Sockeye salmon retain immunoglobulin-secreting plasma cells throughout their spawning journey and post-spawning

Antibody-producing plasma cells are a major source of protective immunity in vertebrates, including salmon. During the spawning phase, salmon undergo drastic, hormonally driven changes in their physiology, including elevated levels of cortisol, which are known to suppress the immune system. As adult fish need to survive their long journey to the spawning grounds, we hypothesized that humoral immunity, in the form of IgM-secreting plasma cells, remains functional until post-spawning. This was investigated by measuring changes in membrane and secreted immunoglobulin heavy chain mu and Pax5 transcripts in spleen and kidney from migrating sockeye salmon, using real-time qPCR. As an additional measurement, the abundance of developing B, mature B, and plasma cells was determined in spawning fish, using flow cytometry. Immune tissue samples were collected from fish from the Kenai River drainage and Main Bay, Prince William Sound. Our results reveal that spawning fish express high levels of secreted heavy chain mu transcripts in their spleen and anterior kidney throughout the spawning journey. Furthermore, we show that IgM-secreting PCs (HCmu++/Pax5−) remain abundant in anterior kidney and spleen of post-spawning sockeye salmon, with a concomitant loss in developing B cells (HCmu−/Pax5+). This suggests that successful spawners retain their PCs throughout the spawning journey and post-spawning.

► Spawning sockeye salmon express high levels of secreted heavy chain mu transcripts in their spleen and anterior kidney. ► IgM-secreting plasma cells remain abundant in anterior kidney and spleen of post-spawning sockeye salmon. ► HCmu−/Pax5+ developing B cells are lost during spawning.