Lithium perchlorate efficiently catalyzes the three-component condensation reaction of aldehyde, b-keto ester and urea in refluxing acetonitrile to afford the corresponding dihydropyrimidinones in high yields under neutral conditions. LiOTf is also found to be an efficient catalyst for the synthesis of dihydropyrimidinones from aldehyde, b-keto ester and urea.
HFE, the protein that is mutated in hereditary haemochromatosis, binds to the transferrin receptor (TfR). Here we show that wild-type HFE and TfR localize in endosomes and at the basolateral membrane of a polarized duodenal epithelial cell line, whereas the primary haemochromatosis HFE mutant, and another mutant with impaired TfR-binding ability accumulate in the ER/Golgi and at the basolateral membrane, respectively. Levels of the iron-storage protein ferritin are greatly reduced and those of TfR are slightly increased in cells expressing wild-type HFE, but not in cells expressing either mutant. Addition of an endosomal-targeting sequence derived from the human low-density lipoprotein receptor (LDLR) to the TfR-binding-impaired mutant restores its endosomal localization but not ferritin reduction or TfR elevation. Thus, binding to TfR is required for transport of HFE to endosomes and regulation of intracellular iron homeostasis, but not for basolateral surface expression of HFE.
The neonatal Fc receptor (FcRn) transports IgG across epithelial cells and recycles serum IgG. FcRn binds IgG at the acidic pH of endosomes and releases IgG at the basic pH of blood. We expressed rat FcRn in polarized MDCK cells and demonstrated that it functions in transcytosis and recycling of IgG. In the absence of IgG, FcRn is distributed predominantly apically, but redistributes to basolateral locations upon IgG addition, indicating that ligand binding induces a signal that stimulates transcytosis. FcRn transcytoses IgG more ef®ciently in the apical to basolateral than the reverse direction when IgG is internalized by receptor-mediated endocytosis at acidic pH or by¯uid phase endocytosis at basic pH. The PI 3-kinase inhibitor wortmannin disrupts basolateral recycling and transcytosis in both directions, but only minimally reduces apical recycling. Confocal imaging and quantitative IgG transport studies demonstrate that apically-internalized IgG recycles to the apical surface mainly from wortmannin-insensitive apical early endosomes, whereas FcRn±IgG complexes that transcytose to the basolateral surface pass through downstream Rab11-positive apical recycling endosomes and transferrin-positive common endosomal compartments.
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