一种 CXCR3 激活肽能延长泪液破裂时间并矫正环境性干眼症兔模型中的角膜混浊。

Journal of pharmacy and pharmacology research Pub Date : 2024-01-01 Epub Date: 2024-04-17 DOI:10.26502/fjppr.094
Alan Wells, Yadong Wang, Hanshuang Shao, Peri Sohnen, Shivalingappa K Swamynathan
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引用次数: 0

摘要

目的:环境诱发的干眼症(DED)或角结膜炎(KCS)占 DED 病例的大多数,目前只能通过水替代溶液进行缓解性治疗,而这些溶液并不针对泪液中粘蛋白和脂质成分的功能障碍。我们测试了一种能在巩膜化学损伤模型中增加泪腺细胞数量的肽是否也能改善环境性 DED 的泪液质量:环境性 DED 是通过将新西兰白兔(每组 8 只,雌性)暴露在湿度为 20% 的环境中,并快速更换空气,同时在给药前 3 周内滴注硫酸阿托品眼药水;在随后的 3 周测试中继续这样做。动物的用药方式为:(A) 生理盐水;(B) 生理盐水中的肽滴眼液;(C) 玻尿酸中的肽滴眼液;或 (D) 每周结膜下注射一次肽。在体外,人结膜上皮细胞(HCjE)暴露于有或没有多肽的 TNFα 下,以确定炎症反应性:环境 DED 试验开始时,Schirmer 和 TBUT 均有所下降;在试验期间,这些水平一直保持在较低水平。所有三种治疗方案都将 TBUT 提高了约 3 倍,达到了干燥前的水平(P < 0.01),但对 Schirmer 的影响很小。所有眼睛在诱导后都出现了角膜混浊,在 48 只眼睛中,有 36 只眼睛的角膜混浊在不同的治疗方案中完全逆转(P < 0.05)。用多肽联合治疗 HCjE 可减少 TNFα 在炎症刺激下的产生:结论:用一种能激活 CXCR3 的多肽治疗环境性 DED/KCS 可改善泪液质量并逆转角膜病理,因为它能促进泪液稳定性并可能抑制角膜炎症,同时不影响泪液的水容量。
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A CXCR3-Activating Peptide Increases Tear Break Up Time and Corrects Corneal haze in a Rabbit Model of Environmental Dry Eye.

Purpose: Environmentally-triggered dry eye disease (DED) or keratoconjunctivitis sicca (KCS), which constitutes the majority of DED cases, currently is palliatively treated with aqueous replacement solutions that do not target the dysfunction of the mucin and lipid components of tears. We tested whether a peptide that increased goblet cell numbers in a model of scleral chemical injury would also improve tear quality in environmental DED.

Methods: Environmental DED was established by exposing New Zealand white rabbits (8 per group, female) to 20% humidity with rapid air replacement and b.i.d. atropine sulfate eyedrops for 3 weeks prior to test article administration; this continued for the subsequent 3 weeks of testing. Animals were dosed by (A) saline, (B) b.i.d. eyedrop of peptide in saline, (C) b.i.d. eyedrop of peptide in coacervate, or (D) weekly subconjunctival injection of peptide. In vitro, human conjunctival epithelial cells (HCjE) were exposed to TNFα in the presence or absence of peptide to determine inflammatory responsiveness.

Results: The environmental DED was established with both Schirmer and TBUT being reduced at the start of test article; these levels were maintained as low through the testing period. All three treatment regimens increased TBUT approximately 3x to levels greater than prior to desiccation (P < 0.01), with little effect on Schirmer. Corneal haze was present in all eyes after induction, and completely reversed in 36 of 48 eyes across the treatments (P < 0.05). Co-treatment of HCjE with peptide reduced the production of TNFα in response to an inflammatory stimulus.

Conclusions: The treatment of environmental DED/KCS with a peptide that activates CXCR3 improved tear quality and reversed corneal pathology by promoting tear stability and likely dampening the corneal inflammation, while not affecting aqueous volume of the tears.

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