An Ancient Immune Puzzle: How Primitive Fish Rewrote the Rules of Antigen Presentation
A new genomic study of holostean fish—gars and bowfins—has uncovered a surprising evolutionary novelty in their immune systems. Researchers focused on PSMB8, a core component of the immunoproteasome responsible for chopping up intracellular proteins into peptides for presentation by MHC class I molecules. They identified two unique PSMB8 variants, termed S-type and K-type, which are not found in other vertebrates. These variants likely alter the biochemical properties of the enzyme’s binding pocket, potentially leading to the generation and presentation of a novel repertoire of antigenic peptides. The analysis reveals that bowfins and gars independently evolved the S-type within separate genetic lineages, while the K-type is an exclusive innovation found only in gars.
Why it might matter to you: This research provides a unique window into the molecular evolution of vertebrate immunity, specifically the machinery for antigen processing. For microbiologists and immunologists focused on host-pathogen interactions, understanding how this fundamental system can diverge offers insights into the plasticity of immune recognition. It suggests that the rules governing peptide presentation are not fixed, which could inform research into antigenic variation in pathogens and the development of broader-spectrum immunological tools.
Source →Stay curious. Stay informed — with Science Briefing.
Always double check the original article for accuracy.