Your search keyword '"Nairz M"' showing total 76 results

1. Hepcidin regulation in Kenyan children with severe malaria and non-typhoidal Salmonella bacteremia

Author

Abuga, KM, Muriuki, JM, Uyoga, SM, Mwai, K, Makale, J, Mogire, RM, Macharia, AW, Mohammed, S, Muthumbi, E, Mwarumba, S, Mturi, N, Bejon, P, Scott, JAG, Nairz, M, Williams, TN, Atkinson, SH, and Wellcome Trust

Subjects

Iron, Immunology, Anemia, Bacteremia, respiratory system, Kenya, Malaria, Hepcidins, nervous system, Salmonella, Ferritins, Humans, Malaria, Falciparum, Child, 1102 Cardiorespiratory Medicine and Haematology

Abstract

Malaria and invasive non-typhoidal Salmonella (NTS) are life-threatening infections that often co-exist in African children. The iron-regulatory hormone hepcidin is highly upregulated during malaria and controls the availability of iron, a critical nutrient for bacterial growth. We investigated the relationship between Plasmodium falciparum malaria and NTS bacteremia in all pediatric admissions aged

Published

2021

2. The haemochromatosis-associated Hfe mutation protects mice from Salmonella typhimurium infection via induction of lipocalin 2: O384

Author

Nairz, M., Theurl, I., Schroll, A., Theurl, M., Mair, S., Sonnweber, T., Fritsche, G., Bellmann-Weiler, R., and Weiss, G.

Published

2009

3. On-demand erythrocyte disposal and iron recycling requires transient macrophages in the liver

Author

Theurl, I, Hilgendorf, I, Nairz, M, Tymoszuk, P, Haschka, D, Asshoff, M, He, S, Gerhardt, L, Holderried, T, Seifert, M, Sopper, S, Fenn, A, Anzai, A, Rattik, S, Mcalpine, C, Theurl, M, Wieghofer, P, Iwamoto, Y, Weber, G, Harder, N, Chousterman, B, Arvedson, T, Mckee, M, Wang, F, Lutz, O, Rezoagli, E, Babitt, J, Berra, L, Prinz, M, Nahrendorf, M, Weiss, G, Weissleder, R, Lin, H, Swirski, F, Theurl I., Hilgendorf I., Nairz M., Tymoszuk P., Haschka D., Asshoff M., He S., Gerhardt L. M. S., Holderried T. A. W., Seifert M., Sopper S., Fenn A. M., Anzai A., Rattik S., McAlpine C., Theurl M., Wieghofer P., Iwamoto Y., Weber G. F., Harder N. K., Chousterman B. G., Arvedson T. L., McKee M., Wang F., Lutz O. M. D., Rezoagli E., Babitt J. L., Berra L., Prinz M., Nahrendorf M., Weiss G., Weissleder R., Lin H. Y., Swirski F. K., Theurl, I, Hilgendorf, I, Nairz, M, Tymoszuk, P, Haschka, D, Asshoff, M, He, S, Gerhardt, L, Holderried, T, Seifert, M, Sopper, S, Fenn, A, Anzai, A, Rattik, S, Mcalpine, C, Theurl, M, Wieghofer, P, Iwamoto, Y, Weber, G, Harder, N, Chousterman, B, Arvedson, T, Mckee, M, Wang, F, Lutz, O, Rezoagli, E, Babitt, J, Berra, L, Prinz, M, Nahrendorf, M, Weiss, G, Weissleder, R, Lin, H, Swirski, F, Theurl I., Hilgendorf I., Nairz M., Tymoszuk P., Haschka D., Asshoff M., He S., Gerhardt L. M. S., Holderried T. A. W., Seifert M., Sopper S., Fenn A. M., Anzai A., Rattik S., McAlpine C., Theurl M., Wieghofer P., Iwamoto Y., Weber G. F., Harder N. K., Chousterman B. G., Arvedson T. L., McKee M., Wang F., Lutz O. M. D., Rezoagli E., Babitt J. L., Berra L., Prinz M., Nahrendorf M., Weiss G., Weissleder R., Lin H. Y., and Swirski F. K.

Abstract

Iron is an essential component of the erythrocyte protein hemoglobin and is crucial to oxygen transport in vertebrates. In the steady state, erythrocyte production is in equilibrium with erythrocyte removal. In various pathophysiological conditions, however, erythrocyte life span is compromised severely, which threatens the organism with anemia and iron toxicity. Here we identify an on-demand mechanism that clears erythrocytes and recycles iron. We show that monocytes that express high levels of lymphocyte antigen 6 complex, locus C1 (LY6C1, also known as Ly-6C) ingest stressed and senescent erythrocytes, accumulate in the liver via coordinated chemotactic cues, and differentiate into ferroportin 1 (FPN1, encoded by SLC40A1)-expressing macrophages that can deliver iron to hepatocytes. Monocyte-derived FPN1+Tim-4neg macrophages are transient, reside alongside embryonically derived T cell immunoglobulin and mucin domain containing 4 (Timd4, also known as Tim-4)high Kupffer cells (KCs), and depend on the growth factor Csf1 and the transcription factor Nrf2 (encoded by Nfe2l2). The spleen, likewise, recruits iron-loaded Ly-6Chigh monocytes, but these do not differentiate into iron-recycling macrophages, owing to the suppressive action of Csf2. The accumulation of a transient macrophage population in the liver also occurs in mouse models of hemolytic anemia, anemia of inflammation, and sickle cell disease. Inhibition of monocyte recruitment to the liver during stressed erythrocyte delivery leads to kidney and liver damage. These observations identify the liver as the primary organ that supports rapid erythrocyte removal and iron recycling, and uncover a mechanism by which the body adapts to fluctuations in erythrocyte integrity.

Published

2016

4. The arachidonic acid metabolome serves as a conserved regulator of cholesterol metabolism

Author

Demetz, E., Schroll, A., Auer, K., Heim, C., Patsch, J., Eller, P., Theurl, M., Theurl, I., Seifert, M., Lener, D., Stanzl, U., Haschka, D., Asshoff, M., Dichtl, S., Nairz, M., Huber, E., Stadlinger, M., Moschen, A., Li, X., Pallweber, P., Scharnagl, H., Stojakovic, T., März, W., Kleber, M., Garlaschelli, K., Uboldi, P., Catapano, A., Stellaard, F., Rudling, M., Kuba, K., Imai, Y., Arita, M., Schuetz, J., Pramstaller, P., Tietge, U., Trauner, M., Norata, Giuseppe, Claudel, T., Hicks, A., Weiss, G., Tancevski, I., Demetz, E., Schroll, A., Auer, K., Heim, C., Patsch, J., Eller, P., Theurl, M., Theurl, I., Seifert, M., Lener, D., Stanzl, U., Haschka, D., Asshoff, M., Dichtl, S., Nairz, M., Huber, E., Stadlinger, M., Moschen, A., Li, X., Pallweber, P., Scharnagl, H., Stojakovic, T., März, W., Kleber, M., Garlaschelli, K., Uboldi, P., Catapano, A., Stellaard, F., Rudling, M., Kuba, K., Imai, Y., Arita, M., Schuetz, J., Pramstaller, P., Tietge, U., Trauner, M., Norata, Giuseppe, Claudel, T., Hicks, A., Weiss, G., and Tancevski, I.

Abstract

© 2014 The Authors. Cholesterol metabolism is closely interrelated with cardiovascular disease in humans. Dietary supplementation with omega-6 polyunsaturated fatty acids including arachidonic acid (AA) was shown to favorably affect plasma LDL-C and HDL-C. However, the underlying mechanisms are poorly understood. By combining data from a GWAS screening in > 100,000 individuals of European ancestry, mediator lipidomics, and functional validation studies in mice, we identify the AA metabolome as an important regulator of cholesterol homeostasis. Pharmacological modulation of AA metabolism by aspirin induced hepatic generation of leukotrienes (LTs) and lipoxins (LXs), thereby increasing hepatic expression of the bile salt export pump Abcb11. Induction of Abcb11 translated in enhanced reverse cholesterol transport, one key function of HDL. Further characterization of the bioactive AA-derivatives identified LX mimetics to lower plasma LDL-C. Our results define the AA metabolome as conserved regulator of cholesterol metabolism, and identify AA derivatives as promising therapeutics to treat cardiovascular disease in humans. Omega-6 polyunsaturated fatty acids, including arachidonic acid (AA), have beneficial cardiovascular effects. Demetz et al. show that Alox5, a key enzyme of the AA pathway, regulates cholesterol in humans. Modulation of the AA pathways genetically or pharmacologically, with aspirin or bioactive AA-mimetics influences cholesterol metabolism including reverse cholesterol transport.

Published

2014

5. Hepcidin as a predictive factor and therapeutic target in erythropoiesis-stimulating agent treatment for anemia of chronic disease in rats

Author

Theurl, M., primary, Nairz, M., additional, Schroll, A., additional, Sonnweber, T., additional, Asshoff, M., additional, Haschka, D., additional, Seifert, M., additional, Willenbacher, W., additional, Wilflingseder, D., additional, Posch, W., additional, Murphy, A. T., additional, Witcher, D. R., additional, Theurl, I., additional, and Weiss, G., additional

Published

2014

6. Pathways for the regulation of hepcidin expression in anemia of chronic disease and iron deficiency anemia in vivo

Author

Theurl, I., primary, Schroll, A., additional, Nairz, M., additional, Seifert, M., additional, Theurl, M., additional, Sonnweber, T., additional, Kulaksiz, H., additional, and Weiss, G., additional

Published

2011

7. IL-17 as an important effector cytokine in a mouse model for S.typhimurium sepsis

Author

Schroll Andrea, Nairz Manfred, Theurl Igor, and Weiss Günther

Subjects

Medicine

Published

2012

8. On-demand erythrocyte disposal and iron recycling requires transient macrophages in the liver

Author

Piotr Tymoszuk, Atsushi Anzai, Cameron S. McAlpine, David Haschka, Manfred Nairz, Herbert Y. Lin, Shun He, Peter Wieghofer, Ingo Hilgendorf, Filip K. Swirski, Fudi Wang, Marco Prinz, Sara Rattik, Malte Asshoff, Guenter Weiss, Jodie L. Babitt, Louisa M.S. Gerhardt, Milan Theurl, Mary McKee, Matthias Nahrendorf, Nina K. Harder, Ashley M. Fenn, Markus Seifert, Lorenzo Berra, Tobias A. W. Holderried, Georg F. Weber, Yoshiko Iwamoto, Benjamin G. Chousterman, Sieghart Sopper, Igor Theurl, Oliver M D Lutz, Ralph Weissleder, Emanuele Rezoagli, Tara Arvedson, Theurl, I, Hilgendorf, I, Nairz, M, Tymoszuk, P, Haschka, D, Asshoff, M, He, S, Gerhardt, L, Holderried, T, Seifert, M, Sopper, S, Fenn, A, Anzai, A, Rattik, S, Mcalpine, C, Theurl, M, Wieghofer, P, Iwamoto, Y, Weber, G, Harder, N, Chousterman, B, Arvedson, T, Mckee, M, Wang, F, Lutz, O, Rezoagli, E, Babitt, J, Berra, L, Prinz, M, Nahrendorf, M, Weiss, G, Weissleder, R, Lin, H, and Swirski, F

Subjects

0301 basic medicine, Hemolytic anemia, Erythrocytes, Macrophage, Monocyte, Monocytes, Mice, Antigens, Ly, Hepatocyte, Cation Transport Proteins, Membrane Protein, Anemia, Cell Differentiation, General Medicine, Cell biology, Erythrocyte, medicine.anatomical_structure, Biochemistry, Liver, Kupffer Cell, Antibody, medicine.symptom, Anemia, Hemolytic, Kupffer Cells, NF-E2-Related Factor 2, T cell, Iron, Inflammation, Spleen, Anemia, Sickle Cell, Biology, Article, General Biochemistry, Genetics and Molecular Biology, 03 medical and health sciences, medicine, Animals, MED/41 - ANESTESIOLOGIA, Animal, Macrophages, Macrophage Colony-Stimulating Factor, Oxygen transport, Membrane Proteins, Granulocyte-Macrophage Colony-Stimulating Factor, medicine.disease, Disease Models, Animal, 030104 developmental biology, Cation Transport Protein, Hepatocytes, biology.protein, Hemoglobin

Abstract

Iron is an essential component of the erythrocyte protein hemoglobin and is crucial to oxygen transport in vertebrates. In the steady state, erythrocyte production is in equilibrium with erythrocyte removal. In various pathophysiological conditions, however, erythrocyte life span is compromised severely, which threatens the organism with anemia and iron toxicity. Here we identify an on-demand mechanism that clears erythrocytes and recycles iron. We show that monocytes that express high levels of lymphocyte antigen 6 complex, locus C1 (LY6C1, also known as Ly-6C) ingest stressed and senescent erythrocytes, accumulate in the liver via coordinated chemotactic cues, and differentiate into ferroportin 1 (FPN1, encoded by SLC40A1)-expressing macrophages that can deliver iron to hepatocytes. Monocyte-derived FPN1(+)Tim-4(neg) macrophages are transient, reside alongside embryonically derived T cell immunoglobulin and mucin domain containing 4 (Timd4, also known as Tim-4)(high) Kupffer cells (KCs), and depend on the growth factor Csf1 and the transcription factor Nrf2 (encoded by Nfe2l2). The spleen, likewise, recruits iron-loaded Ly-6C(high) monocytes, but these do not differentiate into iron-recycling macrophages, owing to the suppressive action of Csf2. The accumulation of a transient macrophage population in the liver also occurs in mouse models of hemolytic anemia, anemia of inflammation, and sickle cell disease. Inhibition of monocyte recruitment to the liver during stressed erythrocyte delivery leads to kidney and liver damage. These observations identify the liver as the primary organ that supports rapid erythrocyte removal and iron recycling, and uncover a mechanism by which the body adapts to fluctuations in erythrocyte integrity.

