Lipids and Small Compounds as Potential Therapeutic Candidates for Glaucoma Treatment

Glaucoma, a pathological condition that results in the impairment of the optic nerve, leads to irreversible vision loss and affects approximately 76 million individuals worldwide. The sole modifiable factor in the treatment of glaucoma is the decrease in intraocular pressure (IOP), which specifically focuses on the front part of the eye and does not directly tackle the pathological changes in the optic nerve (ON) that result in its structural and functional damage. The first goal of this dissertation was to examine alternative therapeutic methods to effectively lower IOP and provide neuroprotective benefits. The secondary objective of this study was to test small molecules as an alternative approach to genetic manipulation of the mTOR pathway in order to promote ON axonal regeneration. The lipids and small molecules that were chosen were particularly suitable for the treatment of glaucoma because they are biodegradable, reversible, and capable of reaching the posterior segment of the eye. The overall finding of rivenprost for IOP control and neuroprotection in conjunction with GM1 and VO-Ohpic neuroregenerative small molecules represents a major advancement towards the development&nbsp;of a comprehensive treatment for glaucoma.</p

Characterization of Gangliosides from Mouse Optic Nerve Samples Using Mass Spectrometry

This chapter focuses on identifying gangliosides in the optic nerve of the mouse using mass spectrometry techniques. The described protocol will also permit the characterization of the sample's lipidome. Two deuterium-labeled ganglioside standards and a general lipid class standard will be utilized for extraction efficiency and quantification. Using reversed-phase high-performance liquid chromatography (HPLC) coupled to a Q Exactive mass spectrometer, the samples will be analyzed. The method will consist of both an untargeted approach and a targeted approach with a ganglioside-specific inclusion list

Lipidomics dataset of Danio rerio optic nerve regeneration model

The right optic nerve of adult, 6 month to 1 year old, female and male Danio rerio were crushed and collected three days after. Matching controls of uninjured left optic nerves were also collected. The tissue was dissected from euthanized fish and frozen on dry ice. Samples were pooled for each category (female crush, female control, male crush, male control) n = 24 to obtain sufficient tissue for analysis. The brain from one male fish was also collected for control/calibration. Lipid extraction was done with the Bligh and Dyer [1] method, followed by untargeted liquid chromatography-mass spectrometry (LC MS-MS) lipid profiling using a Q-Exactive Orbitrap instrument coupled with Vanquish Horizon Binary UHPLC LC-MS system. The lipids were identified and quantified with LipidSearch 4.2.21 and the statistical analysis was conducted through Metaboanalyst 5.0. This data is available at Metabolomics Workbench, Study ID ST001725

Lipidomics dataset of

The right optic nerve of adult, 6 month to 1 year old, female and male Danio rerio were crushed and collected three days after. Matching controls of uninjured left optic nerves were also collected. The tissue was dissected from euthanized fish and frozen on dry ice. Samples were pooled for each category (female crush, female control, male crush, male control) n = 24 to obtain sufficient tissue for analysis. The brain from one male fish was also collected for control/calibration. Lipid extraction was done with the Bligh and Dyer [1] method, followed by untargeted liquid chromatography-mass spectrometry (LC MS-MS) lipid profiling using a Q-Exactive Orbitrap instrument coupled with Vanquish Horizon Binary UHPLC LC-MS system. The lipids were identified and quantified with LipidSearch 4.2.21 and the statistical analysis was conducted through Metaboanalyst 5.0. This data is available at Metabolomics Workbench, Study ID ST001725

Currently available prostanoids for the treatment of glaucoma and ocular hypertension: A review

Recent advancements in prostaglandin analogs (PGAs) have reinforced their role in managing intraocular pressure (IOP). Latanoprost excels in 24-h IOP control, while various PGAs offer similar effectiveness and side effects, generic PGAs perform as well as branded ones, and a notable IOP rise observed upon PGA discontinuation. Formulations with or without preservatives show comparable IOP reduction and adherence, often surpassing benzalkonium chloride (BAK)-preserved options. Emergent PGAs, such as latanoprostene bunod, fixed-dose netarsudil combined with latanoprost, and omidenepag Isopropyl, offer enhanced or non-inferior IOP reduction. The bimatoprost implant introduces a novel administration method with effective IOP reduction. These developments underscore ongoing progress in PGA-focused ophthalmological research. This article offers a comprehensive review of available prostanoid analogs and explores new developments

Characterization of Trabecular Meshwork Mechanical Property Modulation After Application of Lipids

Treatment of lipids endogenous to the aqueous humor of the eye could serve as a potential therapy to slow the progression of glaucoma. Herein, we describe the method to treat trabecular meshwork samples in vitro with lipids and characterize changes in the samples' stiffness

Lipid profile dataset of optogenetics induced optic nerve regeneration

The optic nerve transfers visual information from the retina to the brain through the axons of retinal ganglion cells (RGCs). In adult mammals, optic nerve injuries and progressive degenerative diseases lead to the irreversible loss of RGCs, resulting in vision loss and blindness. Optogenetic models have proved useful in manipulating the growth of RGCs through expression and stimulation of channelrhodopsins (Chr2) in RGCs using the RGC-specific thy-1 promoter. Using transgenic Chr2 mouse (Thy1-ChR2-EYFP) as a model of regeneration, we profile the lipid changes which occur after traumatic optic nerve crush, light stimulation and forced RGC axonal growth. Thy1-ChR2-EYFP and control (C57BL/6) mice were divided in four groups each – 1) no crush and no stimulation, 2) no crush with stimulation, 3) crush and without stimulation, and 4) crush with stimulation. After euthanasia, the optic nerves were collected for lipidomic analysis. The Bligh and Dyer method was used for lipid extraction, followed by mass spectrometry lipid profiling with a Q-Exactive Orbitrap Liquid Chromatography-Mass Spectrometer (LC MS-MS). The raw scans were analysed with LipidSearch 4.1.3 and the statistical analysis was conducted through Metaboanalyst 4.0. This data is available at Metabolomics Workbench, study ID ST001381: [https://www.metabolomicsworkbench.org/data/DRCCMetadata.php?Mode=Study&StudyID=ST001381&StudyType=MS&ResultType=5]