INTRODUCTION: Interleukin (IL)-1 is a key orchestrator of inflammation and IL-1 inhibitors are expected to be promising pharmaceutical agents for such pathologies. IL-1 is bound to the complex of two receptor components with much higher affinity than with either receptor component alone. MATERIALS AND METHODS: We examined the effect of a heterodimer of IL-1 receptor accessory protein (Acp)-immunoglobulin (Ig) and IL-1R type II (IL1R2)-Ig named AcP-Ig/IL1R2-Ig heterodimer, and compared its effects with other IL-1 inhibitors reported previously. RESULTS AND DISCUSSION: Our results demonstrated that the rat AcP-Ig/IL1R2-Ig heterodimer (IC50=1.95 pM) inhibited IL-1 response to a greater extent than IL1RA (IC50=1,935 pM), Acp-IL1R type I (IL1R1)-Ig homodimer (IC50=73.7 pM) and Acp-IL1R2-Ig homodimer (IC50=72.8 pM). Moreover, human AcP-Ig/IL1R2-Ig heterodimer (IC50=0.14 pM) inhibited it to a greater extent than Acp-IL1R1-Ig homodimer (IC50=4.48 pM) and strongly inhibited responses of both IL-1α and IL-1β. CONCLUSIONS: The AcP-Ig/IL1R2-Ig heterodimer, which is similar to the original extracellular structure of the Acp/IL1R1 complex, may inhibit the IL-1 response more vigorously than other IL-1 blocking biopharmaceutical agents.
INTRODUCTION: Interleukin (IL)-1 is a key orchestrator of inflammation and IL-1 inhibitors are expected to be promising pharmaceutical agents for such pathologies. IL-1 is bound to the complex of two receptor components with much higher affinity than with either receptor component alone. MATERIALS AND METHODS: We examined the effect of a heterodimer of IL-1 receptor accessory protein (Acp)-immunoglobulin (Ig) and IL-1R type II (IL1R2)-Ig named AcP-Ig/IL1R2-Ig heterodimer, and compared its effects with other IL-1 inhibitors reported previously. RESULTS AND DISCUSSION: Our results demonstrated that the ratAcP-Ig/IL1R2-Ig heterodimer (IC50=1.95 pM) inhibited IL-1 response to a greater extent than IL1RA (IC50=1,935 pM), Acp-IL1R type I (IL1R1)-Ig homodimer (IC50=73.7 pM) and Acp-IL1R2-Ig homodimer (IC50=72.8 pM). Moreover, humanAcP-Ig/IL1R2-Ig heterodimer (IC50=0.14 pM) inhibited it to a greater extent than Acp-IL1R1-Ig homodimer (IC50=4.48 pM) and strongly inhibited responses of both IL-1α and IL-1β. CONCLUSIONS: The AcP-Ig/IL1R2-Ig heterodimer, which is similar to the original extracellular structure of the Acp/IL1R1 complex, may inhibit the IL-1 response more vigorously than other IL-1 blocking biopharmaceutical agents.
Authors: Dirk E Smith; Roberta Hanna; Heather Moore; Hongbo Chen; Ann M Farese; Thomas J MacVittie; G Duke Virca; John E Sims Journal: Immunity Date: 2003-01 Impact factor: 31.745