Published

2016

9. Quantification of Macrophage Cellular Ferrous Iron (Fe 2+ ) Content Using a Highly Specific Fluorescent Probe in a Plate Reader.

Author

Grubwieser P, Brigo N, Seifert M, Grander M, Theurl I, Nairz M, Weiss G, and Pfeifhofer-Obermair C

Abstract

Macrophages are at the center of innate immunity and iron metabolism. In the case of an infection, macrophages adapt their cellular iron metabolism to deprive iron from invading bacteria to combat intracellular bacterial proliferation. A concise evaluation of the cellular iron content upon an infection with bacterial pathogens and diverse cellular stimuli is necessary to identify underlying mechanisms concerning iron homeostasis in macrophages. For the characterization of cellular iron levels during infection, we established an in vitro infection model where the murine macrophage cell line J774A.1 is infected with Salmonella enterica serovar Typhimurium ( S. tm), the mouse counterpart to S. enterica serovar Typhi, under normal and iron-overload conditions using ferric chloride (FeCl 3 ) treatment. To evaluate the effect of infection and iron stimulation on cellular iron levels, the macrophages are stained with FerroOrange. This fluorescent probe specifically detects Fe 2+ ions and its fluorescence can be quantified photometrically in a plate reader. Importantly, FerroOrange fluorescence does not increase with chelated iron or other bivalent metal ions. In this protocol, we present a simple and reliable method to quantify cellular Fe 2+ levels in cultured macrophages by applying a highly specific fluorescence probe (FerroOrange) in a TECAN Spark microplate reader. Compared to already established techniques, our protocol allows assessing cellular iron levels in innate immune cells without the use of radioactive iron isotopes or extensive sample preparation, exposing the cells to stress. Key features • Easy quantification of Fe 2+ in cultured macrophages with a fluorescent probe. • Analysis of iron in living cells without the need for fixation. • Performed on a plate reader capable of 540 nm excitation and 585 nm emission by trained employees for handling biosafety level 2 bacteria., Competing Interests: Competing interestsThe authors declare no conflicts of interest., (©Copyright : © 2024 The Authors; This is an open access article under the CC BY-NC license.)

Published

2024

10. Klebsiella pneumoniae manipulates human macrophages to acquire iron.

Author

Grubwieser P, Hilbe R, Gehrer CM, Grander M, Brigo N, Hoffmann A, Seifert M, Berger S, Theurl I, Nairz M, and Weiss G

Abstract

Background: Klebsiella pneumoniae (KP) is a major cause of hospital-acquired infections, such as pneumonia. Moreover, it is classified as a pathogen of concern due to sprawling anti-microbial resistance. During infection, the gram-negative pathogen is capable of establishing an intracellular niche in macrophages by altering cellular metabolism. One factor critically affecting the host-pathogen interaction is the availability of essential nutrients, like iron, which is required for KP to proliferate but which also modulates anti-microbial immune effector pathways. We hypothesized, that KP manipulates macrophage iron homeostasis to acquire this crucial nutrient for sustained proliferation., Methods: We applied an in-vitro infection model, in which human macrophage-like PMA-differentiated THP1 cells were infected with KP (strain ATCC 43816). During a 24-h course of infection, we quantified the number of intracellular bacteria via serial plating of cell lysates and evaluated the effects of different stimuli on intracellular bacterial numbers and iron acquisition. Furthermore, we analyzed host and pathogen specific gene and protein expression of key iron metabolism molecules., Results: Viable bacteria are recovered from macrophage cell lysates during the course of infection, indicative of persistence of bacteria within host cells and inefficient pathogen clearing by macrophages. Strikingly, following KP infection macrophages strongly induce the expression of the main cellular iron importer transferrin-receptor-1 (TFR1). Accordingly, intracellular KP proliferation is further augmented by the addition of iron loaded transferrin. The induction of TFR1 is mediated via the STAT-6-IL-10 axis, and pharmacological inhibition of this pathway reduces macrophage iron uptake, elicits bacterial iron starvation, and decreases bacterial survival., Conclusion: Our results suggest, that KP manipulates macrophage iron metabolism to acquire iron once confined inside the host cell and enforces intracellular bacterial persistence. This is facilitated by microbial mediated induction of TFR1 via the STAT-6-IL-10 axis. Mechanistic insights into immune metabolism will provide opportunities for the development of novel antimicrobial therapies., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Grubwieser, Hilbe, Gehrer, Grander, Brigo, Hoffmann, Seifert, Berger, Theurl, Nairz and Weiss.)

Published

2023

11. Advances in Ferritin Physiology and Possible Implications in Bacterial Infection.

Author

Gehrer CM, Mitterstiller AM, Grubwieser P, Meyron-Holtz EG, Weiss G, and Nairz M

Subjects

Humans, Iron metabolism, Reactive Oxygen Species metabolism, Nuclear Receptor Coactivators metabolism, Bacterial Infections, Ferritins metabolism

Abstract

Due to its advantageous redox properties, iron plays an important role in the metabolism of nearly all life. However, these properties are not only a boon but also the bane of such life forms. Since labile iron results in the generation of reactive oxygen species by Fenton chemistry, iron is stored in a relatively safe form inside of ferritin. Despite the fact that the iron storage protein ferritin has been extensively researched, many of its physiological functions are hitherto unresolved. However, research regarding ferritin's functions is gaining momentum. For example, recent major discoveries on its secretion and distribution mechanisms have been made as well as the paradigm-changing finding of intracellular compartmentalization of ferritin via interaction with nuclear receptor coactivator 4 (NCOA4). In this review, we discuss established knowledge as well as these new findings and the implications they may have for host-pathogen interaction during bacterial infection.

Published

2023

12. Pulmonary recovery from COVID-19 in patients with metabolic diseases: a longitudinal prospective cohort study.

Author

Sonnweber T, Grubwieser P, Pizzini A, Boehm A, Sahanic S, Luger A, Schwabl C, Widmann G, Egger A, Hoermann G, Wöll E, Puchner B, Kaser S, Theurl I, Nairz M, Tymoszuk P, Weiss G, Joannidis M, Löffler-Ragg J, and Tancevski I

Subjects

Humans, Prospective Studies, SARS-CoV-2, Lung diagnostic imaging, COVID-19 complications, Metabolic Diseases complications, Dyslipidemias complications

Abstract

The severity of coronavirus disease 2019 (COVID-19) is related to the presence of comorbidities including metabolic diseases. We herein present data from the longitudinal prospective CovILD trial, and investigate the recovery from COVID-19 in individuals with dysglycemia and dyslipidemia. A total of 145 COVID-19 patients were prospectively followed and a comprehensive clinical, laboratory and imaging assessment was performed at 60, 100, 180, and 360 days after the onset of COVID-19. The severity of acute COVID-19 and outcome at early post-acute follow-up were significantly related to the presence of dysglycemia and dyslipidemia. Still, at long-term follow-up, metabolic disorders were not associated with an adverse pulmonary outcome, as reflected by a good recovery of structural lung abnormalities in both, patients with and without metabolic diseases. To conclude, dyslipidemia and dysglycemia are associated with a more severe course of acute COVID-19 as well as delayed early recovery but do not impair long-term pulmonary recovery., (© 2023. The Author(s).)

Published

2023

13. Single-Center Experience in Detecting Influenza Virus, RSV and SARS-CoV-2 at the Emergency Department.

Author

Nairz M, Todorovic T, Gehrer CM, Grubwieser P, Burkert F, Zimmermann M, Trattnig K, Klotz W, Theurl I, Bellmann-Weiler R, and Weiss G

Subjects

Humans, SARS-CoV-2 genetics, Retrospective Studies, Emergency Service, Hospital, Influenza, Human diagnosis, Influenza, Human epidemiology, COVID-19 diagnosis, COVID-19 epidemiology, Respiratory Syncytial Virus, Human genetics, Orthomyxoviridae genetics

Abstract

Reverse transcription polymerase chain reaction (RT-PCR) on respiratory tract swabs has become the gold standard for sensitive and specific detection of influenza virus, respiratory syncytial virus (RSV) and severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). In this retrospective analysis, we report on the successive implementation and routine use of multiplex RT-PCR testing for patients admitted to the Internal Medicine Emergency Department (ED) at a tertiary care center in Western Austria, one of the hotspots in the early coronavirus disease 2019 (COVID-19) pandemic in Europe. Our description focuses on the use of the Cepheid ® Xpert ® Xpress closed RT-PCR system in point-of-care testing (POCT). Our indications for RT-PCR testing changed during the observation period: From the cold season 2016/2017 until the cold season 2019/2020, we used RT-PCR to diagnose influenza or RSV infection in patients with fever and/or respiratory symptoms. Starting in March 2020, we used the RT-PCR for SARS-CoV-2 and a multiplex version for the combined detection of all these three respiratory viruses to also screen subjects who did not present with symptoms of infection but needed in-hospital medical treatment for other reasons. Expectedly, the switch to a more liberal RT-PCR test strategy resulted in a substantial increase in the number of tests. Nevertheless, we observed an immediate decline in influenza virus and RSV detections in early 2020 that coincided with public SARS-CoV-2 containment measures. In contrast, the extensive use of the combined RT-PCR test enabled us to monitor the re-emergence of influenza and RSV detections, including asymptomatic cases, at the end of 2022 when COVID-19 containment measures were no longer in place. Our analysis of PCR results for respiratory viruses from a real-life setting at an ED provides valuable information on the epidemiology of those infections over several years, their contribution to morbidity and need for hospital admission, the risk for nosocomial introduction of such infection into hospitals from asymptomatic carriers, and guidance as to how general precautions and prophylactic strategies affect the dynamics of those infections.

Published

2023

14. Continuous Measurement of Reactive Oxygen Species Formation in Bacteria-infected Bone Marrow-derived Macrophages Using a Fluorescence Plate Reader.

Author

Brigo N, Grubwieser P, Theurl I, Nairz M, Weiss G, and Pfeifhofer-Obermair C

Abstract

Macrophages are at the center of innate immunity and are the main target cells of the intracellular pathogen Salmonella enterica serovar Typhi. The production of reactive oxygen and nitrogen species (ROS/RNS) is the host's early response to invading microbes, as oxidative stress is highly toxic for bacteria. Adequate ROS/RNS production in infected macrophages is critical for the clearance of intracellular pathogens; this is achieved by several enzymes, including inducible NADPH phagocyte oxidase (NOX) and nitric oxide synthase (iNOS), respectively. The pro-inflammatory cytokine interferon gamma (IFNγ), primarily produced by activated natural killer cells and T-helper cells type 1, is a potent inducer of iNOS. Therefore, it is crucial for infection control through oxidative microbicidal activity. To characterize the early oxidative stress response via ROS formation, which is critical for the reduction of Salmonella proliferation within macrophages, we established an in vitro model of murine macrophages infected with Salmonella enterica serovar Typhimurium ( S .tm). This serovar induces a systemic infection in mice that is frequently used as a model for typhoid fever, which, in human subjects, is caused by Salmonella Typhi. We generated bone marrow-derived macrophages (BMDM) from C57BL/6N wildtype mice using macrophage colony-stimulating factor (M-CSF) stimulation for six days. Thereafter, we infected BMDM with S. tm for one hour. Shortly before infection, cells were stained with CellROX TM Deep Red reagent. In its reduced form, CellROX TM is non-fluorescent. As a result of oxidation by ROS, this reagent exhibits strong fluorescence and persists within the cells. Subsequently, changes as a result of the oxidative stress response can be measured with a TECAN Spark microplate reader over time. We designed this protocol to measure oxidative stress in macrophages through the course of an infection with an intracellular bacterium. The protocol has several advantages over established techniques. First, it allows to continuously monitor and quantify ROS production in living cells from the very start of the infection to the final clearance of the intracellular pathogen. Second, this protocol enables efficient ROS detection without stressing the cells by detaching or staining procedures. Graphical abstract., Competing Interests: Competing interests The authors declare no conflicts of interest., (Copyright © 2023 The Authors; exclusive licensee Bio-protocol LLC.)

Published

2023

15. Severe anaemia, iron deficiency, and susceptibility to invasive bacterial infections.

Author

Abuga KM, Nairz M, MacLennan CA, and Atkinson SH

Abstract

Severe anaemia and invasive bacterial infections remain important causes of hospitalization and death among young African children. The emergence and spread of antimicrobial resistance demand better understanding of bacteraemia risk factors to inform prevention strategies. Epidemiological studies have reported an association between severe anaemia and bacteraemia. In this review, we explore evidence that severe anaemia is associated with increased risk of invasive bacterial infections in young children. We describe mechanisms of iron dysregulation in severe anaemia that might contribute to increased risk and pathogenesis of invasive bacteria, recent advances in knowledge of how iron deficiency and severe anaemia impair immune responses to bacterial infections and vaccines, and the gaps in our understanding of mechanisms underlying severe anaemia, iron deficiency, and the risk of invasive bacterial infections., Competing Interests: No competing interests were disclosed., (Copyright: © 2023 Abuga KM et al.)

