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Genome-wide genetic associations with IFN? response to smallpox vaccine.


ABSTRACT: Smallpox is a deadly and debilitating disease that killed hundreds of millions of people in the past century alone. The use of Vaccinia virus-based smallpox vaccines led to the eradication of smallpox. These vaccines are remarkably effective, inducing the characteristic pustule or "take" at the vaccine site in >97 % of recipients, and inducing a wide spectrum of long-lasting humoral and cellular immune responses. The mechanisms behind inter-individual vaccine-response variability are likely to involve host genetic variation, but have not been fully characterized. We report here the first smallpox vaccine response genome-wide association study of over 1,000 recent recipients of Dryvax(®). The data presented here focus on cellular immune responses as measured by both production of secreted IFN? and quantitation of IFN? secreting cells by ELISPOT assay. We identified multiple significant SNP associations in genes (RASA1, ADRA1D, TCF7L1, FAS) that are critical components of signaling pathways that directly control lymphocyte IFN? production or cytotoxic T cell function. Similarly, we found many associations with SNPs located in genes integral to nerve cell function; findings that, given the complex interplay between the nervous and immune systems, deserve closer examination in follow-up studies.

SUBMITTER: Kennedy RB 

PROVIDER: S-EPMC4170655 | biostudies-literature | 2012 Sep

REPOSITORIES: biostudies-literature

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Genome-wide genetic associations with IFNγ response to smallpox vaccine.

Kennedy Richard B RB   Ovsyannikova Inna G IG   Pankratz V Shane VS   Haralambieva Iana H IH   Vierkant Robert A RA   Jacobson Robert M RM   Poland Gregory A GA  

Human genetics 20120603 9


Smallpox is a deadly and debilitating disease that killed hundreds of millions of people in the past century alone. The use of Vaccinia virus-based smallpox vaccines led to the eradication of smallpox. These vaccines are remarkably effective, inducing the characteristic pustule or "take" at the vaccine site in >97 % of recipients, and inducing a wide spectrum of long-lasting humoral and cellular immune responses. The mechanisms behind inter-individual vaccine-response variability are likely to i  ...[more]

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