B-cell Repertoire Responses to Varicella-zoster Vaccination in Human Identical Twins

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2014 Dec 24

PMID 25535378

Citations 55

Authors

Chen Wang

Yi Liu

Mary M Cavanagh

Sabine Le Saux

Qian Qi

Krishna M Roskin

Timothy J Looney

Ji-Yeun Lee

Vaishali Dixit

Cornelia L Dekker

Gary E Swan

Jorg J Goronzy

Scott D Boyd

Affiliations

Soon will be listed here.

Abstract

Adaptive immune responses in humans rely on somatic genetic rearrangements of Ig and T-cell receptor loci to generate diverse antigen receptors. It is unclear to what extent an individual's genetic background affects the characteristics of the antibody repertoire used in responding to vaccination or infection. We studied the B-cell repertoires and clonal expansions in response to attenuated varicella-zoster vaccination in four pairs of adult identical twins and found that the global antibody repertoires of twin pair members showed high similarity in antibody heavy chain V, D, and J gene segment use, and in the length and features of the complementarity-determining region 3, a major determinant of antigen binding. These twin similarities were most pronounced in the IgM-expressing B-cell pools, but were seen to a lesser extent in IgG-expressing B cells. In addition, the degree of antibody somatic mutation accumulated in the B-cell repertoire was highly correlated within twin pair members. Twin pair members had greater numbers of shared convergent antibody sequences, including mutated sequences, suggesting similarity among memory B-cell clonal lineages. Despite these similarities in the memory repertoire, the B-cell clones used in acute responses to ZOSTAVAX vaccination were largely unique to each individual. Taken together, these results suggest that the overall B-cell repertoire is significantly shaped by the underlying germ-line genome, but that stochastic or individual-specific effects dominate the selection of clones in response to an acute antigenic stimulus.

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