Xiang Lv scite author profile

Netrins are secreted molecules with roles in axonal growth and angiogenesis. The Netrin receptor UNC5B is required during embryonic development for vascular patterning, suggesting that it may also contribute to postnatal and pathological angiogenesis. Here we show that unc5b is down-regulated in quiescent adult vasculature, but re-expressed during sprouting angiogenesis in matrigel and tumor implants. Stimulation of UNC5B-expressing neovessels with an agonist (Netrin-1) inhibits sprouting angiogenesis. Genetic loss of function of unc5b reduces Netrin-1-mediated angiogenesis inhibition. Expression of UNC5B full-length receptor also triggers endothelial cell repulsion in response to Netrin-1 in vitro, whereas a truncated UNC5B lacking the intracellular signaling domain fails to induce repulsion. These data show that UNC5B activation inhibits sprouting angiogenesis, thus identifying UNC5B as a potential anti-angiogenic target.[Keywords: Vessel guidance; axon guidance molecules; tip cell; neovascularization; tumor angiogenesis] Supplemental material is available at http://www.genesdev.org. Three members of the netrin gene family, netrin-1, netrin-3, and ␤-netrin/netrin-4, have been identified in mammals (Serafini et al. 1996;Van Raay et al. 1997;Wang et al. 1999;Koch et al. 2000;Yin et al. 2000). Netrins are bifunctional guidance cues, attracting some axons while repelling others (Dickson 2002). Netrin-1 is secreted from cells at the ventral midline of the central nervous system and attracts commissural axons toward the midline. Netrins can, however, also repel certain axons, including the trochlear motor axons in vertebrates (Colamarino and Tessier-Lavigne 1995). Attraction and repulsion are mediated via activation of receptors of the deleted in colorectal cancer (DCC) and uncoordinated 5 (UNC5) families, respectively. The DCC family consists of DCC and Neogenin Keino-Masu et al. 1996), while the UNC5 family comprises four members, UNC5A to UNC5D (Leung-Hagesteijn et al. 1992;Leonardo et al. 1997). Axon attraction is mediated by the DCC receptors (Fazeli et al. 1997), while repulsion requires signaling through UNC5-DCC receptor heterodimers or UNC5 receptor homodimers (Hedgecock et al. 1990;Hong et al. 1999;Keleman and Dickson 2001).In addition to their role in axon guidance, Netrins and their receptors have been implicated in other develop- Article is online at http://www.genesdev.org/cgi

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Positive regulation of hepatic miR-122 expression by HNF4α

Yang

Zhu

et al. 2011

Journal of Hepatology

128

133

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Both TALENs and CRISPR/Cas9 directly target the HBB IVS2–654 (C > T) mutation in β-thalassemia-derived iPSCs

Tong

Liu

et al. 2015

Sci Rep

143

122

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β-Thalassemia is one of the most common genetic blood diseases and is caused by either point mutations or deletions in the β-globin (HBB) gene. The generation of patient-specific induced pluripotent stem cells (iPSCs) and subsequent correction of the disease-causing mutations may be a potential therapeutic strategy for this disease. Due to the low efficiency of typical homologous recombination, endonucleases, including TALENs and CRISPR/Cas9, have been widely used to enhance the gene correction efficiency in patient-derived iPSCs. Here, we designed TALENs and CRISPR/Cas9 to directly target the intron2 mutation site IVS2-654 in the globin gene. We observed different frequencies of double-strand breaks (DSBs) at IVS2-654 loci using TALENs and CRISPR/Cas9, and TALENs mediated a higher homologous gene targeting efficiency compared to CRISPR/Cas9 when combined with the piggyBac transposon donor. In addition, more obvious off-target events were observed for CRISPR/Cas9 compared to TALENs. Finally, TALENs-corrected iPSC clones were selected for erythroblast differentiation using the OP9 co-culture system and detected relatively higher transcription of HBB than the uncorrected cells. This comparison of using TALENs or CRISPR/Cas9 to correct specific HBB mutations in patient-derived iPSCs will guide future applications of TALENs- or CRISPR/Cas9-based gene therapies in monogenic diseases.

