Growth hormone transgenesis disrupts immune function in muscle of coho salmon (Oncorhynchus kisutch) impacting cross-talk with growth systems

Abstract

ABSTRACTThe suppression of growth during infection should facilitate resource allocation towards effective immune function. Work supporting this hypothesis has been recently reported in teleosts, demonstrating immune-responsive regulation of the insulin-like growth factor (IGF) system - a key endocrine growth pathway that acts downstream of growth hormone (GH). Skeletal muscle is the main target for growth and energetic storage in fish, yet little is known about how growth is regulated in this tissue during an immune response. We addressed this knowledge gap by characterizing muscle immune responses in size-matched coho salmon (Oncorhynchus kisutch) achieving different growth rates. We compared a wild-type strain with two GH transgenic groups achieving either maximal or highly-suppressed growth – an experimental design that separates GH’s direct effects from its influence on growth rate. Fish were sampled 30h post-injection with PBS (control) or mimics of bacterial (peptidoglycan) or viral (Poly:IC) infection. We quantified the mRNA level expression of genes from the GH, GH receptor (GHR), IGF hormone, IGF1 receptor (IGF-1R) and IGF binding protein (IGFBP) families, along with marker genes for muscle growth and host defence genes involved in inflammatory or antiviral responses. We provide strong evidence for dampened immunity in the GH transgenics compared to wild-type animals. Strikingly, the muscle of GH transgenics achieving rapid growth showed no detectable antiviral response, coupled with evidence of a constitutive inflammatory state. GH and IGF system gene expression was also strongly altered by GH transgenesis and fast growth, both for baseline expression levels and responses to immune stimulation. Overall, our findings demonstrate that GH transgenesis disrupts normal immune function and growth-immune cross-talk in muscle, with implications for the health and welfare of farmed salmon.