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1.
Prog Retin Eye Res ; 95: 101187, 2023 Jul.
Article in English | MEDLINE | ID: mdl-37217094

ABSTRACT

Immune privilege in the eye involves physical barriers, immune regulation and secreted proteins that together limit the damaging effects of intraocular immune responses and inflammation. The neuropeptide alpha-melanocyte stimulating hormone (α-MSH) normally circulates in the aqueous humour of the anterior chamber and the vitreous fluid, secreted by iris and ciliary epithelium, and retinal pigment epithelium (RPE). α-MSH plays an important role in maintaining ocular immune privilege by helping the development of suppressor immune cells and by activating regulatory T-cells. α-MSH functions by binding to and activating melanocortin receptors (MC1R to MC5R) and receptor accessory proteins (MRAPs) that work in concert with antagonists, otherwise known as the melanocortin system. As well as controlling immune responses and inflammation, a broad range of biological functions is increasingly recognised to be orchestrated by the melanocortin system within ocular tissues. This includes maintaining corneal transparency and immune privilege by limiting corneal (lymph)angiogenesis, sustaining corneal epithelial integrity, protecting corneal endothelium and potentially enhancing corneal graft survival, regulating aqueous tear secretion with implications for dry eye disease, facilitating retinal homeostasis via maintaining blood-retinal barriers, providing neuroprotection in the retina, and controlling abnormal new vessel growth in the choroid and retina. The role of melanocortin signalling in uveal melanocyte melanogenesis however remains unclear compared to its established role in skin melanogenesis. The early application of a melanocortin agonist to downregulate systemic inflammation used adrenocorticotropic hormone (ACTH)-based repository cortisone injection (RCI), but adverse side effects including hypertension, edema, and weight gain, related to increased adrenal gland corticosteroid production, impacted clinical uptake. Compared to ACTH, melanocortin peptides that target MC1R, MC3R, MC4R and/or MC5R, but not adrenal gland MC2R, induce minimal corticosteroid production with fewer adverse systemic effects. Pharmacological advances in synthesising MCR-specific targeted peptides provide further opportunities for treating ocular (and systemic) inflammatory diseases. Following from these observations and a renewed clinical and pharmacological interest in the diverse biological roles of the melanocortin system, this review highlights the physiological and disease-related involvement of this system within human eye tissues. We also review the emerging benefits and versatility of melanocortin receptor targeted peptides as non-steroidal alternatives for inflammatory eye diseases such as non-infectious uveitis and dry eye disease, and translational applications in promoting ocular homeostasis, for example, in corneal transplantation and diabetic retinopathy.


Subject(s)
Melanocortins , alpha-MSH , Humans , Melanocortins/metabolism , Receptors, Melanocortin/metabolism , Adrenocorticotropic Hormone/metabolism , Inflammation
2.
Pigment Cell Melanoma Res ; 34(5): 928-945, 2021 09.
Article in English | MEDLINE | ID: mdl-33749119

ABSTRACT

The choroid within the human eye contains a rich milieu of cells including melanocytes. Human choroidal melanocytes (HCMs) absorb light, regulate free radical production, and were recently shown to modulate inflammation. This study aimed to identify key genes and pathways involved in the inflammatory response of HCMs through the use of RNA-seq. Primary HCMs were cultured from donor choroids, RNA was extracted from control and lipopolysaccharide (LPS)-treated HCMs, and mRNA was sequenced. Functional annotation and pathway analysis were performed using gene ontology and gene set enrichment analyses. Representative RNA-seq results were verified with RT-qPCR and protein measurements. We detected 100 differentially expressed genes including an array of CCL and CXCL cytokines and mediators of cell-cell and cell-matrix adhesion, such as ICAM1, CLDN1, CCN3, ITGA1 and ITGA11. Functional annotation showed that these gene sets control inflammatory pathways, immune cell trafficking, cell-cell adhesion, interactions with the extracellular matrix and blood vessels, angiogenesis and epithelial-to-mesenchymal transitions. Our study provides insights into the transcriptional regulation of primary HCMs in response to inflammatory stimuli and identifies novel melanocyte-driven mechanisms potentially involved in choroidal homeostasis and inflammation.


Subject(s)
Cellular Microenvironment , Choroid/metabolism , Melanocytes/metabolism , RNA-Seq , Transcriptome , Choroid/cytology , Humans , Melanocytes/cytology
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