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3. Effect of Deferoxamine on Post-Transfusion Iron, Inflammation, and In Vitro Microbial Growth in a Canine Hemorrhagic Shock Model: A Randomized Controlled Blinded Pilot Study.

Author

Claus, Melissa A., Smart, Lisa, Raisis, Anthea L., Sharp, Claire R., Abraham, Sam, Gummer, Joel P. A., Mead, Martin K., Bradley, Damian L., Van Swelm, Rachel, Wiegerinck, Erwin T. G., and Litton, Edward

Subjects
HEMORRHAGIC shock, MICROBIAL growth, DEFEROXAMINE, ERYTHROCYTES, ESCHERICHIA coli, ERYTHROCYTE deformability, IRON
Abstract

Simple Summary: Blood transfusions can be lifesaving but can also harm patients by causing inflammation and increasing the risk of infection. Harm may occur from increasing the amount of unbound iron in circulation. When it is not bound to special carriers, iron is toxic, causing inflammation and supporting bacterial growth. This study aimed to determine if giving deferoxamine, a drug designed to bind iron, just after a transfusion would prevent the increase in unbound iron and inflammation that occurs in dogs following blood transfusions. All dogs in the study had increased unbound iron levels and markers of inflammation after receiving a transfusion. However, when unbound iron levels and markers of inflammation were compared between dogs that received deferoxamine and dogs that received a placebo, there were no differences detected. Furthermore, deferoxamine did not slow the growth of bacteria within blood samples taken from dogs during the study compared to placebo. In conclusion, the dose of deferoxamine used in this study did not prevent inflammation in the transfused dogs nor did it inhibit bacterial growth in blood samples from these dogs. Red blood cell (RBC) transfusion is associated with recipient inflammation and infection, which may be triggered by excessive circulating iron. Iron chelation following transfusion may reduce these risks. The aim of this study was to evaluate the effect of deferoxamine on circulating iron and inflammation biomarkers over time and in vitro growth of Escherichia coli (E. coli) following RBC transfusion in dogs with atraumatic hemorrhage. Anesthetized dogs were subject to atraumatic hemorrhage and transfusion of RBCs, then randomized to receive either deferoxamine or saline placebo of equivalent volume (n = 10 per group) in a blinded fashion. Blood was sampled before hemorrhage and then 2, 4, and 6 h later. Following hemorrhage and RBC transfusion, free iron increased in all dogs over time (both p < 0.001). Inflammation biomarkers interleukin-6 (IL6), CXC motif chemokine-8 (CXCL8), interleukin-10 (IL10), and keratinocyte-derived chemokine (KC) increased in all dogs over time (all p < 0.001). Logarithmic growth of E. coli clones within blood collected 6 h post-transfusion was not different between groups. Only total iron-binding capacity was different between groups over time, being significantly increased in the deferoxamine group at 2 and 4 h post-transfusion (both p < 0.001). In summary, while free iron and inflammation biomarkers increased post-RBC transfusion, deferoxamine administration did not impact circulating free iron, inflammation biomarkers, or in vitro growth of E. coli when compared with placebo. [ABSTRACT FROM AUTHOR]

Published
2023
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4. Toxic iron species in lower-risk myelodysplastic syndrome patients : course of disease and effects on outcome

Author

Hoeks, Marlijn, Bagguley, Tim, van Marrewijk, Corine, Smith, Alex, Bowen, David, Culligan, Dominic, Kolade, Seye, Symeonidis, Argiris, Garelius, Hege, Spanoudakis, Michail, Langemeijer, Saskia, Roelofs, Rian, Wiegerinck, Erwin, Tatic, Aurelia, Killick, Sally, Panagiotidis, Panagiotis, Stanca, Oana, Hellström-Lindberg, Eva, Cermak, Jaroslav, van der Klauw, Melanie, Wouters, Hanneke, van Kraaij, Marian, Blijlevens, Nicole, Swinkels, Dorine W., de Witte, Theo, Stauder, R., Walder, A., Pfeilstöcker, M., Schoenmetzler-Makrai, A., Burgstaller, S., Thaler, J., Mandac Rogulj, I., Krejci, M., Voglova, J., Rohon, P., Jonasova, A., Cermak, J., Mikulenkova, D., Hochova, I., Jensen, P. D., Holm, M. S., Kjeldsen, L., Dufva, I. H., Vestergaard, H., Re, D., Slama, B., Fenaux, P., Choufi, B., Cheze, S., Klepping, D., Salles, B., de Renzis, B., Willems, L., De Prost, D., Gutnecht, J., Courby, S., Siguret, V., Tertian, G., Pascal, L., Chaury, M., Wattel, E., Guerci, A., Legros, L., Itzykson, R., Ades, L., Isnard, F., Sanhes, L., Benramdane, R., Stamatoullas, A., Amé, S., Beyne-Rauzy, O., Gyan, E., Platzbecker, U., Badrakan, C., Germing, U., Lübbert, M., Schlenk, R., Kotsianidis, I., Tsatalas, C., Pappa, V., Galanopoulos, A., Michali, E., Panagiotidis, P., Viniou, N., Katsigiannis, A., Roussou, P., Terpos, E., Kostourou, A., Kartasis, Z., Pouli, A., Palla, K., Briasoulis, V., Hatzimichael, E., Vassilopoulos, G., Symeonidis, A., Kourakli, A., Zikos, P., Anagnostopoulos, A., Kotsopoulou, M., Megalakaki, K., Protopapa, M., Vlachaki, E., Konstantinidou, P., Stemer, G., Nemetz, A., Gotwin, U., Cohen, O., Koren, M., Levy, E., Greenbaum, U., Gino-Moor, S., Price, M., Ofran, Y., Winder, A., Goldshmidt, N., Elias, S., Sabag, R., Hellman, I., Ellis, M., Braester, A., Rosenbaum, H., Berdichevsky, S., Itzhaki, G., Wolaj, O., Yeganeh, S., Katz, O., Filanovsky, K., Dali, N., Mittelman, M., Malcovati, L., Fianchi, L., vd Loosdrecht, A., Matthijssen, V., Herbers, A., Pruijt, H., Aboosy, N., de Vries, F., Velders, G., Jacobs, E., Langemeijer, S., MacKenzie, M., Lensen, C., Kuijper, P., Madry, K., Camara, M., Almeida, A., Vulkan, G., Stanca Ciocan, O., Tatic, A., Savic, A., Pedro, C., Xicoy, B., Leiva, P., Munoz, J., Betes, V., Benavente, C., Lozano, M., Martinez, M., Iniesta, P., Bernal, T., Diez Campelo, M., Tormo, D., Andreu Lapiedra, R., Sanz, G., Hesse Sundin, E., Garelius, H., Karlsson, C., Antunovic, P., Jönsson, A., Brandefors, L., Nilsson, L., Kozlowski, P., Hellstrom-Lindberg, E., Grövdal, M., Larsson, K., Wallvik, J., Lorenz, F., Ejerblad, E., Culligan, D., Craddock, C., Kolade, S., Cahalin, P., Killick, S., Ackroyd, S., Wong, C., Warren, A., Drummond, M., Hall, C., Rothwell, K., Green, S., Ali, S., Bowen, D., Karakantza, M., Dennis, M., Jones, G., Parker, J., Bowen, A., Radia, R., Das-Gupta, E., Vyas, P., Nga, E., Creagh, D., Ashcroft, J., Mills, J., Bond, L., Life Course Epidemiology (LCE), and VU University medical center

