Abstract.
The signal regulating proteins (SIRPs) are a family of ubiquitously expressed transmembrane glycoproteins composed of two subgroups: SIRPα and SIRPβ, containing more than ten members. SIRPα has been shown to inhibit signalling through a variety of receptors including receptor tyrosine kinases and cytokine receptors. This function involves protein tyrosine kinases and is dependent on immunoreceptor tyrosine-based inhibition motifs which recruit key protein tyrosine phosphatases to the membrane. Negative regulation by SIRPα may also involve its ligand, CD47, in a bi-directional signalling mechanism. The SIRPβ subtype has no cytoplasmic domain but instead associates with at least one other transmembrane protein (DAP-12, or KARAP). DAP-12 possesses immunoreceptor tyrosine-based activation motifs within its cytoplasmic domain that are thought to link SIRPβ to activating machinery. SIRPα and SIRPβ thus have complementary roles in signal regulation and may conspire to tune the response to a stimulus.
Keywords: Key words. SIRP; SHPS-1; BIT; signal transduction; CD47; KARAP; DAP-12; ITIM; ITAM; inhibitory receptor, receptor tyrosine kinase; SHP-1; SHP-2; tyrosine phosphorylation; SH2 domain; tyrosine kinase; tyrosine phosphatase.
Footnotes
Received 6 July 2000; revised 2 August 2000; accepted 5 August 2000