Binding properties of insulin-like growth factor binding protein-3 (IGFBP-3), IGFBP-3 N- and C-terminal fragments, and structurally related proteins mac25 and connective tissue growth factor measured using a biosensor.

We measured the binding of IGF-I and IGF-II to recombinant human N-terminal [residues 1-97; recombinant human IGF-binding protein-3(1-97) (rhIGFBP-3(1-97))] and C-terminal (residues 98-264; rhIGFBP-3(98-264)) IGFBP-3 fragments and compared it with IGF binding to intact IGFBP-3 using biosensor analysis. Experiments were carried out in different configurations, either with binding protein or fragment immobilized or with IGF immobilized. These experiments showed that IGF-I and IGF-II bind to IGFBP-3 with affinities of 4-5 x 10(9) M(-1) and similar binding kinetics.

Timing-dependent modulation of insulin mitogenic versus metabolic signalling.

This chapter will not deal sensu stricto with the mechanisms and biological significance of pulsatile hormone secretion, the general theme of this book. Rather, we will attempt to demonstrate that timing events at the receiving end of the hormonal signal, i.e.

Timing-dependence of insulin-receptor mitogenic versus metabolic signalling: a plausible model based on coincidence of hormone and effector binding.

Mitogenic signalling through the insulin receptor is enhanced compared with metabolic signalling for insulin analogues having slower dissociation kinetics than insulin itself. A plausible explanation in molecular terms of this timing-dependent specificity is lacking. We show here that if signalling is transmitted through a single effector, binding coincidentally with hormone to the insulin receptor and whose association and dissociation kinetics are slow relative to the hormone dissociation rate, the resulting biological effect is predicted to be dependent on hormone-binding kinetics.

Stimulation of insulin release by repaglinide and glibenclamide involves both common and distinct processes.

The action of repaglinide, a novel insulin secretagogue, was compared with the sulfonylurea glibenclamide with regard to the hypoglycemic action in vivo, binding to betaTC-3 cells, insulin secretion from perifused mouse islets, and capacity to stimulate exocytosis by direct interaction with the secretory machinery in single voltage-clamped mouse beta-cells. Two binding sites were identified: a high-affinity repaglinide (KD = 3.6 nmol/l) site having lower affinity for glibenclamide (14.

Logical analysis of timing-dependent receptor signalling specificity: application to the insulin receptor metabolic and mitogenic signalling pathways.

We present a method for logical analysis of signal-transduction networks, focusing on metabolic and mitogenic signalling by the insulin receptor, with specific emphasis on dependence of the signalling properties on the timing of binding events. We discuss a basic model which demonstrates this dependence (hormone binding leads to activation of the receptor which can lead to a commitment to mitogenic signalling), and show how residence time of the hormone on the receptor can determine the specificity of signalling between the alternative metabolic or mitogenic pathways. The method gives conditions for the selection of specific branches in the signalling pathway expressed in terms of inequalities among the characteristic activation or deactivation times of components of that pathway.