Mcph1, mutated in primary microcephaly, is also crucial for erythropoiesis
Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed th...
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| Published in | EMBO reports Vol. 25; no. 5; pp. 2418 - 2440 |
|---|---|
| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
London
Nature Publishing Group UK
14.05.2024
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1469-3178 1469-221X 1469-3178 |
| DOI | 10.1038/s44319-024-00123-8 |
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| Abstract | Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene
Mcph1
in hematological development. Our research revealed that
Mcph1
-knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia’s cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in
Mcph1
-deficient erythroid precursors, leading to overexpression of
Cdkn1a/p21
, a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in
Mcph1
-knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in
Mcph1
−/−
mice failed to reverse anemia and microcephaly, suggesting that p53 activation in
Mcph1
-deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1’s function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis — a common limiting pathway.
Synopsis
Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of
Mcph1
results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia.
Mcph1 deficiency leads to congenital dyserythropoietic anemia in mice.
Loss of
Mcph1
in erythroid precursors induces acytokinetic mitosis during differentiation.
Acytokinetic mitosis also occurs in neural progenitors in the absence of Mcph1.
Loss of
Mcph1
leads to p53 activation in both erythroid and neuroprogenitors cells.
p53 inactivation fails to reverse anemia and microcephaly.
Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of Mcph1 results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia. |
|---|---|
| AbstractList | Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1-knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia’s cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1-deficient erythroid precursors, leading to overexpression of Cdkn1a/p21, a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1-knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1−/− mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1-deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1’s function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis — a common limiting pathway.
Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of Mcph1 results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia.
Mcph1 deficiency leads to congenital dyserythropoietic anemia in mice.Loss of Mcph1 in erythroid precursors induces acytokinetic mitosis during differentiation.Acytokinetic mitosis also occurs in neural progenitors in the absence of Mcph1.Loss of Mcph1 leads to p53 activation in both erythroid and neuroprogenitors cells.p53 inactivation fails to reverse anemia and microcephaly.
Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of Mcph1 results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia. Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1 -knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia’s cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1 -deficient erythroid precursors, leading to overexpression of Cdkn1a/p21 , a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1 -knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1 −/− mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1 -deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1’s function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis — a common limiting pathway. Synopsis Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of Mcph1 results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia. Mcph1 deficiency leads to congenital dyserythropoietic anemia in mice. Loss of Mcph1 in erythroid precursors induces acytokinetic mitosis during differentiation. Acytokinetic mitosis also occurs in neural progenitors in the absence of Mcph1. Loss of Mcph1 leads to p53 activation in both erythroid and neuroprogenitors cells. p53 inactivation fails to reverse anemia and microcephaly. Mcph1, known to be required for proper neurogenesis, is also essential for erythropoiesis. Biallelic loss of Mcph1 results in a p53-independent disruption of mitosis, ultimately leading to microcephaly and severe congenital anemia. Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1-knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia's cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1-deficient erythroid precursors, leading to overexpression of Cdkn1a/p21, a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1-knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1 mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1-deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1's function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis - a common limiting pathway. Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1-knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia's cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1-deficient erythroid precursors, leading to overexpression of Cdkn1a/p21, a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1-knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1-/- mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1-deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1's function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis - a common limiting pathway.Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1-knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia's cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1-deficient erythroid precursors, leading to overexpression of Cdkn1a/p21, a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1-knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1-/- mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1-deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1's function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis - a common limiting pathway. Microcephaly is a common feature in inherited bone marrow failure syndromes, prompting investigations into shared pathways between neurogenesis and hematopoiesis. To understand this association, we studied the role of the microcephaly gene Mcph1 in hematological development. Our research revealed that Mcph1 -knockout mice exhibited congenital macrocytic anemia due to impaired terminal erythroid differentiation during fetal development. Anemia’s cause is a failure to complete cell division, evident from tetraploid erythroid progenitors with DNA content exceeding 4n. Gene expression profiling demonstrated activation of the p53 pathway in Mcph1 -deficient erythroid precursors, leading to overexpression of Cdkn1a/p21 , a major mediator of p53-dependent cell cycle arrest. Surprisingly, fetal brain analysis revealed hypertrophied binucleated neuroprogenitors overexpressing p21 in Mcph1 -knockout mice, indicating a shared pathophysiological mechanism underlying both erythroid and neurological defects. However, inactivating p53 in Mcph1 −/− mice failed to reverse anemia and microcephaly, suggesting that p53 activation in Mcph1 -deficient cells resulted from their proliferation defect rather than causing it. These findings shed new light on Mcph1’s function in fetal hematopoietic development, emphasizing the impact of disrupted cell division on neurogenesis and erythropoiesis — a common limiting pathway. |
| Author | Bonnard, Adeline A Cavé, Hélène Rousselot, Justine Nardelli, Jeannette Drunat, Séverine Souyri, Michèle Gressens, Pierre Vial, Yoann |
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| Keywords | Mcph1 Congenital Anemia Cytokinesis Neurogenesis p53 |
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| SubjectTerms | Anemia, Macrocytic - genetics Anemia, Macrocytic - metabolism Anemia, Macrocytic - pathology Animals Biomedical and Life Sciences Cell Cycle Proteins - genetics Cell Cycle Proteins - metabolism Cell Differentiation - genetics Cyclin-Dependent Kinase Inhibitor p21 - genetics Cyclin-Dependent Kinase Inhibitor p21 - metabolism Cytoskeletal Proteins - genetics Cytoskeletal Proteins - metabolism EMBO06 EMBO11 Erythroid Precursor Cells - metabolism Erythropoiesis - genetics Life Sciences Mice Mice, Knockout Microcephaly - genetics Microcephaly - pathology Mutation Tumor Suppressor Protein p53 - genetics Tumor Suppressor Protein p53 - metabolism |
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| Title | Mcph1, mutated in primary microcephaly, is also crucial for erythropoiesis |
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