BackgroundAlthough SARS-CoV-2 vaccines have proven effective in eliciting a protective immune response in healthy individuals, their ability to induce a durable immune response in immunocompromised individuals remains poorly understood. Primary antibody deficiency (PAD) syndromes are among the most common primary immunodeficiency disorders in adults and are characterized by hypogammaglobulinemia and impaired ability to mount robust antibody responses following infection or vaccination.MethodsHere, we present an analysis of both the B and T cell response in a prospective cohort of 30 individuals with PAD up to 150 days following initial COVID-19 vaccination and 150 days post mRNA booster vaccination.ResultsAfter the primary vaccination series, many of the individuals with PAD syndromes mounted SARS-CoV-2 specific memory B and CD4+ T cell responses that overall were comparable to healthy individuals. Nonetheless, individuals with PAD syndromes had reduced IgG1+ and CD11c+ memory B cell responses following the primary vaccination series, with the defect in IgG1 class-switching rescued following mRNA booster doses. Boosting also elicited an increase in the SARS-CoV-2-specific B and T cell response and the development of Omicron-specific memory B cells in COVID-19-naïve PAD patients. Individuals that lacked detectable B cell responses following primary vaccination did not benefit from booster vaccination.ConclusionTogether, these data indicate that SARS-CoV-2 vaccines elicit memory B and T cells in most PAD patients and highlights the importance of booster vaccination in immunodeficient individuals.
SARS-CoV-2 vaccines have proven effective in eliciting an immune response capable of providing protective immunity in healthy individuals. However, whether SARS-CoV-2 vaccination induces a long-lived immune response in immunocompromised individuals is poorly understood. Primary antibody deficiency (PAD) syndromes are among the most common immunodeficiency disorders in adults and are characterized by an impaired ability to mount robust antibody responses following infection or vaccination. Here, we present data from a prospective study in which we analyzed the B and T cell response in PAD patients following SARS-COV-2 vaccination. Unexpectedly, individuals with PAD syndromes mounted a SARS-CoV-2 specific B and CD4+ T cell response that was comparable in magnitude to healthy individuals. Many individuals with PAD syndromes displayed reduced IgG1+ and CD11c+ memory B cell responses following the primary vaccination series. However, the IgG1 class-switching defect was largely rescued following mRNA booster vaccination. Boosting also elicited an increase in the SARS-CoV-2-specific B and T cell response and the development of Omicron-specific memory B cells in COVID-19-naive PAD patients. Together, these data indicate that SARS-CoV-2 vaccines elicit memory B and T cells in PAD patients that may contribute to long-term protective immunity.
Patients with primary antibody deficiency syndromes (PAD) have poor humoral immune responses requiring immunoglobulin replacement therapy. We followed PAD patients after SARS-CoV-2 vaccination by evaluating their immunoglobulin replacement products and serum for anti-spike binding, FcγR binding, and neutralizing activities. Immunoglobulin replacement products had low anti-spike and receptor binding domain (RBD) titers and neutralizing activity. In COVID-19-naive PAD patients, anti-spike and RBD titers increased after mRNA vaccination but decreased to pre-immunization levels by 90 days. Patients vaccinated after SARS-CoV-2 infection developed higher responses comparable to healthy donors. Most vaccinated PAD patients had serum neutralizing antibody titers above an estimated correlate of protection against ancestral SARS-CoV-2 and Delta virus but not against Omicron virus, although this was improved by boosting. Thus, currently used immunoglobulin replacement products likely have limited protective activity, and immunization and boosting of PAD patients with mRNA vaccines should confer at least short-term immunity against SARS-CoV-2 variants, including Omicron.
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