Lipidomic analysis reveals drug-induced lipoxin synthesis in glaucoma treatment
David J. Mathew, Shubham Maurya, Julian Ho, Izhar Livne-Bar, Darren Chan, Jenny Wanyu Zhang, Yvonne M. Buys, Marisa Sit, Graham Trope, Donna M. Peters, John G. Flanagan, Karsten Gronert, Jeremy M. Sivak
David J. Mathew, Shubham Maurya, Julian Ho, Izhar Livne-Bar, Darren Chan, Jenny Wanyu Zhang, Yvonne M. Buys, Marisa Sit, Graham Trope, Donna M. Peters, John G. Flanagan, Karsten Gronert, Jeremy M. Sivak
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Research Article Inflammation Ophthalmology

Lipidomic analysis reveals drug-induced lipoxin synthesis in glaucoma treatment

Abstract

Synthetic prostaglandin analogs, such as latanoprost, are first-line treatments to reduce intraocular pressure (IOP) in the management of glaucoma, treating millions of patients daily. Glaucoma is a leading cause of blindness, characterized by progressive optic neuropathy, with elevated IOP being the sole modifiable risk factor. Despite this importance, the underlying latanoprost mechanism of action is still not well defined, being associated with both acute and long-term activities, and a growing list of ocular side effects. Prostaglandins are eicosanoid lipid mediators. Yet, there has not been a comprehensive assessment of small lipid mediators in glaucomatous eyes. Here, we performed a lipidomic screen of aqueous humor sampled from patients with glaucoma and healthy control eyes. The resulting signature was surprisingly focused on significantly elevated levels of arachidonic acid (AA) and its derivative, the antiinflammatory and cytoprotective mediator, lipoxin A4 (LXA4), in glaucomatous eyes. Subsequent experiments revealed that this response was drug induced, due to latanoprost actions on trabecular meshwork cells, rather than a consequence of elevated IOP. We demonstrate that increased LXA4 inhibited proinflammatory cues and promoted TGF-β production in the anterior chamber. In concert, an autocrine prostaglandin circuit mediated canonical rapid IOP lowering. This work reveals parallel mechanisms underlying acute and long-term latanoprost activities during glaucoma treatment.

Authors

David J. Mathew, Shubham Maurya, Julian Ho, Izhar Livne-Bar, Darren Chan, Jenny Wanyu Zhang, Yvonne M. Buys, Marisa Sit, Graham Trope, Donna M. Peters, John G. Flanagan, Karsten Gronert, Jeremy M. Sivak

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Figure 1

The AA/lipoxin pathway is specifically elevated in glaucomatous aqueous humor.

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The AA/lipoxin pathway is specifically elevated in glaucomatous aqueous ...
(A) Representative optical coherence tomography (OCT)scans from a control patient showing healthy RNFL and optic nerve head (ONH) in both eyes. (B) Representative OCT scans from a glaucomatous patient showing significant superior and inferior RNFL thinning in the right eye and superior RNFL thinning in the left eye. (CF) Lipidomic analysis of mediators and metabolites from glaucomatous and healthy aqueous humor showed significantly elevated concentrations of (C) AA and (D) LXA4. (E) In comparison, 13-HODE was detected at significantly lower levels in glaucomatous aqueous humor. (F) 12-HEPE levels were significantly elevated in the glaucoma group, although statistically driven by only 4 samples (P values are indicated. Data are presented as mean ± SEM). (GJ) Concentrations of additional analytes detected in human aqueous humor samples included (G) PGD2, (H) PGE2, (I) DHA, and (J) EPA. However, none of these differences reached statistical significance. For all charts, P values are indicated by 2-tailed, unpaired t tests, and data are presented as mean ± SEM. OD, right eye; OS, left eye; RNFL, retinal nerve fiber layer.