Subjects
Adult, Male, 0301 basic medicine, Cancer Research, medicine.medical_specialty, Iron Overload, Iron, Cancer development and immune defence Radboud Institute for Molecular Life Sciences [Radboudumc 2], Vascular damage Radboud Institute for Health Sciences [Radboudumc 16], Ferroportin, Lower risk, Gastroenterology, Article, Cancer development and immune defence Radboud Institute for Health Sciences [Radboudumc 2], 03 medical and health sciences, 0302 clinical medicine, Hepcidin, Internal medicine, Humans, Medicine, Blood Transfusion, Prospective Studies, Aged, Soluble transferrin receptor, biology, business.industry, Transferrin saturation, Hematology, Middle Aged, Erythroferrone, Prognosis, 3. Good health, Survival Rate, Ferritin, Renal disorders Radboud Institute for Molecular Life Sciences [Radboudumc 11], 030104 developmental biology, Oncology, Myelodysplastic Syndromes, 030220 oncology & carcinogenesis, biology.protein, Erythropoiesis, Female, business, Myelodysplastic syndrome, Follow-Up Studies, Rare cancers Radboud Institute for Health Sciences [Radboudumc 9]
Abstract

Red blood cell transfusions (RBCT) remain the cornerstone of supportive care in lower-risk myelodysplastic syndrome (LRMDS) [1]. Transfusion dependency in LRMDS patients is associated with inferior outcomes, mainly attributed to severe bone marrow failure [2]. However, iron toxicity, due to frequent RBCT or ineffective erythropoiesis, may be an additional negative prognostic factor [3,4,5,6]. Recently, much progress has been made in unraveling the iron metabolism. The peptide hormone hepcidin is the key regulator by inhibiting iron uptake through degradation of ferroportin, a cellular iron exporter [7]. Erythroferrone and GDF15, produced by erythroblasts, inhibit hepcidin production, which leads to increased uptake and cellular release of iron for the purpose of erythropoiesis [8]. The pathophysiology of iron metabolism in MDS is still not completely understood. Exceedingly high reactive oxygen species (ROS) levels are associated with iron toxicity, disease development, and progression in MDS patients [9,10,11,12]. Malondialdehyde (MDA), resulting from lipid peroxidation of polyunsaturated fatty acids, is a biomarker of oxidative stress [10, 12]. Currently, little is known about the prognostic impact of ROS in MDS patients. The aim of this study is twofold: (1) describe iron and oxidative stress parameters over time in LRMDS patients and (2) to assess their effect on overall and progression-free survival. The EUMDS registry prospectively collects observational data on newly diagnosed LRMDS patients from 148 centers in 16 countries in Europe and Israel as of January 2008. All patients provided informed consent. Clinical data were collected at baseline and at each six-monthly follow-up visit. Serum samples were collected prospectively at each visit from 256 patients included in six participating countries. Conventional iron parameters were measured with routine assays. We additionally analyzed hepcidin, growth differentiation factor 15 (GDF15), soluble transferrin receptor (sTfR), non-transferrin bound iron (NTBI), labile plasma iron (LPI), and MDA. Subjects were prospectively followed until death, loss to follow-up, or withdrawal of consent. All iron parameters were measured centrally at the department of Laboratory Medicine of the Radboudumc, Nijmegen, The Netherlands. Serum samples were collected just prior to transfusion in transfusion-dependent patients and stored at −80 °C. Details on the assays and reference ranges of hepcidin, GDF15, sTfR, NTBI, LPI, and MDA are provided in the supplement. The Spearman rank test was used to evaluate correlations between iron parameters. We stratified the results by transfusion dependency per visit and the presence of ring sideroblasts. When evaluating temporal changes in iron parameters, with linear quantile mixed models, we excluded patients from the timepoint they received iron chelation therapy. Overall survival (OS) was defined as the time from MDS diagnosis to death or, in case of progression-free survival, to date of progression or death; patients still alive at the end of follow-up were censored. Time-dependent Kaplan–Meier curves and cox proportional hazards models were used. In total, 256 consecutive patients, were included in this study. Over five six-monthly visits, 1040 samples were collected. Table 1 describes the patient characteristics. Most patients without ring sideroblasts were transfusion-independent at diagnosis (nonRS-TI; 55.9%), 18.8% with ring sideroblasts were transfusion-independent (RS-TI), 18.4% without ring sideroblasts were transfusion-dependent (nonRS-TD), and 7% with ring sideroblasts were transfusion-dependent patients (RS-TD). The median follow-up time was 6.6 years (95% CI 5.9–7.0). LPI was positively correlated with transferrin saturation (TSAT) (r = 0.15, p < 0.001, Fig. S1). LPI values increased exponentially at TSAT values above 80%. This effect was most pronounced in the transfusion-dependent groups, but also observed in the RS-TI group. MDA was weakly correlated with NTBI (r = 0.09, p = 0.069) and negatively correlated with hemoglobin level (r = −0.1, p = 0.033). GDF15 and hepcidin were negatively correlated in the RS-TI and nonRS-TD group and significantly negatively correlated in the RS-TD group (r = −0.34, p = 0.007, Fig. S2). Serum ferritin levels were elevated in all subgroups with a mean value of 858 µg/L at visit 5. The highest serum ferritin levels were observed in the RS-TD group (mean value at visit 5: 2092 µg/L, Table S1). Serum ferritin increased significantly per visit in the RS-TD group (beta 454.46 µg/L; 95% CI 334.65–574.27), but not in the other groups (Table S2). All subgroups, except for the nonRS-TI, had elevated TSAT levels. TSAT levels were most markedly increased in the RS-TD group with a mean TSAT of 88% at visit 5 (Table S1). In both transfusion-dependent groups the median increase per visit was significant (Table S2). LPI was elevated in the RS-TD group exclusively with a mean value of 0.59 µmol/L at visit 5 (Table S1). NTBI was elevated in all subgroups, with the highest values in the RS-TD group (Table S1). The increase in median NTBI level was significant in both transfusion-dependent groups (Table S2). Hepcidin levels were markedly elevated in the nonRS-TD group. Interestingly, hepcidin levels were lower in the RS-TD group, probably reflecting ineffective erythropoiesis, likewise supported by lower hepcidin/ferritin ratios in RS groups (Table S1). Median hepcidin levels increased over time in the transfusion-dependent subgroups only (Table S2). GDF15 levels, analyzed in the light of its potential role in hepcidin suppression, were increased in all subgroups (Table S1). The RS subgroups had higher GDF15 levels compared to the nonRS groups, reflecting increased erythropoiesis. Mean sTfR levels were within the reference range in all subgroups except for the RS-TI group, which showed elevated levels, reflecting...

