BACKGROUND: Liver synthesizes hepcidin in response to iron overload, leading to down-regulation of duodenal iron absorption. The pathophysiology of type 2 diabetes is associated with increased iron stores. We aimed to study circulating prohepcidin in association with insulin sensitivity and parameters of glucose and iron metabolism. METHODS: Serum prohepcidin was evaluated in three cohorts: 1) a cross-sectional study (cohort 1, men from the general population; n = 135); 2) after decreasing iron stores in men with "high-ferritin" type 2 diabetes (cohort 2; n = 13); and 3) after decreasing iron stores in men carrying HFE gene mutations (cohort 3; n = 16). Insulin sensitivity was measured using either the minimal model or the clamp technique. RESULTS: Circulating prohepcidin correlated significantly with glycated hemoglobin (P < 0.0001), fasting glucose (P = 0.002), triglycerides (P = 0.007), high-density lipoprotein-cholesterol (P = 0.01), ferritin (P = 0.01), and soluble transferrin receptor concentration (P = 0.001) in subjects from cohort 1. Prohepcidin decreased significantly after iron depletion in patients with type 2 diabetes (P = 0.04) (cohort 2) and in carriers of HFE gene mutations (P = 0.03) (cohort 3). In the latter subjects, the change in serum prohepcidin after iron depletion was associated with the change in both fasting glucose transferrin (r = 0.58; P = 0.02) and saturation (r = 0.68; P = 0.005). The changes in insulin sensitivity were associated with those of liver iron content (r = -0.64; P = 0.007) and with those of serum prohepcidin (r = -0.50; P = 0.04) (cohort 3). CONCLUSIONS: These associations suggest that circulating prohepcidin concentration is pathophysiologically associated with parameters of glucose and iron metabolism. A failure to increase prohepcidin synthesis is hypothesized to contribute to iron-induced disorders of glucose metabolism.
BACKGROUND: Liver synthesizes hepcidin in response to iron overload, leading to down-regulation of duodenal iron absorption. The pathophysiology of type 2 diabetes is associated with increased iron stores. We aimed to study circulating prohepcidin in association with insulin sensitivity and parameters of glucose and iron metabolism. METHODS: Serum prohepcidin was evaluated in three cohorts: 1) a cross-sectional study (cohort 1, men from the general population; n = 135); 2) after decreasing iron stores in men with "high-ferritin" type 2 diabetes (cohort 2; n = 13); and 3) after decreasing iron stores in men carrying HFE gene mutations (cohort 3; n = 16). Insulin sensitivity was measured using either the minimal model or the clamp technique. RESULTS: Circulating prohepcidin correlated significantly with glycated hemoglobin (P < 0.0001), fasting glucose (P = 0.002), triglycerides (P = 0.007), high-density lipoprotein-cholesterol (P = 0.01), ferritin (P = 0.01), and soluble transferrin receptor concentration (P = 0.001) in subjects from cohort 1. Prohepcidin decreased significantly after iron depletion in patients with type 2 diabetes (P = 0.04) (cohort 2) and in carriers of HFE gene mutations (P = 0.03) (cohort 3). In the latter subjects, the change in serum prohepcidin after iron depletion was associated with the change in both fasting glucosetransferrin (r = 0.58; P = 0.02) and saturation (r = 0.68; P = 0.005). The changes in insulin sensitivity were associated with those of liver iron content (r = -0.64; P = 0.007) and with those of serum prohepcidin (r = -0.50; P = 0.04) (cohort 3). CONCLUSIONS: These associations suggest that circulating prohepcidin concentration is pathophysiologically associated with parameters of glucose and iron metabolism. A failure to increase prohepcidin synthesis is hypothesized to contribute to iron-induced disorders of glucose metabolism.
Authors: B Hossein Rashidi; S Shams; M Shariat; H Kazemi Jaliseh; M Mohebi; F Haghollahi Journal: J Endocrinol Invest Date: 2017-03-08 Impact factor: 4.256