Kishor B. Raja scite author profile

The ability of intestinal mucosa to absorb dietary ferric iron is attributed to the presence of a brush-border membrane reductase activity that displays adaptive responses to iron status. We have isolated a complementary DNA, Dcytb (for duodenal cytochrome b), which encoded a putative plasma membrane di-heme protein in mouse duodenal mucosa. Dcytb shared between 45 and 50% similarity to the cytochrome b561 family of plasma membrane reductases, was highly expressed in the brush-border membrane of duodenal enterocytes, and induced ferric reductase activity when expressed in Xenopus oocytes and cultured cells. Duodenal expression levels of Dcytb messenger RNA and protein were regulated by changes in physiological modulators of iron absorption. Thus, Dcytb provides an important element in the iron absorption pathway.

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Investigation of a role for reduction in ferric iron uptake by mouse duodenum

Raja

Simpson

Peters

1992

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

116

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Identification of a Steap3 endosomal targeting motif essential for normal iron metabolism

Lambe

Simpson

Dawson

et al. 2009

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Rate of ⁵⁹Fe Uptake into Brain and Cerebrospinal Fluid and the Influence Thereon of Antibodies Against the Transferrin Receptor

Ueda

Raja

Simpson

et al. 1993

Journal of Neurochemistry

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Uptake of 59Fe from blood into brains of anaesthetized rats and mice has been studied by intravenous infusion of [59Fe]ferrous ascorbate or of 59Fe-transferrin, the results not being significantly different. Uptakes in the rat were linear with time, but increased at longer times in the mouse. Transfer constants, K(in) (in ml/g/h x 10(3)), for cerebral hemispheres were 5.2 in the adult rat and 5.6 in the mouse. These K(in) values corresponded to 59Fe influxes of 145 and 322 pmol/g/h, respectively. 59Fe uptake into the mouse brain occurred in the following order: cerebellum > brainstem > frontal cerebral cortex > parietal cortex > occipital cortex > hippocampus > caudate nucleus. In genetically hypotransferrinaemic mice, 59Fe uptake into brain was 80-95 times greater than in To strain mice. Pretreatment of young rats and mice with monoclonal antibodies to transferrin receptors, i.e., the anti-rat immunoglobulin G OX 26 and the anti-mouse immunoglobulin M RI7 208, inhibited 59Fe uptake into spleen by 94% and 98%, respectively, indicating saturation of receptors. The antibodies reduced 59Fe uptake into rat brain by 35-60% and that into mouse brain by 65-85%. Although a major portion of iron transport across the blood-brain barrier is normally transferrin-mediated, non-transferrin-bound iron readily crosses it at low serum transferrin levels.

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Kishor B. Raja

An Iron-Regulated Ferric Reductase Associated with the Absorption of Dietary Iron

Investigation of a role for reduction in ferric iron uptake by mouse duodenum

Identification of a Steap3 endosomal targeting motif essential for normal iron metabolism

Rate of ⁵⁹Fe Uptake into Brain and Cerebrospinal Fluid and the Influence Thereon of Antibodies Against the Transferrin Receptor

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Kishor B. Raja

An Iron-Regulated Ferric Reductase Associated with the Absorption of Dietary Iron

Investigation of a role for reduction in ferric iron uptake by mouse duodenum

Identification of a Steap3 endosomal targeting motif essential for normal iron metabolism

Rate of 59Fe Uptake into Brain and Cerebrospinal Fluid and the Influence Thereon of Antibodies Against the Transferrin Receptor

Contact Info

Product

Resources

About

Rate of ⁵⁹Fe Uptake into Brain and Cerebrospinal Fluid and the Influence Thereon of Antibodies Against the Transferrin Receptor