Aquaporins Mediate Silicon Transport in Humans.

Alexandre P Garneau,Paul Isenring,Jonathan J Powell,François Côté,Andrée-Anne Marcoux,Charles F Simard,Wilfried Rémus-Borel,Micheline Noël,Gabriel A Carpentier,Mariève Jacob-Wagner,Luc Caron,Rachelle Frenette-Cotton,Richard Bélanger,Hernâni Gerós

doi:10.1371/journal.pone.0136149

Alexandre P Garneau, Paul Isenring + Show 12 more

Open Access

https://doi.org/10.1371/journal.pone.0136149

Copy DOI

Abstract

In animals, silicon is an abundant and differentially distributed trace element that is believed to play important biological functions. One would thus expect silicon concentrations in body fluids to be regulated by silicon transporters at the surface of many cell types. Curiously, however, and even though they exist in plants and algae, no such transporters have been identified to date in vertebrates. Here, we show for the first time that the human aquaglyceroporins, i.e., AQP3, AQP7, AQP9 and AQP10 can act as silicon transporters in both Xenopus laevis oocytes and HEK-293 cells. In particular, heterologously expressed AQP7, AQP9 and AQP10 are all able to induce robust, saturable, phloretin-sensitive silicon transport activity in the range that was observed for low silicon rice 1 (lsi1), a silicon transporter in plant. Furthermore, we show that the aquaglyceroporins appear as relevant silicon permeation pathways in both mice and humans based on 1) the kinetics of substrate transport, 2) their presence in tissues where silicon is presumed to play key roles and 3) their transcriptional responses to changes in dietary silicon. Taken together, our data provide new evidence that silicon is a potentially important biological element in animals and that its body distribution is regulated. They should open up original areas of investigations aimed at deciphering the true physiological role of silicon in vertebrates.

Highlights

Silicon (Si) is the richest element of the Earth's soil and crust after oxygen, and the most abundant trace element in human after iron and zinc [1,2]
Si influx in AQP7, AQP9- and AQP10-expressing oocytes is quantitatively similar to that in lsi1-expressing oocytes
T1/2(Si uptake) for AQP9, AQP10 and AQP7 were 1, 60 and 300 min, respectively, as would be expected for a substrate that is transported across the oocyte membrane by facilitated diffusion

Summary

Introduction

Silicon (Si) is the richest element of the Earth's soil and crust after oxygen, and the most abundant trace element in human after iron and zinc [1,2]. H4SiO4 is the main Si species in human (see chemical formula in Fig 1) [3,4,5,6,7,8,9]. In blood, it is largely unbound except for a small pool that forms complexes with Al or Fe at circumneutral pH and its concentration is between 10 and 50 μM [3,4,5,9]. H4SiO4 is largely bound to glycosaminoglycans and is abundant in aorta, trachea, tendon, bone and skin [6,7,8,9].

Objectives

Methods

Results

Conclusion