Accumulation and release of iron in polarly and non-polarly cultured trophoblast cells isolated from human term placentas.

We investigated the usefulness of membrane grown human term trophoblast cells in transferrin-mediated iron transfer studies. We showed that diferric transferrin is taken up both at the microvillous and at the basal membrane by means of receptor-mediated endocytosis. Uptake from the microvillous side is predominant.

Iron uptake in blood-brain barrier endothelial cells cultured in iron-depleted and iron-enriched media.

Iron is essential in the cellular metabolism of all mammalian tissues, including the brain. Intracerebral iron concentrations vary with age and in several (neurological) diseases. Although it is evident that endothelial cells lining the capillaries in the brain are of importance, factors governing the regulation of intracerebral iron concentration are unknown.

New developments and applications in quantitative electron spectroscopic imaging of iron in human liver biopsies.

Reliable iron concentration data can be obtained by quantitative analyses of image sequences, acquired by electron spectroscopic imaging. A number of requirements are formulated for the successful application of this recently developed in situ quantitative type of analysis. A demonstration of the procedures is given.

Transcytosis of 6.6-nm gold-labeled transferrin: an ultrastructural study in cultured porcine blood-brain barrier endothelial cells.

The mechanism and regulation of iron transport to the brain are largely unknown. The large surface area of the blood-brain barrier capillaries and the presence of transferrin receptors on the luminal plasma membranes of the blood-brain barrier endothelial cells (BBB-ECs) suggest that these cells actively participate in the transport of iron into the brain. In this paper, we describe the ultrastructural morphology of primary and first-passage cultures of BBB-ECs grown on different types of porous membranes.

Isolation and partial characterization of two porcine spleen ferritin fractions with different electrophoretic mobility.

Ferritin isolated from porcine spleen could routinely be separated in two fractions on nondenaturating gradient gels. Both fractions could be isolated with a purity of 96% when applied to two serially linked columns, each 200 cm in length, packed respectively with Sepharose 4B and Sepharose 6B. Both fractions were similar as judged by electron microscopy.