Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis

CRK and CRKL (CRK-like) encode adapter proteins with similar biochemical properties. Here, we show that a 50% reduction of the family-combined dosage generates developmental defects, including aspects of DiGeorge/del22q11 syndrome in mice. Like the mouse homologs of two 22q11.21 genes CRKL and TBX1,...

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Autores principales: Imamoto, Akira, Ki, Sewon, Li, Leiming, Iwamoto, Kazunari, Maruthamuthu, Venkat, Devany, John, Lu, Ocean, Kanazawa, Tomomi, Zhang, Suxiang, Yamada, Takuji, Hirayama, Akiyoshi, Fukuda, Shinji, Suzuki, Yutaka, Okada, Mariko
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Life Science Alliance LLC 2020
Materias:
Research Articles
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7010317/
https://www.ncbi.nlm.nih.gov/pubmed/32041892
http://dx.doi.org/10.26508/lsa.201900635
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author Imamoto, Akira
Ki, Sewon
Li, Leiming
Iwamoto, Kazunari
Maruthamuthu, Venkat
Devany, John
Lu, Ocean
Kanazawa, Tomomi
Zhang, Suxiang
Yamada, Takuji
Hirayama, Akiyoshi
Fukuda, Shinji
Suzuki, Yutaka
Okada, Mariko
author_facet Imamoto, Akira
Ki, Sewon
Li, Leiming
Iwamoto, Kazunari
Maruthamuthu, Venkat
Devany, John
Lu, Ocean
Kanazawa, Tomomi
Zhang, Suxiang
Yamada, Takuji
Hirayama, Akiyoshi
Fukuda, Shinji
Suzuki, Yutaka
Okada, Mariko
author_sort Imamoto, Akira
collection PubMed
description CRK and CRKL (CRK-like) encode adapter proteins with similar biochemical properties. Here, we show that a 50% reduction of the family-combined dosage generates developmental defects, including aspects of DiGeorge/del22q11 syndrome in mice. Like the mouse homologs of two 22q11.21 genes CRKL and TBX1, Crk and Tbx1 also genetically interact, thus suggesting that pathways shared by the three genes participate in organogenesis affected in the syndrome. We also show that Crk and Crkl are required during mesoderm development, and Crk/Crkl deficiency results in small cell size and abnormal mesenchyme behavior in primary embryonic fibroblasts. Our systems-wide analyses reveal impaired glycolysis, associated with low Hif1a protein levels as well as reduced histone H3K27 acetylation in several key glycolysis genes. Furthermore, Crk/Crkl deficiency sensitizes MEFs to 2-deoxy-D-glucose, a competitive inhibitor of glycolysis, to induce cell blebbing. Activated Rapgef1, a Crk/Crkl-downstream effector, rescues several aspects of the cell phenotype, including proliferation, cell size, focal adhesions, and phosphorylation of p70 S6k1 and ribosomal protein S6. Our investigations demonstrate that Crk/Crkl-shared pathways orchestrate metabolic homeostasis and cell behavior through widespread epigenetic controls.
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spelling pubmed-70103172020-02-19 Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis Imamoto, Akira Ki, Sewon Li, Leiming Iwamoto, Kazunari Maruthamuthu, Venkat Devany, John Lu, Ocean Kanazawa, Tomomi Zhang, Suxiang Yamada, Takuji Hirayama, Akiyoshi Fukuda, Shinji Suzuki, Yutaka Okada, Mariko Life Sci Alliance Research Articles CRK and CRKL (CRK-like) encode adapter proteins with similar biochemical properties. Here, we show that a 50% reduction of the family-combined dosage generates developmental defects, including aspects of DiGeorge/del22q11 syndrome in mice. Like the mouse homologs of two 22q11.21 genes CRKL and TBX1, Crk and Tbx1 also genetically interact, thus suggesting that pathways shared by the three genes participate in organogenesis affected in the syndrome. We also show that Crk and Crkl are required during mesoderm development, and Crk/Crkl deficiency results in small cell size and abnormal mesenchyme behavior in primary embryonic fibroblasts. Our systems-wide analyses reveal impaired glycolysis, associated with low Hif1a protein levels as well as reduced histone H3K27 acetylation in several key glycolysis genes. Furthermore, Crk/Crkl deficiency sensitizes MEFs to 2-deoxy-D-glucose, a competitive inhibitor of glycolysis, to induce cell blebbing. Activated Rapgef1, a Crk/Crkl-downstream effector, rescues several aspects of the cell phenotype, including proliferation, cell size, focal adhesions, and phosphorylation of p70 S6k1 and ribosomal protein S6. Our investigations demonstrate that Crk/Crkl-shared pathways orchestrate metabolic homeostasis and cell behavior through widespread epigenetic controls. Life Science Alliance LLC 2020-02-10 /pmc/articles/PMC7010317/ /pubmed/32041892 http://dx.doi.org/10.26508/lsa.201900635 Text en © 2020 Imamoto et al. https://creativecommons.org/licenses/by/4.0/This article is available under a Creative Commons License (Attribution 4.0 International, as described at https://creativecommons.org/licenses/by/4.0/).
spellingShingle Research Articles
Imamoto, Akira
Ki, Sewon
Li, Leiming
Iwamoto, Kazunari
Maruthamuthu, Venkat
Devany, John
Lu, Ocean
Kanazawa, Tomomi
Zhang, Suxiang
Yamada, Takuji
Hirayama, Akiyoshi
Fukuda, Shinji
Suzuki, Yutaka
Okada, Mariko
Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title_full Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title_fullStr Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title_full_unstemmed Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title_short Essential role of the Crk family-dosage in DiGeorge-like anomaly and metabolic homeostasis
title_sort essential role of the crk family-dosage in digeorge-like anomaly and metabolic homeostasis
topic Research Articles
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7010317/
https://www.ncbi.nlm.nih.gov/pubmed/32041892
http://dx.doi.org/10.26508/lsa.201900635
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