Published
2021

13. Afebrile Plasmodium falciparum parasitemia decreases absorption of fortification iron but does not affect systemic iron utilization: a double stable-isotope study in young Beninese women

Author

Cercamondi, Colin I., Egli, Ines M., Ahouandjinou, Ella, Dossa, Romain, Zeder, Christophe, Salami, Lamidhi, Tjalsma, Harold, Wiegerinck, Erwin, Tanno, Toshihiko, Hurrell, Richard F., Hounhouigan, Joseph, and Zimmermann, Michael B.

Subjects
Plasmodium falciparum -- Health aspects, Plasmodium falciparum -- Research, Iron deficiency anemia -- Risk factors, Iron deficiency anemia -- Research, Malaria -- Complications and side effects, Malaria -- Research, Food/cooking/nutrition, Health
Abstract

Background: Iron deficiency anemia (IDA) affects many young women in sub-Saharan Africa. Its etiology is multifactorial, but the major cause is low dietary iron bioavailability exacerbated by parasitic infections such as malaria. Objective: We investigated whether asymptomatic Plasmodium falciparum parasitemia in Beninese women would impair absorption of dietary iron or utilization of circulating iron. Design: Iron absorption and utilization from an iron-fortified sorghum-based meal were estimated by using oral and intravenous isotope labels in 23 afebrile women with a positive malaria smear (asexual P. falciparum parasitemia; >500 parasites/[micro]L blood). The women were studied while infected, treated, and then restudied 10 d after treatment. Iron status, hepcidin, and inflammation indexes were measured before and after treatment. Results: Treatment reduced low-grade inflammation, as reflected by decreases in serum ferritin, C-reactive protein, interleukin-6, interleukin-8, and interleukin-10 (P < 0.05); this was accompanied by a reduction in median serum hepcidin of [approximately equal to]50%, from 2.7 to 1.4 nmol/L (P < 0.005). Treatment decreased serum erythropoietin and growth differentiation factor 15 (P < 0.05). Clearance of parasitemia increased geometric mean dietary iron absorption (from 10.2% to 17.6%; P = 0.008) but did not affect systemic iron utilization (85.0% compared with 83.1%; NS). Conclusions: Dietary iron absorption is reduced by [approximately equal to]40% in asymptomatic P falciparum parasitemia, likely because of low-grade inflammation and its modulation of circulating hepeidin. Because asymptomatic parasitemia has a protracted course and is very common in malarial areas, this effect may contribute to IDA and blunt the efficacy of iron supplementation and fortification programs. This trial was registered at clinicaltrials.gov as NCT01108939. Am J Clin Nutr 2010;92:1385-92. doi: 10.3945/ajcn.2010.30051.

Published
2010

16. Effects of Exercise on Hepcidin Response and Iron Metabolism During Recovery.

Author

Peeling, Peter, Dawson, Brian, Goodman, Carmel, Landers, Grant, Wiegerinck, Erwin T., Swinkels, Dorine W., and Trinder, Debbie

Subjects
IRON metabolism, PEPTIDE hormones, RUNNING, CYTOKINES, INFLAMMATION, IRON in the body, EXERCISE physiology
Abstract

Urinary hepcidin, inflammation, and iron metabolism were examined during the 24 hr after exercise. Eight moderately trained athletes (6 men, 2 women) completed a 60-min running trial (15-min warm-up at 75-80% HRpeak + 45 min at 85-90% HRpeak) and a 60-min trial of seated rest in a randomized, crossover design. Venous blood and urine samples were collected pretrial, immediately posttrial, and at 3, 6, and 24 hr posttrial. Samples were analyzed for interleukin-6 (IL-6), C-reactive protein (CRP), serum iron, serum ferritin, and urinary hepcidin. The immediate postrun levels of IL-6 and 24-hr postrun levels of CRP were significantly increased from baseline (6.9 and 2.6 times greater, respectively) and when compared with the rest trial (p ≤ .05). Hepcidin levels in the run trial after 3, 6, and 24 hr of recovery were significantly greater (1.7-3.1 times) than the pre- and immediate postrun levels (p ≤ .05). This outcome was consistent in all participants, despite marked variation in the magnitude of rise. In addition, the 3-hr postrun levels of hepcidin were significantly greater than at 3 hr in the rest trial (3.0 times greater, p ≤ .05). Hepcidin levels continued to increase at 6 hr postrun but failed to significantly differ from the rest trial (p = .071), possibly because of diurnal influence. Finally, serum iron levels were significantly increased immediately postrun (1.3 times, p ≤ .05). The authors concluded that high-intensity exercise was responsible for a significant increase in hepcidin levels subsequent to a significant increase in IL-6 and serum iron. [ABSTRACT FROM AUTHOR]

