Iron deficiency is an enduring global health problem that requires new remedial approaches. Iron absorption from soybean-derived ferritin, an ∼550-kDa iron storage protein, is comparable to bioavailable ferrous sulfate (FeSO4). However, the absorption of ferritin is reported to involve an endocytic mechanism, independent of divalent metal ion transporter 1 (DMT-1), the transporter for nonheme iron.
Objective
Our overall aim was to examine the potential of purified ferritin from peas (Pisum sativum) as a food supplement by measuring its stability under gastric pH treatment and the mechanisms of iron uptake into Caco-2 cells.
Methods
Caco-2 cells were treated with native or gastric pH–treated pea ferritin in combination with dietary modulators of nonheme iron uptake, small interfering RNA targeting DMT-1, or chemical inhibitors of endocytosis. Cellular ferritin formation, a surrogate measure of iron uptake, and internalization of pea ferritin with the use of specific antibodies were measured. The production of reactive oxygen species (ROS) in response to equimolar concentrations of native pea ferritin and FeSO4 was also compared.
Results
Pea ferritin exposed to gastric pH treatment was degraded, and the released iron was transported into Caco-2 cells by DMT-1. Inhibitors of DMT-1 and nonheme iron absorption reduced iron uptake by 26–40%. Conversely, in the absence of gastric pH treatment, the iron uptake of native pea ferritin was unaffected by inhibitors of nonheme iron absorption, and the protein was observed to be internalized in Caco-2 cells. Chlorpromazine (clathrin-mediated endocytosis inhibitor) reduced the native pea ferritin content within cells by ∼30%, which confirmed that the native pea ferritin was transported into cells via a clathrin-mediated endocytic pathway. In addition, 60% less ROS production resulted from native pea ferritin in comparison to FeSO4.
Conclusions
With consideration that nonheme dietary inhibitors display no effect on iron uptake and the low oxidative potential relative to FeSO4, intact pea ferritin appears to be a promising iron supplement.
Key Words
pea ferritin
phytoferritin
DMT-1
iron absorption
bioavailability
endocytosis
Abbreviations used
AA
ascorbic acid
BPDS
bathophenanthroline disulfide
CPZ
chlorpromazine hydrochloride
DMT-1
divalent metal ion transporter 1
FAC
ferric ammonium citrate
ROS
reactive oxygen species
siRNA
small interfering RNA
SLC11A2
solute carrier family 11 member 2
Cited by (0)
AP and IR-R contributed equally to this work.
Supported by HarvestPlus (project code R22850), Biotechnology and Biological Sciences Research Council–Diet and Health Research Industry Club 2 grants (BB/L025396/1 and BB/L025515/1), and a University of East Anglia (UEA) International Studentship (2013–2016).