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SIRT1 Acts as a Modulator of Neointima Formation Following Vascular Injury in Mice

Zhang²,

Chen³

et al. 2011

Circulation Research

156

115

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Sirt1 deacetylates c-Myc and promotes c-Myc/Max association

Mao

Zhao

et al. 2011

The International Journal of Biochemistry & Cell Biology

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Modulations of hMOF autoacetylation by SIRT1 regulate hMOF recruitment and activities on the chromatin

et al. 2011

Cell Res

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A wide variety of nuclear regulators and enzymes are subjected to acetylation of the lysine residue, which regulates different aspects of protein functions. The MYST family histone acetyltransferase, human ortholog of MOF (hMOF), plays critical roles in transcription activation by acetylating nucleosomal H4K16. In this study, we found that hMOF acetylates itself in vitro and in vivo, and the acetylation is restricted to the conserved MYST domain (C2HC zinc finger and HAT), of which the K274 residue is the major autoacetylation site. Furthermore, the class III histone deacetylase SIRT1 was found to interact with the MYST domain of hMOF through the deacetylase catalytic region and deacetylate autoacetylated hMOF. In vitro binding assays showed that non-acetylated hMOF robustly binds to nucleosomes while acetylation decreases the binding ability. In HeLa cells, the recruitment of hMOF to the chromatin increases in response to SIRT1 overexpression and decreases after knockdown of SIRT1. The acetylation mimic mutation K274Q apparently decreases the chromatin recruitment of hMOF as well as the global H4K16Ac level in HeLa cells. Finally, upon SIRT1 knockdown, hMOF recruitment to the gene body region of its target gene HoxA9 decreases, accompanied with decrease of H4K16Ac at the same region and repression of HoxA9 transcription. These results suggest a dynamic interplay between SIRT1 and hMOF in regulating H4K16 acetylation.

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Netrin-1 inhibits sprouting angiogenesis in developing avian embryos

Bouvrée

Larrivée

et al. 2008

Developmental Biology

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Netrin-1 is a bifunctional axonal guidance cue, capable of attracting or repelling developing axons via activation of receptors of the deleted in colorectal cancer (DCC) and uncoordinated 5 (UNC5) families, respectively. In addition to its role in axon guidance, Netrin-1 has been implicated in angiogenesis, where it may also act as a bifunctional cue. Attractive effects of Netrin-1 on endothelial cells appear to be mediated by an as yet unknown receptor, while repulsion of developing blood vessels in mouse embryos is mediated by the UNC5B receptor. To explore evolutionary conservation of vascular UNC5B expression and function, we have cloned the chick unc5b homologue. Chick and quail embryos showed unc5b expression in arterial EC and sprouting angiogenic capillaries. To test if Netrin-1 displayed pro- or anti-angiogenic activities in the avian embryo, we grafted cell lines expressing recombinant chick or human Netrin-1 at different stages of development. Netrin-1 expressing cells inhibited angiogenic sprouting of unc5b expressing blood vessels, but had no pro-angiogenic activity at any stage of development examined. Netrin-1 also had no effect on the recruitment of circulating endothelial precursor cells. Taken together, these data indicate that vascular unc5b expression and function is conserved between chick and mice.

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Ginsenoside Rb1 inhibits osteoclastogenesis by modulating NF-κB and MAPKs pathways

Cheng

et al. 2012

Food and Chemical Toxicology

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Xiang Lv

Activation of the UNC5B receptor by Netrin-1 inhibits sprouting angiogenesis

Positive regulation of hepatic miR-122 expression by HNF4α

Both TALENs and CRISPR/Cas9 directly target the HBB IVS2–654 (C > T) mutation in β-thalassemia-derived iPSCs

SIRT1 Acts as a Modulator of Neointima Formation Following Vascular Injury in Mice

Sirt1 deacetylates c-Myc and promotes c-Myc/Max association

Modulations of hMOF autoacetylation by SIRT1 regulate hMOF recruitment and activities on the chromatin

Netrin-1 inhibits sprouting angiogenesis in developing avian embryos

Ginsenoside Rb1 inhibits osteoclastogenesis by modulating NF-κB and MAPKs pathways

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