The effects of age and dysfunction on meibomian gland population dynamics

IF 5.9 1区 医学 Q1 OPHTHALMOLOGY
Julie Wiedemann , Ghaidaa Kashgari , Shelley Lane , Brian C. Leonard , Kelly E. Knickelbein , Bogi Andersen , James V. Jester
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引用次数: 0

Abstract

Purpose

While meibomian gland dysfunction (MGD) is widely recognized as a major cause of evaporative dry eye disease, little is known about normal gland differentiation and lipid synthesis or the mechanism underlying gland atrophy and abnormal lipid secretion. The purpose of this study was to use single-cell and spatial transcriptomics to probe changes in cell composition, differentiation, and gene expression associated with two murine models of MGD: age-related gland atrophy in wild-type mice and altered meibum quality in acyl-CoA wax alcohol acyltransferase 2 (Awat2) knockout (KO) mice. Methods: Young (6 month) and old (22 month) wild type, C57Bl/6 mice and young (3 month) and old (13 month) Awat2 KO mice were used in these studies. For single-cell analysis, the tarsal plate was dissected from the upper and lower eyelids, and single cells isolated and submitted to the UCI Genomic Core, while for the spatial analysis frozen tissue sections were shipped to Resolve Biosciences on dry ice and sections probed in duplicate using a meibomian gland specific, 100 gene Molecular Chartography panel.

Results

Analysis of gene expression patterns identified the stratified expression of lipogenic genes during meibocyte differentiation, which may control the progressive synthesis of meibum lipids; an age-related decrease in meibocytes; and increased immune cell infiltration. Additionally, we detected unique immune cell populations in the Awat2 KO mouse suggesting activation of psoriasis-like, inflammatory pathways perhaps caused by ductal dilation and hyperplasia.

Conclusion

Together these findings support novel mechanism controlling gland function and dysfunction.

年龄和功能障碍对睑板腺数量动态的影响。
目的:虽然睑板腺功能障碍(MGD)被广泛认为是蒸发性干眼症的主要原因,但人们对正常的腺体分化和脂质合成或腺体萎缩和异常脂质分泌的机制知之甚少。本研究的目的是利用单细胞和空间转录组学探究与两种小鼠 MGD 模型相关的细胞组成、分化和基因表达的变化:野生型小鼠与年龄相关的腺体萎缩和酰基-CoA 蜡醇酰基转移酶 2(Awat2)基因敲除(KO)小鼠的meibum 质量改变:这些研究使用了年轻(6 个月)和年老(22 个月)的野生型 C57Bl/6 小鼠以及年轻(3 个月)和年老(13 个月)的 Awat2 KO 小鼠。为了进行单细胞分析,从上眼睑和下眼睑解剖跗骨板,分离单细胞并提交给 UCI 基因组核心;为了进行空间分析,用干冰将冷冻组织切片运送到 Resolve Biosciences,并使用睑板腺特异性 100 个基因分子图谱面板对切片进行一式两份的检测:基因表达模式分析确定了睑板腺细胞分化过程中脂肪生成基因的分层表达,这可能控制着睑板腺脂质的逐步合成;睑板腺细胞与年龄有关的减少;以及免疫细胞浸润的增加。此外,我们还在 Awat2 KO 小鼠体内检测到了独特的免疫细胞群,这表明类似牛皮癣的炎症通路可能因导管扩张和增生而被激活:这些发现共同支持了控制腺体功能和功能障碍的新机制。
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来源期刊
Ocular Surface
Ocular Surface 医学-眼科学
CiteScore
11.60
自引率
14.10%
发文量
97
审稿时长
39 days
期刊介绍: The Ocular Surface, a quarterly, a peer-reviewed journal, is an authoritative resource that integrates and interprets major findings in diverse fields related to the ocular surface, including ophthalmology, optometry, genetics, molecular biology, pharmacology, immunology, infectious disease, and epidemiology. Its critical review articles cover the most current knowledge on medical and surgical management of ocular surface pathology, new understandings of ocular surface physiology, the meaning of recent discoveries on how the ocular surface responds to injury and disease, and updates on drug and device development. The journal also publishes select original research reports and articles describing cutting-edge techniques and technology in the field. Benefits to authors We also provide many author benefits, such as free PDFs, a liberal copyright policy, special discounts on Elsevier publications and much more. Please click here for more information on our author services. Please see our Guide for Authors for information on article submission. If you require any further information or help, please visit our Support Center
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