Authors
Akbari, V., Morgan, A., Yasuda, M., Schlecht, U., McNamara, S., Asgharian, H., Tam, C., Adachi, R., Contreras, E., Du, Z. G., Siemann, S., Zhao, H., Balasubramanian, J. A., Balallo, D., Sanghvi, D., Shankar, T., Dutta, S., Riedel, S., Mattson, S., Burukhin, D., Rubelt, F., Utiramerur, S., Kumar, D., Mirebrahim, H., Arnaout, R.
Abstract
T and Bcells are central to adaptive immunity, where they identify and neutralize foreign antigens and cancer neo-antigens. Large-scale elucidation of T- and B-cell receptors (TCRs and BCRs) through immune-repertoire sequencing promises novel diagnostics, prognostic markers, and therapeutic strategies. However, progress is hampered by small cohort sizes, a lack of real-world patient diversity, and heterogeneous sample processing, impeding cross-study comparability. To overcome these limitations, here we introduce the Human Blood Immunome Encyclopedia (HuBIE), comprising immune-repertoire data from 2,614 samples collected from 1,941 participants. The cohort includes a range of bloodstream infections, several cancer types, and control participants, with many individuals providing longitudinal samples. We employed Roche immune receptor Primer Extension Target Enrichment (immunoPETE) platform to perform simultaneous targeted sequencing of T-cell receptor{beta} chains (TRB), T-cell receptor{delta} chains (TRD), and immunoglobulin heavy chains (IGH), thereby profiling TCRs and BCRs in all participants. We provide a comprehensive description of immune-repertoire diversity in cancer and bloodstream infections and examine variations across demographic variables such as age and race. We find significant differences in TRB and IGH composition across ethnic groups, and show that the fall in repertoire diversity with age follows distinct patterns for TRB, TRD, and IGH and is accompanied by age-related differences in VJ gene usage. Finally we demonstrate that greater immunological diversity is associated with improved survival but only for elderly participants. HuBIE thus constitutes a valuable resource for the immune-repertoire community, enabling large-scale mapping of the human immunome to accelerate development of diagnostics, prognostic biomarkers, and innovative therapeutic strategies.
Preprint server:
bioRxiv
The authors list and abstract were imported from bioRxiv on 24 Oct 2025.
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