Published
2009
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17. Low dietary iron intake restrains the intestinal inflammatory response and pathology of enteric infection by food-borne bacterial pathogens

Author

Kortman, Guus A M, Mulder, Michelle L. M, Richters, Thijs J W, Shanmugam, Nanda K N, Trebicka, Estela, Boekhorst, Jos, Timmerman, Harro M., Roelofs, Rian, Wiegerinck, Erwin T., Laarakkers, Coby M., Swinkels, Dorine W., Bolhuis, Albert, Cherayil, Bobby J., and Tjalsma, Harold

Subjects
Salmonella typhimurium, Article, Feces, Mice, Lipocalin-2, Animals, Intestinal Mucosa, Caenorhabditis elegans, Iron supplementation, Oncogene Proteins, Gut microbiome, Salmonella Infections, Animal, Body Weight, Enterobacteriaceae Infections, Survival Analysis, Immunity, Innate, Lipocalins, Diet, Intestines, Mice, Inbred C57BL, Citrobacter rodentium, Female, Intestinal pathogens, Leukocyte L1 Antigen Complex, Iron, Dietary, Acute-Phase Proteins
Abstract

Orally administrated iron is suspected to increase susceptibility to enteric infections among children in infection endemic regions. Here we investigated the effect of dietary iron on the pathology and local immune responses in intestinal infection models. Mice were held on iron-deficient, normal iron, or high iron diets and after 2 weeks they were orally challenged with the pathogen Citrobacter rodentium. Microbiome analysis by pyrosequencing revealed profound iron- and infection-induced shifts in microbiota composition. Fecal levels of the innate defensive molecules and markers of inflammation lipocalin-2 and calprotectin were not influenced by dietary iron intervention alone, but were markedly lower in mice on the iron-deficient diet after infection. Next, mice on the iron-deficient diet tended to gain more weight and to have a lower grade of colon pathology. Furthermore, survival of the nematode Caenorhabditis elegans infected with Salmonella enterica serovar Typhimurium was prolonged after iron deprivation. Together, these data show that iron limitation restricts disease pathology upon bacterial infection. However, our data also showed decreased intestinal inflammatory responses of mice fed on high iron diets. Thus additionally, our study indicates that the effects of iron on processes at the intestinal host-pathogen interface may highly depend on host iron status, immune status, and gut microbiota composition.

Published
2015

18. Iron handling by the human kidney: glomerular filtration and tubular reabsorption both contribute to urinary iron excretion.

Author

van Raaij, Sanne E. G., Rennings, Alexander J., Biemond, Bart J., Schols, Saskia E. M., Wiegerinck, Erwin T. G., Roelofs, Hennie M. J., Hoorn, Ewout J., Walsh, Stephen B., Nijenhuis, Tom, Swinkels, Dorine W., and van Swelm, Rachel P. L.

Abstract

In physiological conditions, circulating iron can be filtered by the glomerulus and is almost completely reabsorbed by the tubular epithelium to prevent urinary iron wasting. Increased urinary iron concentrations have been associated with renal injury. However, it is not clear whether increased urinary iron concentrations in patients are the result of increased glomerular iron filtration and/or insufficient tubular iron reabsorption and if these processes contribute to renal injury. We measured plasma and urine iron parameters and urinary tubular injury markers in healthy human subjects (n=20), patients with systemic iron overload (n=20), and patients with renal tubular dysfunction (n 18). Urinary iron excretion parameters were increased in both patients with systemic iron overload and tubular dysfunction, whereas plasma iron parameters were only increased in patients with systemic iron overload. In patients with systemic iron overload, increased urinary iron levels were associated with elevated circulating iron, as indicated by transferrin saturation (TSAT), and increased body iron, as suggested by plasma ferritin concentrations. In patients with tubular dysfunction, enhanced urinary iron and transferrin excretion were associated with distal tubular injury as indicated by increased urinary glutathione S-transferase pi 1-1 (GSTP1-1) excretion. In systemic iron overload, elevated urinary iron and transferrin levels were associated with increased injury to proximal tubules, indicated by increased urinary kidney injury marker 1 (KIM-1) excretion. Our explorative study demonstrates that both glomerular filtration of elevated plasma iron levels and insufficient tubular iron reabsorption could increase urinary iron excretion and cause renal injury [ABSTRACT FROM AUTHOR]

Published
2019
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19. The Growth Attainment, Hematological, Iron Status and Inflammatory Profile of Guatemalan Juvenile End-Stage Renal Disease Patients.

