Endothelial cell polarity and extracellular matrix composition require functional ATP6AP2 during developmental and pathological angiogenesis
Nehal R. Patel, Rajan K C, Avery Blanks, Yisu Li, Minolfa C. Prieto, Stryder M. Meadows
Nehal R. Patel, Rajan K C, Avery Blanks, Yisu Li, Minolfa C. Prieto, Stryder M. Meadows
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Research Article Angiogenesis Vascular biology

Endothelial cell polarity and extracellular matrix composition require functional ATP6AP2 during developmental and pathological angiogenesis

Abstract

The (Pro)renin receptor ([P]RR), also known as ATP6AP2, is a single-transmembrane protein that is implicated in a multitude of biological processes. However, the exact role of ATP6AP2 during blood vessel development remains largely undefined. Here, we use an inducible endothelial cell–specific (EC-specific) Atp6ap2-KO mouse model to investigate the role of ATP6AP2 during both physiological and pathological angiogenesis in vivo. We observed that postnatal deletion of Atp6ap2 in ECs results in cell migration defects, loss of tip cell polarity, and subsequent impairment of retinal angiogenesis. In vitro, Atp6ap2-deficient ECs similarly displayed reduced cell migration, impaired sprouting, and defective cell polarity. Transcriptional profiling of ECs isolated from Atp6ap2 mutant mice further indicated regulatory roles in angiogenesis, cell migration, and extracellular matrix composition. Mechanistically, we provided evidence that expression of various extracellular matrix components is controlled by ATP6AP2 via the ERK pathway. Furthermore, Atp6ap2-deficient retinas exhibited reduced revascularization in an oxygen-induced retinopathy model. Collectively, our results demonstrate a critical role of ATP6AP2 as a regulator of developmental and pathological angiogenesis.

Authors

Nehal R. Patel, Rajan K C, Avery Blanks, Yisu Li, Minolfa C. Prieto, Stryder M. Meadows

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Figure 5

ATP6AP2 knockdown in ECs results in impaired ERK1/2 signaling and downregulation of extracellular matrix proteins.

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ATP6AP2 knockdown in ECs results in impaired ERK1/2 signaling and downre...
(A) Western blot analysis of collagen III, laminin, and β-actin from control and Atp6ap2iECKO iLECs at P7 (n = 3). (B and C) Densitometric quantification of collagen III (B) and laminin (C) levels in control and Atp6ap2iECKO iLECs from A. (D) Western blot analyses for the indicated proteins in prorenin-stimulated TeloHAECs at indicated time points following control and Atp6ap2 siRNA treatment. Note that the β-actin blots correspond to the same protein samples represented directly above them. For instance, the β-actin blot at the bottom corresponds to the samples used to assess ATP6AP2. (EG) Densitometric quantifications of pERK1/2 (E), collagen III (F), laminin (G) levels in control and Atp6ap2 siRNA–treated cells at indicated time points following prorenin stimulation (n = 3 for each time point). Data are shown as mean ± SD; 2-tailed unpaired t test. ***P < 0.001, ****P < 0.0001.