Elder siblings enhance the effect of filaggrin mutations on childhood eczema: results from the 2 birth cohort studies LISAplus and GINIplus.

Background: Several studies showed a protective effect of elder siblings on eczema development, which is in line with the hygiene hypothesis. However, findings are not consistent, and there might exist different causal pathways for the development of eczema. Especially barrier disturbances as found in children with mutations in the filaggrin gene (FLG) seem to play an important role.

Kir1.1 expression in embryonic kidney epithelia.

K(+) channels may regulate cell cycling, cell volume, and cell proliferation. We have recently shown a role for an inwardly rectifying K(+) channel, Kir6.1/SUR2(B), in the regulation of cell proliferation during early kidney development.

Developmental expression and functional significance of Kir channel subunits in ureteric bud and nephron epithelia.

Kir channel subunit expression during development of the rat collecting-duct epithelium was quantified by RT-PCR of primary monolayer cultures. mRNAs of the vascular-type K(ATP) (K(NDP)) channel-forming subunits Kir6.1/SUR2 were highly expressed in early ureteric bud generations (embryonic day E14) and downregulated thereafter, while Kir1.

Ontogeny of purinergic receptor-regulated Ca2+ signaling in mouse cortical collecting duct epithelium.

Changes in ATP-induced increase in [Ca2+](i) during collecting duct ontogeny were studied in primary monolayer cultures of mouse ureteric bud (UB) and cortical collecting duct (CCD) cells by Fura-PE3 fluorescence ratio imaging. In UB (embryonic day E14 and postnatal day P1) the ATP-stimulated increase (EC(50) approximately 1 microM) in fluorescence ratio (DeltaR(ATP)) was independent of extracellular Ca2+ and insensitive to the P2 purinoceptor-antagonist suramin (1 mM). From day P7 onward when CCD morphogenesis had been completed DeltaR(ATP) increased and became dependent on extracellular Ca2+.

Embryonic epithelial membrane transporters.

Embryonic epithelial membrane transporters are organized into transporter families that are functional in several epithelial organs, namely, in kidney, lung, pancreas, intestine, and salivary gland. Family members (subtypes) are developmentally expressed in plasma membranes in temporospatial patterns that are 1) similar for one subtype within different organs, like aquaporin-1 (AQP1) in lung and kidney; 2) different between subtypes within the same organ, like the amiloride-sensitive epithelial sodium channel (ENaC) in lung; and 3) apparently matched among members of different transporter families, as alpha-ENaC with AQP1 and -4 in lung and with AQP2 in kidney. Finally, comparison of temporal expression patterns in early embryonic development of transporters from different families [e.