Published

2023

16. Availability of Ferritin-Bound Iron to Enterobacteriaceae.

Author

Gehrer CM, Hoffmann A, Hilbe R, Grubwieser P, Mitterstiller AM, Talasz H, Fang FC, Meyron-Holtz EG, Atkinson SH, Weiss G, and Nairz M

Subjects

Cattle, Animals, Horses, Enterobacteriaceae, Salmonella typhimurium, Superoxide Dismutase metabolism, Escherichia coli metabolism, Mammals metabolism, Ferritins metabolism, Iron metabolism

Abstract

The sequestration of iron in case of infection, termed nutritional immunity, is an established strategy of host defense. However, the interaction between pathogens and the mammalian iron storage protein ferritin is hitherto not completely understood. To better characterize the function of ferritin in Gram-negative infections, we incubated iron-starved cultures of Salmonella Typhimurium and knockout mutant strains defective for major iron uptake pathways or Escherichia coli with horse spleen ferritin or ionic iron as the sole iron source. Additionally, we added bovine superoxide dismutase and protease inhibitors to the growth medium to assess the effect of superoxide and bacterial proteases, respectively, on Salmonella proliferation and reductive iron release. Compared to free ionic iron, ferritin-bound iron was less available to Salmonella , but was still sufficient to significantly enhance the growth of the bacteria. In the absence of various iron acquisition genes, the availability of ferritin iron further decreased. Supplementation with superoxide dismutase significantly reduced the growth of the Δ entC knockout strain with holoferritin as the sole iron source in comparison with ionic ferrous iron. In contrast, this difference was not observed in the wildtype strain, suggesting that superoxide dismutase undermines bacterial iron uptake from ferritin by siderophore-independent mechanisms. Ferritin seems to diminish iron availability for bacteria in comparison to ionic iron, and its iron sequestering effect could possibly be enhanced by host superoxide dismutase activity.

Published

2022

17. The amino acid sensor GCN2 controls red blood cell clearance and iron metabolism through regulation of liver macrophages.

Author

Toboz P, Amiri M, Tabatabaei N, Dufour CR, Kim SH, Fillebeen C, Ayemoba CE, Khoutorsky A, Nairz M, Shao L, Pajcini KV, Kim KW, Giguère V, Oliveira RL, Constante M, Santos MM, Morales CR, Pantopoulos K, Sonenberg N, Pinho S, and Tahmasebi S

Subjects

Activating Transcription Factor 4 metabolism, Anemia metabolism, Animals, Cytophagocytosis, Gene Deletion, Hemolysis, Hypoxia metabolism, Lysosomes metabolism, Mice, Mice, Knockout, NF-E2-Related Factor 2 metabolism, Stress, Physiological, Amino Acids deficiency, Amino Acids metabolism, Erythrocytes metabolism, Iron metabolism, Liver cytology, Macrophages metabolism, Protein Serine-Threonine Kinases deficiency, Protein Serine-Threonine Kinases genetics, Protein Serine-Threonine Kinases metabolism

Abstract

GCN2 (general control nonderepressible 2) is a serine/threonine-protein kinase that controls messenger RNA translation in response to amino acid availability and ribosome stalling. Here, we show that GCN2 controls erythrocyte clearance and iron recycling during stress. Our data highlight the importance of liver macrophages as the primary cell type mediating these effects. During different stress conditions, such as hemolysis, amino acid deficiency or hypoxia, GCN2 knockout ( GCN2 -/- ) mice displayed resistance to anemia compared with wild-type ( GCN2 +/+ ) mice. GCN2 -/- liver macrophages exhibited defective erythrophagocytosis and lysosome maturation. Molecular analysis of GCN2 -/- cells demonstrated that the ATF4-NRF2 pathway is a critical downstream mediator of GCN2 in regulating red blood cell clearance and iron recycling.

Published

2022

18. Hepcidin regulation in Kenyan children with severe malaria and non-typhoidal Salmonella bacteremia.

Author

Abuga KM, Muriuki JM, Uyoga SM, Mwai K, Makale J, Mogire RM, Macharia AW, Mohammed S, Muthumbi E, Mwarumba S, Mturi N, Bejon P, Scott JAG, Nairz M, Williams TN, and Atkinson SH

Subjects

Child, Ferritins, Hepcidins, Humans, Iron, Kenya epidemiology, Salmonella, Anemia complications, Bacteremia complications, Bacteremia microbiology, Malaria complications, Malaria, Falciparum complications

Abstract

Malaria and invasive non-typhoidal Salmonella (NTS) are life-threatening infections that often co-exist in African children. The iron-regulatory hormone hepcidin is highly upregulated during malaria and controls the availability of iron, a critical nutrient for bacterial growth. We investigated the relationship between Plasmodium falciparum malaria and NTS bacteremia in all pediatric admissions aged <5 years between August 1998 and October 2019 (n=75,034). We then assayed hepcidin and measures of iron status in five groups: (1) children with concomitant severe malarial anemia (SMA) and NTS (SMA+NTS, n=16); and in matched children with (2) SMA (n=33); (3) NTS (n=33); (4) cerebral malaria (CM, n=34); and (5) community-based children. SMA and severe anemia without malaria were associated with a 2-fold or more increased risk of NTS bacteremia, while other malaria phenotypes were not associated with increased NTS risk. Children with SMA had lower hepcidin/ferritin ratios (0.10; interquartile range [IQR]: 0.03-0.19) than those with CM (0.24; IQR: 0.14-0.69; P=0.006) or asymptomatic malaria (0.19; IQR: 0.09-0.46; P=0.01) indicating suppressed hepcidin levels. Children with SMA+NTS had lower hepcidin levels (9.3 ng/mL; IQR: 4.7-49.8) and hepcidin/ferritin ratios (0.03; IQR: 0.01-0.22) than those with NTS alone (105.8 ng/mL; IQR: 17.3-233.3; P=0.02 and 0.31; IQR: 0.06-0.66; P=0.007, respectively). Since hepcidin degrades ferroportin on the Salmonella-containing vacuole, we hypothesize that reduced hepcidin in children with SMA might contribute to NTS growth by modulating iron availability for bacterial growth. Further studies are needed to understand how the hepcidin-ferroportin axis might mediate susceptibility to NTS in severely anemic children.

Published

2022

19. The Impact of Iron Dyshomeostasis and Anaemia on Long-Term Pulmonary Recovery and Persisting Symptom Burden after COVID-19: A Prospective Observational Cohort Study.

Author

Sonnweber T, Grubwieser P, Sahanic S, Böhm AK, Pizzini A, Luger A, Schwabl C, Koppelstätter S, Kurz K, Puchner B, Sperner-Unterweger B, Hüfner K, Wöll E, Nairz M, Widmann G, Tancevski I, Löffler-Ragg J, and Weiss G

Abstract

Coronavirus disease 2019 (COVID-19) is frequently associated with iron dyshomeostasis. The latter is related to acute disease severity and COVID-19 convalescence. We herein describe iron dyshomeostasis at COVID-19 follow-up and its association with long-term pulmonary and symptomatic recovery. The prospective, multicentre, observational cohort study "Development of Interstitial Lung Disease (ILD) in Patients With Severe SARS-CoV-2 Infection (CovILD)" encompasses serial extensive clinical, laboratory, functional and imaging evaluations at 60, 100, 180 and 360 days after COVID-19 onset. We included 108 individuals with mild-to-critical acute COVID-19, whereas 75% presented with severe acute disease. At 60 days post-COVID-19 follow-up, hyperferritinaemia (35% of patients), iron deficiency (24% of the cohort) and anaemia (9% of the patients) were frequently found. Anaemia of inflammation (AI) was the predominant feature at early post-acute follow-up, whereas the anaemia phenotype shifted towards iron deficiency anaemia (IDA) and combinations of IDA and AI until the 360 days follow-up. The prevalence of anaemia significantly decreased over time, but iron dyshomeostasis remained a frequent finding throughout the study. Neither iron dyshomeostasis nor anaemia were related to persisting structural lung impairment, but both were associated with impaired stress resilience at long-term COVID-19 follow-up. To conclude, iron dyshomeostasis and anaemia are frequent findings after COVID-19 and may contribute to its long-term symptomatic outcome.

Published

2022

20. Airway Epithelial Cells Differentially Adapt Their Iron Metabolism to Infection With Klebsiella pneumoniae and Escherichia coli In Vitro .

Author

Grubwieser P, Hoffmann A, Hilbe R, Seifert M, Sonnweber T, Böck N, Theurl I, Weiss G, and Nairz M

Subjects

Epithelial Cells, Escherichia coli metabolism, Gram-Negative Bacteria metabolism, Humans, Iron metabolism, Klebsiella pneumoniae metabolism, Escherichia coli Infections, Klebsiella Infections microbiology, Pneumonia

Abstract

Background: Pneumonia is often elicited by bacteria and can be associated with a severe clinical course, respiratory failure and the need for mechanical ventilation. In the alveolus, type-2-alveolar-epithelial-cells (AECII) contribute to innate immune functions. We hypothesized that AECII actively adapt cellular iron homeostasis to restrict this essential nutrient from invading pathogens - a defense strategy termed 'nutritional immunity', hitherto mainly demonstrated for myeloid cells., Methods: We established an in-vitro infection model using the human AECII-like cell line A549. We infected cells with Klebsiella pneumoniae ( K. pneumoniae ) and Escherichia coli ( E. coli ), two gram-negative bacteria with different modes of infection and frequent causes of hospital-acquired pneumonia. We followed the entry and intracellular growth of these gram-negative bacteria and analyzed differential gene expression and protein levels of key inflammatory and iron metabolism molecules., Results: Both, K. pneumoniae and E. coli are able to invade A549 cells, whereas only K. pneumoniae is capable of proliferating intracellularly. After peak bacterial burden, the number of intracellular pathogens declines, suggesting that epithelial cells initiate antimicrobial immune effector pathways to combat bacterial proliferation. The extracellular pathogen E. coli induces an iron retention phenotype in A549 cells, mainly characterized by the downregulation of the pivotal iron exporter ferroportin, the upregulation of the iron importer transferrin-receptor-1 and corresponding induction of the iron storage protein ferritin. In contrast, cells infected with the facultative intracellular bacterium K. pneumoniae exhibit an iron export phenotype indicated by ferroportin upregulation. This differential regulation of iron homeostasis and the pathogen-specific inflammatory reaction is likely mediated by oxidative stress., Conclusion: AECII-derived A549 cells show pathogen-specific innate immune functions and adapt their iron handling in response to infection. The differential regulation of iron transporters depends on the preferential intra- or extracellular localization of the pathogen and likely aims at limiting bacterial iron availability., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Grubwieser, Hoffmann, Hilbe, Seifert, Sonnweber, Böck, Theurl, Weiss and Nairz.)

Published

2022

21. Quantity of IgG response to SARS-CoV-2 spike glycoprotein predicts pulmonary recovery from COVID-19.

Author

Nairz M, Sahanic S, Pizzini A, Böhm A, Tymoszuk P, Mitterstiller AM, von Raffay L, Grubwieser P, Bellmann-Weiler R, Koppelstätter S, Schroll A, Haschka D, Zimmermann M, Blunder S, Trattnig K, Naschberger H, Klotz W, Theurl I, Petzer V, Gehrer C, Mindur JE, Luger A, Schwabl C, Widmann G, Weiss G, Löffler-Ragg J, Tancevski I, and Sonnweber T

Subjects

COVID-19 pathology, Female, Humans, Male, Middle Aged, Patient Acuity, Prospective Studies, Respiratory Function Tests, Reverse Transcriptase Polymerase Chain Reaction, COVID-19 immunology, Immunoglobulin G immunology, Lung pathology, Spike Glycoprotein, Coronavirus immunology

Abstract

The CovILD study is a prospective, multicenter, observational cohort study to systematically follow up patients after coronavirus disease-2019 (COVID-19). We extensively evaluated 145 COVID-19 patients at 3 follow-up visits scheduled for 60, 100, and 180 days after initial confirmed diagnosis based on typical symptoms and a positive reverse transcription-polymerase chain reaction (RT-PCR) for severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2). We employed comprehensive pulmonary function and laboratory tests, including serum concentrations of IgG against the viral spike (S) glycoprotein, and compared the results to clinical data and chest computed tomography (CT). We found that at the 60 day follow-up, 131 of 145 (90.3%) participants displayed S-specific serum IgG levels above the cut-off threshold. Notably, the highly elevated IgG levels against S glycoprotein positively correlated with biomarkers of immune activation and negatively correlated with pulmonary function and the extent of pulmonary CT abnormalities. Based on the association between serum S glycoprotein-specific IgG and clinical outcome, we generated an S-specific IgG-based recovery score that, when applied in the early convalescent phase, accurately predicted delayed pulmonary recovery after COVID-19. Therefore, we propose that S-specific IgG levels serve as a useful immunological surrogate marker for identifying at-risk individuals with persistent pulmonary injury who may require intensive follow-up care after COVID-19., (© 2022. The Author(s).)