Author

Casimiro de Almeida, Juliana, Lou-Meda, Randall, Olbert, Marion, Seifert, Markus, Weiss, Günter, Wiegerinck, Erwin T., Swinkels, Dorine W., Solomons, Noel W., and Schümann, Klaus

Subjects
HEMATOLOGY, IRON in the body, KIDNEY diseases, ANTHROPOMETRY, PERITONEAL dialysis, HEMODIALYSIS, PATIENTS
Abstract

Background: Stunting, anemia and inflammation are frequently observed in children with end-stage renal disease (ESRD). Objectives: To assess anthropometric, hematological and inflammatory data and to study their potential interrelationship in Guatemalan juveniles undergoing hemodialysis (HD) and peritoneal dialysis (PD). Methods: 54 juveniles 7–20 years of age were recruited in FUNDANIER, Guatemala City: 27 on HD and 27 PD. Hemoglobin, serum iron, transferrin, serum transferrin receptor (sTfR), serum ferritin, transferrin saturation and iron-binding capacity, white blood cell count (WBC), erythrocyte sedimentation rate (ESR), C-reactive protein (CRP), as well as IL-6, IL-1 and TNF-α, weight and height were determined by standard methods. Hepcidin–25 (Hep-25) was assessed by weak cation exchange time-of-flight mass-spectrometry. Results: 92% and 55% of HD and PD children, respectively, were stunted and 95% and 85% were anemic. Among iron status biomarkers, serum ferritin was massively increased and significantly higher in the HD group compared to the PD group. Hep-25 was also greatly elevated in both groups. 41% of HD patients showed increments in three or more inflammatory biomarkers, while it was 2 or less in all PD subjects. Conclusions: The degree of stunting, the prevalence and severity of anemia in Guatemalan juvenile ESRD far exceed the national statistics for this low-income Central American country. Ferritin and Hep-25 concentrations were elevated, with the latter to an extraordinary magnitude. Additional biomarkers of inflammation not directly related to iron status were elevated as well. The role of both disease- and environment-related factors in combination best explains the magnitude of the biomarker abnormalities. [ABSTRACT FROM AUTHOR]

Published
2015
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20. Low dietary iron intake restrains the intestinal inflammatory response and pathology of enteric infection by food-borne bacterial pathogens.

Author

Kortman, Guus A. M., Mulder, Michelle L. M., Richters, Thijs J. W., Shanmugam, Nanda K. N., Trebicka, Estela, Boekhorst, Jos, Timmerman, Harro M., Roelofs, Rian, Wiegerinck, Erwin T., Laarakkers, Coby M., Swinkels, Dorine W., Bolhuis, Albert, Cherayil, Bobby J., and Tjalsma, Harold

Abstract

Orally administrated iron is suspected to increase susceptibility to enteric infections among children in infection endemic regions. Here we investigated the effect of dietary iron on the pathology and local immune responses in intestinal infection models. Mice were held on iron-deficient, normal iron, or high iron diets and after 2 weeks they were orally challenged with the pathogen Citrobacter rodentium. Microbiome analysis by pyrosequencing revealed profound iron- and infection-induced shifts in microbiota composition. Fecal levels of the innate defensive molecules and markers of inflammation lipocalin-2 and calprotectin were not influenced by dietary iron intervention alone, but were markedly lower in mice on the iron-deficient diet after infection. Next, mice on the iron-deficient diet tended to gain more weight and to have a lower grade of colon pathology. Furthermore, survival of the nematode Caenorhabditis elegans infected with Salmonella enterica serovar Typhimurium was prolonged after iron deprivation. Together, these data show that iron limitation restricts disease pathology upon bacterial infection. However, our data also showed decreased intestinal inflammatory responses of mice fed on high iron diets. Thus additionally, our study indicates that the effects of iron on processes at the intestinal host-pathogen interface may highly depend on host iron status, immune status, and gut microbiota composition. [ABSTRACT FROM AUTHOR]

Published
2015
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21. A seven day running training period increases basal urinary hepcidin levels as compared to cycling.

Author

Sim, Marc, Dawson, Brian, Landers, Grant J, Swinkels, Dorine W, Tjalsma, Harold, Wiegerinck, Erwin T, Trinder, Debbie, and Peeling, Peter

Subjects
HEPCIDIN, RUNNING training, IRON in the body, EXERCISE therapy, EXERCISE intensity, CYCLING
Abstract

Background: This investigation compared the effects of an extended period of weight-bearing (running) vs. non-weight-bearing (cycling) exercise on hepcidin production and its implications for iron status. Methods: Ten active males performed two separate exercise training blocks with either running (RTB) or cycling (CTB) as the exercise mode. Each block consisted of five training sessions (Day 1, 2, 4, 5, 6) performed over a seven day period that were matched for exercise intensity. Basal venous blood samples were obtained on Day 1 (D1), and on Recovery Days 3 (R3) and 7 (R7) to assess iron status, while basal and 3 h post-exercise urinary hepcidin levels were measured on D1, D2, D6, as well as R3 and R7 (basal levels only) for each condition. Results: Basal urinary hepcidin levels were significantly elevated (p ≤ 0.05) at D2, R3 and R7 as compared to D1 in RTB. Furthermore, 3 h post-exercise urinary hepcidin levels on D1 were also significantly higher in RTB compared to CTB (p ≤ 0.05). In CTB, urinary hepcidin levels were not statistically different on D1 as compared to R7. Iron parameters were not significantly different at D1 compared to R3 and R7 during both conditions. Conclusions: These results suggest that basal hepcidin levels may increase over the course of an extended training program, especially if a weight-bearing exercise modality is undertaken. However, despite any variations in hepcidin production, serum iron parameters in both RTB and CTB were unaffected, possibly due to the short duration of each training block. In comparing running to cycling, non-weight-bearing activity may require more training sessions, or sessions of extended duration, before any significant changes in basal hepcidin levels appear. Chronic elevations in hepcidin levels may help to explain the high incidence of iron deficiency in athletes. [ABSTRACT FROM AUTHOR]

Published
2014
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22. Low Hepcidin Levels in Severely Anemic Malawian Children with High Incidence of Infectious Diseases and Bone Marrow Iron Deficiency.

