Differential functional coupling in Gp130-JAK complexes expands the plasticity of the interleukin-6 signaling axis

Abstract

ABSTRACTCytokines dimerize/oligomerize surface receptors to activate signaling. While cytokine receptors preferentially bind only one member of the JAK family, ancestral cytokine receptors, such as Gp130, promiscuously recruit different JAKs to elicit their activities. Here, we have explored how the identity of JAKs in Gp130 signaling complexes can regulate functional outcomes. Using a synthetic biology approach, we show that Gp130 bound to different JAKs propagates distinct STAT activation profiles. While Gp130-JAK1 complexes activated both, STAT1 and STAT3 very potently, Gp130-JAK2 complexes exhibited a clear preference for STAT3 activation. Gp130-TYK2 complexes triggered overall weaker signaling but with diminished STAT specificity. The three JAKs competed for binding to Gp130 and led to differential activation of phospho-Tyr in the Gp130 intracellular domain. JAK1, JAK2 and to a lower extent TYK2 bound with comparable affinities to Gp130, and in response to IL-6 stimulation efficiently drove Gp130 dimerization. However, the three JAKs differentially affected Gp130 surface expression, identifying JAK-dependent receptor trafficking as a critical determinant of signaling plasticity. Our results provide new mechanistic insights into how differential functional coupling in Gp130-JAK complexes translates into unique signaling signatures that likely contribute to its large functional diversity.