Published

2022

22. Investigating phenotypes of pulmonary COVID-19 recovery: A longitudinal observational prospective multicenter trial.

Author

Sonnweber T, Tymoszuk P, Sahanic S, Boehm A, Pizzini A, Luger A, Schwabl C, Nairz M, Grubwieser P, Kurz K, Koppelstätter S, Aichner M, Puchner B, Egger A, Hoermann G, Wöll E, Weiss G, Widmann G, Tancevski I, and Löffler-Ragg J

Subjects

Adult, Aged, COVID-19 epidemiology, COVID-19 rehabilitation, Female, Follow-Up Studies, Humans, Intensive Care Units, Logistic Models, Longitudinal Studies, Lung Diseases diagnosis, Male, Middle Aged, Phenotype, Prospective Studies, Risk Factors, SARS-CoV-2, Tomography, X-Ray Computed methods, COVID-19 therapy, Lung Diseases epidemiology, Lung Diseases physiopathology

Abstract

Background: The optimal procedures to prevent, identify, monitor, and treat long-term pulmonary sequelae of COVID-19 are elusive. Here, we characterized the kinetics of respiratory and symptom recovery following COVID-19., Methods: We conducted a longitudinal, multicenter observational study in ambulatory and hospitalized COVID-19 patients recruited in early 2020 (n = 145). Pulmonary computed tomography (CT) and lung function (LF) readouts, symptom prevalence, and clinical and laboratory parameters were collected during acute COVID-19 and at 60, 100, and 180 days follow-up visits. Recovery kinetics and risk factors were investigated by logistic regression. Classification of clinical features and participants was accomplished by unsupervised and semi-supervised multiparameter clustering and machine learning., Results: At the 6-month follow-up, 49% of participants reported persistent symptoms. The frequency of structural lung CT abnormalities ranged from 18% in the mild outpatient cases to 76% in the intensive care unit (ICU) convalescents. Prevalence of impaired LF ranged from 14% in the mild outpatient cases to 50% in the ICU survivors. Incomplete radiological lung recovery was associated with increased anti-S1/S2 antibody titer, IL-6, and CRP levels at the early follow-up. We demonstrated that the risk of perturbed pulmonary recovery could be robustly estimated at early follow-up by clustering and machine learning classifiers employing solely non-CT and non-LF parameters., Conclusions: The severity of acute COVID-19 and protracted systemic inflammation is strongly linked to persistent structural and functional lung abnormality. Automated screening of multiparameter health record data may assist in the prediction of incomplete pulmonary recovery and optimize COVID-19 follow-up management., Funding: The State of Tyrol (GZ 71934), Boehringer Ingelheim/Investigator initiated study (IIS 1199-0424)., Clinical Trial Number: ClinicalTrials.gov: NCT04416100., Competing Interests: TS, SS, AB, AP, AL, CS, MN, PG, KK, SK, MA, BP, AE, GH, EW, GW, GW, IT, JL No competing interests declared, PT owns his own business, Data Analytics as a Service Tirol, for which he performs freelance data science work. Has also received an honorarium for the study data management, curation and analysis and minor manuscript work. The author has no other competing interests to declare, (© 2022, Sonnweber et al.)

Published

2022

23. Cell-specific expression of Hfe determines the outcome of Salmonella enterica serovar Typhimurium infection in mice

Author

Nairz M, Metzendorf C, Vujic-Spasic M, Mitterstiller AM, Schroll A, Haschka D, Hoffmann A, Von Raffay L, Sparla R, Huck CW, Talasz H, Moser PL, Muckenthaler MU, and Weiss G

Subjects

Animals, Hemochromatosis Protein genetics, Mice, Mice, Knockout, Salmonella typhimurium genetics, Serogroup, Hemochromatosis, Salmonella Infections genetics

Abstract

Mutations in HFE cause hereditary hemochromatosis type I hallmarked by increased iron absorption, iron accumulation in hepatocytes and iron deficiency in myeloid cells. HFE encodes an MHC-I like molecule, but its function in immune responses to infection remains incompletely understood. Here, we investigated putative roles of Hfe in myeloid cells and hepatocytes, separately, upon infection with Salmonella Typhimurium, an intracellular bacterium with iron-dependent virulence. We found that constitutive and macrophage-specific deletion of Hfe protected infected mice. The propagation of Salmonella in macrophages was reduced due to limited intramacrophage iron availability for bacterial growth and increased expression of the anti-microbial enzyme nitric oxide synthase-2. By contrast, mice with hepatocyte-specific deletion of Hfe succumbed earlier to Salmonella infection because of unrestricted extracellular bacterial replication associated with high iron availability in the serum and impaired expression of essential host defense molecules such as interleukin-6, interferon-γ and nitric oxide synthase-2. Wild-type mice subjected to dietary iron overload phenocopied hepatocyte-specific Hfe deficiency suggesting that increased iron availability in the serum is deleterious in Salmonella infection and underlies impaired host immune responses. Moreover, the macrophage-specific effect is dominant over hepatocyte-specific Hfe-depletion, as Hfe knock-out mice have increased survival despite the higher parenchymal iron load associated with systemic loss of Hfe. We conclude that cell-specific expression of Hfe in hepatocytes and macrophages differentially affects the course of infections with specific pathogens by determining bacterial iron access and the efficacy of anti-microbial immune effector pathways. This may explain the high frequency and evolutionary conservation of human HFE mutations.

Published

2021

24. Baseline iron status and presence of anaemia determine the course of systemic Salmonella infection following oral iron supplementation in mice.

Author

Hoffmann A, Haschka D, Valente de Souza L, Tymoszuk P, Seifert M, von Raffay L, Hilbe R, Petzer V, Moser PL, Nairz M, and Weiss G

Subjects

Anemia, Iron-Deficiency blood, Anemia, Iron-Deficiency complications, Animals, Bacteremia blood, Bacteremia pathology, Bacterial Load, Iron administration & dosage, Iron adverse effects, Male, Mice, Mice, Inbred C57BL, Salmonella Infections blood, Salmonella Infections pathology, Anemia, Iron-Deficiency drug therapy, Bacteremia complications, Iron blood, Salmonella Infections complications

Abstract

Background: Iron deficiency anaemia (IDA) is a major health concern. However, preventive iron supplementation in regions with high burden of infectious diseases resulted in an increase of infection related morbidity and mortality., Methods: We fed male C57BL/6N mice with either an iron deficient or an iron adequate diet. Next, they received oral iron supplementation or placebo followed by intraperitoneal infection with Salmonella Typhimurium (S.Tm)., Findings: We found that mice with IDA had a poorer clinical outcome than mice on an iron adequate diet. Interestingly, iron supplementation of IDA mice resulted in higher bacterial burden in organs and shortened survival. Increased transferrin saturation and non-transferrin bound iron in the circulation together with low expression of ferroportin facilitated the access of the pathogen to iron and promoted bacterial growth. Anaemia, independent of iron supplementation, was correlated with reduced neutrophil counts and cytotoxic T cells. With iron supplementation, anaemia additionally correlated with increased splenic levels of the cytokine IL-10, which is suggestive for a weakened immune control to S.Tm infection., Interpretation: Supplementing iron to anaemic mice worsens the clinical course of bacterial infection. This can be traced back to increased iron delivery to bacteria along with an impaired anti-microbial immune response. Our findings may have important implications for iron supplementation strategies in areas with high endemic burden of infections, putting those individuals, who potentially profit most from iron supplementation for anaemia, at the highest risk for infections., Funding: Financial support by the Christian Doppler Laboratory for Iron Metabolism and Anemia Research., Competing Interests: Declaration of Competing Interest The authors declare that they have no conflict of interest., (Copyright © 2021 The Author(s). Published by Elsevier B.V. All rights reserved.)

Published

2021

25. Pharmacological Targeting of BMP6-SMAD Mediated Hepcidin Expression Does Not Improve the Outcome of Systemic Infections With Intra-Or Extracellular Gram-Negative Bacteria in Mice.

Author

Hoffmann A, de Souza LV, Seifert M, von Raffay L, Haschka D, Grubwieser P, Grander M, Mitterstiller AM, Nairz M, Poli M, and Weiss G

Subjects

Animals, Iron, Male, Mice, Mice, Inbred C57BL, Bone Morphogenetic Protein 6 metabolism, Gram-Negative Bacteria pathogenicity, Hepcidins, Sepsis drug therapy, Smad Proteins metabolism

Abstract

Introduction: Hepcidin is the systemic master regulator of iron metabolism as it degrades the cellular iron exporter ferroportin. In bacterial infections, hepcidin is upregulated to limit circulating iron for pathogens, thereby increasing iron retention in macrophages. This mechanism withholds iron from extracellular bacteria but could be of disadvantage in infections with intracellular bacteria. We aimed to understand the role of hepcidin in infections with intra- or extracellular bacteria using different hepcidin inhibitors., Methods: For the experiments LDN-193189 and oversulfated heparins were used, which interact with the BMP6-SMAD pathway thereby inhibiting hepcidin expression. We infected male C57BL/6N mice with either the intracellular bacterium Salmonella Typhimurium or the extracellular bacterium Escherichia coli and treated these mice with the different hepcidin inhibitors., Results: Both inhibitors effectively reduced hepcidin levels in vitro under steady state conditions and upon stimulation with the inflammatory signals interleukin-6 or lipopolysaccharide. The inhibitors also reduced hepcidin levels and increased circulating iron concentration in uninfected mice. However, both compounds failed to decrease liver- and circulating hepcidin levels in infected mice and did not affect ferroportin expression in the spleen or impact on serum iron levels. Accordingly, both BMP-SMAD signaling inhibitors did not influence bacterial numbers in different organs in the course of E.coli or S.Tm sepsis., Conclusion: These data indicate that targeting the BMP receptor or the BMP-SMAD pathway is not sufficient to suppress hepcidin expression in the course of infection with both intra- or extracellular bacteria. This suggests that upon pharmacological inhibition of the central SMAD-BMP pathways during infection, other signaling cascades are compensatorily induced to ensure sufficient hepcidin formation and iron restriction to circulating microbes., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Hoffmann, de Souza, Seifert, von Raffay, Haschka, Grubwieser, Grander, Mitterstiller, Nairz, Poli and Weiss.)

Published

2021

26. Ferritin H deficiency deteriorates cellular iron handling and worsens Salmonella typhimurium infection by triggering hyperinflammation.

Author

Haschka D, Tymoszuk P, Petzer V, Hilbe R, Heeke S, Dichtl S, Skvortsov S, Demetz E, Berger S, Seifert M, Mitterstiller AM, Moser P, Bumann D, Nairz M, Theurl I, and Weiss G

Subjects

Animals, Immunity, Innate, Inflammasomes metabolism, Interleukin-1beta immunology, Mice, Mice, Inbred C57BL, NF-kappa B metabolism, Signal Transduction immunology, Apoferritins deficiency, Apoferritins metabolism, Disease Susceptibility metabolism, Inflammation metabolism, Inflammation microbiology, Iron immunology, Iron metabolism, Macrophages immunology, Macrophages metabolism, Macrophages microbiology, Salmonella Infections immunology, Salmonella Infections metabolism, Salmonella typhimurium immunology

Abstract

Iron is an essential nutrient for mammals as well as for pathogens. Inflammation-driven changes in systemic and cellular iron homeostasis are central for host-mediated antimicrobial strategies. Here, we studied the role of the iron storage protein ferritin H (FTH) for the control of infections with the intracellular pathogen Salmonella enterica serovar Typhimurium by macrophages. Mice lacking FTH in the myeloid lineage (LysM-Cre+/+Fthfl/fl mice) displayed impaired iron storage capacities in the tissue leukocyte compartment, increased levels of labile iron in macrophages, and an accelerated macrophage-mediated iron turnover. While under steady-state conditions, LysM-Cre+/+Fth+/+ and LysM-Cre+/+Fthfl/fl animals showed comparable susceptibility to Salmonella infection, i.v. iron supplementation drastically shortened survival of LysM-Cre+/+Fthfl/fl mice. Mechanistically, these animals displayed increased bacterial burden, which contributed to uncontrolled triggering of NF-κB and inflammasome signaling and development of cytokine storm and death. Importantly, pharmacologic inhibition of the inflammasome and IL-1β pathways reduced cytokine levels and mortality and partly restored infection control in iron-treated ferritin-deficient mice. These findings uncover incompletely characterized roles of ferritin and cellular iron turnover in myeloid cells in controlling bacterial spread and for modulating NF-κB and inflammasome-mediated cytokine activation, which may be of vital importance in iron-overloaded individuals suffering from severe infections and sepsis.

Published

2021

27. Regulation of Th1 T Cell Differentiation by Iron via Upregulation of T Cell Immunoglobulin and Mucin Containing Protein-3 (TIM-3).

Author

Pfeifhofer-Obermair C, Tymoszuk P, Nairz M, Schroll A, Klais G, Demetz E, Engl S, Brigo N, and Weiss G

Subjects

Animals, Cell Differentiation, Cells, Cultured, Dietary Supplements, Disease Models, Animal, Hepatitis A Virus Cellular Receptor 2 genetics, Humans, Interferon-gamma metabolism, Lymphocyte Activation, Mice, Up-Regulation, Hepatitis A Virus Cellular Receptor 2 metabolism, Iron metabolism, Salmonella typhi physiology, Th1 Cells immunology, Typhoid Fever immunology

Abstract

Iron plays an important role in host-pathogen interactions, in being an essential element for both pathogen and host metabolism, but also by impacting immune cell differentiation and anti-microbial effector pathways. Iron has been implicated to affect the differentiation of T lymphocytes during inflammation, however, so far the underlying mechanism remained elusive. In order to study the role of iron in T cell differentiation we here investigated how dietary iron supplementation affects T cell function and outcome in a model of chronic infection with the intracellular bacterium Salmonella enterica serovar typhimurium ( S. Typhimurium ). Iron loading prior to infection fostered bacterial burden and, unexpectedly, reduced differentiation of CD4 + T helper cells type 1 (Th1) and expression of interferon-gamma (IFNγ), a key cytokine to control infections with intracellular pathogens. This effect could be traced back to iron-mediated induction of the negative immune checkpoint regulator T cell immunoglobulin and mucin domain-containing protein 3 (TIM-3), expressed on the surface of this T cell subset. In vitro experiments demonstrated that iron supplementation specifically upregulated mRNA and protein expression of TIM-3 in naïve Th cells in a dose-depdendent manner and hindered priming of those T cells towards Th1 differentiation. Importantly, administration of TIM-3 blocking antibodies to iron-loaded mice infected with S. Typhimurium virtually restored Th1 cell differentiation and significantly improved bacterial control. Our data uncover a novel mechanism by which iron modulates CD4 + cell differentiation and functionality and hence impacts infection control with intracellular pathogens. Specifically, iron inhibits the differentiation of naive CD4 + T cells to protective IFNγ producing Th1 lymphocytes via stimulation of TIM-3 expression. Finally, TIM-3 may serve as a novel drug target for the treatment of chronic infections with intracellular pathogens, specifically in iron loading diseases., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Pfeifhofer-Obermair, Tymoszuk, Nairz, Schroll, Klais, Demetz, Engl, Brigo and Weiss.)

