MMS22L is a novel key actor of normal and pathological erythropoiesis

Elia Colin; Ivan Ferrer-Vicens; Dror Brook; Mohammad Salma; Charlotte Andrieu-Soler; Elisa Bayard; Alicia Fernandes; Chantal Brouzes; Carine Lefèvre; Romain Duval; Michaël Dussiot; Thiago Trovati; Geneviève Courtois; Slim Azouzi; Mohammed Zarhrate; Anne Lambilliotte; Sophie Park; Benjamin Carpentier; Martin Colard; Sandra Manceau; Despina Moshous; Patrick Mayeux; Emilie-Fleur Gautier; Annarita Miccio; Jean Soulier; William Vainchenker; Liran Shlush; Lydie Da Costa; Jan Frayne; Eric Soler; Olivier Hermine; Lucile Couronné

doi:10.1002/hem3.70264

MMS22L is a novel key actor of normal and pathological erythropoiesis

Elia Colin, Ivan Ferrer-Vicens, Dror Brook, Mohammad Salma, Charlotte Andrieu-Soler, Elisa Bayard, Alicia Fernandes, Chantal Brouzes, Carine Lefèvre, Romain Duval, Michaël Dussiot, Thiago Trovati, Geneviève Courtois, Slim Azouzi, Mohammed Zarhrate, Anne Lambilliotte, Sophie Park, Benjamin Carpentier, Martin Colard, Sandra ManceauDespina Moshous, Patrick Mayeux, Emilie-Fleur Gautier, Annarita Miccio, Jean Soulier, William Vainchenker, Liran Shlush, Lydie Da Costa, Jan Frayne, Eric Soler, Olivier Hermine, Lucile Couronné

School of Biochemistry

Research output: Contribution to journal › Article (Academic Journal) › peer-review

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Abstract

The emergence of next-generation sequencing techniques has led to the genetic characterization of numerous congenital erythroid disorders, emphasizing crucial pathways in both normal and pathological erythropoiesis. In this study, whole exome sequencing of a single patient with atypical congenital pure red cell aplasia revealed a mutation in the CDAN1 gene, typically associated with congenital dyserythropoietic anemia type 1 (CDAI), together with a previously unreported mutation in the MMS22L gene. Combined mms22l and cdan1 haploinsufficiency results in severe anemia in a zebrafish model. In human erythroid progenitors, loss of MMS22L leads to proliferation and differentiation arrest associated with activation of the p53 pathway and global epigenetic alterations, showing that MMS22L plays an indispensable role in erythropoiesis. Furthermore, MMS22L and CDAN1 are involved in the same protein complex whose nuclear import is mediated by the importin 4 (IPO4) protein, and MMS22L nuclear import is impaired in CDAI patients due to a defective interaction between CDAN1 and IPO4. Overall, through the genetic description of a single case characterized by digenic inheritance, we identified MMS22L as a novel key factor in erythropoiesis and brought new insights into normal erythropoiesis regulation and CDAI pathophysiology.

Original language	English
Article number	e70264
Number of pages	13
Journal	HemaSphere
Volume	9
Issue number	12
DOIs	https://doi.org/10.1002/hem3.70264
Publication status	Published - 23 Dec 2025

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© 2025 The Author(s). HemaSphere published by John Wiley & Sons Ltd on behalf of European Hematology Association.

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Colin, E., Ferrer-Vicens, I., Brook, D., Salma, M., Andrieu-Soler, C., Bayard, E., Fernandes, A., Brouzes, C., Lefèvre, C., Duval, R., Dussiot, M., Trovati, T., Courtois, G., Azouzi, S., Zarhrate, M., Lambilliotte, A., Park, S., Carpentier, B., Colard, M., ... Couronné, L. (2025). MMS22L is a novel key actor of normal and pathological erythropoiesis. HemaSphere, 9(12), Article e70264. https://doi.org/10.1002/hem3.70264

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title = "MMS22L is a novel key actor of normal and pathological erythropoiesis",

abstract = "The emergence of next-generation sequencing techniques has led to the genetic characterization of numerous congenital erythroid disorders, emphasizing crucial pathways in both normal and pathological erythropoiesis. In this study, whole exome sequencing of a single patient with atypical congenital pure red cell aplasia revealed a mutation in the CDAN1 gene, typically associated with congenital dyserythropoietic anemia type 1 (CDAI), together with a previously unreported mutation in the MMS22L gene. Combined mms22l and cdan1 haploinsufficiency results in severe anemia in a zebrafish model. In human erythroid progenitors, loss of MMS22L leads to proliferation and differentiation arrest associated with activation of the p53 pathway and global epigenetic alterations, showing that MMS22L plays an indispensable role in erythropoiesis. Furthermore, MMS22L and CDAN1 are involved in the same protein complex whose nuclear import is mediated by the importin 4 (IPO4) protein, and MMS22L nuclear import is impaired in CDAI patients due to a defective interaction between CDAN1 and IPO4. Overall, through the genetic description of a single case characterized by digenic inheritance, we identified MMS22L as a novel key factor in erythropoiesis and brought new insights into normal erythropoiesis regulation and CDAI pathophysiology.",

