The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis

R-(-)-β-O-methylsynephrine (OMe-Syn) is a naturally occurring small molecule that was identified in a previous screen as an inhibitor of angiogenesis. In this study, we conducted two animal model experiments to investigate the in vivo antiangiogenic activity of OMe-Syn. OMe-Syn significantly inhibit...

Descripción completa

Detalles Bibliográficos
Autores principales: Kim, Nam Hee, Pham, Ngoc Bich, Quinn, Ronald J., Shim, Joong Sup, Cho, Hee, Cho, Sung Min, Park, Sung Wook, Kim, Jeong Hun, Seok, Seung Hyeok, Oh, Jong-Won, Kwon, Ho Jeong
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Ivyspring International Publisher 2015
Materias:
Research Paper
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4515819/
https://www.ncbi.nlm.nih.gov/pubmed/26221075
http://dx.doi.org/10.7150/ijbs.10603
_version_ 1782382976973144064
author Kim, Nam Hee
Pham, Ngoc Bich
Quinn, Ronald J.
Shim, Joong Sup
Cho, Hee
Cho, Sung Min
Park, Sung Wook
Kim, Jeong Hun
Seok, Seung Hyeok
Oh, Jong-Won
Kwon, Ho Jeong
author_facet Kim, Nam Hee
Pham, Ngoc Bich
Quinn, Ronald J.
Shim, Joong Sup
Cho, Hee
Cho, Sung Min
Park, Sung Wook
Kim, Jeong Hun
Seok, Seung Hyeok
Oh, Jong-Won
Kwon, Ho Jeong
author_sort Kim, Nam Hee
collection PubMed
description R-(-)-β-O-methylsynephrine (OMe-Syn) is a naturally occurring small molecule that was identified in a previous screen as an inhibitor of angiogenesis. In this study, we conducted two animal model experiments to investigate the in vivo antiangiogenic activity of OMe-Syn. OMe-Syn significantly inhibited angiogenesis in a transgenic zebrafish model as well as in a mouse retinopathy model. To elucidate the underlying mechanisms responsible for the antiangiogenic activity of OMe-Syn, we used phage display cloning to isolate potential OMe-Syn binding proteins from human cDNA libraries and identified nucleoporin 153 kDa (NUP153) as a primary binding partner of OMe-Syn. OMe-Syn competitively inhibited mRNA binding to the RNA-binding domain of NUP153. Furthermore, depletion of NUP153 in human cells or zebrafish embryos led to an inhibition of angiogenesis, in a manner similar to that seen in response to OMe-Syn treatment. These data suggest that OMe-Syn is a promising candidate for the development of a novel antiangiogenic agent and that inhibition of NUP153 is possibly responsible for the antiangiogenic activity of OMe-Syn.
format Online
Article
Text
id pubmed-4515819
institution National Center for Biotechnology Information
language English
publishDate 2015
publisher Ivyspring International Publisher
record_format MEDLINE/PubMed
spelling pubmed-45158192015-07-28 The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis Kim, Nam Hee Pham, Ngoc Bich Quinn, Ronald J. Shim, Joong Sup Cho, Hee Cho, Sung Min Park, Sung Wook Kim, Jeong Hun Seok, Seung Hyeok Oh, Jong-Won Kwon, Ho Jeong Int J Biol Sci Research Paper R-(-)-β-O-methylsynephrine (OMe-Syn) is a naturally occurring small molecule that was identified in a previous screen as an inhibitor of angiogenesis. In this study, we conducted two animal model experiments to investigate the in vivo antiangiogenic activity of OMe-Syn. OMe-Syn significantly inhibited angiogenesis in a transgenic zebrafish model as well as in a mouse retinopathy model. To elucidate the underlying mechanisms responsible for the antiangiogenic activity of OMe-Syn, we used phage display cloning to isolate potential OMe-Syn binding proteins from human cDNA libraries and identified nucleoporin 153 kDa (NUP153) as a primary binding partner of OMe-Syn. OMe-Syn competitively inhibited mRNA binding to the RNA-binding domain of NUP153. Furthermore, depletion of NUP153 in human cells or zebrafish embryos led to an inhibition of angiogenesis, in a manner similar to that seen in response to OMe-Syn treatment. These data suggest that OMe-Syn is a promising candidate for the development of a novel antiangiogenic agent and that inhibition of NUP153 is possibly responsible for the antiangiogenic activity of OMe-Syn. Ivyspring International Publisher 2015-07-16 /pmc/articles/PMC4515819/ /pubmed/26221075 http://dx.doi.org/10.7150/ijbs.10603 Text en © 2015 Ivyspring International Publisher. Reproduction is permitted for personal, noncommercial use, provided that the article is in whole, unmodified, and properly cited. See http://ivyspring.com/terms for terms and conditions.
spellingShingle Research Paper
Kim, Nam Hee
Pham, Ngoc Bich
Quinn, Ronald J.
Shim, Joong Sup
Cho, Hee
Cho, Sung Min
Park, Sung Wook
Kim, Jeong Hun
Seok, Seung Hyeok
Oh, Jong-Won
Kwon, Ho Jeong
The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title_full The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title_fullStr The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title_full_unstemmed The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title_short The Small Molecule R-(-)-β-O-Methylsynephrine Binds to Nucleoporin 153 kDa and Inhibits Angiogenesis
title_sort small molecule r-(-)-β-o-methylsynephrine binds to nucleoporin 153 kda and inhibits angiogenesis
topic Research Paper
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4515819/
https://www.ncbi.nlm.nih.gov/pubmed/26221075
http://dx.doi.org/10.7150/ijbs.10603
work_keys_str_mv AT kimnamhee thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT phamngocbich thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT quinnronaldj thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT shimjoongsup thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT chohee thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT chosungmin thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT parksungwook thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT kimjeonghun thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT seokseunghyeok thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT ohjongwon thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT kwonhojeong thesmallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT kimnamhee smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT phamngocbich smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT quinnronaldj smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT shimjoongsup smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT chohee smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT chosungmin smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT parksungwook smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT kimjeonghun smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT seokseunghyeok smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT ohjongwon smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis
AT kwonhojeong smallmoleculerbomethylsynephrinebindstonucleoporin153kdaandinhibitsangiogenesis

Ejemplares similares