Bacterial chemoreceptors of different length classes signal independently

Bacterial chemoreceptors sense environmental stimuli and govern cell movement by transmitting the information to the flagellar motors. The highly conserved cytoplasmic domain of chemoreceptors consists in an alpha‐helical hairpin that forms in the homodimer a coiled‐coil four‐helix bundle. Several classes of chemoreceptors that differ in the length of the coiled‐coil structure were characterized. Many bacterial species code for chemoreceptors that belong to different classes, but how these receptors are organized and function in the same cell remains an open question. E. coli cells normally code for single class chemoreceptors that form extended arrays based on trimers of dimers interconnected by the coupling protein CheW and the kinase CheA. This structure promotes effective coupling between the different receptors in the modulation of the kinase activity. In this work, we engineered functional derivatives of the Tsr chemoreceptor of E. coli that mimic receptors whose cytoplasmic domain is longer by two heptads. We found that these long Tsr receptors did not efficiently mix with the native receptors and appeared to function independently. Our results suggest that the assembly of membrane‐bound receptors of different specificities into mixed clusters is dictated by the length‐class to which the receptors belong, ensuring cooperative function only between receptors of the same class.     

Fluoro-clomiphene and its synthetic precursors: synthesis and receptor binding

In an attempt to synthesize compounds with selective estrogen-receptor binding, fluoro- and amino-clomiphene were totally synthesized from benzyl chloride, and their estrogenic/antiestrogenic activity as well as that of some of their chemical intermediates was evaluated. The triazene prepared from the amino-clomiphene was converted into fluoro-clomiphene with 39% yield. In the uterotropic test, both amino- and fluoro-clomiphene exerted mild equipotent estrogenic activity, with minimal saturation doses being 50 and 100 micrograms/rat/day for three days. In the receptor binding test both derivatives demonstrated similar displacement, with an A50% value in the 10(-5) M range, as compared to 10(-6) M for clomiphene and 10(-9) M for diethyl-stilbestrol. This synthesis may be useful for the preparation of 18F-labeled clomiphene for biodistribution studies.     

Tyrphostins inhibit the epidermal growth factor receptor-mediated breakdown of phosphoinositides

In response to epidermal growth factor (EGF) and the Ca2+ ionophore A23187, the total phosphatidylinositides (IPT) increased in A431 human epidermoid carcinoma cells 1.8- and 2.0-fold and in the EGF-dependent A431/Clone 15-2 cells 3.0- and 8.0-fold, respectively, over basal levels. Both responses were inhibited by the antiproliferative agents tyrphostins, but the EGF-induced increase in IPT was inhibited to a much greater extent than that induced by the ionophore. Tyrphostins which are potent EGF-receptor kinase inhibitors were also potent in blocking the EGF-induced production of phosphoinositides. The less potent tyrphostins were found to inhibit the EGF-dependent IPT formation more weakly. These results support the notion that phospholipase C is activated through its phosphorylation by the EGF receptor.