Tomas Ganz

Current iron overload therapeutics have inherent drawbacks including perpetuated low hepcidin. Here, we unveiled that lactate, a potent hepcidin agonist, effectively reduced serum and hepatic iron levels in mouse models of iron overload with an improved erythropoiesis in β-thalassemic mice.

Iron's primary role in mammalian biology is to bind oxygen in hemoglobin and myoglobin and to catalyze the enzymatic transfer of electrons by iron‐dependent enzymes, including cytochromes, peroxidases, ribonucleotide reductases, and catalases. All known disorders of iron metabolism can be considered abnormalities of iron balance. On the cellular and molecular levels, hepcidin inhibits the efflux of cellular iron into extracellular fluid or plasma, exerting its effect on the major cell types involved in iron transport: enterocytes, macrophages, hepatocytes, and placental syncytiotrophoblast. The hypoferremic effect of hepcidin is due to its ability to inhibit the major mechanisms that deliver iron to plasma: intestinal iron absorption and the release of iron from recycling compartments and stores in the spleen and the liver. Iron homeostasis requires the coordinated regulation of iron …

Hyperlactatemia and anemia commonly coexist and their crosstalk is a longstanding mystery with elusive mechanisms involved in physical activities, infections, cancers, and genetic disorders. For instance, hyperlactatemia leads to iron restriction by upregulating hepatic hepcidin expression. Increasing evidence also points to lactate as a crucial signaling molecule rather than merely a metabolic byproduct. Here, we discuss the mutual influence between anemia and hyperlactatemia. This opinion calls for a reconsideration of the multifaceted roles of lactate and lactylation in anemia and emphasizes the need to fill knowledge gaps, including the dose dependence of lactate's effects, its sources, and its subcellular localization.

Anemia of chronic disease is the second most common form of anemia and is seen in the setting of chronic infections, inflammatory disorders including rheumatological conditions and inflammatory bowel diseases, certain malignancies, and chronic kidney diseases. Hypoferremia, a decrease in serum iron concentration, is the defining feature of anemia of inflammation. Serum ferritin concentrations, reflecting inflammation and iron stores, are increased in anemia of inflammation and decreased in iron deficiency. Bone marrow aspiration or biopsy is now rarely necessary for the diagnosis of anemia of inflammation. Hypoferremia of inflammation is mediated by inflammatory cytokines, including prominently interleukin (IL)‐6, which increase rapidly in the first few hours of infection and induce the synthesis of the iron‐regulatory hormone hepcidin. Decreased iron absorption usually does not contribute much to …

Aims Among persons with prevalent heart failure (HF), iron deficiency has been linked to HF admissions, and intravenous iron replacement improves HF outcomes. Recent studies in persons with chronic kidney disease (CKD) demonstrate that iron deficiency is associated with incident HF. This study aimed to determine the relationship of iron status with incident HF in community‐dwelling older adults irrespective of their kidney function. Methods In this case‐cohort study, 1,006 Cardiovascular Health Study participants (785 from the random sub‐cohort [including 193 HF cases] and 221 additional HF cases [N = 414 total HF cases]) aged ≥ 65 years without HF (41% with CKD), we used weighted Cox models to evaluate associations of iron status with incident HF. Participants were categorized based on quartiles of transferrin saturation and ferritin as “iron replete” (27.3%), “functional iron deficiency” (7.7%), “iron …

Abstract As a functional component of erythrocyte hemoglobin, iron is essential for oxygen delivery to all tissues in the body. The liver-derived peptide hepcidin is the master regulator of iron homeostasis. During anemia, the erythroid hormone erythroferrone regulates hepcidin synthesis to ensure the adequate supply of iron to the bone marrow for red blood cell production. However, mounting evidence suggested that another factor may exert a similar function. We identified the hepatokine fibrinogen-like 1 (FGL1) as a previously undescribed suppressor of hepcidin that is induced in the liver in response to hypoxia during the recovery from anemia, and in thalassemic mice. We demonstrated that FGL1 is a potent suppressor of hepcidin in vitro and in vivo. Deletion of Fgl1 in mice results in higher hepcidin levels at baseline and after bleeding. FGL1 exerts its activity by directly binding to bone morphogenetic …

BackgroundMurine data suggest that the placenta downregulates ferroportin (FPN) when iron is limited to prioritize iron for its own needs. Human data on the impact of maternal and neonatal iron status on placental FPN expression are conflicting.ObjectivesThis study aimed to identify determinants of placental FPN protein abundance and to assess the utility of the placental iron deficiency index (PIDI) as a measure of maternal/fetal iron status in newborns at high risk for anemia.MethodsPlacental FPN protein abundance was measured by western blots in placentae collected from 133 neonates born to adolescents (17.4 ± 1.1 y) carrying singletons (delivery gestational age [GA]: 39.9 ± 1.3 wk) and from 130 neonates born to 65 females (30.4 ± 5.2 y) carrying multiples (delivery GA: 35.0 ± 2.8 wk). Placental FPN and the PIDI (FPN:transferrin receptor 1) were evaluated in relation to neonatal and maternal iron-related …