Published

2021

28. Cardiopulmonary recovery after COVID-19: an observational prospective multicentre trial.

Author

Sonnweber T, Sahanic S, Pizzini A, Luger A, Schwabl C, Sonnweber B, Kurz K, Koppelstätter S, Haschka D, Petzer V, Boehm A, Aichner M, Tymoszuk P, Lener D, Theurl M, Lorsbach-Köhler A, Tancevski A, Schapfl A, Schaber M, Hilbe R, Nairz M, Puchner B, Hüttenberger D, Tschurtschenthaler C, Aßhoff M, Peer A, Hartig F, Bellmann R, Joannidis M, Gollmann-Tepeköylü C, Holfeld J, Feuchtner G, Egger A, Hoermann G, Schroll A, Fritsche G, Wildner S, Bellmann-Weiler R, Kirchmair R, Helbok R, Prosch H, Rieder D, Trajanoski Z, Kronenberg F, Wöll E, Weiss G, Widmann G, Löffler-Ragg J, and Tancevski I

Subjects

Humans, Lung diagnostic imaging, Prospective Studies, SARS-CoV-2, COVID-19, Pulmonary Fibrosis

Abstract

Background: After the 2002/2003 severe acute respiratory syndrome outbreak, 30% of survivors exhibited persisting structural pulmonary abnormalities. The long-term pulmonary sequelae of coronavirus disease 2019 (COVID-19) are yet unknown, and comprehensive clinical follow-up data are lacking., Methods: In this prospective, multicentre, observational study, we systematically evaluated the cardiopulmonary damage in subjects recovering from COVID-19 at 60 and 100 days after confirmed diagnosis. We conducted a detailed questionnaire, clinical examination, laboratory testing, lung function analysis, echocardiography and thoracic low-dose computed tomography (CT)., Results: Data from 145 COVID-19 patients were evaluated, and 41% of all subjects exhibited persistent symptoms 100 days after COVID-19 onset, with dyspnoea being most frequent (36%). Accordingly, patients still displayed an impaired lung function, with a reduced diffusing capacity in 21% of the cohort being the most prominent finding. Cardiac impairment, including a reduced left ventricular function or signs of pulmonary hypertension, was only present in a minority of subjects. CT scans unveiled persisting lung pathologies in 63% of patients, mainly consisting of bilateral ground-glass opacities and/or reticulation in the lower lung lobes, without radiological signs of pulmonary fibrosis. Sequential follow-up evaluations at 60 and 100 days after COVID-19 onset demonstrated a vast improvement of symptoms and CT abnormalities over time., Conclusion: A relevant percentage of post-COVID-19 patients presented with persisting symptoms and lung function impairment along with radiological pulmonary abnormalities >100 days after the diagnosis of COVID-19. However, our results indicate a significant improvement in symptoms and cardiopulmonary status over time., Competing Interests: Conflict of interest: T. Sonnweber has nothing to disclose. Conflict of interest: S. Sahanic has nothing to disclose. Conflict of interest: A. Pizzini has nothing to disclose. Conflict of interest: A. Luger has nothing to disclose. Conflict of interest: C. Schwabl has nothing to disclose. Conflict of interest: B. Sonnweber has nothing to disclose. Conflict of interest: K. Kurz has nothing to disclose. Conflict of interest: S. Koppelstätter has nothing to disclose. Conflict of interest: D. Haschka has nothing to disclose. Conflict of interest: V. Petzer has nothing to disclose. Conflict of interest: A. Boehm has nothing to disclose. Conflict of interest: M. Aichner has nothing to disclose. Conflict of interest: P. Tymoszuk has nothing to disclose. Conflict of interest: D. Lener has nothing to disclose. Conflict of interest: M. Theurl has nothing to disclose. Conflict of interest: A. Lorsbach-Köhler has nothing to disclose. Conflict of interest: A. Tancevski has nothing to disclose. Conflict of interest: A. Schapfl has nothing to disclose. Conflict of interest: M. Schaber has nothing to disclose. Conflict of interest: R. Hilbe has nothing to disclose. Conflict of interest: M. Nairz has nothing to disclose. Conflict of interest: B. Puchner has nothing to disclose. Conflict of interest: D. Hüttenberger has nothing to disclose. Conflict of interest: C. Tschurtschenthaler has nothing to disclose. Conflict of interest: M. Aßhoff has nothing to disclose. Conflict of interest: A. Peer has nothing to disclose. Conflict of interest: F. Hartig has nothing to disclose. Conflict of interest: R. Bellmann has nothing to disclose. Conflict of interest: M. Joannidis has nothing to disclose. Conflict of interest: C. Gollmann-Tepeköylü has nothing to disclose. Conflict of interest: J. Holfeld has nothing to disclose. Conflict of interest: G. Feuchtner has nothing to disclose. Conflict of interest: A. Egger has nothing to disclose. Conflict of interest: G. Hoermann has nothing to disclose. Conflict of interest: A. Schroll has nothing to disclose. Conflict of interest: G. Fritsche has nothing to disclose. Conflict of interest: S. Wildner has nothing to disclose. Conflict of interest: R. Bellmann-Weiler has nothing to disclose. Conflict of interest: R. Kirchmair has nothing to disclose. Conflict of interest: R. Helbok has nothing to disclose. Conflict of interest: H. Prosch has nothing to disclose. Conflict of interest: D. Rieder has nothing to disclose. Conflict of interest: Z. Trajanoski has nothing to disclose. Conflict of interest: F. Kronenberg has nothing to disclose. Conflict of interest: E. Wöll has nothing to disclose. Conflict of interest: G. Weiss has nothing to disclose. Conflict of interest: G. Widmann has nothing to disclose. Conflict of interest: J. Löffler-Ragg has nothing to disclose. Conflict of interest: I. Tancevski reports an Investigator Initiated Study (IIS) grant from Boehringer Ingelheim (IIS 1199-0424)., (Copyright ©ERS 2021.)

Published

2021

29. TAM-ing the CIA-Tumor-Associated Macrophages and Their Potential Role in Unintended Side Effects of Therapeutics for Cancer-Induced Anemia.

Author

Weiler S and Nairz M

Abstract

Cancer-induced anemia (CIA) is a common consequence of neoplasia and has a multifactorial pathophysiology. The immune response and tumor treatment, both intended to primarily target malignant cells, also affect erythropoiesis in the bone marrow. In parallel, immune activation inevitably induces the iron-regulatory hormone hepcidin to direct iron fluxes away from erythroid progenitors and into compartments of the mononuclear phagocyte system. Moreover, many inflammatory mediators inhibit the synthesis of erythropoietin, which is essential for stimulation and differentiation of erythroid progenitor cells to mature cells ready for release into the blood stream. These pathophysiological hallmarks of CIA imply that the bone marrow is not only deprived of iron as nutrient but also of erythropoietin as central growth factor for erythropoiesis. Tumor-associated macrophages (TAM) are present in the tumor microenvironment and display altered immune and iron phenotypes. On the one hand, their functions are altered by adjacent tumor cells so that they promote rather than inhibit the growth of malignant cells. As consequences, TAM may deliver iron to tumor cells and produce reduced amounts of cytotoxic mediators. Furthermore, their ability to stimulate adaptive anti-tumor immune responses is severely compromised. On the other hand, TAM are potential off-targets of therapeutic interventions against CIA. Red blood cell transfusions, intravenous iron preparations, erythropoiesis-stimulating agents and novel treatment options for CIA may interfere with TAM function and thus exhibit secondary effects on the underlying malignancy. In this Hypothesis and Theory, we summarize the pathophysiological hallmarks, clinical implications and treatment strategies for CIA. Focusing on TAM, we speculate on the potential intended and unintended effects that therapeutic options for CIA may have on the innate immune response and, consequently, on the course of the underlying malignancy., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Weiler and Nairz.)

Published

2021

30. Overcoming limitations in the availability of swabs systems used for SARS-CoV-2 laboratory diagnostics.

Author

Nairz M, Bellmann-Weiler R, Ladstätter M, Schüllner F, Zimmermann M, Koller AM, Blunder S, Naschberger H, Klotz W, Herold M, Kerndler S, Jeske M, Haschka D, Petzer V, Schroll A, Sonnweber T, Tancevski I, Fritsche G, de Araujo MEG, Stasyk T, Huber LA, Griesmacher A, Theurl I, and Weiss G

Subjects

COVID-19 Nucleic Acid Testing methods, Clinical Laboratory Techniques, Diagnostic Tests, Routine, Genes, Viral, Humans, Molecular Diagnostic Techniques methods, Quality Control, RNA, Viral analysis, Reproducibility of Results, Resource Allocation, Specimen Handling, COVID-19 diagnosis, COVID-19 Nucleic Acid Testing instrumentation, Disposable Equipment supply & distribution, Molecular Diagnostic Techniques instrumentation, SARS-CoV-2 isolation & purification

Abstract

The diagnosis of COVID-19 relies on the direct detection of SARS-CoV-2 RNA in respiratory specimens by RT-PCR. The pandemic spread of the disease caused an imbalance between demand and supply of materials and reagents needed for diagnostic purposes including swab sets. In a comparative effectiveness study, we conducted serial follow-up swabs in hospitalized laboratory-confirmed COVID-19 patients. We assessed the diagnostic performance of an in-house system developed according to recommendations by the US CDC. In a total of 96 serial swabs, we found significant differences in the accuracy of the different swab systems to generate a positive result in SARS-CoV-2 RT-PCR, ranging from around 50 to 80%. Of note, an in-house swab system was superior to most commercially available sets as reflected by significantly lower Ct values of viral genes. Thus, a simple combination of broadly available materials may enable diagnostic laboratories to bypass global limitations in the supply of swab sets.

Published

2021

31. Risk assessment in precapillary pulmonary hypertension: a comparative analysis.

Author

Sonnweber T, Schneider EM, Nairz M, Theurl I, Weiss G, Tymoszuk P, and Löffler-Ragg J

Subjects

Aged, Aged, 80 and over, Cohort Studies, Female, Follow-Up Studies, Humans, Hypertension, Pulmonary mortality, Longitudinal Studies, Male, Middle Aged, Mortality trends, Retrospective Studies, Risk Assessment, Capillaries diagnostic imaging, Capillaries physiopathology, Hypertension, Pulmonary diagnostic imaging, Hypertension, Pulmonary physiopathology

Abstract

Background: Risk stratification is essential to assess mortality risk and guide treatment in patients with precapillary pulmonary hypertension (PH). We herein compared the accuracy of different currently used PH risk stratification tools and evaluated the significance of particular risk parameters., Methods: We conducted a retrospective longitudinal observational cohort study evaluating seven different risk assessment approaches according to the current PH guidelines. A comprehensive assessment including multi-parametric risk stratification was performed at baseline and 4 yearly follow-up time-points. Multi-step Cox hazard analysis was used to analyse and refine risk prediction., Results: Various available risk models effectively predicted mortality in patients with precapillary pulmonary hypertension. Right-heart catheter parameters were not essential for risk prediction. Contrary, non-invasive follow-up re-evaluations significantly improved the accuracy of risk estimations. A lack of accuracy of various risk models was found in the intermediate- and high-risk classes. For these patients, an additional evaluation step including assessment of age and right atrium area improved risk prediction significantly., Discussion: Currently used abbreviated versions of the ESC/ERS risk assessment tool, as well as the REVEAL 2.0 and REVEAL Lite 2 based risk stratification, lack accuracy to predict mortality in intermediate- and high-risk precapillary pulmonary hypertension patients. An expanded non-invasive evaluation improves mortality risk prediction in these individuals.

Published

2021

32. Iron Supplementation Interferes With Immune Therapy of Murine Mammary Carcinoma by Inhibiting Anti-Tumor T Cell Function.