Author

Jonker, Femkje A. M., Calis, Job C. J., Phiri, Kamija, Kraaijenhagen, Rob J., Brabin, Bernard J., Faragher, Brian, Wiegerinck, Erwin T., Tjalsma, Harold, Swinkels, Dorine W., and Boele van Hensbroek, Michael

Subjects
HEPCIDIN, ANEMIA in children, SEVERITY of illness index, DISEASE incidence, COMMUNICABLE diseases, BONE marrow, IRON deficiency
Abstract

Introduction: A reliable diagnostic biomarker of iron status is required for severely anemic children living in malarious areas because presumptive treatment with iron may increase their infection risk if they are not iron deficient. Current biomarkers are limited because they are altered by host inflammation. In this study hepcidin concentrations were assessed in severely anemic children living in a highly malarious area of Malawi and evaluated against bone marrow iron in order to determine the usefulness of hepcidin as a point of care test. Methods: 207 severely anemic children were assessed for levels of hepcidin, ferritin, serum transferrin receptor, erythropoietin, hematological indices, C-reactive protein, interleukin-6, malaria parasites and HIV infection. Deficiency of bone marrow iron stores was graded and erythroblast iron incorporation estimated. Interaction of covariates was assessed by structural-equation-modeling. Results and Conclusion: Hepcidin was a poor predictor of bone marrow iron deficiency (sensitivity 66.7%; specificity 48.5%), and of iron incorporation (sensitivity 54.2%; specificity 61.8%), and therefore would have limitations as a point of care test in this category of children. As upregulation of hepcidin by inflammation and iron status was blunted by erythropoietin in this population, enhanced iron absorption through the low hepcidin values may increase infection risk. Current recommendations to treat all severely anemic children living in malarious areas with iron should therefore be reconsidered. [ABSTRACT FROM AUTHOR]

Published
2013
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23. Improved Mass Spectrometry Assay For Plasma Hepcidin: Detection and Characterization of a Novel Hepcidin Isoform.

Author

Laarakkers, Coby M. M., Wiegerinck, Erwin T., Klaver, Siem, Kolodziejczyk, Maria, Gille, Hendrik, Hohlbaum, Andreas M., Tjalsma, Harold, and Swinkels, Dorine W.

Subjects
*HEPCIDIN, *BLOOD plasma, *IRON regulatory proteins, *BIOLOGICAL assay, *IRON metabolism, *TIME-of-flight mass spectrometry
Abstract

Mass spectrometry (MS)-based assays for the quantification of the iron regulatory hormone hepcidin are pivotal to discriminate between the bioactive 25-amino acid form that can effectively block the sole iron transporter ferroportin and other naturally occurring smaller isoforms without a known role in iron metabolism. Here we describe the design, validation and use of a novel stable hepcidin-25+40 isotope as internal standard for quantification. Importantly, the relative large mass shift of 40 Da makes this isotope also suitable for easy-to-use medium resolution linear time-of-flight (TOF) platforms. As expected, implementation of hepcidin-25+40 as internal standard in our weak cation exchange (WCX) TOF MS method yielded very low inter/intra run coefficients of variation. Surprisingly, however, in samples from kidney disease patients, we detected a novel peak (m/z 2673.9) with low intensity that could be identified as hepcidin-24 and had previously remained unnoticed due to peak interference with the formerly used internal standard. Using a cell-based bioassay it was shown that synthetic hepcidin-24 was, like the -22 and -20 isoforms, a significantly less potent inducer of ferroportin degradation than hepcidin-25. During prolonged storage of plasma at room temperature, we observed that a decrease in plasma hepcidin-25 was paralleled by an increase in the levels of the hepcidin-24, -22 and -20 isoforms. This provides first evidence that all determinants for the conversion of hepcidin-25 to smaller inactive isoforms are present in the circulation, which may contribute to the functional suppression of hepcidin-25, that is significantly elevated in patients with renal impairment. The present update of our hepcidin TOF MS assay together with improved insights in the source and preparation of the internal standard, and sample stability will further improve our understanding of circulating hepcidin and pave the way towards further optimization and standardization of plasma hepcidin assays. [ABSTRACT FROM AUTHOR]

Published
2013
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25. Hepcidin-25 in Chronic Hemodialysis Patients Is Related to Residual Kidney Function and Not to Treatment with Erythropoiesis Stimulating Agents.

Author

Van der Weerd, Neelke C., Grooteman, Muriel P. C., Bots, Michiel L., Van den Dorpel, Marinus A., Den Hoedt, Claire H., Mazairac, Albert H. A., Nubé, Menso J., Lars Penne, E., Gaillard, Carlo A., Wetzels, Jack F. M., Wiegerinck, Erwin T., Swinkels, Dorine W., Blankestijn, Peter J., and Ter Wee, Piet M.

Subjects
HEPCIDIN, HEMODIALYSIS patients, CARBOHYDRATE intolerance, ENTEROCYTES, LIVER cells
Abstract

Hepcidin-25, the bioactive form of hepcidin, is a key regulator of iron homeostasis as it induces internalization and degradation of ferroportin, a cellular iron exporter on enterocytes, macrophages and hepatocytes. Hepcidin levels are increased in chronic hemodialysis (HD) patients, but as of yet, limited information on factors associated with hepcidin-25 in these patients is available. In the current cross-sectional study, potential patient-, laboratory- and treatment-related determinants of serum hepcidin-20 and -25, were assessed in a large cohort of stable, prevalent HD patients. Baseline data from 405 patients (62% male; age 63.7±13.9 [mean SD]) enrolled in the CONvective TRAnsport STudy (CONTRAST; NCT00205556) were studied. Predialysis hepcidin concentrations were measured centrally with matrix-assisted laser desorption/ionization time-of-flight mass spectrometry. Patient-, laboratory- and treatment related characteristics were entered in a backward multivariable linear regression model. Hepcidin-25 levels were independently and positively associated with ferritin (p<0.001), hsCRP (p<0.001) and the presence of diabetes (p = 0.02) and inversely with the estimated glomerular filtration rate (p = 0.01), absolute reticulocyte count (p = 0.02) and soluble transferrin receptor (p<0.001). Men had lower hepcidin-25 levels as compared to women (p = 0.03). Hepcidin-25 was not associated with the maintenance dose of erythropoiesis stimulating agents (ESA) or iron therapy. In conclusion, in the currently studied cohort of chronic HD patients, hepcidin-25 was a marker for iron stores and erythropoiesis and was associated with inflammation. Furthermore, hepcidin-25 levels were influenced by residual kidney function. Hepcidin-25 did not reflect ESA or iron dose in chronic stable HD patients on maintenance therapy. These results suggest that hepcidin is involved in the pathophysiological pathway of renal anemia and iron availability in these patients, but challenges its function as a clinical parameter for ESA resistance. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Hepcidin suppression and defective iron recycling account for dysregulation of iron homeostasis in heme oxygenase-1 deficiency.

