A region-specific murine intestinal monolayer platform for assessing iron form-dependent transepithelial transport

Iron absorption in the small intestine has classically been described by the duodenal DMT1/FPN1 pathway for inorganic non-heme iron, yet emerging evidence suggests that chemically distinct iron forms may use region-specific routes. Nicotianamine (NA), a plant-derived metal chelator, can form NA-iron (NA-Fe) complexes and has been proposed to support intestinal iron absorption through amino acid transporter pathways. However, direct comparisons of transepithelial transfer of inorganic iron and NA-Fe across defined small intestinal regions under controlled epithelial conditions remain limited. Here, we established region-specific 2D epithelial monolayers derived from duodenal and proximal jejunal crypt organoids from male ICR mice cultured on Transwell inserts. Transcriptomic profiling indicated partial retention of regional identity, and barrier integrity was confirmed by junctional marker localization, transepithelial electrical resistance, and low paracellular permeability. We then examined expression and polarized localization of candidate transporters for inorganic iron (Dmt1/Fpn1) and NA-Fe (Pat1/Lat2). Finally, we quantified transepithelial transport using apical loading of isotope-labeled iron (55Fe) or NA-55Fe and measured radioactivity appearing in the basolateral compartment as the primary readout of transepithelial flux. Basolateral appearance of inorganic 55Fe was comparable between duodenum- and proximal jejunum-derived monolayers, whereas NA-55Fe exhibited significantly greater basolateral appearance in proximal jejunum-derived monolayers. These findings demonstrate that organoid derived, region-specific monolayers provide a tractable epithelial platform to evaluate iron form-dependent, region-specific transepithelial transfer and to enable further mechanistic dissection of NA-Fe transport. NEW & NOTEWORTHYNon-heme iron absorption may depend on iron chemical form and intestinal region, but direct epithelial comparisons are scarce. We established duodenum and proximal jejunum derived murine intestinal organoid monolayers on Transwells and quantified transepithelial flux using isotope-labeled iron. Inorganic 55Fe showed no clear regional difference, whereas NA-55Fe displayed greater basolateral appearance in proximal jejunum-derived monolayers. This platform enables mechanistic studies of NA-iron complex transport.