Author

Tymoszuk P, Nairz M, Brigo N, Petzer V, Heeke S, Kircher B, Hermann-Kleiter N, Klepsch V, Theurl I, Weiss G, and Pfeifhofer-Obermair C

Abstract

Iron is both, an essential compound for many metabolic processes, and iron deficiency can impact on the proliferation of cells including lymphocytes but also tumor cells. On the other hand, excess iron-catalyzed radical formation can induce cellular toxicity which has been previously demonstrated for T cells in hereditary iron overload. Despite these interconnections, little is known on the effects of clinically approved intravenous iron supplements for curing cancer-related anemia, on T cell differentiation, tumor proliferation, anti-tumor T cell responses and, of clinical importance, on efficacy of cancer immunotherapies. Herein, we analyzed the effects of intravenous iron supplementation on T cell function and on the effectiveness of anti-cancer chemotherapy with IL-2/doxorubicin or immunotherapy with checkpoint-inhibitor anti-PD-L1 in C57Bl/6N female mice with implanted E0771 mammary carcinomas. We found that iron application resulted to an increased availability of iron in the tumor microenvironment and stimulation of tumor growth. In parallel, iron application inhibited the activation, expansion and survival of cytotoxic CD8 + T cells and of CD4 + T helper cells type 1 and significantly reduced the efficacy of the investigated anti-cancer treatments. Our results indicate that iron administration has a tumor growth promoting effect and impairs anti-cancer responses of tumor infiltrating T lymphocytes along with a reduced efficacy of anti-cancer therapies. Iron supplementation in cancer patients, especially in those treated with immunotherapies in a curative setting, may be thus used cautiously and prospective studies have to clarify the impact of such intervention on the outcome of patients., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Tymoszuk, Nairz, Brigo, Petzer, Heeke, Kircher, Hermann-Kleiter, Klepsch, Theurl, Weiss and Pfeifhofer-Obermair.)

Published

2020

33. Persisting alterations of iron homeostasis in COVID-19 are associated with non-resolving lung pathologies and poor patients' performance: a prospective observational cohort study.

Author

Sonnweber T, Boehm A, Sahanic S, Pizzini A, Aichner M, Sonnweber B, Kurz K, Koppelstätter S, Haschka D, Petzer V, Hilbe R, Theurl M, Lehner D, Nairz M, Puchner B, Luger A, Schwabl C, Bellmann-Weiler R, Wöll E, Widmann G, Tancevski I, Judith-Löffler-Ragg, and Weiss G

Subjects

Adult, Aged, Anemia etiology, C-Reactive Protein analysis, COVID-19, Cohort Studies, Coronavirus Infections physiopathology, Female, Ferritins blood, Follow-Up Studies, Humans, Inflammation etiology, Inflammation metabolism, Interleukin-6 blood, Lung Diseases physiopathology, Male, Middle Aged, Monocytes metabolism, Pandemics, Pneumonia, Viral physiopathology, Prospective Studies, Tomography, X-Ray Computed, Coronavirus Infections complications, Coronavirus Infections metabolism, Homeostasis, Iron metabolism, Lung Diseases etiology, Lung Diseases metabolism, Pneumonia, Viral complications, Pneumonia, Viral metabolism

Abstract

Background: Severe coronavirus disease 2019 (COVID-19) is frequently associated with hyperinflammation and hyperferritinemia. The latter is related to increased mortality in COVID-19. Still, it is not clear if iron dysmetabolism is mechanistically linked to COVID-19 pathobiology., Methods: We herein present data from the ongoing prospective, multicentre, observational CovILD cohort study (ClinicalTrials.gov number, NCT04416100), which systematically follows up patients after COVID-19. 109 participants were evaluated 60 days after onset of first COVID-19 symptoms including clinical examination, chest computed tomography and laboratory testing., Results: We investigated subjects with mild to critical COVID-19, of which the majority received hospital treatment. 60 days after disease onset, 30% of subjects still presented with iron deficiency and 9% had anemia, mostly categorized as anemia of inflammation. Anemic patients had increased levels of inflammation markers such as interleukin-6 and C-reactive protein and survived a more severe course of COVID-19. Hyperferritinemia was still present in 38% of all individuals and was more frequent in subjects with preceding severe or critical COVID-19. Analysis of the mRNA expression of peripheral blood mononuclear cells demonstrated a correlation of increased ferritin and cytokine mRNA expression in these patients. Finally, persisting hyperferritinemia was significantly associated with severe lung pathologies in computed tomography scans and a decreased performance status as compared to patients without hyperferritinemia., Discussion: Alterations of iron homeostasis can persist for at least two months after the onset of COVID-19 and are closely associated with non-resolving lung pathologies and impaired physical performance. Determination of serum iron parameters may thus be a easy to access measure to monitor the resolution of COVID-19., Trial Registration: ClinicalTrials.gov number: NCT04416100.

Published

2020

34. The haemochromatosis gene Hfe and Kupffer cells control LDL cholesterol homeostasis and impact on atherosclerosis development.

Author

Demetz E, Tymoszuk P, Hilbe R, Volani C, Haschka D, Heim C, Auer K, Lener D, Zeiger LB, Pfeifhofer-Obermair C, Boehm A, Obermair GJ, Ablinger C, Coassin S, Lamina C, Kager J, Petzer V, Asshoff M, Schroll A, Nairz M, Dichtl S, Seifert M, von Raffay L, Fischer C, Barros-Pinkelnig M, Brigo N, Valente de Souza L, Sopper S, Hirsch J, Graber M, Gollmann-Tepeköylü C, Holfeld J, Halper J, Macheiner S, Gostner J, Vogel GF, Pechlaner R, Moser P, Imboden M, Marques-Vidal P, Probst-Hensch NM, Meiselbach H, Strauch K, Peters A, Paulweber B, Willeit J, Kiechl S, Kronenberg F, Theurl I, Tancevski I, and Weiss G

Subjects

Animals, Cholesterol, LDL, Clustered Regularly Interspaced Short Palindromic Repeats, Genome-Wide Association Study, Homeostasis, Humans, Kupffer Cells, Mice, Receptors, LDL, Atherosclerosis genetics, Hemochromatosis genetics, Hemochromatosis Protein

Abstract

Aims: Imbalances of iron metabolism have been linked to the development of atherosclerosis. However, subjects with hereditary haemochromatosis have a lower prevalence of cardiovascular disease. The aim of our study was to understand the underlying mechanisms by combining data from genome-wide association study analyses in humans, CRISPR/Cas9 genome editing, and loss-of-function studies in mice., Methods and Results: Our analysis of the Global Lipids Genetics Consortium (GLGC) dataset revealed that single nucleotide polymorphisms (SNPs) in the haemochromatosis gene HFE associate with reduced low-density lipoprotein cholesterol (LDL-C) in human plasma. The LDL-C lowering effect could be phenocopied in dyslipidaemic ApoE-/- mice lacking Hfe, which translated into reduced atherosclerosis burden. Mechanistically, we identified HFE as a negative regulator of LDL receptor expression in hepatocytes. Moreover, we uncovered liver-resident Kupffer cells (KCs) as central players in cholesterol homeostasis as they were found to acquire and transfer LDL-derived cholesterol to hepatocytes in an Abca1-dependent fashion, which is controlled by iron availability., Conclusion: Our results disentangle novel regulatory interactions between iron metabolism, KC biology and cholesterol homeostasis which are promising targets for treating dyslipidaemia but also provide a mechanistic explanation for reduced cardiovascular morbidity in subjects with haemochromatosis., (Published on behalf of the European Society of Cardiology. All rights reserved. © The Author(s) 2020. For permissions, please email: journals.permissions@oup.com.)

Published

2020

35. Linkage of alterations in systemic iron homeostasis to patients' outcome in sepsis: a prospective study.

Author

Brandtner A, Tymoszuk P, Nairz M, Lehner GF, Fritsche G, Vales A, Falkner A, Schennach H, Theurl I, Joannidis M, Weiss G, and Pfeifhofer-Obermair C

Abstract

Background: Sepsis, a dysregulated host response following infection, is associated with massive immune activation and high mortality rates. There is still a need to define further risk factors and laboratory parameters predicting the clinical course. Iron metabolism is regulated by both, the body's iron status and the immune response. Iron itself is required for erythropoiesis but also for many cellular and metabolic functions. Moreover, iron availability is a critical determinant in infections because it is an essential nutrient for most microbes but also impacts on immune function and intravascular oxidative stress. Herein, we used a prospective study design to investigate the putative impact of serum iron parameters on the outcome of sepsis., Methods: Serum markers of iron metabolism were measured in a prospective cohort of 61 patients (37 males, 24 females) with sepsis defined by Sepsis-3 criteria in a medical intensive care unit (ICU) and compared between survivors and non-survivors. Regulation of iron parameters in patients stratified by focus of infection and co-medication as well as association of the markers with sepsis severity scores and survival were investigated with linear and logistic regression corrected for sex and age effects., Results: Positive correlations of increased serum iron and ferritin concentrations upon ICU admission with the severity of organ failure (SOFA score) and with mortality were observed. Moreover, high TF-Sat, elevated ferritin and serum iron levels and low transferrin concentrations were associated with reduced survival. A logistic regression model consisting of SOFA and transferrin saturation (SOFA-TF-Sat) had the best predictive power for survival in septic ICU patients. Of note, administration of blood transfusions prior to ICU admission resulted in increased TF-Sat and reduced survival of septic patients., Conclusions: Our study could show an important impact of serum iron parameters on the outcome of sepsis. Furthermore, we identified transferrin saturation as a stand-alone predictor of sepsis survival and as a parameter of iron metabolism which may in a combined model improve the prediction power of the SOFA score., Trial Registration: The study was carried out in accordance with the recommendations of the Declaration of Helsinki on biomedical research. The study was approved by the institutional ethics review board of the Medical University Innsbruck (study AN2013-0006)., Competing Interests: Competing interestsThe authors declare that they have no competing interests., (© The Author(s) 2020.)

Published

2020

36. A fully human anti-BMP6 antibody reduces the need for erythropoietin in rodent models of the anemia of chronic disease.

Author

Petzer V, Tymoszuk P, Asshoff M, Carvalho J, Papworth J, Deantonio C, Bayliss L, Wake MS, Seifert M, Brigo N, Valente de Souza L, Hilbe R, Grubwieser P, Demetz E, Dichtl S, Volani C, Berger S, Böhm F, Hoffmann A, Pfeifhofer-Obermair C, von Raffay L, Sopper S, Arndt S, Bosserhoff A, Kautz L, Perrier P, Nairz M, Wolf D, Weiss G, Germaschewski V, and Theurl I

Subjects

Anemia drug therapy, Anemia etiology, Animals, Antibodies, Monoclonal administration & dosage, Antibodies, Monoclonal immunology, Arthritis chemically induced, Arthritis complications, Bone Marrow metabolism, Bone Morphogenetic Protein 6 immunology, Cation Transport Proteins metabolism, Cytokines blood, Darbepoetin alfa administration & dosage, Dose-Response Relationship, Drug, Drug Synergism, Erythropoietin pharmacology, Erythropoietin therapeutic use, Hep G2 Cells, Humans, Iron metabolism, Mice, Muscle Proteins blood, Polysaccharides, Bacterial toxicity, Random Allocation, Recombinant Proteins immunology, Renal Insufficiency, Chronic complications, Anemia therapy, Antibodies, Monoclonal therapeutic use, Bone Morphogenetic Protein 6 antagonists & inhibitors, Darbepoetin alfa therapeutic use

Abstract

Recombinant erythropoietin (EPO) and iron substitution are a standard of care for treatment of anemias associated with chronic inflammation, including anemia of chronic kidney disease. A black box warning for EPO therapy and concerns about negative side effects related to high-dose iron supplementation as well as the significant proportion of patients becoming EPO resistant over time explains the medical need to define novel strategies to ameliorate anemia of chronic disease (ACD). As hepcidin is central to the iron-restrictive phenotype in ACD, therapeutic approaches targeting hepcidin were recently developed. We herein report the therapeutic effects of a fully human anti-BMP6 antibody (KY1070) either as monotherapy or in combination with Darbepoetin alfa on iron metabolism and anemia resolution in 2 different, well-established, and clinically relevant rodent models of ACD. In addition to counteracting hepcidin-driven iron limitation for erythropoiesis, we found that the combination of KY1070 and recombinant human EPO improved the erythroid response compared with either monotherapy in a qualitative and quantitative manner. Consequently, the combination of KY1070 and Darbepoetin alfa resulted in an EPO-sparing effect. Moreover, we found that suppression of hepcidin via KY1070 modulates ferroportin expression on erythroid precursor cells, thereby lowering potentially toxic-free intracellular iron levels and by accelerating erythroid output as reflected by increased maturation of erythrocyte progenitors. In summary, we conclude that treatment of ACD, as a highly complex disease, becomes more effective by a multifactorial therapeutic approach upon mobilization of endogenous iron deposits and stimulation of erythropoiesis., (© 2020 by The American Society of Hematology.)

Published

2020

37. Interferon-gamma polymorphisms and risk of iron deficiency and anaemia in Gambian children.

Author

Abuga KM, Rockett KA, Muriuki JM, Koch O, Nairz M, Sirugo G, Bejon P, Kwiatkowski DP, Prentice AM, and Atkinson SH

Abstract

Background : Anaemia is a major public health concern especially in African children living in malaria-endemic regions. Interferon-gamma (IFN-γ) is elevated during malaria infection and is thought to influence erythropoiesis and iron status. Genetic variants in the IFN-γ gene (IFNG ) are associated with increased IFN-γ production. We investigated putative functional single nucleotide polymorphisms (SNPs) and haplotypes of IFNG in relation to nutritional iron status and anaemia in Gambian children over a malaria season. Methods: We used previously available data from Gambian family trios to determine informative SNPs and then used the Agena Bioscience MassArray platform to type five SNPs from the IFNG gene in a cohort of 780 Gambian children aged 2-6 years. We also measured haemoglobin and biomarkers of iron status and inflammation at the start and end of a malaria season. Results: We identified five IFNG haplotype-tagging SNPs ( IFNG -1616 [rs2069705], IFNG +874 [rs2430561], IFNG +2200 [rs1861493], IFNG +3234 [rs2069718] and IFNG +5612 [rs2069728]). The IFNG +2200C [rs1861493] allele was associated with reduced haemoglobin concentrations (adjusted β -0.44 [95% CI -0.75, -0.12]; Bonferroni adjusted P = 0.03) and a trend towards iron deficiency compared to wild-type at the end of the malaria season in multivariable models adjusted for potential confounders. A haplotype uniquely identified by IFNG +2200C was similarly associated with reduced haemoglobin levels and trends towards iron deficiency, anaemia and iron deficiency anaemia at the end of the malaria season in models adjusted for age, sex, village, inflammation and malaria parasitaemia. Conclusion: We found limited statistical evidence linking IFNG polymorphisms with a risk of developing iron deficiency and anaemia in Gambian children. More definitive studies are needed to investigate the effects of genetically influenced IFN-γ levels on the risk of iron deficiency and anaemia in children living in malaria-endemic areas., Competing Interests: No competing interests were disclosed., (Copyright: © 2020 Abuga KM et al.)

