Venkataraman T, Valencia C, Mangino M, Morgenlander W, Clipman SJ, Liechti T, Valencia A, Christofidou P, Spector T, Roederer M, Duggal P, Larman HB.

*Immunity* · 2022 Jan 11;55(1):174–184.e5 · DOI: [10.1016/j.immuni.2021.12.004](https://doi.org/10.1016/j.immuni.2021.12.004)

 How to cite

### AMA

Venkataraman T, Valencia C, Mangino M, et al. Analysis of antibody binding specificities in twin and SNP-genotyped cohorts reveals that antiviral antibody epitope selection is a heritable trait. *Immunity*. 2022;55(1):174-184.e5. doi:10.1016/j.immuni.2021.12.004

### APA

```
Venkataraman, T., Valencia, C., Mangino, M., Morgenlander, W., Clipman, S. J., Liechti, T., Valencia, A., Christofidou, P., Spector, T., Roederer, M., Duggal, P., & Larman, H. B. (2022). Analysis of antibody binding specificities in twin and SNP-genotyped cohorts reveals that antiviral antibody epitope selection is a heritable trait. *Immunity*, 55(1), 174-184.e5. https://doi.org/10.1016/j.immuni.2021.12.004
```

### BibTeX

```
@article{Venkataraman2022,
 author = {Venkataraman, T. and Valencia, C. and Mangino, M. and Morgenlander, W. and Clipman, S. J. and Liechti, T. and Valencia, A. and Christofidou, P. and Spector, T. and Roederer, M. and Duggal, P. and Larman, H. B.},
 title = {Analysis of antibody binding specificities in twin and SNP-genotyped cohorts reveals that antiviral antibody epitope selection is a heritable trait},
 journal = {Immunity},
 volume = {55},
 number = {1},
 pages = {174--184.e5},
 year = {2022},
 doi = {10.1016/j.immuni.2021.12.004}
}
```

 VirScan PhIP-Seq across 494 TwinsUK participants (162 monozygotic, 332 dizygotic) and 535 SNP-genotyped Vaccine Research Center volunteers shows that antiviral antibody epitope selection — not just whether a person seroconverts — is heritable. The work uses Epstein-Barr virus as the focal model and combines twin-pair structural equation modeling with GWAS to map peptide-resolution antibody phenotypes onto the MHC class I and class II loci.

 [
 Read publication at Immunity
 
 ](https://doi.org/10.1016/j.immuni.2021.12.004)

In this publication:

 - 107 EBV peptide reactivities cleared a heritability threshold of at least 20%, with monozygotic twins sharing immunodominant EBV reactivity profiles much more closely than dizygotic twins.

 - Four C-terminal EBNA-2 peptide reactivities reached genome-wide significance at the HLA class II locus on chromosome 6.

 - A 112-peptide machine-learned EBV serosignature predicted peripheral-blood viral load and mapped to the MHC class I locus.

 - Structural-equation modeling estimated additive genetic contribution at 39%, shared environment at 27%, and unique environment at 34% for EBV reactivity breadth.

Two people exposed to the same virus rarely make the exact same antibodies. They make antibodies of different fine specificity — different precise targets within the same viral protein — and at different breadths. This study asks a basic question that previous work has not directly resolved: *is the choice of which antiviral epitopes get targeted itself a heritable trait?*

To answer it, the authors ran VirScan, a Phage ImmunoPrecipitation Sequencing (PhIP-Seq) assay that displays 106,678 overlapping 56-amino-acid peptides spanning every human virus on bacteriophage. Sera from 494 twins in the TwinsUK cohort (162 monozygotic, 332 dizygotic pairs) and 535 SNP-genotyped Vaccine Research Center participants were profiled. Comparing the antibody reactivity profiles within twin pairs, then performing a genome-wide association study (GWAS) on heritable reactivities, lets them separate genetic from environmental drivers of epitope selection.

Epstein-Barr virus (EBV) was the focal model. EBV is a near-universal infection (about 94% seroprevalence here) and produced the most reactive peptides in the library — an average of 129 reactive peptides per individual. Monozygotic twins shared their immunodominant EBV reactivity profiles much more closely than dizygotic twins did, and 107 EBV peptide reactivities reached a heritability of at least 20%. GWAS then mapped four C-terminal EBNA-2 peptide reactivities to the MHC class II locus on chromosome 6, and a machine-learning serosignature built from 112 peptides predicted EBV viral load in peripheral blood and mapped to the MHC class I locus.

