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Targeted Disruption of Mouse Dip2B Leads to Abnormal Lung Development and Prenatal Lethality.

ABSTRACT: Molecular and anatomical functions of mammalian Dip2 family members (Dip2A, Dip2B and Dip2C) during organogenesis are largely unknown. Here, we explored the indispensable role of Dip2B in mouse lung development. Using a LacZ reporter, we explored Dip2B expression during embryogenesis. This study shows that Dip2B expression is widely distributed in various neuronal, myocardial, endothelial, and epithelial cell types during embryogenesis. Target disruption of Dip2b leads to intrauterine growth restriction, defective lung formation and perinatal mortality. Dip2B is crucial for late lung maturation rather than early-branching morphogenesis. The morphological analysis shows that Dip2b loss leads to disrupted air sac formation, interstitium septation and increased cellularity. In BrdU incorporation assay, it is shown that Dip2b loss results in increased cell proliferation at the saccular stage of lung development. RNA-seq analysis reveals that 1431 genes are affected in Dip2b deficient lungs at E18.5 gestation age. Gene ontology analysis indicates cell cycle-related genes are upregulated and immune system related genes are downregulated. KEGG analysis identifies oxidative phosphorylation as the most overrepresented pathways along with the G2/M phase transition pathway. Loss of Dip2b de-represses the expression of alveolar type I and type II molecular markers. Altogether, the study demonstrates an important role of Dip2B in lung maturation and survival.

SUBMITTER: Sah RK 

PROVIDER: S-EPMC7663123 | biostudies-literature | 2020 Nov

REPOSITORIES: biostudies-literature

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Targeted Disruption of Mouse Dip2B Leads to Abnormal Lung Development and Prenatal Lethality.

Sah Rajiv Kumar RK   Ma Jun J   Bah Fatoumata Binta FB   Xing Zhenkai Z   Adlat Salah S   Oo Zin Ma ZM   Wang Yajun Y   Bahadar Noor N   Bohio Ameer Ali AA   Nagi Farooq Hayel FH   Feng Xuechao X   Zhang Luqing L   Zheng Yaowu Y  

International journal of molecular sciences 20201103 21

Molecular and anatomical functions of mammalian Dip2 family members (Dip2A, Dip2B and Dip2C) during organogenesis are largely unknown. Here, we explored the indispensable role of Dip2B in mouse lung development. Using a LacZ reporter, we explored Dip2B expression during embryogenesis. This study shows that Dip2B expression is widely distributed in various neuronal, myocardial, endothelial, and epithelial cell types during embryogenesis. Target disruption of <i>Dip2b</i> leads to intrauterine gro  ...[more]

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