Fas Ligand enhances vessel maturation and inhibits vascular leakage associated with age-related macular degeneration

Adarsha Koirala, Ann Marshak-Rothstein, Bruce R. Ksander, M. Gregory-Ksander
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Abstract

Abstract Neovascular age-related macular degeneration (AMD), results from choroidal neovascularization (CNV), retinal edema and loss of photoreceptors. Previous studies suggested that Fas Ligand (FasL) on retinal pigment epithelial cells inhibited CNV by inducing apoptosis of infiltrating Fas + vascular endothelial cells. However, induction of apoptosis depends on membrane-bound (mFasL) while the FasL cleavage product (sFasL) is neuroprotective. To better understand how FasL regulates the development of CNV, we used a mouse model of laser CNV to evaluate the development of CNV in mice with a FasL cleavage site mutation (ΔCS) and can only express the membrane-bound form of FasL. There was no significant difference in CNV size and area of vascular leakage in homozygous FasL ΔCS/ΔCS mice when compared to wild type mice. Unexpectedly, heterozygous FasL ΔCS/WT mice developed significantly less vascular leakage and showed accelerated neovessel maturation. However, CNV was not prevented in heterozygous FasL ΔCS/WT mice if the Fas receptor was deleted in myeloid cells (FasL ΔCS/+ Fas flox/flox Cre LysM ). Thus, FasL-mediated CNV inhibition depends on the extent of FasL cleavage, and on FasL engagement of Fas + myeloid cells. Moreover, accelerated neovessel maturation prevents vascular leakage in AMD.
Fas 配体可促进血管成熟,抑制与老年性黄斑变性相关的血管渗漏
摘要 老年性黄斑变性(AMD)是由脉络膜新生血管(CNV)、视网膜水肿和光感受器丧失引起的。以前的研究表明,视网膜色素上皮细胞上的 Fas 配体(FasL)通过诱导浸润的 Fas + 血管内皮细胞凋亡来抑制 CNV。然而,凋亡的诱导依赖于膜结合型(mFasL),而 FasL 的裂解产物(sFasL)则具有神经保护作用。为了更好地了解 FasL 如何调控 CNV 的发展,我们利用激光 CNV 小鼠模型评估了 FasL 分裂位点突变(ΔCS)且只能表达膜结合形式 FasL 的小鼠 CNV 的发展情况。与野生型小鼠相比,同卵 FasL ΔCS/ΔCS 小鼠的 CNV 大小和血管渗漏面积没有明显差异。出乎意料的是,杂合子 FasL ΔCS/WT 小鼠出现的血管渗漏明显较少,而且新生血管成熟速度加快。然而,如果在骨髓细胞中删除 Fas 受体(FasL ΔCS/+ Fas floatx/flox Cre LysM),杂合子 FasL ΔCS/WT 小鼠的 CNV 不会被阻止。因此,FasL 介导的 CNV 抑制作用取决于 FasL 的裂解程度以及 FasL 与 Fas + 髓系细胞的接合。此外,加速新生血管成熟可防止 AMD 的血管渗漏。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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