Increased iron level is detected in rat kidney and human urine in diabetic condition and implicated in associated nephropathy. However, the biological cue and mechanism of the iron accumulation remain unclear. Here we reveal that glucose increases iron uptake by promoting transferrin receptor 1 (TFRC) in kidney cells by a translational mechanism but does not alter expression of endosomal iron transporter DMT1. Glucose decreases iron exporter ferroportin (FPN) by a protein degradation mechanism. Hepcidin is known to bind at Cys-326 residue in promoting degradation of human ferroportin. When Cys-326 was mutated to Ser in human-FPN-FLAG and expressed in kidney cells, glucose still could degrade FPN-FLAG implicating involvement of hepcidin independent mechanism in glucose induced ferroportin degradation. Chronic hyperglycemia was generated in rats by administering streptozotocin (STZ) with periodic insulin injection to determine the level of iron homeostasis components. Increased TFRC and decreased ferroportin levels were detected in hyperglycemic rat kidney by Western blot and immunohistochemistry analyses. Hepcidin mRNA was not significantly altered in kidney but was marginally decreased in liver. Perls' staining and non-heme iron estimation showed an elevated iron level in hyperglycemic rat kidney. These results suggest that high glucose dysregulates iron transport components resulting iron accumulation in diabetic kidney.
Keywords: Ferroportin; Gene regulation; Glucose; Iron accumulation; Kidney; Transferrin receptor.
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