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Disruption of a CCR5-like immunoglobulin gene is linked to plague susceptibility in black-footed ferrets

Created on 02 Jul 2026

Abstract

Black-footed ferrets (Mustela nigripes) are highly susceptible to sylvatic plague caused by Yersinia pestis, but the genetic basis of this vulnerability remains poorly understood. Here, comparative immunogenomic analyses across Carnivora species identified a conserved class of immunoglobulin lambda variable (IGLV) genes with unusually long antigen-binding sites (CDRL1) that are common among Caniformia species but absent in Feliformia species. First discovered in the domestic ferret (Mustela putorius furo), these genes encode tyrosine-rich and anionic motifs resembling the chemokine receptor CCR5 and contain experimentally validated sulfotyrosines previously associated with pathogen-interacting interfaces. Evolutionary analyses revealed distinct selective pressures across Caniformia lineages and showed strong purifying selection acting on long-CDRL1 IGLV genes in mustelids and bears. Antibody repertoire sequencing demonstrated that these genes are actively utilized in expressed repertoires and that their usage correlates with evolutionary conservation. Functional analyses of monoclonal antibodies derived from the long-CDRL1 IGLV gene identified an antibody that significantly reduced intracellular Y. pestis survival in macrophages and revealed a positive correlation between anti-plague activity and sulfotyrosine signal. Notably, all analyzed black-footed ferrets carried a frameshifting deletion in the long-CDRL1 IGLV gene resulting in loss of its expression in antibody repertoires. Together, these findings uncover a germline-encoded immunoglobulin feature conserved across dog-like carnivores and suggest a potential link between antibody germline variation and immune responses to plague.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 02 Jul 2026.

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