author = "Elia Colin and Ivan Ferrer-Vicens and Dror Brook and Mohammad Salma and Charlotte Andrieu-Soler and Elisa Bayard and Alicia Fernandes and Chantal Brouzes and Carine Lef{\`e}vre and Romain Duval and Micha{\"e}l Dussiot and Thiago Trovati and Genevi{\`e}ve Courtois and Slim Azouzi and Mohammed Zarhrate and Anne Lambilliotte and Sophie Park and Benjamin Carpentier and Martin Colard and Sandra Manceau and Despina Moshous and Patrick Mayeux and Emilie-Fleur Gautier and Annarita Miccio and Jean Soulier and William Vainchenker and Liran Shlush and \{Da Costa\}, Lydie and Jan Frayne and Eric Soler and Olivier Hermine and Lucile Couronn{\'e}",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). HemaSphere published by John Wiley \& Sons Ltd on behalf of European Hematology Association.",

year = "2025",

month = dec,

day = "23",

doi = "10.1002/hem3.70264",

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Colin, E, Ferrer-Vicens, I, Brook, D, Salma, M, Andrieu-Soler, C, Bayard, E, Fernandes, A, Brouzes, C, Lefèvre, C, Duval, R, Dussiot, M, Trovati, T, Courtois, G, Azouzi, S, Zarhrate, M, Lambilliotte, A, Park, S, Carpentier, B, Colard, M, Manceau, S, Moshous, D, Mayeux, P, Gautier, E-F, Miccio, A, Soulier, J, Vainchenker, W, Shlush, L, Da Costa, L, Frayne, J, Soler, E, Hermine, O & Couronné, L 2025, 'MMS22L is a novel key actor of normal and pathological erythropoiesis', HemaSphere, vol. 9, no. 12, e70264. https://doi.org/10.1002/hem3.70264

TY - JOUR

T1 - MMS22L is a novel key actor of normal and pathological erythropoiesis

AU - Colin, Elia

AU - Ferrer-Vicens, Ivan

AU - Brook, Dror

AU - Salma, Mohammad

AU - Andrieu-Soler, Charlotte

AU - Bayard, Elisa

AU - Fernandes, Alicia

AU - Brouzes, Chantal

AU - Lefèvre, Carine

AU - Duval, Romain

AU - Dussiot, Michaël

AU - Trovati, Thiago

AU - Courtois, Geneviève

AU - Azouzi, Slim

AU - Zarhrate, Mohammed

AU - Lambilliotte, Anne

AU - Park, Sophie

AU - Carpentier, Benjamin

AU - Colard, Martin

AU - Manceau, Sandra

AU - Moshous, Despina

AU - Mayeux, Patrick

AU - Gautier, Emilie-Fleur

AU - Miccio, Annarita

AU - Soulier, Jean

AU - Vainchenker, William

AU - Shlush, Liran

AU - Da Costa, Lydie

AU - Frayne, Jan

AU - Soler, Eric

AU - Hermine, Olivier

AU - Couronné, Lucile

PY - 2025/12/23

Y1 - 2025/12/23

N2 - The emergence of next-generation sequencing techniques has led to the genetic characterization of numerous congenital erythroid disorders, emphasizing crucial pathways in both normal and pathological erythropoiesis. In this study, whole exome sequencing of a single patient with atypical congenital pure red cell aplasia revealed a mutation in the CDAN1 gene, typically associated with congenital dyserythropoietic anemia type 1 (CDAI), together with a previously unreported mutation in the MMS22L gene. Combined mms22l and cdan1 haploinsufficiency results in severe anemia in a zebrafish model. In human erythroid progenitors, loss of MMS22L leads to proliferation and differentiation arrest associated with activation of the p53 pathway and global epigenetic alterations, showing that MMS22L plays an indispensable role in erythropoiesis. Furthermore, MMS22L and CDAN1 are involved in the same protein complex whose nuclear import is mediated by the importin 4 (IPO4) protein, and MMS22L nuclear import is impaired in CDAI patients due to a defective interaction between CDAN1 and IPO4. Overall, through the genetic description of a single case characterized by digenic inheritance, we identified MMS22L as a novel key factor in erythropoiesis and brought new insights into normal erythropoiesis regulation and CDAI pathophysiology.

AB - The emergence of next-generation sequencing techniques has led to the genetic characterization of numerous congenital erythroid disorders, emphasizing crucial pathways in both normal and pathological erythropoiesis. In this study, whole exome sequencing of a single patient with atypical congenital pure red cell aplasia revealed a mutation in the CDAN1 gene, typically associated with congenital dyserythropoietic anemia type 1 (CDAI), together with a previously unreported mutation in the MMS22L gene. Combined mms22l and cdan1 haploinsufficiency results in severe anemia in a zebrafish model. In human erythroid progenitors, loss of MMS22L leads to proliferation and differentiation arrest associated with activation of the p53 pathway and global epigenetic alterations, showing that MMS22L plays an indispensable role in erythropoiesis. Furthermore, MMS22L and CDAN1 are involved in the same protein complex whose nuclear import is mediated by the importin 4 (IPO4) protein, and MMS22L nuclear import is impaired in CDAI patients due to a defective interaction between CDAN1 and IPO4. Overall, through the genetic description of a single case characterized by digenic inheritance, we identified MMS22L as a novel key factor in erythropoiesis and brought new insights into normal erythropoiesis regulation and CDAI pathophysiology.

U2 - 10.1002/hem3.70264

DO - 10.1002/hem3.70264

M3 - Article (Academic Journal)

C2 - 41446536

SN - 2572-9241

VL - 9

JO - HemaSphere

JF - HemaSphere

IS - 12

M1 - e70264

ER -

MMS22L is a novel key actor of normal and pathological erythropoiesis

Abstract

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