Issue 21, 2014

Incorporation of 57Fe-isotopically enriched in apoferritin: formation and characterization of isotopically enriched Fe nanoparticles for metabolic studies

Abstract

The use of 57Fe-isotopically enriched ferritin for the accurate measurement of Fe : ferritin ratios is proposed for metabolic studies. Thus, the synthesis of 57Fe-isotopically enriched ferritin from horse apo-ferritin and isotopically enriched (NH4)257Fe(II)(SO4)2 (Mohr's salt) is conducted. Size exclusion chromatography on-line with UV-VIS absorption (at 380 nm) is used in order to monitor the loading process of apo-ferritin. These studies revealed that the Fe-incorporation process involves also the formation of protein aggregates (oligomers) showing higher molecular mass than ferritin. A final optimized protocol involving incubation of the synthesized standard with guanidine hydrochloride (pH 3.5) has provided the best conditions for maintaining a stable protein structure without aggregates. Such 57Fe-isotopically enriched ferritin was characterized and contained an average of 2200 atoms of Fe per mole of ferritin. The evaluation of the Fe-core after saturation with 57Fe by Transmission Electron Microscopy (TEM) has revealed the formation of 57Fe nanoparticles with a similar diameter to that of the commercial Fe-containing ferritin, confirming the process of Fe uptake, oxidation and mineralization within the protein cavity. The synthesized 57Fe-ferritin shows great potential as a nanometabolic tracer to study the kinetics of Fe release in the cases of iron metabolic disorders.

Graphical abstract: Incorporation of 57Fe-isotopically enriched in apoferritin: formation and characterization of isotopically enriched Fe nanoparticles for metabolic studies

Supplementary files

Article information

Article type
Paper
Submitted
02 Jul 2014
Accepted
04 Aug 2014
First published
04 Aug 2014

Analyst, 2014,139, 5451-5459

Author version available

Incorporation of 57Fe-isotopically enriched in apoferritin: formation and characterization of isotopically enriched Fe nanoparticles for metabolic studies

T. Konz, M. Montes-Bayón and A. Sanz-Medel, Analyst, 2014, 139, 5451 DOI: 10.1039/C4AN01187B

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