Published

2020

38. Cloak and dagger - secondary hemophygocytic lymphohistiocytosis caused by intravenous autoinfection.

Author

Pircher A, Koeck S, Schatzlmayr J, Finkenstedt A, Nairz M, Wanner D, Griesmacher A, Tilg H, Wolf D, and Zoller H

Subjects

Adult, Female, Humans, Bacterial Infections complications, Bacterial Infections metabolism, Bacterial Infections microbiology, Bacterial Infections pathology, Lymphohistiocytosis, Hemophagocytic etiology, Lymphohistiocytosis, Hemophagocytic metabolism, Lymphohistiocytosis, Hemophagocytic microbiology, Lymphohistiocytosis, Hemophagocytic pathology

Published

2020

39. Dopamine Is a Siderophore-Like Iron Chelator That Promotes Salmonella enterica Serovar Typhimurium Virulence in Mice.

Author

Dichtl S, Demetz E, Haschka D, Tymoszuk P, Petzer V, Nairz M, Seifert M, Hoffmann A, Brigo N, Würzner R, Theurl I, Karlinsey JE, Fang FC, and Weiss G

Subjects

Animals, Bacterial Load, Cells, Cultured, Chelating Agents administration & dosage, Disease Models, Animal, Dopamine administration & dosage, Liver microbiology, Macrophages microbiology, Mice, Inbred C57BL, Siderophores administration & dosage, Spleen microbiology, Survival Analysis, Virulence drug effects, Chelating Agents metabolism, Dopamine metabolism, Iron metabolism, Salmonella Infections pathology, Salmonella typhimurium drug effects, Salmonella typhimurium growth & development, Siderophores metabolism

Abstract

We have recently shown that the catecholamine dopamine regulates cellular iron homeostasis in macrophages. As iron is an essential nutrient for microbes, and intracellular iron availability affects the growth of intracellular bacteria, we studied whether dopamine administration impacts the course of Salmonella infections. Dopamine was found to promote the growth of Salmonella both in culture and within bone marrow-derived macrophages, which was dependent on increased bacterial iron acquisition. Dopamine administration to mice infected with Salmonella enterica serovar Typhimurium resulted in significantly increased bacterial burdens in liver and spleen, as well as reduced survival. The promotion of bacterial growth by dopamine was independent of the siderophore-binding host peptide lipocalin-2. Rather, dopamine enhancement of iron uptake requires both the histidine sensor kinase QseC and bacterial iron transporters, in particular SitABCD, and may also involve the increased expression of bacterial iron uptake genes. Deletion or pharmacological blockade of QseC reduced but did not abolish the growth-promoting effects of dopamine. Dopamine also modulated systemic iron homeostasis by increasing hepcidin expression and depleting macrophages of the iron exporter ferroportin, which enhanced intracellular bacterial growth. Salmonella lacking all central iron uptake pathways failed to benefit from dopamine treatment. These observations are potentially relevant to critically ill patients, in whom the pharmacological administration of catecholamines to improve circulatory performance may exacerbate the course of infection with siderophilic bacteria. IMPORTANCE Here we show that dopamine increases bacterial iron incorporation and promotes Salmonella Typhimurium growth both in vitro and in vivo These observations suggest the potential hazards of pharmacological catecholamine administration in patients with bacterial sepsis but also suggest that the inhibition of bacterial iron acquisition might provide a useful approach to antimicrobial therapy., (Copyright © 2019 Dichtl et al.)

Published

2019

40. Self-reactive CD4 + IL-3 + T cells amplify autoimmune inflammation in myocarditis by inciting monocyte chemotaxis.

Author

Anzai A, Mindur JE, Halle L, Sano S, Choi JL, He S, McAlpine CS, Chan CT, Kahles F, Valet C, Fenn AM, Nairz M, Rattik S, Iwamoto Y, Fairweather D, Walsh K, Libby P, Nahrendorf M, and Swirski FK

Subjects

Animals, Autoimmune Diseases genetics, Autoimmune Diseases pathology, CD4-Positive T-Lymphocytes pathology, Cell Proliferation, Chemotaxis genetics, Interleukin-3 genetics, Macrophages immunology, Macrophages pathology, Mice, Mice, Inbred BALB C, Mice, Knockout, Monocytes pathology, Myocarditis genetics, Myocarditis pathology, Autoimmune Diseases immunology, CD4-Positive T-Lymphocytes immunology, Chemotaxis immunology, Interleukin-3 immunology, Monocytes immunology, Myocarditis immunology

Abstract

Acquisition of self-reactive effector CD4 + T cells is a major component of the autoimmune response that can occur during myocarditis, an inflammatory form of cardiomyopathy. Although the processes by which self-reactive T cells gain effector function have received considerable attention, how these T cells contribute to effector organ inflammation and damage is less clear. Here, we identified an IL-3-dependent amplification loop that exacerbates autoimmune inflammation. In experimental myocarditis, we show that effector organ-accumulating autoreactive IL-3 + CD4 + T cells stimulate IL-3R + tissue macrophages to produce monocyte-attracting chemokines. The newly recruited monocytes differentiate into antigen-presenting cells that stimulate local IL-3 + CD4 + T cell proliferation, thereby amplifying organ inflammation. Consequently, Il3 -/- mice resist developing robust autoimmune inflammation and myocardial dysfunction, whereas therapeutic IL-3 targeting ameliorates disease. This study defines a mechanism that orchestrates inflammation in myocarditis, describes a previously unknown function for IL-3, and identifies IL-3 as a potential therapeutic target in patients with myocarditis., (© 2019 Anzai et al.)

Published

2019

41. Gut intraepithelial T cells calibrate metabolism and accelerate cardiovascular disease.

Author

He S, Kahles F, Rattik S, Nairz M, McAlpine CS, Anzai A, Selgrade D, Fenn AM, Chan CT, Mindur JE, Valet C, Poller WC, Halle L, Rotllan N, Iwamoto Y, Wojtkiewicz GR, Weissleder R, Libby P, Fernández-Hernando C, Drucker DJ, Nahrendorf M, and Swirski FK

Subjects

Animals, Atherosclerosis genetics, Atherosclerosis metabolism, Atherosclerosis prevention & control, Cardiovascular Diseases genetics, Cardiovascular Diseases prevention & control, Disease Models, Animal, Eating, Enterocytes cytology, Enterocytes metabolism, Female, Glucagon-Like Peptide 1 metabolism, Glucagon-Like Peptide-1 Receptor metabolism, Integrin beta Chains genetics, Integrin beta Chains metabolism, Male, Metabolic Syndrome genetics, Metabolic Syndrome metabolism, Metabolic Syndrome prevention & control, Mice, Cardiovascular Diseases metabolism, Disease Progression, Intestine, Small cytology, Intraepithelial Lymphocytes metabolism

Abstract

The biochemical response to food intake must be precisely regulated. Because ingested sugars and fats can feed into many anabolic and catabolic pathways 1 , how our bodies handle nutrients depends on strategically positioned metabolic sensors that link the intrinsic nutritional value of a meal with intermediary metabolism. Here we describe a subset of immune cells-integrin β7 + natural gut intraepithelial T lymphocytes (natural IELs)-that is dispersed throughout the enterocyte layer of the small intestine and that modulates systemic metabolism. Integrin β7 - mice that lack natural IELs are metabolically hyperactive and, when fed a high-fat and high-sugar diet, are resistant to obesity, hypercholesterolaemia, hypertension, diabetes and atherosclerosis. Furthermore, we show that protection from cardiovascular disease in the absence of natural IELs depends on the enteroendocrine-derived incretin GLP-1 2 , which is normally controlled by IELs through expression of the GLP-1 receptor. In this metabolic control system, IELs modulate enteroendocrine activity by acting as gatekeepers that limit the bioavailability of GLP-1. Although the function of IELs may prove advantageous when food is scarce, present-day overabundance of diets high in fat and sugar renders this metabolic checkpoint detrimental to health.

Published

2019

42. Iron in the Tumor Microenvironment-Connecting the Dots.

Author

Pfeifhofer-Obermair C, Tymoszuk P, Petzer V, Weiss G, and Nairz M

Abstract

Iron metabolism and tumor biology are intimately linked. Iron facilitates the production of oxygen radicals, which may either result in iron-induced cell death, ferroptosis, or contribute to mutagenicity and malignant transformation. Once transformed, malignant cells require high amounts of iron for proliferation. In addition, iron has multiple regulatory effects on the immune system, thus affecting tumor surveillance by immune cells. For these reasons, inconsiderate iron supplementation in cancer patients has the potential of worsening disease course and outcome. On the other hand, chronic immune activation in the setting of malignancy alters systemic iron homeostasis and directs iron fluxes into myeloid cells. While this response aims at withdrawing iron from tumor cells, it may impair the effector functions of tumor-associated macrophages and will result in iron-restricted erythropoiesis and the development of anemia, subsequently. This review summarizes our current knowledge of the interconnections of iron homeostasis with cancer biology, discusses current clinical controversies in the treatment of anemia of cancer and focuses on the potential roles of iron in the solid tumor microenvironment, also speculating on yet unknown molecular mechanisms.

Published

2018

43. Arachidonic Acid Metabolites in Cardiovascular and Metabolic Diseases.

Author

Sonnweber T, Pizzini A, Nairz M, Weiss G, and Tancevski I

Subjects

Animals, Cholesterol metabolism, Eicosanoids metabolism, Humans, Lipid Metabolism physiology, Non-alcoholic Fatty Liver Disease metabolism, Obesity metabolism, Arachidonic Acid metabolism, Cardiovascular Diseases metabolism

Abstract

Lipid and immune pathways are crucial in the pathophysiology of metabolic and cardiovascular disease. Arachidonic acid (AA) and its derivatives link nutrient metabolism to immunity and inflammation, thus holding a key role in the emergence and progression of frequent diseases such as obesity, diabetes, non-alcoholic fatty liver disease, and cardiovascular disease. We herein present a synopsis of AA metabolism in human health, tissue homeostasis, and immunity, and explore the role of the AA metabolome in diverse pathophysiological conditions and diseases.

Published

2018

44. The crucial impact of iron deficiency definition for the course of precapillary pulmonary hypertension.

Author

Sonnweber T, Nairz M, Theurl I, Petzer V, Tymoszuk P, Haschka D, Rieger E, Kaessmann B, Deri M, Watzinger K, Steringer-Mascherbauer R, Tancevski I, Weiss G, and Löffler-Ragg J

Subjects

Adult, Aged, Aged, 80 and over, Anemia, Iron-Deficiency diagnosis, Female, Humans, Iron Deficiencies, Male, Middle Aged, Retrospective Studies, Sensitivity and Specificity, Young Adult, Anemia, Iron-Deficiency complications, Hypertension, Pulmonary etiology

Abstract

Imbalances of iron homeostasis are associated with an adverse clinical outcome of pulmonary hypertension (PH). Herein, we aimed to analyze the impact of iron deficiency (ID) in a real-life PH patient cohort according to different currently used ID definitions. In a retrospective study including 153 precapillary PH patients followed over a mean period of five years, iron deficiency was assessed according to five clinical definitions used in previous trials. The impact of ID on clinical, hematological and hemodynamic parameters was investigated. Depending on the different cutoff levels for serum ferritin and transferrin saturation, currently used ID definitions indicated a prevalence of either true or functional ID in 11 to 75 percent of PH patients. A good diagnostic accuracy was achieved by using the sTFRF/log ferritin (sTFRF) index, which identified 33 to 42 percent of PH patients as being iron deficient. The sTFRF index had the best prediction for the association between ID and clinical outcome. Iron deficient patients with precapillary PH had a significantly higher mortality as compared to non-iron deficiency subjects, which was true for both, PH patients with and without anemia. Although levels of the iron hormone hepcidin were rather affected by ID than by inflammation, they were not associated with the clinical course or mortality of PH subjects. To conclude, ID had a significant impact on the clinical course of precapillary PH patients. The appropriate use of robust biomarkers to define ID is a prerequisite to further evaluate the role of ID and the potential benefit of iron supplementation in precapillary PH patients., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

45. The infarcted myocardium solicits GM-CSF for the detrimental oversupply of inflammatory leukocytes.

Author

Anzai A, Choi JL, He S, Fenn AM, Nairz M, Rattik S, McAlpine CS, Mindur JE, Chan CT, Iwamoto Y, Tricot B, Wojtkiewicz GR, Weissleder R, Libby P, Nahrendorf M, Stone JR, Becher B, and Swirski FK

Subjects

Animals, Bone Marrow metabolism, Chemokines metabolism, Cytokine Receptor Common beta Subunit genetics, Cytokine Receptor Common beta Subunit metabolism, Flow Cytometry, Granulocyte-Macrophage Colony-Stimulating Factor genetics, Humans, Male, Mice, Inbred C57BL, Mice, Knockout, Mice, Transgenic, Monocytes metabolism, Myeloid Cells metabolism, Neutrophils metabolism, Survival Analysis, Granulocyte-Macrophage Colony-Stimulating Factor metabolism, Inflammation metabolism, Leukocytes metabolism, Myocardial Infarction metabolism

Abstract

Myocardial infarction (MI) elicits massive inflammatory leukocyte recruitment to the heart. Here, we hypothesized that excessive leukocyte invasion leads to heart failure and death during acute myocardial ischemia. We found that shortly and transiently after onset of ischemia, human and mouse cardiac fibroblasts produce granulocyte/macrophage colony-stimulating factor (GM-CSF) that acts locally and distally to generate and recruit inflammatory and proteolytic cells. In the heart, fibroblast-derived GM-CSF alerts its neighboring myeloid cells to attract neutrophils and monocytes. The growth factor also reaches the bone marrow, where it stimulates a distinct myeloid-biased progenitor subset. Consequently, hearts of mice deficient in either GM-CSF or its receptor recruit fewer leukocytes and function relatively well, whereas mice producing GM-CSF can succumb from left ventricular rupture, a complication mitigated by anti-GM-CSF therapy. These results identify GM-CSF as both a key contributor to the pathogenesis of MI and a potential therapeutic target, bolstering the idea that GM-CSF is a major orchestrator of the leukocyte supply chain during inflammation., (© 2017 Anzai et al.)

