The WNT antagonist Dickkopf2 promotes angiogenesis in rodent and human endothelial cells
Jeong-Ki Min, Hongryeol Park, Hyun-Jung Choi, Yonghak Kim, Bo-Jeong Pyun, Vijayendra Agrawal, Byeong-Wook Song, Jongwook Jeon, Yong-Sun Maeng, Seung-Sik Rho, Sungbo Shim, Jin-Ho Chai, Bon-Kyoung Koo, Hyo Jeong Hong, Chae-Ok Yun, Chulhee Choi, Young-Myoung Kim, Ki-Chul Hwang, Young-Guen Kwon
Jeong-Ki Min, Hongryeol Park, Hyun-Jung Choi, Yonghak Kim, Bo-Jeong Pyun, Vijayendra Agrawal, Byeong-Wook Song, Jongwook Jeon, Yong-Sun Maeng, Seung-Sik Rho, Sungbo Shim, Jin-Ho Chai, Bon-Kyoung Koo, Hyo Jeong Hong, Chae-Ok Yun, Chulhee Choi, Young-Myoung Kim, Ki-Chul Hwang, Young-Guen Kwon
View: Text | PDF
Research Article Angiogenesis

The WNT antagonist Dickkopf2 promotes angiogenesis in rodent and human endothelial cells

Abstract

Neovessel formation is a complex process governed by the orchestrated action of multiple factors that regulate EC specification and dynamics within a growing vascular tree. These factors have been widely exploited to develop therapies for angiogenesis-related diseases such as diabetic retinopathy and tumor growth and metastasis. WNT signaling has been implicated in the regulation and development of the vascular system, but the detailed mechanism of this process remains unclear. Here, we report that Dickkopf1 (DKK1) and Dickkopf2 (DKK2), originally known as WNT antagonists, play opposite functional roles in regulating angiogenesis. DKK2 induced during EC morphogenesis promoted angiogenesis in cultured human endothelial cells and in in vivo assays using mice. Its structural homolog, DKK1, suppressed angiogenesis and was repressed upon induction of morphogenesis. Importantly, local injection of DKK2 protein significantly improved tissue repair, with enhanced neovascularization in animal models of both hind limb ischemia and myocardial infarction. We further showed that DKK2 stimulated filopodial dynamics and angiogenic sprouting of ECs via a signaling cascade involving LRP6-mediated APC/Asef2/Cdc42 activation. Thus, our findings demonstrate the distinct functions of DKK1 and DKK2 in controlling angiogenesis and suggest that DKK2 may be a viable therapeutic target in the treatment of ischemic vascular diseases.

Authors

Jeong-Ki Min, Hongryeol Park, Hyun-Jung Choi, Yonghak Kim, Bo-Jeong Pyun, Vijayendra Agrawal, Byeong-Wook Song, Jongwook Jeon, Yong-Sun Maeng, Seung-Sik Rho, Sungbo Shim, Jin-Ho Chai, Bon-Kyoung Koo, Hyo Jeong Hong, Chae-Ok Yun, Chulhee Choi, Young-Myoung Kim, Ki-Chul Hwang, Young-Guen Kwon

×

Figure 2

DKK2 protein induces angiogenesis in vivo.

Options: View larger image (or click on image) Download as PowerPoint
DKK2 protein induces angiogenesis in vivo. (A and B) Matrigel plugs trea...
(A and B) Matrigel plugs treated with VEGF (200 ng) and DKK2 (1 μg) were excised from mice 5 days after injection (n = 5 per group). Scale bars: 100 μm. CD31 staining (A) and quantification of hemoglobin concentrations in a Matrigel plug (B). White arrows indicate CD31-stained vessels. (CF) Corneal angiogenic responses induced by VEGF-containing (200 ng) or DKK2-containing (1 μg) micropellets. Scale bars: 500 μm. Asterisks indicate micropellet inserted (C). 5 days after pellet implantation, Evans blue was injected i.v. After 30 minutes, each mouse eye was photographed. Scale bars: 200 μm (D). CD31 and NG-2 staining of cryosections of the eye (E). Scale bars: 100 μm. Green, CD31 positive; red, NG-2 positive; blue, DAPI. Pericyte coverage calculated as a ratio of the NG-2 to CD31 staining area (F). Data represent mean ± SD. ***P < 0.001.