Abstract
The Janus kinases (JAKs) are non-receptor tyrosine kinases essential for signaling in response to cytokines and interferons and thereby control many essential functions in growth, development, and immune regulation. JAKs are unique among tyrosine kinases for their constitutive yet non-covalent association with class I and II cytokine receptors, which upon cytokine binding bring together two JAKs to create an active signaling complex. JAK association with cytokine receptors is facilitated by N-terminal FERM and SH2 domains, both of which are classical mediators of peptide interactions. Together, the JAK FERM and SH2 domains mediate a bipartite interaction with two distinct receptor peptide motifs, the proline-rich “Box1” and hydrophobic “Box2,” which are present in the intracellular domain of cytokine receptors. While the general sidechain chemistry of Box1 and Box2 peptides is conserved between receptors, they share very weak primary sequence homology, making it impossible to posit why certain JAKs preferentially interact with and signal through specific subsets of cytokine receptors. Here, we review the structure and function of the JAK FERM and SH2 domains in light of several recent studies that reveal their atomic structure and elucidate interaction mechanisms with both the Box1 and Box2 receptor motifs. These crystal structures demonstrate how evolution has repurposed the JAK FERM and SH2 domains into a receptor-binding module that facilitates interactions with multiple receptors possessing diverse primary sequences.
Highlights
Cytokines are a large family of secreted proteins with wide-ranging effects on cell growth, hematopoiesis, immunity, and inflammation [1, 2]
In addition to structures of the FERM–SH2 modules and the mechanism of interaction with the receptors described in this review, structural models for the pseudokinase–kinase modules from TYK2 and JAK2 have been revealed, providing an explanation for the mechanism of negative regulation by the pseudokinase as well as mutations linked to myeloproliferative diseases present in the pseudokinase domain (psKD) [35, 36]
The structure of the JAK2 kinase domain bound to its negative regulator SOCS3 has provided details on the regulation of the Janus kinases (JAKs)–STAT pathway [59]
Summary
Cytokines are a large family of secreted proteins with wide-ranging effects on cell growth, hematopoiesis, immunity, and inflammation [1, 2]. In canonical SH2 domains, two loops flanking the SH2-αB helix form a hydrophobic groove that is the binding site for specificity determining residues at positions +3 and +5 relative to the pTyr [50]. This structure revealed the Box2 of IFNAR1 bound in an extended conformation to a composite interface on the surface of the TYK2 FERM–SH2, with the bulk of the peptide interacting with the SH2 domain (Figure 3A).
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