Primum non nocere! Can iron deficiency, an abnormality that causes anemia, benefit people with sickle cell disease (SCD) who already have an anemia? The published literature we review appears to answer this question in the affirmative: basic science considerations, animal model experiments, and noncontrolled clinical observations all suggest a therapeutic potential of iron restriction in SCD. This is because SCD's clinical manifestations are ultimately attributable to the polymerization of hemoglobin S (HbS), a process strongly influenced by intracellular HbS concentration. Even small decrements in HbS concentration greatly reduce polymerization, and iron deficiency lowers erythrocyte hemoglobin concentration. Thus, iron deficiency could improve SCD by changing its clinical features to those of a more benign anemia (i.e., a condition with fewer or no vaso‐occlusive events). We propose that well‐designed …

Iron is an essential nutrient for microbes, plants and animals. Multicellular organisms have evolved multiple strategies to control invading microbes by restricting microbial access to iron. Hypoferremia of inflammation is a rapidly-acting organismal response that prevents the formation of iron species that would be readily accessible to microbes. This review takes an evolutionary perspective to explore the mechanisms and host defense function of hypoferremia of inflammation and its clinical implications.

Background:Iron deficiency is common in children with kidney failure, but current guidelines are based on biomarkers of iron stores that may be influenced by inflammation. This is the first study that examined which serum iron indices were associated with stainable marrow iron stores (the gold standard) in this population with kidney failure who underwent bone biopsies.Methods:This cross-sectional study enrolled 71 clinically stable children and young adults receiving dialysis who underwent bone biopsy for chronic kidney disease-mineral bone disorder between 2007 through 2011. Bone biopsies were stained with Perls’ Prussian blue and independently interpreted by a pathologist blinded to participants’ iron parameters and clinical status. Marrow staining was scored absent vs. present to facilitate receiver operator curve (ROC) analysis. In ROC analysis, the ability of serum ferritin to detect stainable marrow iron …

Obstructive sleep apnea (OSA) causes intermittent hypoxia during sleep. Hypoxia predictably initiates an increase in the blood hemoglobin concentration (Hb); yet in our analysis of 527 patients with OSA, >98% did not have an elevated Hb. To understand why patients with OSA do not develop secondary erythrocytosis due to intermittent hypoxia, we first hypothesized that erythrocytosis occurs in these patients, but is masked by a concomitant increase in plasma volume. However, we excluded that explanation by finding that the red cell mass was normal (measured by radionuclide labeling of erythrocytes and carbon monoxide inhalation). We next studied 45 patients with OSA before and after applying continuous positive airway pressure (CPAP). We found accelerated erythropoiesis in these patients (increased erythropoietin and reticulocytosis), but it was offset by neocytolysis (lysis of erythrocytes newly generated …

Erythroferrone (ERFE), an erythrokine that helps mobilize iron for developing erythrocytes, acts by decreasing the production of hepcidin, through sequestration of bone morphogenetic proteins (BMPs) that bind to BMP receptors to activate hepcidin transcription. We used Alphafold2 (AF2) to model the conformation of human erythroferrone monomers and various multimers, with or without interactions with BMPs, with emphasis on the principal ligand, the BMP2/6 heterodimer. We then tested the models by targeted mutations to disrupt key interactions suggested by the models, and assessed the effect of the mutations on bioactivity and BMP binding. ERFE is a member of the C1q/TNFa family of proteins known for containing N-terminal unstructured regions and C-terminal TNFa-like globular heads that promote the formation of a spectrum of biologically significant multimers. After cleavage by a prohormone convertase …

Ferroportin (Fpn)—expressed at the plasma membrane of macrophages, enterocytes, and hepatocytes—mediates the transfer of cellular iron into the blood plasma. Under the control of the iron-regulatory hormone hepcidin, Fpn serves a critical role in systemic iron homeostasis. Although we have previously characterized human Fpn, a great deal of research in iron homeostasis and disorders uses mouse models. By way of example, the flatiron mouse, a model of classical ferroportin disease, bears the mutation H32R in Fpn and is characterized by systemic iron deficiency and macrophage iron retention. The flatiron mouse also appears to exhibit a manganese phenotype, raising the possibility that mouse Fpn serves a role in manganese metabolism. At odds with this observation, we have found that human Fpn does not transport manganese, so we considered the possibility that a species difference could explain …

Background: Iron deficiency is common in children with end-stage kidney disease (ESKD) but diagnosing iron deficiency in ESKD is challenging as serum indicators of iron stores may be influenced by inflammation and other factors. We examined which of the clinically used serum iron indices were predictive of bone marrow iron stores (the gold standard) in dialysis-dependent children and young adults with ESKD, in the setting of increased nutritional requirements and co-existing inflammation.Methods: This cross-sectional study enrolled 71 clinically-stable children and young adults (age range 2 to 28 years) receiving dialysis, who underwent bone biopsy for CKD-mineral bone disorders between 2007 through 2011. Congenital anomalies of the kidney and urinary tract (CAKUT) and hereditary diseases (63.3%) were the main causes of renal failure, followed by primary glomerulonephritis (36.7%). Bone samples …

