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DNA replication in progenitor cells and epithelial regeneration after lung injury requires the oncoprotein MDM2
Shilpa Singh, Catherine A. Vaughan, Christopher Rabender, Ross Mikkelsen, Sumitra Deb, Swati Palit Deb
Shilpa Singh, Catherine A. Vaughan, Christopher Rabender, Ross Mikkelsen, Sumitra Deb, Swati Palit Deb
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Research Article Cell biology

DNA replication in progenitor cells and epithelial regeneration after lung injury requires the oncoprotein MDM2

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Abstract

Depletion of epithelial cells after lung injury prompts proliferation and epithelial mesenchymal transition (EMT) of progenitor cells, and this repopulates the lost epithelial layer. To investigate the cell proliferative function of human oncoprotein MDM2, we generated mouse models targeting human MDM2 expression in either lung Club or alveolar cells after doxycycline treatment. We report that MDM2 expression in lung Club or alveolar cells activates DNA replication specifically in lung progenitor cells only after chemical- or radiation-induced lung injury, irrespective of their p53 status. Activation of DNA replication by MDM2 triggered by injury leads to proliferation of lung progenitor cells and restoration of the lost epithelial layers. Mouse lung with no Mdm2 allele loses its ability to replicate DNA, whereas loss of 1 Mdm2 allele compromises this function, demonstrating the requirement of endogenous MDM2. We show that the p53-independent ability of MDM2 to activate Akt signaling is essential for initiating DNA replication in lung progenitor cells. Furthermore, MDM2 activates the Notch signaling pathway and expression of EMT markers, indicative of epithelial regeneration. This is the first report to our knowledge demonstrating a direct p53-independent participation of MDM2 in progenitor cell proliferation and epithelial repair after lung injury, distinct from a p53-degrading antiapoptotic effect preventing injury.

Authors

Shilpa Singh, Catherine A. Vaughan, Christopher Rabender, Ross Mikkelsen, Sumitra Deb, Swati Palit Deb

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Figure 7

MDM2-induces DNA replication, progenitor cell proliferation, and reepithelialization in lung bronchioles of R172H knock-in mice after naphthalene injury.

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MDM2-induces DNA replication, progenitor cell proliferation, and reepith...
FFPE lung sections from Dox-treated LSL R172H or LSL R172H tightMDM2 mice were analyzed by immunostaining after naphthalene injury and BrdU delivery. (A) Representative images (magnification, 20×) showing Dox-induced coexpression (brown) of MDM2 and mutant p53-R172H in bronchioles detected by immunostaining of serial lung tissue sections. (B) BrdU incorporation (red nuclear) in CCSP+ (green extranuclear) cells in lung bronchiole detected by immunostaining (magnification, 40×). (C) Frequency of BrdU-incorporating CCSP+cells are shown by a dot plot. (D) Representative images (magnification, 40×) showing CCSP/SPC-coexpressing (green and red, respectively) progenitor cells (arrows) in lung bronchioles. (E) Frequency of CCSP/SPC-coexpressing cells in lung bronchiole are compared by a dot plot. Data for each treatment (C–E) was collected from 3 mice, with 16 bronchioles per mice, and plotted as mean ± SD (n = 48). In all graphs, P values calculated using Student’s t test are indicated. (F) Representative images (magnification, 10×) showing restoration of epithelial layer with CCSP+ cells in lung bronchioles 72 hours after naphthalene injury. (G) Fraction of bronchioles restored has been compared using dot plot. Data for each treatment was collected from 3 mice, with 5 bronchioles per mice, and plotted as mean ± SD (n = 15). P value calculated using Mann-Whitney-Wilcoxon test is indicated.

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