

The rapid development of vaccines against SARS-CoV-2 during the COVID-19 pandemic proved vital in controlling viral spread and reducing mortality and morbidity. Both neutralising activity and effector function activity of Spike-specific antibodies have been shown to be important for their protective and therapeutic activity. However, several recent studies have reported that vaccination with mRNA based COVID-19 vaccines can lead to elevated levels of Spike-specific IgG4, an isotype which is often considered anti-inflammatory due to its reduced binding to Fcγ receptors on immune cells. Here we show that the level of Spike-specific IgG4 produced following BNT162b2 vaccination is impacted by the interval between and frequency of vaccines boosts, prior SARS-CoV-2 infection (hybrid immunity), breakthrough infection and bivalent vaccine boosters. Despite the increase in Spike-specific IgG4 between the 2 ^nd and 3 ^rd BNT162b2 vaccine dose, neutralisation, ADCD and ADCP activity all increased. Through expression of SARS-CoV-2 monoclonal antibodies cloned as IgG1, IgG2, IgG3 and IgG4, we demonstrated that whilst Spike-specific IgG4 had reduced effector function activity, including ADCC, ADCD and ADCP, IgG4 was only inhibitory when directly competing with functional IgG subclasses binding to an overlapping epitope. In the context of polyclonal plasma, ADCC and ADCD activity could not be depleted by addition of high concentrations of a Spike-specific IgG4 mAb cocktail suggesting the non-stimulatory effect of Spike-specific IgG4 may be hidden in more complex scenarios, such as polyclonal mixes in serum.