Derek J. Hanson scite author profile

BackgroundHuman herpesvirus-6A and -6B (HHV-6) are betaherpesviruses that reach > 90% seroprevalence in the adult population. Unique among human herpesviruses, HHV-6 can integrate into the subtelomeric regions of human chromosomes; when this occurs in germ line cells it causes a condition called inherited chromosomally integrated HHV-6 (iciHHV-6). Only two complete genomes are available for replicating HHV-6B, leading to numerous conflicting annotations and little known about the global genomic diversity of this ubiquitous virus.ResultsUsing a custom capture panel for HHV-6B, we report complete genomes from 61 isolates of HHV-6B from active infections (20 from Japan, 35 from New York state, and 6 from Uganda), and 64 strains of iciHHV-6B (mostly from North America). HHV-6B sequence clustered by geography and illustrated extensive recombination. Multiple iciHHV-6B sequences from unrelated individuals across the United States were found to be completely identical, consistent with a founder effect. Several iciHHV-6B strains clustered with strains from recent active pediatric infection. Combining our genomic analysis with the first RNA-Seq and shotgun proteomics studies of HHV-6B, we completely reannotated the HHV-6B genome, altering annotations for more than 10% of existing genes, with multiple instances of novel splicing and genes that hitherto had gone unannotated.ConclusionOur results are consistent with a model of intermittent de novo integration of HHV-6B into host germline cells during active infection with a large contribution of founder effect in iciHHV-6B. Our data provide a significant advance in the genomic annotation of HHV-6B, which will contribute to the detection, diversity, and control of this virus.Electronic supplementary materialThe online version of this article (10.1186/s12864-018-4604-2) contains supplementary material, which is available to authorized users.

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Advances in the Characterization of the T-Cell Response to Human Herpesvirus-6

Hanson

Hill

Koelle

2018

Front. Immunol.

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Human herpesvirus (HHV) 6 is thought to remain clinically latent in most individuals after primary infection and to reactivate to cause disease in persons with severe immunosuppression. In allogeneic hematopoietic stem cell transplant recipients, reactivation of HHV-6 species B is a considerable cause of morbidity and mortality. HHV-6B reactivation is the most frequent cause of infectious meningoencephalitis in this setting and has been associated with a variety of other complications such as graft rejection and acute graft versus host disease. This has inspired efforts to develop HHV-6-targeted immunotherapies. Basic knowledge of HHV-6-specific adaptive immunity is crucial for these endeavors, but remains incomplete. Many studies have focused on specific HHV-6 antigens extrapolated from research on human cytomegalovirus, a genetically related betaherpesvirus. Challenges to the study of HHV-6-specific T-cell immunity include the very low frequency of HHV-6-specific memory T cells in chronically infected humans, the large genome size of HHV-6, and the lack of an animal model. This review will focus on emerging techniques and methodological improvements that are beginning to overcome these barriers. Population-prevalent antigens are now becoming clear for the CD4+ T-cell response, while definition and ranking of CD8+ T-cell antigens and epitopes is at an earlier stage. This review will discuss current knowledge of the T-cell response to HHV-6, new research approaches, and translation to clinical practice.

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Genome-Wide Approach to the CD4 T-Cell Response to Human Herpesvirus 6B

Hanson

Цветкова

Rerolle

et al. 2019

J Virol

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Human herpesvirus 6 (HHV-6) and cytomegalovirus (CMV) are populationprevalent betaherpesviruses with intermittent lytic replication that can be pathogenic in immunocompromised hosts. Elucidation of the adaptive immune response is valuable for understanding pathogenesis and designing novel treatments. Knowledge of T-cell antigens has reached the genome-wide level for CMV and other human herpesviruses, but study of HHV-6 is at an earlier stage. Using rare-cell enrichment combined with an HLA-agnostic, proteome-wide approach, we queried HHV-6B-specific CD4 T cells from 18 healthy donors with each known HHV-6B protein. We detected a low abundance of HHV-6-specific CD4 T cells in blood; however, the within-person CD4 T-cell response is quite broad: the median number of open reading frame (ORF) products recognized was nine per person. Overall, the data expand the number of documented HHV-6B CD4 T-cell antigens from approximately 11 to 60. Epitopes in the proteins encoded by U14, U90, and U95 were mapped with synthetic peptides, and HLA restriction was defined for some responses. Intriguingly, CD4 T-cell antigens newly described in this report are among the most population prevalent, including U73, U72, U95, and U30. Our results indicate that selection of HHV-6B ORFs for immunotherapy should consider this expanded panel of HHV-6B antigens. RESULTS Peripheral blood of healthy donors contains HHV-6B-specific CD4 T cells that can be enriched in vitro.The initial cohort of 53 healthy donors was 34% male, and the median age at the time of blood draw was 40 years (range, 21 to 68 years). To ascertain the frequency of HHV-6B-specific CD4 T cells in peripheral blood, peripheral blood mononuclear cells (PBMCs) were assayed by an interleukin-2 (IL-2)/interferon gamma (IFN-␥) intracellular cytokine cytometry (ICC) assay (Fig. 1A). Donors had virus-specific cell populations that were of low abundance but clearly discernible in most subjects. Responses were typically less than 0.1% of total CD4 T cells, with an overall median of 0.048% (Fig. 1B).Given the low abundance of HHV-6-reactive CD4 T cells in PBMCs, we enriched these cells from 42 donors prior to interrogation of the HHV-6B protein library. These donors were chosen based on PBMC availability and a detectable response to HHV-6B ex vivo.

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Derek J. Hanson

Comparative genomic, transcriptomic, and proteomic reannotation of human herpesvirus 6

Advances in the Characterization of the T-Cell Response to Human Herpesvirus-6

Genome-Wide Approach to the CD4 T-Cell Response to Human Herpesvirus 6B

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