posted on 2017-10-31, 12:20authored byAnn Katrin Sauer, Stefanie Pfaender, Simone Hagmeyer, Laura Tarana, Ann-Kathrin Mattes, Franziska Briel, Sébastien Küry, Tobias M. Boeckers, Andreas M. Grabrucker
Zn is essential for growth and development. The bioavailability of Zn is affected by several
factors such as other food components. It is therefore
of interest, to understand uptake mechanisms of Zn
delivering compounds to identify ways to bypass the
inhibitory effects of these factors. Here, we studied the
effect of Zn amino acid conjugates (ZnAAs) on the
bioavailabilty of Zn. We used Caco-2 cells and
enterocytes differentiated from human induced
pluripotent stem cells from a control and Acroder-
matitis enteropathica (AE) patient, and performed fluorescence based assays, protein biochemistry and
atomic absorption spectrometry to characterize cellular uptake and absorption of ZnAAs. The results show
that ZnAAs are taken up by AA transporters, leading
to an intracellular enrichment of Zn mostly uninhibited by Zn uptake antagonists. Enterocytes from AE
patients were unable to gain significant Zn through
exposure to ZnCl2 but did not show differences with
respect to ZnAAs. We conclude that ZnAAs may
possess an advantage over classical Zn supplements
such as Zn salts, as they may be able to increase
bioavailability of Zn, and may be more efficient in
patients with AE.