タカハシ カンジ   TAKAHASHI KANJI
  髙橋 寛二
   所属   関西医科大学  眼科学講座
   職種   非常勤講師
言語種別 英語
発表タイトル Changes in immunostaining of five elastic fiber components in Bruch’s
membrane and laser-induced choroidal neovascularization in mice
会議名 ARVO 2016 Meeting
学会区分 国際学会及び海外の学会
発表形式 ポスター掲示
講演区分 一般
発表者・共同発表者◎Mori Hidetsugu, Yamada Haruhiko, Takahashi Kanji, Akama Tomoya, Nakamura Tomoyuki
発表年月日 2016/05
開催地
(都市, 国名)
シアトル, アメリカ
概要 Purpose
Fibrillin-1, Developmental Arteries and Neural Crest Epidermal growth factor-like (DANCE), tropoelastin and Latent Transforming growth factor beta-Binding Protein-2 and -4 (LTBP-2 and -4) are essential proteins for elastic fiber formation. In this study, we analyzed the distribution of these five elastic fiber components in the elastic lamina of the Bruch’s membrane and laser-induced choroidal neovascularization (LiCNV) using immunofluorescence staining.
Methods
Twenty eyes of ten C57BL/6 female mice (8-10 weeks) were used. LiCNVs were induced in ten eyes by intense laser photocoagulation (532nm, 50μm, 350mW; GYC-2000®, NIDEK, Aichi, Japan). One week after photocoagulation, the eyes were enucleated and immediately frozen (-80℃). Eight micrometers thin-sliced sections were cut using a cryostat. Frozen sections were fixed with methanol at -20℃ for 5 minutes, washed with phosphate-buffered saline (PBS) for 5 minutes and blocked with 4% blocking agent for 20 minutes. They were incubated with primary antibodies (Fibrillin-1, DANCE, tropoelastin, LTBP-2 or -4) for 1 hour and were visualized with Alexa-488/546 and DyLight650 secondary antibodies for 1 hour at room temperature. After washing 3 times with PBS, all slides were mounted with ProLongGold® (Thermo Fisher Scientific, Waltham, USA) and observed under with a fluorescence microscope (BZ-X700®; KEYENCE, Osaka, Japan).
Results
These five proteins (Fibrillin-1, DANCE, tropoelastin, LTBP-2 and -4) were expressed both in the elastic lamina of the Bruch’s membrane and inside LiCNVs in all eyes. The localization of these five proteins was similar. However, the signal intensity of DANCE was very faint compared to a positive control. Moreover, these five proteins were stained more intensely inside LiCNVs compared to the elastic lamina of the Bruch’s membrane.