NOGOB receptor–mediated RAS signaling pathway is a target for suppressing proliferating hemangioma
Wenquan Hu, Zhong Liu, Valerie Salato, Paula E. North, Joyce Bischoff, Suresh N. Kumar, Zhi Fang, Sujith Rajan, M. Mahmood Hussain, Qing R. Miao
Wenquan Hu, Zhong Liu, Valerie Salato, Paula E. North, Joyce Bischoff, Suresh N. Kumar, Zhi Fang, Sujith Rajan, M. Mahmood Hussain, Qing R. Miao
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Research Article Angiogenesis Vascular biology

NOGOB receptor–mediated RAS signaling pathway is a target for suppressing proliferating hemangioma

Abstract

Infantile hemangioma is a vascular tumor characterized by the rapid growth of disorganized blood vessels followed by slow spontaneous involution. The underlying molecular mechanisms that regulate hemangioma proliferation and involution still are not well elucidated. Our previous studies reported that NOGOB receptor (NGBR), a transmembrane protein, is required for the translocation of prenylated RAS from the cytosol to the plasma membrane and promotes RAS activation. Here, we show that NGBR was highly expressed in the proliferating phase of infantile hemangioma, but its expression decreased in the involuting phase, suggesting that NGBR may have been involved in regulating the growth of proliferating hemangioma. Moreover, we demonstrate that NGBR knockdown in hemangioma stem cells (HemSCs) attenuated growth factor–stimulated RAS activation and diminished the migration and proliferation of HemSCs, which is consistent with the effects of RAS knockdown in HemSCs. In vivo differentiation assay further shows that NGBR knockdown inhibited blood vessel formation and adipocyte differentiation of HemSCs in immunodeficient mice. Our data suggest that NGBR served as a RAS modulator in controlling the growth and differentiation of HemSCs.

Authors

Wenquan Hu, Zhong Liu, Valerie Salato, Paula E. North, Joyce Bischoff, Suresh N. Kumar, Zhi Fang, Sujith Rajan, M. Mahmood Hussain, Qing R. Miao

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Figure 7

NGBR is required for the differentiation of HemSCs to blood vessels or adipocytes in vivo.

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NGBR is required for the differentiation of HemSCs to blood vessels or a...
(A) Representative images of implants isolated from the nude mice are shown in the left panel. Clonal siControl or siNGBR HemSCs were suspended in Matrigel and injected into nude mice. The implants were collected at indicated time points (day 10 and day 20). NGBR knockdown reduced the angiogenesis and adipogenesis in the implants of HemSCs. (B) H&E staining of siControl and siNGBR HemSCs implants at the corresponding time points. Clonal HemSCs at passage 5 were used. Arrows point to the blood vessels, and stars point to the adipocytes. (C) IF staining of day 10 implants. IF staining of human CD31 (green) is shown on the left, followed by DAPI (blue) staining and a merged image. NGBR depletion decreased blood vessel formation on day 10. Quantitative analysis of positive CD31 staining was carried out using ImageJ software. *P < 0.05 vs. control (siControl) (n = 4). (D) IF staining of implants on day 20. IF staining of human CD31 (green) is shown on the left, followed by adiponectin (red) and DAPI (blue) staining, and a merged image. NGBR depletion decreased adipogenesis on day 20. Quantitative analysis of positive adiponectin staining was carried out using ImageJ software. *P < 0.05 vs. control (siControl) (n = 4). Scale bar: 100 μm. Statistical analyses: 2-tailed unpaired Student’s t test (C and D); data are expressed as mean ± SEM. NGBR, NOGOB receptor; HemSCs, hemangioma stem cells; siControl, control siRNA; siNGBR, NGBR siRNA.