The bottom line: **which antiviral epitopes a person targets is shaped by their inherited HLA repertoire**, not just by exposure history. That has direct implications for vaccine design, for serology-based exposure attribution, and for any program reasoning about why antibody responses to the same antigen vary between people.

 [← Back to all resources](/)

## Related resources

[![](https://cdn.sanity.io/images/vbcbvda6/production/d789ad5a7e0a909e5a212ab947adc6aefa3d99c8-1200x750.webp)White Paper

### Unbiased analysis of antibody responses to all human viruses using Infinity Bio's VirSIGHT library

A peer-reviewed methodology white paper for VirSIGHT, Infinity Bio's unbiased antibody reactome assay covering 500+ huma…

Read more
](/resources/unbiased-analysis-of-antibody-responses-to-all-human-viruses-using-infinity-bios)[![](https://cdn.sanity.io/images/vbcbvda6/production/42d91c8dac09c5fcb1af7609488897b8e4f36e5a-1200x750.webp)Brochure

### VirSIGHT InSIGHTs

VirSIGHT at a glance: antibody reactome profiling across the known human virome (500+ species).

Read more
](/resources/virsight-insights)[![](https://cdn.sanity.io/images/vbcbvda6/production/df6062d9a45026fd7525f846ef6c3f9c3f11fafb-1376x768.webp)Brochure

### Antibody Reactomics: The Responsive Layer of Immune Memory

Where the antibody reactome fits in the multi-omic stack, how MIPSA deciphers it, and what the HuSIGHT, VirSIGHT, and En…

Read more
](/resources/antibody-reactomics-overview)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Viral Immunity in Immunoglobulin Products, Global Immunity Debt and Autoimmunity

Lindahl et al., 2026: viral immunity in IgG products and global immunity debt.

Read more
](/resources/viral-immunity-in-immunoglobulin-products-global-immunity-debt-and-autoimmunity)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Applications of VirScan to broad serological profiling of bat reservoirs for emerging zoonoses

Antibody reactome profiling of bat reservoirs identifies emerging zoonotic potential for biosurveillance.

Read more
](/resources/applications-of-virscan-to-broad-serological-profiling-of-bat-reservoirs-for-eme)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Comprehensive profiling of pre-infection antibodies identifies HIV targets associated with viremic control and viral load

Frontiers Immunol 2023: pre-infection antibody reactome predicts post-infection HIV viral control.

Read more
](/resources/comprehensive-profiling-of-pre-infection-antibodies-identifies-hiv-targets-assoc)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Comprehensive profiling of antibody responses to the human anellome using programmable phage display

Antibody reactome profiling of the human anellome: small DNA viruses persisting in healthy hosts.

Read more
](/resources/comprehensive-profiling-of-antibody-responses-to-the-human-anellome-using-progra)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Greater Breadth of Vaccine-Induced Immunity in Females than Males Is Mediated by Increased Antibody Diversity in Germinal Center B Cells

Females develop broader vaccine-induced antibody repertoires, driven by germinal-center B-cell diversity.

Read more
](/resources/greater-breadth-of-vaccine-induced-immunity-in-females-than-males-is-mediated-by)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Longitudinal analysis reveals high prevalence of Epstein-Barr virus associated with multiple sclerosis

Bjornevik et al., Science 2022: 10M serial serum samples link EBV to multiple sclerosis.

Read more
](/resources/longitudinal-analysis-reveals-high-prevalence-of-epstein-barr-virus-associated-w)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Deconvoluting virome-wide antibody epitope reactivity profiles

Bioinformatic deconvolution of cross-reactive signals in virome-wide antibody reactome data.

Read more
](/resources/deconvoluting-virome-wide-antibody-epitope-reactivity-profiles)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### SARS-CoV-2 antibody signatures robustly predict diverse antiviral functions relevant for convalescent plasma therapy

SARS-CoV-2 antibody signatures predict convalescent plasma antiviral function.

Read more
](/resources/sars-cov-2-antibody-signatures-robustly-predict-diverse-antiviral-functions-rele)[![](https://cdn.sanity.io/images/vbcbvda6/production/bd98a023e7b99b56fcec6d9b14b0ba00a1435f06-1200x750.webp)Publication

### Antibody responses to endemic coronaviruses modulate COVID-19 convalescent plasma functionality

Pre-existing endemic coronavirus antibodies modulate COVID-19 convalescent plasma antiviral activity.

Read more
](/resources/antibody-responses-to-endemic-coronaviruses-modulate-covid-19-convalescent-plasm) Get in Touch [Contact Us](https://www.infinitybio.com/contact/)