Genome-wide association studies of COVID-19 vaccine seroconversion and breakthrough outcomes in UK Biobank.

Genome-wide association studies of COVID-19 vaccine seroconversion and breakthrough outcomes in UK Biobank.

Publication date: Oct 09, 2024

Understanding the genetic basis of COVID-19 vaccine seroconversion is crucial to study the role of genetics on vaccine effectiveness. In our study, we used UK Biobank data to find the genetic determinants of COVID-19 vaccine-induced seropositivity and breakthrough infections. We conducted four genome-wide association studies among vaccinated participants for COVID-19 vaccine seroconversion and breakthrough susceptibility and severity. Our findings confirmed a link between the HLA region and seroconversion after the first and second doses. Additionally, we identified 10 genomic regions associated with breakthrough infection (SLC6A20, ST6GAL1, MUC16, FUT6, MXI1, MUC4, HMGN2P18-KRTCAP2, NFKBIZ and APOC1), and one with breakthrough severity (APOE). No significant evidence of genetic colocalisation was found between those traits. Our study highlights the roles of individual genetic make-up in the varied antibody responses to COVID-19 vaccines and provides insights into the potential mechanisms behind breakthrough infections occurred even after the vaccination.

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Concepts Keywords
Biobank Aged
Covid Antibodies, Viral
Genetic Antibodies, Viral
St6gal1 Biological Specimen Banks
Vaccine COVID-19
COVID-19 Vaccines
COVID-19 Vaccines
Female
Genome-Wide Association Study
HLA Antigens
HLA Antigens
Humans
Male
Middle Aged
Polymorphism, Single Nucleotide
SARS-CoV-2
Seroconversion
UK Biobank
United Kingdom
Vaccination
Vaccine Efficacy

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