Abstract
Epithelial–mesenchymal transition (EMT) and endothelial–mesenchymal transition (EndMT) are physiological processes required for normal embryogenesis. However, these processes can be hijacked in pathological conditions to facilitate tissue fibrosis and cancer metastasis. In the eye, EMT and EndMT play key roles in the pathogenesis of subretinal fibrosis, the end-stage of age-related macular degeneration (AMD) that leads to profound and permanent vision loss. Predominant in subretinal fibrotic lesions are matrix-producing mesenchymal cells believed to originate from the retinal pigment epithelium (RPE) and/or choroidal endothelial cells (CECs) through EMT and EndMT, respectively. Recent evidence suggests that EMT of RPE may also be implicated during the early stages of AMD. Transforming growth factor-beta (TGFβ) is a key cytokine orchestrating both EMT and EndMT. Investigations in the molecular mechanisms underpinning EMT and EndMT in AMD have implicated a myriad of contributing factors including signaling pathways, extracellular matrix remodelling, oxidative stress, inflammation, autophagy, metabolism and mitochondrial dysfunction. Questions arise as to differences in the mesenchymal cells derived from these two processes and their distinct mechanistic contributions to the pathogenesis of AMD. Detailed discussion on the AMD microenvironment highlights the synergistic interactions between RPE and CECs that may augment the EMT and EndMT processes in vivo. Understanding the differential regulatory networks of EMT and EndMT and their contributions to both the dry and wet forms of AMD can aid the development of therapeutic strategies targeting both RPE and CECs to potentially reverse the aberrant cellular transdifferentiation processes, regenerate the retina and thus restore vision.
Highlights
Subretinal fibrosis demarcates the end-stage of age-related macular degeneration (AMD), resulting in permanent vision loss [1]
Extensive literature conclusively supports the importance of Epithelial–mesenchymal transition (EMT) and endothelial–mesenchymal transition (EndMT) in AMD from in vitro experiments on retinal pigment epithelium (RPE) and ECs to in vivo animal studies and histopathological analyses of human AMD donor tissues
EndMT is still a relatively newly recognized type of cellular transdifferentiation and it has been well accepted in the field of embryology, there has been some hesitation and controversy amongst the scientific community in recognizing EndMT as a pathogenic factor in pathological conditions in adult tissues
Summary
Subretinal fibrosis demarcates the end-stage of age-related macular degeneration (AMD), resulting in permanent vision loss [1]. A dramatic remodeling of the extracellular matrix (ECM) is driven by the coordinated activity of proteolytic enzymes called matrix metalloproteases (MMPs) and tissue inhibitors of MMPs (TIMPs) [3]. This process restores the protective barrier, but can progressively remodel and destroy normal tissue leading to contracture and distortion of tissue architecture. Ess of EMT in RPE is not limited to subretinal fibrosis in AMD but rather, has alIsmopboeretannetlxyt,etnhseivperloycestsusdoifeEdManTdindResPcEriibsendoitnlimthietecdontotesxutboreftpinraolliffiebrraotsiviseinviAtrMeoDrebtiuntorpaatthheyr, (PhaVsRa)l[s7o],beepeinreetixntaelnmsiveemlybrsatnuedi(eEdRMan)d[8d]e, sacnrdiberedtiinnalthfiebrcoosnisteixnt porfolpifreorlaifteirvaetidvieabveitriceorreetitninooppaatthhyy (P(PDVRR)) [[97]]., eSpimireiltainrlayl, mEnemdMbrTanhea(sEbReMen) [s8t]u, dainedd rientibnoatlhfibchroosriosidinalparnoldiferreatitnivael deniadboetthicelrieatlincoelplsatihny n(uPmDeRr)ou[9s]o. FFigiguurree1.1E. piEthpeitlhiaell-imale-smenecshenymchaylmtraalnstitriaonns(iEtiMonT)(aEnMdTe)ndaonthdelieanld-motehseelniachl-ymmeasel ntrcahnysmitiaoln t(rEanndsMitiTo)n in(EangdeM-reTla) tiendamgea-cruellaatreddemgeanceurlaatriodneg(AenMeDra)t.ioSnch(eAmMatDic).oSfcEhMemTaotficreotfinEaMl pTigomf reentitneaplipthigemliaeln(tRePpEi)thceellilasl a(nRdPEEn) dceMllTs aonf dchEonrodiMdaTl eonfdcohtohreoliiadlacleelnlsd(oCtEhCelsia) lcocenltlrsib(CutEinCgs)tocothnetrmibuesteinngchtyomthael cmelelspeonpchuylamtiaolncienll spuobpreutliantailofinbinrossuisboreftAinMalDfi.brosis of AMD
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