Delta-like 4 is required for pulmonary vascular arborization and alveolarization in the developing lung
Sheng Xia, Heather L. Menden, Nick Townley, Sherry M. Mabry, Jeffrey Johnston, Michael F. Nyp, Daniel P. Heruth, Thomas Korfhagen, Venkatesh Sampath
Sheng Xia, Heather L. Menden, Nick Townley, Sherry M. Mabry, Jeffrey Johnston, Michael F. Nyp, Daniel P. Heruth, Thomas Korfhagen, Venkatesh Sampath
View: Text | PDF
Research Article Pulmonology Vascular biology

Delta-like 4 is required for pulmonary vascular arborization and alveolarization in the developing lung

Abstract

The molecular mechanisms by which endothelial cells (ECs) regulate pulmonary vascularization and contribute to alveolar epithelial cell development during lung morphogenesis remain unknown. We tested the hypothesis that delta-like 4 (DLL4), an EC Notch ligand, is critical for alveolarization by combining lung mapping and functional studies in human tissue and DLL4-haploinsufficient mice (Dll4+/lacz). DLL4 expressed in a PECAM-restricted manner in capillaries, arteries, and the alveolar septum from the canalicular to alveolar stage in mice and humans. Dll4 haploinsufficiency resulted in exuberant, nondirectional vascular patterning at E17.5 and P6, followed by smaller capillaries and fewer intermediate blood vessels at P14. Vascular defects coincided with polarization of lung EC expression toward JAG1-NICD-HES1 signature and decreased tip cell-like (Car4) markers. Dll4+/lacZ mice had impaired terminal bronchiole development at the canalicular stage and impaired alveolarization upon lung maturity. We discovered that alveolar type I cell (Aqp5) markers progressively decreased in Dll4+/lacZ mice after birth. Moreover, in human lung EC, DLL4 deficiency programmed a hypersprouting angiogenic phenotype cell autonomously. In conclusion, DLL4 is expressed from the canalicular to alveolar stage in mice and humans, and Dll4 haploinsufficiency programs dysmorphic microvascularization, impairing alveolarization. Our study reveals an obligate role for DLL4-regulated angiogenesis in distal lung morphogenesis.

Authors

Sheng Xia, Heather L. Menden, Nick Townley, Sherry M. Mabry, Jeffrey Johnston, Michael F. Nyp, Daniel P. Heruth, Thomas Korfhagen, Venkatesh Sampath

×

Figure 4

Altered EC gene expression in the ECs of Dll4+/lacZ mice.

Options: View larger image (or click on image) Download as PowerPoint
Altered EC gene expression in the ECs of Dll4+/lacZ mice. (A) Whole-lung...
(A) Whole-lung RNA homogenates obtained from Dll4+/+ and Dll4+/lacZ at P4 and P28 were used to quantify Kdr, Jag1, Nr2f2, Ephb4, Vegfa, Car4, Esm1, Apln, and Aplnr with qRT-PCR. n = 5 mice per group; *P < 0.05, **P < 0.01, ***P < 0.001. (B) Mouse lung ECs (PECAM pulldown) obtained from Dll4+/+ and Dll4+/lacZ at P6 and P14 were used to quantify Dll4, Nrp1, Jag1, Car4, Apln, Esm1, Efnb2, and Aplnr. n = 5 mice per group; *P < 0.01. (C) Mouse lung ECs were harvested from 14-day-old Dll4+/+ and Dll4+/lacZ mice. Lung homogenates were used to quantify DLL4, NICD, HES1, JAG1, VEGFA, and PECAM by immunoblotting, with densitometry shown graphically (D). n = 5 mice per group; *P < 0.01. (E) PECAM (green), CAR4 (red), and DAPI staining on P14 Dll4+/+ and Dll4+/lacZ lung sections (n = 4). (F) PECAM (green), APLNR (red) and DAPI (blue) staining on Dll4+/+ and Dll4+/lacZ mouse lung slides (n = 4). Scale bars: 10 μm. Data are shown as mean ± SD. (A, B, and D, Gaussian distribution used 1-way ANOVA with Tukey’s test) (A and B) Non-Gaussian distribution used 2-tailed Mann-Whitney U test.