Abstract
In the experimental autoimmune encephalomyelitis (EAE) mouse model of optic neuritis, we recently demonstrated that diet supplementation with a balanced mixture of fatty acids (FAs), including omega 3 and omega 6, efficiently limited inflammatory events in the retina and prevented retinal ganglion cell (RGC) death, although mechanisms underlying the efficacy of FAs were to be elucidated. Whether FAs effectiveness was accompanied by efficient rescue of demyelinating events in the optic nerve was also unresolved. Finally, the possibility that RGC rescue might result in ameliorated visual performance remained to be investigated. Here, the EAE model of optic neuritis was used to investigate mechanisms underlying the anti-inflammatory effects of FAs, including their potential efficacy on macrophage polarization. In addition, we determined how FAs-induced rescue of RGC degeneration was related to optic nerve histopathology by performing ultrastructural morphometric analysis with transmission electron microscopy. Finally, RGC rescue was correlated with visual performance by recording photopic electroretinogram, an efficient methodology to unravel the role of RGCs in the generation of electroretinographic waves. We conclude that the ameliorative effects of FAs were dependent on a predominant anti-inflammatory action including a role on promoting the shift of macrophages from the inflammatory M1 phenotype towards the anti-inflammatory M2 phenotype. This would finally result in restored optic nerve histopathology and ameliorated visual performance. These findings can now offer new perspectives for implementing our knowledge on the effectiveness of diet supplementation in counteracting optic neuritis and suggest the importance of FAs as possible adjuvants in therapies against inflammatory diseases of the eye.
Highlights
The recent trend in ocular pathologies is to use medicinal natural products, which may offer the same efficacy of conventional drugs without so many side effects
In the experimental autoimmune encephalomyelitis (EAE) mouse model of optic neuritis, we recently demonstrated that diet supplementation with a balanced mixture of fatty acids (FAs), including omega 3 and omega 6, efficiently limited inflammatory events in the retina and prevented retinal ganglion cell (RGC) death, mechanisms underlying the efficacy of FAs were to be elucidated
Ameliorative effects of FAs are in line with previous findings in the EAE model demonstrating that a combination of FAs, antioxidants, free radicals, and amino acids protects the optic nerve from demyelination and promotes the formation of the myelin sheath [7]
Summary
The recent trend in ocular pathologies is to use medicinal natural products, which may offer the same efficacy of conventional drugs without so many side effects. Using the experimental autoimmune encephalomyelitis (EAE) mouse model of optic neuritis, we found that daily gavage with a FAs mixture delays the onset of EAE and prevents, at least in part, the death of retinal ganglion cells (RGCs) through a major anti-inflammatory action [5]. This has been shown to occur without affecting the infiltration of macrophages in the retina eventually preserving their correct release of trophic and growth factors that are known to prevent optic nerve degeneration [6]. Ameliorative effects of FAs are in line with previous findings in the EAE model demonstrating that a combination of FAs, antioxidants, free radicals, and amino acids protects the optic nerve from demyelination and promotes the formation of the myelin sheath [7]
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