Published

2017

46. Cibinetide dampens innate immune cell functions thus ameliorating the course of experimental colitis.

Author

Nairz M, Haschka D, Dichtl S, Sonnweber T, Schroll A, Aßhoff M, Mindur JE, Moser PL, Wolf D, Swirski FK, Theurl I, Cerami A, Brines M, and Weiss G

Subjects

Animals, Chemokines metabolism, Colitis chemically induced, Colitis pathology, Cytokine Receptor Common beta Subunit metabolism, Dextran Sulfate, Erythropoietin pharmacology, Female, Humans, Intestinal Mucosa drug effects, Intestinal Mucosa pathology, Janus Kinase 2 metabolism, Macrophages drug effects, Macrophages metabolism, Male, Mice, Inbred C57BL, Myeloid Cells drug effects, Myeloid Cells metabolism, Oligopeptides pharmacology, Phosphatidylinositol 3-Kinases metabolism, Phosphorylation drug effects, Receptors, Erythropoietin metabolism, Solubility, T-Lymphocytes, Helper-Inducer drug effects, T-Lymphocytes, Helper-Inducer metabolism, Transcription Factor RelA metabolism, Colitis drug therapy, Colitis immunology, Disease Progression, Immunity, Innate drug effects, Oligopeptides therapeutic use

Abstract

Two distinct forms of the erythropoietin receptor (EPOR) mediate the cellular responses to erythropoietin (EPO) in different tissues. EPOR homodimers signal to promote the maturation of erythroid progenitor cells. In other cell types, including immune cells, EPOR and the ß-common receptor (CD131) form heteromers (the innate repair receptor; IRR), and exert tissue protective effects. We used dextran sulphate sodium (DSS) to induce colitis in C57BL/6 N mice. Once colitis was established, mice were treated with solvent, EPO or the selective IRR agonist cibinetide. We found that both cibinetide and EPO ameliorated the clinical course of experimental colitis in mice, resulting in improved weight gain and survival. Correspondingly, DSS-exposed mice treated with cibinetide or EPO displayed preserved tissue integrity due to reduced infiltration of myeloid cells and diminished production of pro-inflammatory disease mediators including cytokines, chemokines and nitric oxide synthase-2. Experiments using LPS-activated primary macrophages revealed that the anti-inflammatory effects of cibinetide were dependent on CD131 and JAK2 functionality and were mediated via inhibition of NF-κB subunit p65 activity. Cibinetide activation of the IRR exerts potent anti-inflammatory effects, especially within the myeloid population, reduces disease activity and mortality in mice. Cibinetide thus holds promise as novel disease-modifying therapeutic of inflammatory bowel disease.

Published

2017

47. Genetic and Dietary Iron Overload Differentially Affect the Course of Salmonella Typhimurium Infection.

Author

Nairz M, Schroll A, Haschka D, Dichtl S, Tymoszuk P, Demetz E, Moser P, Haas H, Fang FC, Theurl I, and Weiss G

Subjects

Animals, Disease Models, Animal, Hemochromatosis Protein deficiency, Iron, Dietary administration & dosage, Mice, Mice, Knockout, Host-Pathogen Interactions, Iron Overload complications, Salmonella Infections microbiology, Salmonella Infections pathology, Salmonella typhimurium pathogenicity

Abstract

Genetic and dietary forms of iron overload have distinctive clinical and pathophysiological features. HFE-associated hereditary hemochromatosis is characterized by overwhelming intestinal iron absorption, parenchymal iron deposition, and macrophage iron depletion. In contrast, excessive dietary iron intake results in iron deposition in macrophages. However, the functional consequences of genetic and dietary iron overload for the control of microbes are incompletely understood. Using Hfe +/+ and Hfe -/- mice in combination with oral iron overload in a model of Salmonella enterica serovar Typhimurium infection, we found animals of either genotype to induce hepcidin antimicrobial peptide expression and hypoferremia following systemic infection in an Hfe-independent manner. As predicted, Hfe -/- mice, a model of hereditary hemochromatosis, displayed reduced spleen iron content, which translated into improved control of Salmonella replication. Salmonella adapted to the iron-poor microenvironment in the spleens of Hfe -/- mice by inducing the expression of its siderophore iron-uptake machinery. Dietary iron loading resulted in higher bacterial numbers in both WT and Hfe -/- mice, although Hfe deficiency still resulted in better pathogen control and improved survival. This suggests that Hfe deficiency may exert protective effects in addition to the control of iron availability for intracellular bacteria. Our data show that a dynamic adaptation of iron metabolism in both immune cells and microbes shapes the host-pathogen interaction in the setting of systemic Salmonella infection. Moreover, Hfe-associated iron overload and dietary iron excess result in different outcomes in infection, indicating that tissue and cellular iron distribution determines the susceptibility to infection with specific pathogens.

Published

2017

48. Momelotinib inhibits ACVR1/ALK2, decreases hepcidin production, and ameliorates anemia of chronic disease in rodents.

Author

Asshoff M, Petzer V, Warr MR, Haschka D, Tymoszuk P, Demetz E, Seifert M, Posch W, Nairz M, Maciejewski P, Fowles P, Burns CJ, Smith G, Wagner KU, Weiss G, Whitney JA, and Theurl I

Subjects

Activin Receptors, Type I antagonists & inhibitors, Animals, Benzamides pharmacology, Chronic Disease, Hepatocytes metabolism, Iron metabolism, Primary Myelofibrosis complications, Pyrimidines pharmacology, Rats, Anemia drug therapy, Benzamides therapeutic use, Bone Morphogenetic Protein Receptors, Type I antagonists & inhibitors, Hepcidins biosynthesis, Pyrimidines therapeutic use

Abstract

Patients with myelofibrosis (MF) often develop anemia and frequently become dependent on red blood cell transfusions. Results from a phase 2 study for the treatment of MF with the Janus kinase 1/2 (JAK1/2) inhibitor momelotinib (MMB) demonstrated that MMB treatment ameliorated anemia, which was unexpected for a JAK1/2 inhibitor, because erythropoietin-mediated JAK2 signaling is essential for erythropoiesis. Using a rat model of anemia of chronic disease, we demonstrated that MMB treatment can normalize hemoglobin and red blood cell numbers. We found that this positive effect is driven by direct inhibition of the bone morphogenic protein receptor kinase activin A receptor, type I (ACVR1), and the subsequent reduction of hepatocyte hepcidin production. Of note, ruxolitinib, a JAK1/2 inhibitor approved for the treatment of MF, had no inhibitory activity on this pathway. Further, we demonstrated the effect of MMB is not mediated by direct inhibition of JAK2-mediated ferroportin (FPN1) degradation, because neither MMB treatment nor myeloid-specific deletion of JAK2 affected FPN1 expression. Our data support the hypothesis that the improvement of inflammatory anemia by MMB results from inhibition of ACVR1-mediated hepcidin expression in the liver, which leads to increased mobilization of sequestered iron from cellular stores and subsequent stimulation of erythropoiesis., (© 2017 by The American Society of Hematology.)

Published

2017

49. Endothelial cells produce bone morphogenetic protein 6 required for iron homeostasis in mice.

Author

Canali S, Zumbrennen-Bullough KB, Core AB, Wang CY, Nairz M, Bouley R, Swirski FK, and Babitt JL

Subjects

Animals, Bone Morphogenetic Protein 6 deficiency, Endothelial Cells pathology, Female, GPI-Linked Proteins, Gene Expression Regulation, Hemochromatosis Protein, Hepatocytes metabolism, Hepatocytes pathology, Hepcidins metabolism, Homeostasis genetics, Immunophenotyping, Integrases genetics, Integrases metabolism, Kupffer Cells metabolism, Kupffer Cells pathology, Liver metabolism, Liver pathology, Male, Membrane Proteins metabolism, Mice, Mice, Knockout, Paracrine Communication, RNA, Messenger metabolism, Signal Transduction, Transcription, Genetic, Bone Morphogenetic Protein 6 genetics, Endothelial Cells metabolism, Hemochromatosis genetics, Hepcidins genetics, Iron metabolism, Membrane Proteins genetics, RNA, Messenger genetics

Abstract

Bone morphogenetic protein 6 (BMP6) signaling in hepatocytes is a central transcriptional regulator of the iron hormone hepcidin that controls systemic iron balance. How iron levels are sensed to regulate hepcidin production is not known, but local induction of liver BMP6 expression by iron is proposed to have a critical role. To identify the cellular source of BMP6 responsible for hepcidin and iron homeostasis regulation, we generated mice with tissue-specific ablation of Bmp6 in different liver cell populations and evaluated their iron phenotype. Efficiency and specificity of Cre-mediated recombination was assessed by using Cre-reporter mice, polymerase chain reaction of genomic DNA, and quantitation of Bmp6 messenger RNA expression from isolated liver cell populations. Localization of the BMP co-receptor hemojuvelin was visualized by immunofluorescence microscopy. Analysis of the Bmp6 conditional knockout mice revealed that liver endothelial cells (ECs) expressed Bmp6, whereas resident liver macrophages (Kupffer cells) and hepatocytes did not. Loss of Bmp6 in ECs recapitulated the hemochromatosis phenotype of global Bmp6 knockout mice, whereas hepatocyte and macrophage Bmp6 conditional knockout mice exhibited no iron phenotype. Hemojuvelin was localized on the hepatocyte sinusoidal membrane immediately adjacent to Bmp6-producing sinusoidal ECs. Together, these data demonstrate that ECs are the predominant source of BMP6 in the liver and support a model in which EC BMP6 has paracrine actions on hepatocyte hemojuvelin to regulate hepcidin transcription and maintain systemic iron homeostasis., (© 2017 by The American Society of Hematology.)

Published

2017

50. Heme oxygenase 1 controls early innate immune response of macrophages to Salmonella Typhimurium infection.

Author

Mitterstiller AM, Haschka D, Dichtl S, Nairz M, Demetz E, Talasz H, Soares MP, Einwallner E, Esterbauer H, Fang FC, Geley S, and Weiss G

Subjects

Animals, Enzyme Induction, Gene Expression immunology, HEK293 Cells, Humans, Immunity, Innate, Iron metabolism, Mice, Microbial Viability, NF-kappa B metabolism, RAW 264.7 Cells, Reactive Oxygen Species metabolism, Salmonella Infections microbiology, Heme Oxygenase-1 physiology, Membrane Proteins physiology, Salmonella Infections enzymology, Salmonella typhimurium immunology

Abstract

Macrophages are central for the immune control of intracellular microbes. Heme oxygenase 1 (HO-1, hmox) is the first and rate limiting enzyme in the breakdown of heme originating from degraded senescent erythrocytes and heme-proteins, yielding equal amounts of iron, carbon monoxide and biliverdin. HO-1 is strongly up-regulated in macrophages in response to inflammatory signals, including bacterial endotoxin. In view of the essential role of iron for the growth and proliferation of intracellular bacteria along with known effects of the metal on innate immune function, we examined whether HO-1 plays a role in the control of infection with the intracellular bacterium Salmonella Typhimurium. We studied the course of infection in stably-transfected murine macrophages (RAW264.7) bearing a tetracycline-inducible plasmid producing hmox shRNA and in primary HO-1 knockout macrophages. While uptake of bacteria into macrophages was not affected, a significantly reduced survival of intracellular Salmonella was observed upon hmox knockdown or pharmacological hmox inhibition, which was independent of Nramp1 functionality. This could be traced to limitation of iron availability for intramacrophage bacteria along with enhanced stimulation of innate immune effector pathways, including the formation of reactive oxygen and nitrogen species and increased TNF-α expression. Mechanistically, these latter effects result from intracellular iron limitation with subsequent activation of NF-κB and further inos, tnfa and p47phox transcription along with reduced formation of the anti-inflammatory and radical scavenging molecules, CO and biliverdin as a consequence of HO-1 silencing. Taken together our data provide novel evidence that the infection-driven induction of HO-1 exerts detrimental effects in the early control of Salmonella infection, whereas hmox inhibition can favourably modulate anti-bacterial immune effector pathways of macrophages and promote bacterial elimination., (© 2016 John Wiley & Sons Ltd.)

Published

2016