あなたは歯科・医療関係者ですか?

WHITE CROSSは、歯科・医療現場で働く方を対象に、良質な歯科医療情報の提供を目的とした会員制サイトです。

日本語AIでPubMedを検索

日本語AIでPubMedを検索

PubMedの提供する医学論文データベースを日本語で検索できます。AI(Deep Learning)を活用した機械翻訳エンジンにより、精度高く日本語へ翻訳された論文をご参照いただけます。
Mol. Neurobiol..2020 Jun;10.1007/s12035-020-01948-9. doi: 10.1007/s12035-020-01948-9.Epub 2020-06-23.

カベオリン-1アブレーションは、実験緑内障における網膜内損傷に対する部分的な保護とアポトーシス活性化を減少させる

Caveolin-1 Ablation Imparts Partial Protection Against Inner Retinal Injury in Experimental Glaucoma and Reduces Apoptotic Activation.

  • Mojdeh Abbasi
  • Vivek K Gupta
  • Nitin Chitranshi
  • Veer B Gupta
  • Mehdi Mirzaei
  • Yogita Dheer
  • Linda Garthwaite
  • Thiri Zaw
  • Robert G Parton
  • Yuyi You
  • Stuart L Graham
PMID: 32578008 DOI: 10.1007/s12035-020-01948-9.

抄録

Retinal ganglion cell degeneration is a characteristic feature of glaucoma, and accordingly, protection of these cells constitutes a major therapeutic objective in the disease. Here, we demonstrate the key influence of caveolin (Cav) in regulating the inner retinal homeostasis in two models of experimentally elevated intraocular pressure (IOP). Two groups of Cav-1 and wild-type mice were used in the study. Animals were subjected to experimentally induced chronic and acutely elevated IOP and any changes in their retinal function were assessed by positive scotopic threshold response recordings. TUNEL and cleaved caspase-3 assays were performed to evaluate apoptotic changes in the retina while Brn3a immunostaining was used as a marker to assess and quantify ganglion cell layer (GCL) changes. H&E staining was carried out on retinal sections to evaluate histological differences in retinal laminar structure. Cav-1 ablation partially protected the inner retinal function in both chronic and acute models of elevated IOP. The protective effects of Cav-1 loss were also evident histologically by reduced loss of GCL density in both models. The phenotypic protection in Cav-1 glaucoma mice paralleled with increased TrkB phosphorylation and reduced endoplasmic reticulum stress markers and apoptotic activation in the inner retinas. This study corroborated previous findings of enhanced Shp2 phosphorylation in a chronic glaucoma model and established a novel role of Cav-1 in mediating activation of this phosphatase in the inner retina in vivo. Collectively, these findings highlight the critical involvement of Cav-1 regulatory mechanisms in ganglion cells in response to increased IOP, implicating Cav-1 as a potential therapeutic target in glaucoma.