The mutual crosstalk between iron and erythropoiesis

被引:14
作者
Camaschella, Clara [1 ]
Pagani, Alessia [1 ]
Silvestri, Laura [1 ,2 ]
Nai, Antonella [1 ,2 ]
机构
[1] IRCCS San Raffaele, Div Genet & Cell Biol, Via Olgettina 60, I-20132 Milan, Italy
[2] Univ Vita Salute San Raffaele, Milan, Italy
来源
INTERNATIONAL JOURNAL OF HEMATOLOGY | 2022年 / 116卷 / 02期
关键词
Iron; Hepcidin; Erythropoiesis; Transferrin receptor; Anemia; TRANSFERRIN RECEPTOR 2; HEPCIDIN EXPRESSION; PULMONARY-HYPERTENSION; BETA-THALASSEMIA; MURINE MODELS; ANEMIA; TMPRSS6; HEMOCHROMATOSIS; ERYTHROFERRONE; FERROPORTIN;
D O I
10.1007/s12185-022-03384-y
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
Iron homeostasis and erythropoiesis are strongly interconnected. On one side iron is essential to terminal erythropoiesis for hemoglobin production, on the other erythropoiesis may increase iron absorption through the production of erythroferrone, the erythroid hormone that suppresses hepcidin expression Also erythropoietin production is modulated by iron through the iron regulatory proteins-iron responsive elements that control the hypoxia inducible factor 2-alpha. The second transferrin receptor, an iron sensor both in the liver and in erythroid cells modulates erythropoietin sensitivity and is a further link between hepcidin and erythropoiesis. When erythropoietin is decreased in iron deficiency the erythropoietin sensitivity is increased because the second transferrin receptor is removed from cell surface. A deranged balance between erythropoiesis and iron/hepcidin may lead to anemia, as in the case of iron deficiency, defective iron uptake and erythroid utilization or subnormal recycling. Defective control of hepcidin production may cause iron deficiency, as in the recessive disorder iron refractory iron deficiency anemia or in anemia of inflammation, or in iron loading anemias, which are characterized by excessive but ineffective erythropoiesis. The elucidation of the mechanisms that regulates iron homeostasis and erythropoiesis is leading to the development of drugs for the benefit of both iron and erythropoiesis disorders.
引用
收藏
页码:182 / 191
页数:10
相关论文
共 81 条
[1]   The IRP1-HIF-2α Axis Coordinates Iron and Oxygen Sensing with Erythropoiesis and Iron Absorption [J].
Anderson, Sheila A. ;
Nizzi, Christopher P. ;
Chang, Yuan-I. ;
Deck, Kathryn M. ;
Schmidt, Paul J. ;
Galy, Bruno ;
Damnernsawad, Alisa ;
Broman, Aimee T. ;
Kendziorski, Christina ;
Hentze, Matthias W. ;
Fleming, Mark D. ;
Zhang, Jing ;
Eisenstein, Richard S. .
CELL METABOLISM, 2013, 17 (02) :282-290
[2]   Antibodies against the erythroferrone N-terminal domain prevent hepcidin suppression and ameliorate murine thalassemia [J].
Arezes, Joao ;
Foy, Niall ;
McHugh, Kirsty ;
Quinkert, Doris ;
Benard, Susan ;
Sawant, Anagha ;
Frost, Joe N. ;
Armitage, Andrew E. ;
Pasricha, Sant-Rayn ;
Lim, Pei Jin ;
Tam, May S. ;
Lavallie, Edward ;
Pittman, Debra D. ;
Cunningham, Orla ;
Lambert, Matthew ;
Murphy, John E. ;
Draper, Simon J. ;
Jasuja, Reema ;
Drakesmith, Hal .
BLOOD, 2020, 135 (08) :547-557
[3]   Erythroferrone inhibits the induction of hepcidin by BMP6 [J].
Arezes, Joao ;
Foy, Niall ;
McHugh, Kirsty ;
Sawant, Anagha ;
Quinkert, Doris ;
Terraube, Virginie ;
Brinth, Alette ;
Tam, May ;
LaVallie, Edward R. ;
Taylor, Stephen ;
Armitage, Andrew E. ;
Pasricha, Sant-Rayn ;
Cunningham, Orla ;
Lambert, Matthew ;
Draper, Simon J. ;
Jasuja, Reema ;
Drakesmithm, Hal .