Author

Kartikasari, Apriliana E. R., Wagener, Frank A. D. T. G., Yachie, Akihiro, Wiegerinck, Erwin T. G., Kemna, Erwin H. J. M., and Winkels, Dorine W.

Subjects
HEME oxygenase, HOMEOSTASIS, TETRAPYRROLES, BLOOD diseases, HEMOSIDEROSIS
Abstract

Heme oxygenase-1 (HO-1) contribution to iron homeostasis has been postulated, because it facilitates iron recycling by liberating iron mostly from heme catabolism. This enzyme also appears to be responsible for the resolution of inflammatory conditions. In a patient with HO-1 deficiency, inflammation and dysregulation of body iron homeostasis, including anemia and liver and kidney hemosiderosis, are evidenced. Here we postulated that HO-1 is critical in the regulation of ferroportin, the major cellular iron exporter, and hepcidin, the key regulator of iron homeostasis central in the pathogenesis of anemia of inflammation. Our current experiments in human THP-1 monocytic cells indicate a HO-1-induced iron-mediated surface-ferroportin expression, consistent with the role of HO-1 in iron recycling. Surprisingly, we observed low hepcidin levels in the HO-1-deficient patient, despite the presence of inflammation and hemosiderosis, both inducers of hepcidin. Instead, we observed highly increased soluble transferrin receptor levels. This suggests that the decreased hepcidin levels in HO-1 deficiency reflect the increased need for iron in the bone marrow due to the anaemia. Using human hepatoma cells, we demonstrate that HO-activity did not have a direct modulating effect on expression of HAMP, the gene that encodes for hepcidin. Therefore, we argue that the decreased iron recycling may, in part, have contributed to the low hepcidin levels. These findings indicate that dysregulation of iron homeostasis in HO-1 deficiency is the result of both defective iron recycling and erythroid activity-associated inhibition of hepcidin expression. This study therefore shows a crucial role for HO-1 in maintaining body iron balance. [ABSTRACT FROM AUTHOR]

Published
2009
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27. Investigating the Molecular Mechanisms of Renal Hepcidin Induction and Protection upon Hemoglobin-Induced Acute Kidney Injury.

Author

Diepeveen, Laura E., Stegemann, Gaby, Wiegerinck, Erwin T., Roelofs, Rian, Naber, Myrthe, Lóreal, Olivier, Smeets, Bart, Thévenod, Frank, Swinkels, Dorine W., and van Swelm, Rachel P. L.

Subjects
HEPCIDIN, NUCLEAR factor E2 related factor, ACUTE kidney failure
Abstract

Hemolysis is known to cause acute kidney injury (AKI). The iron regulatory hormone hepcidin, produced by renal distal tubules, is suggested to exert a renoprotective role during this pathology. We aimed to elucidate the molecular mechanisms of renal hepcidin synthesis and its protection against hemoglobin-induced AKI. In contrast to known hepatic hepcidin induction, incubation of mouse cortical collecting duct (mCCDcl1) cells with IL-6 or LPS did not induce Hamp1 mRNA expression, whereas iron (FeS) and hemin significantly induced hepcidin synthesis (p < 0.05). Moreover, iron/heme-mediated hepcidin induction in mCCDcl1 cells was caused by the nuclear factor erythroid 2-related factor 2 (Nrf2) pathway, as indicated by increased nuclear Nrf2 translocation and induced expression of Nrf2 downstream targets GCLM (p < 0.001), NQO1 (p < 0.001), and TXNRD1 (p < 0.005), which could be prevented by the known Nrf2 inhibitor trigonelline. Newly created inducible kidney-specific hepcidin KO mice demonstrated a significant reduction in renal Hamp1 mRNA expression. Phenylhydrazine (PHZ)-induced hemolysis caused renal iron loading and oxidative stress in both wildtype (Wt) and KO mice. PHZ treatment in Wt induced inflammatory markers (IL-6, TNFα) but not Hamp1. However, since PHZ treatment also significantly reduced systemic hepcidin levels in both Wt and KO mice (both p < 0.001), a dissection between the roles of systemic and renal hepcidin could not be made. Combined, the results of our study indicate that there are kidney-specific mechanisms in hepcidin regulation, as indicated by the dominant role of iron and not inflammation as an inducer of renal hepcidin, but also emphasize the complex interplay of various iron regulatory mechanisms during AKI on a local and systemic level. [ABSTRACT FROM AUTHOR]

Published
2022
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29. Hepcidin suppression and defective iron recycling account for dysregulation of iron homeostasis in heme oxygenase-1 deficiency.

Author

Kartikasari, Apriliana E. R., Wagener, Frank A. D. T. G., Yachie, Akihiro, Wiegerinck, Erwin T. G., Kemna, Erwin H. J. M., and Winkels, Dorine W.

Subjects
HOMEOSTASIS
Abstract

A correction to the article "Hepcidin suppression and defective iron recycling account for dysregulation of iron homeostasis in heme oxygenase-1 deficiency," that was published in the previous issue of the "Journal of Cellular and Molecular Medicine" is presented.

Published
2010
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30. Toxic iron species in lower-risk myelodysplastic syndrome patients: course of disease and effects on outcome.

Author

Hoeks M, Bagguley T, van Marrewijk C, Smith A, Bowen D, Culligan D, Kolade S, Symeonidis A, Garelius H, Spanoudakis M, Langemeijer S, Roelofs R, Wiegerinck E, Tatic A, Killick S, Panagiotidis P, Stanca O, Hellström-Lindberg E, Cermak J, van der Klauw M, Wouters H, van Kraaij M, Blijlevens N, Swinkels DW, and de Witte T

Subjects
Adult, Aged, Female, Follow-Up Studies, Humans, Iron Overload etiology, Iron Overload metabolism, Iron Overload pathology, Male, Middle Aged, Myelodysplastic Syndromes pathology, Myelodysplastic Syndromes therapy, Prognosis, Prospective Studies, Survival Rate, Blood Transfusion mortality, Iron adverse effects, Iron Overload mortality, Myelodysplastic Syndromes mortality
Published
2021
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32. Plasma hepcidin levels and anemia in old age. The Leiden 85-Plus Study.