β-thalassemia is characterized by chronic hepcidin suppression and iron overload, even in patients who have not undergone transfusion. The HbbTh3/+ (Th3/+) mouse model of nontransfusion–dependent β-thalassemia (NTDBT) partially recapitulates the human phenotype but lacks chronic hepcidin suppression, progressive iron accumulation into adulthood, or the interindividual variation of the rate of iron loading observed in patients. Erythroferrone (ERFE) is an erythroid regulator that suppresses hepcidin during increased erythropoiesis. ERFE concentrations in the sera of patients with NTDBT correlate negatively with hepcidin levels but vary over a broad range, possibly explaining the variability of iron overload in patients. To analyze the effect of high ERFE concentrations on hepcidin and iron overload in NTDBT, we crossed Th3/+ mice with erythroid ERFE–overexpressing transgenic mice. Th3/ERFE …

Iron is essential for maternal and fetal health but the molecular mechanisms ensuring increased iron availability during pregnancy are not well understood. Hepcidin is the key iron-regulatory hormone and functions by blocking iron absorption, recycling and mobilization from stores, effectively decreasing plasma iron levels. In healthy human and rodent pregnancies, maternal hepcidin decreases starting in the second trimester and is nearly undetectable by late pregnancy. This decrease in hepcidin allows for greater iron availability for transfer to the fetus. If hepcidin is not appropriately suppressed during pregnancy, it results in fetal anemia, intrauterine growth restriction, and even fetal demise in severe cases 1.Unrelated to pregnancy, hormones estrogen and prolactin have been previously implicated in hepcidin regulation 2,3, although with conflicting results on the direction of hepcidin change 4-6. The levels of …

JAK 2-V617F mutation causes myeloproliferative neoplasms (MPNs) that can manifest as polycythemia vera (PV), essential thrombocythemia (ET), or primary myelofibrosis. At diagnosis, patients with PV already exhibited iron deficiency, whereas patients with ET had normal iron stores. We examined the influence of iron availability on MPN phenotype in mice expressing JAK2-V617F and in mice expressing JAK2 with an N542-E543del mutation in exon 12 (E12). At baseline, on a control diet, all JAK2-mutant mouse models with a PV-like phenotype displayed iron deficiency, although E12 mice maintained more iron for augmented erythropoiesis than JAK2-V617F mutant mice. In contrast, JAK2-V617F mutant mice with an ET-like phenotype had normal iron stores comparable with that of wild-type (WT) mice. On a low-iron diet, JAK2-mutant mice and WT controls increased platelet production at the …

Iron delivery to the plasma is closely coupled to erythropoiesis, the production of red blood cells, as this process consumes most of the circulating plasma iron. In response to hemorrhage and other erythropoietic stresses, increased erythropoietin stimulates the production of the hormone erythroferrone (ERFE) by erythrocyte precursors (erythroblasts) developing in erythropoietic tissues. ERFE acts on the liver to inhibit bone morphogenetic protein (BMP) signaling and thereby decrease hepcidin production. Decreased circulating hepcidin concentrations then allow the release of iron from stores and increase iron absorption from the diet. Guided by evolutionary analysis and Alphafold2 protein complex modeling, we used targeted ERFE mutations, deletions, and synthetic ERFE segments together with cell-based bioassays and surface plasmon resonance to probe the structural features required for bioactivity and …

BackgroundThe iron regulatory hormones erythroferrone (ERFE), erythropoietin (EPO), and hepcidin, and the cargo receptor nuclear receptor coactivator 4 (NCOA4) are expressed in the placenta. However, determinants of placental expression of these proteins and their associations with maternal or neonatal iron status are unknown.ObjectivesTo characterize expression of placental ERFE, EPO, and NCOA4 mRNA in placentae from newborns at increased risk of iron deficiency and to evaluate these in relation to maternal and neonatal iron status and regulatory hormones.MethodsPlacentae were collected from 114 neonates born to adolescents carrying singletons (14–18 y) and 110 neonates born to 54 adults (20–46 y) carrying multiples. Placental EPO, ERFE, and NCOA4 mRNA expression were measured by RT-qPCR and compared with maternal and neonatal iron status indicators (SF, sTfR, total body iron …

Von Hippel–Lindau protein (VHL) is essential to hypoxic regulation of cellular processes. VHL promotes proteolytic clearance of hypoxia‐inducible transcription factors (HIFs) that have been modified by oxygen‐dependent HIF‐prolyl hydroxylases. A homozygous loss‐of‐function VHLR200W mutation causes Chuvash erythrocytosis, a congenital disorder caused by augmented hypoxia‐sensing. Homozygous VHLR200W results in accumulation of HIFs that increase transcription of the erythropoietin gene and raise hematocrit. Phlebotomies reduce hematocrit and hyperviscosity symptoms. However, the major cause of morbidity and mortality in Chuvash erythrocytosis is thrombosis. Phlebotomies cause iron deficiency, which may further elevate HIF activity and transferrin, the HIF‐regulated plasma iron transporter recently implicated in thrombogenesis. We hypothesized that transferrin is elevated in Chuvash …