BLOOD, 2018, 132 (14) :1473-1477
[4]   Transient decrease of serum iron after acute erythropoietin treatment contributes to hepcidin inhibition by ERFE in mice [J].
Artuso, Irene ;
Pettinato, Mariateresa ;
Nai, Antonella ;
Pagani, Alessia ;
Sardo, Ugo ;
Billore, Benjamin ;
Lidonnici, Maria Rosa ;
Bennett, Cavan ;
Mandelli, Giacomo ;
Pasricha, Sant-Rayn ;
Ferrari, Giuliana ;
Camaschella, Clara ;
Kautz, Leon ;
Silvestri, Laura .
HAEMATOLOGICA, 2019, 104 (03) :E87-E90
[5]   Transferrin receptor 2 is a potential novel therapeutic target for β-thalassemia: evidence from a murine model [J].
Artuso, Irene ;
Lidonnici, Maria Rosa ;
Altamura, Sandro ;
Mandelli, Giacomo ;
Pettinato, Mariateresa ;
Muckenthaler, Martina U. ;
Silvestri, Laura ;
Ferrari, Giuliana ;
Camaschella, Clara ;
Nai, Antonella .
BLOOD, 2018, 132 (21) :2286-2297
[6]   Structure-function analysis of ferroportin defines the binding site and an alternative mechanism of action of hepcidin [J].
Aschemeyer, Sharraya ;
Qiao, Bo ;
Stefanova, Deborah ;
Valore, Erika V. ;
Sek, Albert C. ;
Ruwe, T. Alex ;
Vieth, Kyle R. ;
Jung, Grace ;
Casu, Carla ;
Rivella, Stefano ;
Jormakka, Mika ;
Mackenzie, Bryan ;
Ganz, Tomas ;
Nemeth, Elizabeta .
BLOOD, 2018, 131 (08) :899-910
[7]   Erythroferrone in iron regulation and beyond [J].
Babitt, Jodie L. .
BLOOD, 2022, 139 (03) :319-321
[8]   Transferrin is a major determinant of hepcidin expression in hypotransferrinemic mice [J].
Bartnikas, Thomas B. ;
Andrews, Nancy C. ;
Fleming, Mark D. .
BLOOD, 2011, 117 (02) :630-637
[9]  
BEGUIN Y, 1992, HAEMATOLOGICA, V77, P1
[10]   A genome-wide meta-analysis yields 46 new loci associating with biomarkers of iron homeostasis [J].
Bell, Steven ;
Rigas, Andreas S. ;
Magnusson, Magnus K. ;
Ferkingstad, Egil ;
Allara, Elias ;
Bjornsdottir, Gyda ;
Ramond, Anna ;
Sorensen, Erik ;
Halldorsson, Gisli H. ;
Paul, Dirk S. ;
Eggertsson, Hannes P. ;
Burgdorf, Kristoffer S. ;
Howson, Joanna M. M. ;
Thorner, Lise W. ;
Kristmundsdottir, Snaedis ;
Astle, William J. ;
Erikstrup, Christian ;
Sigurdsson, Jon K. ;
Vuckovic, Dragana ;
Dinh, Khoa M. ;
Tragante, Vinicius ;
Surendran, Praveen ;
Pedersen, Ole B. ;
Vidarsson, Brynjar ;
Jiang, Tao ;
Paarup, Helene M. ;
Onundarson, Pall T. ;
Akbari, Parsa ;
Nielsen, Kaspar R. ;
Lund, Sigrun H. ;
Juliusson, Kristinn ;
Magnusson, Magnus, I ;
Frigge, Michael L. ;
Oddsson, Asmundur ;
Olafsson, Isleifur ;
Kaptoge, Stephen ;
Hjalgrim, Henrik ;
Runarsson, Gudmundur ;
Wood, Angela M. ;
Jonsdottir, Ingileif ;
Hansen, Thomas F. ;
Sigurdardottir, Olof ;
Stefansson, Hreinn ;
Rye, David ;
Peters, James E. ;
Westergaard, David ;
Holm, Hilma ;
Soranzo, Nicole ;
Banasik, Karina ;
Thorleifsson, Gudmar .
COMMUNICATIONS BIOLOGY, 2021, 4 (01)
123456789