Author

den Elzen WP, de Craen AJ, Wiegerinck ET, Westendorp RG, Swinkels DW, and Gussekloo J

Subjects
Age Factors, Aged, 80 and over, Anemia diagnosis, Anemia epidemiology, Comorbidity, Female, Humans, Male, Netherlands epidemiology, Population Surveillance, Prospective Studies, Anemia blood, Hepcidins blood
Abstract

Hepcidin, an important regulator of iron homeostasis, is suggested to be causally related to anemia of inflammation. The aim of this study was to explore the role of plasma hepcidin in anemia among older persons from the general population. The Leiden 85-Plus Study is a population-based study of 85-year olds in Leiden, the Netherlands. Eighty-five-year old inhabitants of Leiden were enrolled between September 1997 and September 1999. At the age of 86, plasma hepcidin was determined with time of flight mass spectrometry in 490 participants [160 (32.7%) male, 114 (23.3%) with anemia]. Anemia was defined according to criteria of the World Health Organization (hemoglobin level <13 g/dL for men and hemoglobin <12 g/dL for women). The median plasma hepcidin level was 3.0 nM [interquartile range (IQR) 1.8-4.9]. We found strong correlations between plasma hepcidin and body iron status, C-reactive protein and erythropoietin levels. Significantly higher hepcidin levels were found in participants with anemia of inflammation (P<0.01), in participants with anemia of kidney disease (P=0.01), and in participants with unexplained anemia (P=0.01) than in participants without anemia. Participants with iron-deficiency anemia had significantly lower plasma hepcidin levels than participants without anemia (P<0.01). In conclusion, older persons with anemia of inflammation have higher hepcidin levels than their counterparts without anemia. The potential clinical value of hepcidin in future diagnostic algorithms for anemia has to be explored.

Published
2013
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33. Iron homeostasis in mother and child during placental malaria infection.

Author

Van Santen S, de Mast Q, Luty AJ, Wiegerinck ET, Van der Ven AJ, and Swinkels DW

Subjects
Adolescent, Antimicrobial Cationic Peptides blood, Antimicrobial Cationic Peptides metabolism, Female, Fetal Blood chemistry, Hepcidins, Homeostasis physiology, Humans, Infant, Low Birth Weight, Infant, Newborn, Maternal-Fetal Exchange, Placenta Diseases parasitology, Pregnancy, Young Adult, Iron metabolism, Malaria, Falciparum metabolism, Placenta Diseases metabolism, Pregnancy Complications, Parasitic metabolism
Abstract

In malaria-endemic areas, iron deficiency and placental Plasmodium falciparum infection commonly coexist. In primigravidae and their newborns, hepcidin and other iron parameters were evaluated in groups and classified according to placental P. falciparum and maternal anemia status. Mothers had relatively high hepcidin levels considering their low iron status. In cord blood, levels of hepcidin, hemoglobin, and other iron parameters were also similar for groups. We conclude that maternal hepcidin is not significantly altered as a function of placental infection and/or anemia. Importantly, fetal hemoglobin and iron status were also unaffected, regardless of the presence of placental infection or maternal anemia.

Published
2011
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34. Effect of the new HJV-L165X mutation on penetrance of HFE.

Author

van Dijk BA, Kemna EH, Tjalsma H, Klaver SM, Wiegerinck ET, Goossens JP, Slee PH, Breuning MH, and Swinkels DW

Subjects
Family Health, GPI-Linked Proteins, Hemochromatosis genetics, Hemochromatosis Protein, Humans, Male, Histocompatibility Antigens Class I genetics, Membrane Proteins genetics, Mutation, Penetrance
Published
2007
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35. Survivin is an independent prognostic marker for risk stratification of breast cancer patients.

Author

Span PN, Sweep FC, Wiegerinck ET, Tjan-Heijnen VC, Manders P, Beex LV, and de Kok JB

Subjects
Disease-Free Survival, Female, Humans, Inhibitor of Apoptosis Proteins, Microtubule-Associated Proteins genetics, Multivariate Analysis, Neoplasm Proteins, RNA, Messenger analysis, Regression Analysis, Reverse Transcriptase Polymerase Chain Reaction, Risk Assessment, Survival Rate, Survivin, Biomarkers, Tumor analysis, Breast Neoplasms diagnosis, Microtubule-Associated Proteins analysis
Abstract

Background: Results in previous qualitative studies of the association of the apoptosis inhibitor survivin with prognosis of breast cancer patients have been contradictory., Methods: Survivin mRNA was measured by quantitative TaqMan reverse transcription-PCR in 275 breast cancer tissues from patients with operable tumors and was correlated with established clinicopathologic factors, relapse-free survival [(RFS); 102 events], and overall survival [(OS); 81 events]., Results: High survivin mRNA concentrations were found mainly in tissues from younger patients and in high-grade cancer tissues. High survivin concentrations were most strongly associated with estrogen receptor- or progesterone receptor-negative tumors. In univariate Cox regression analysis for RFS, survivin concentrations were significantly associated with poor prognosis with a hazard ratio (HR) of 1.99 (95% confidence interval, 1.31-3.02; P = 0.001) for every 10-fold increase in expression. For OS, a significant contribution of survivin to poor prognosis was found with a HR of 2.76 (1.67-4.55; P <0.001). Multivariate analyses were performed including established clinicopathologic factors. For RFS, age (P = 0.027), nodal category (P <0.001), and survivin [HR = 1.78 (1.18-2.68); P = 0.006] contributed significantly to the model. For OS, only nodal category (P <0.001) and survivin [HR = 3.05 (1.83-5.10); P <0.001] were significant., Conclusion: Survivin demonstrates a strong, independent, association with poor prognosis. Survivin might be used as a new marker to stratify breast cancer patients for more optimal treatment modalities, or it could be a promising new target for therapy.

Published
2004
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