Age-related macular degeneration associated polymorphism rs10490924 in ARMS2 results in deficiency of a complement activator

Micklisch, Sven; Lin, Yuchen; Jacob, Saskia; Karlstetter, Marcus; Dannhausen, Katharina; Dasari, Prasad; Heide, Monika von der; Dahse, Hans Martin; Schmölz, Lisa; Graßmann, Felix; Alene, Medhanie; Fauser, Sascha; Neumann, Harald; Lorkowski, Stefan; Pauly, Diana; Weber, Bernhard H. F.; Joussen, Antonia M.; Langmann, Thomas; Zipfel, Peter F.; Skerka, Christine

doi:10.1186/s12974-016-0776-3

Cited by 87 publications

(71 citation statements)

References 35 publications

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“…The authors show that ARMS2 binds to cell debris, where it promotes C3b generation and opsonization for phagocytosis by MPs. 10q26 risk-allele carriers would therefore lack necessary opsonization, promoting debris accumulation and AMD (Micklisch et al, 2017).…”

Section: Q26mentioning

confidence: 99%

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On phagocytes and macular degeneration

Guillonneau

Eandi

Pâques

et al. 2017

Progress in Retinal and Eye Research

140

155

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Age related macular degeneration (AMD) is a complex multifactorial disease caused by the interplay of age and genetic and environmental risk factors. A common feature observed in early and both forms of late AMD is the breakdown of the physiologically immunosuppressive subretinal environment and the protracted accumulation of mononuclear phagocytes (MP). We here discuss the origin and nature of subretinal MPs, the mechanisms that lead to their accumulation, the inflammatory mediators they produce as well as the consequences of their chronic presence on photoreceptors, retinal pigment epithelium and choroid. Recent advances highlight how both genetic and environmental risk factors directly promote subretinal inflammation and tip the balance from a beneficial inflammation that helps control debris accumulation to detrimental chronic inflammation and destructive late AMD. Finally, we discuss how changes in life style or pharmacological intervention can help to break the vicious cycle of inflammation and degeneration, restore the immunosuppressive properties of the subretinal space, and reestablish homeostasis.

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Section: Q26mentioning

confidence: 99%

“…pathogenic subretinal inflammation (Calippe et al, 2017;Levy et al, 2015a;Levy et al, 2015b;Liao et al, 2013;Micklisch et al, 2017). Importantly, the affected genes are all expressed in MPs and the consequences of the disease-associated variants directly affect MP function.…”

Section: General Considerations On Genetic Risk and Mononuclear Phagomentioning

confidence: 99%

On phagocytes and macular degeneration

Guillonneau

Eandi

Pâques

et al. 2017

Progress in Retinal and Eye Research

140

155

View full text Add to dashboard Cite

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“…One study found that ARMS2 was expressed in human monocytes and microglia cells and facilitated removal of cellular debris by local complement activation; the A69S variant resulted in ARMS2 deficiency, possibly impairing the removal of cellular debris at Bruch's membrane, leading to the development of drusen. 52 On the other hand, another study reported that ARMS2 mRNA and protein are expressed at extremely low levels in eye tissues, and presented support for HTRA1 as the risk factor for AMD. 53 We found that the OCT algorithm yielded drusen measurements that were highly associated with the manual CARMS grading.…”

Section: Discussionmentioning

confidence: 98%

Association between Drusen Burden Determined by OCT and Genetic Risk in Early and Intermediate Age-Related Macular Degeneration

Seddon

Dossett

Widjajahakim

et al. 2019

Preprint

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PURPOSE:To determine associations between macular drusen parameters derived from an automatic optical coherence tomography (OCT) algorithm, age-related macular degeneration (AMD) stage and genetic variants.METHODS: Eyes classified as early or intermediate AMD with OCT imaging and genetic data were selected (n=239 eyes). Drusen area and volume measurements were estimated using the Zeiss Cirrus advanced retinal pigment epithelium (RPE) analysis algorithm in a 5mm diameter (perifoveal) zone centered on the fovea. Associations between drusen measurements and common genetic variants in the complement and high density lipoprotein (HDL) lipid pathways and the ARMS2 variant were calculated using generalized estimating equations and linear mixed models adjusting for age, sex, smoking, BMI, and education. RESULTS: When compared to eyes with no measurable drusen, drusen area ≥ the median was independently associated with a higher number of risk alleles for CFH risk score, risk variants in C3 and ARMS2/HTRA1. Similar results were obtained for drusen volume. When all genes were analyzed in the same model, only CFH score and ARMS2/HTRA1 were associated with drusen measurements. HDL pathway genes were not significantly related to drusen parameters. Early and intermediate AMD stages were associated with OCT derived drusen area and volume.CONCLUSION: Genetic variants in CFH and ARMS2/HTRA1, commonly associated with advanced AMD, were independently associated with higher drusen burden determined by OCT in eyes with early and intermediate AMD. The automatic RPE algorithm using OCT provides a quantitative classification of non-advanced AMD. Drusen morphology and other OCT-derived sub-phenotypes are biomarkers that could provide early anatomic endpoints for clinical trials.

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“…Dieser Wirkung liegt eine direkte Hemmung des alternativen Komplementwegs zugrunde [29]. Eine Fehlregulation des alternativen Komplementwegs wiederum kann als Mitursache für die gestörte Mikroglia-/Makrophagenhomöostase in der Netzhaut von AMD-Patienten betrachtet werden [34]. Der in der vorliegenden Studie beobachtete antiangiogene, leckagereduzierende Effekt durch Polysialinsäure könnte einerseits durch die Verminderung des CNV-begünstigenden zellulären inflammatorischen Prozesses entstehen und andererseits durch eine Verminderung des komplementvermittelten Schadens am RPE/Aderhautkomplex erklärt werden [35].…”

Section: Diskussion Und Schlussfolgerungunclassified

Polysialinsäure zur Immunmodulation im Tiermodell der feuchten altersabhängigen Makuladegeneration (AMD)

Langmann

Fauser

2017

Klin Monatsbl Augenheilkd

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Chronic activation of the innate immune system is a hallmark of retinal degenerative diseases, including age-related macular degeneration (AMD). Overt microglia and macrophage reactivity, as well as dysregulation of the alternative complement system, trigger and sustain retinal degeneration. It is now accepted that there exists a vicious cycle of mononuclear phagocyte reactivity, abnormal intrinsic complement activation, damage of Bruch's membrane, dysfunction of the retinal pigment epithelium, photoreceptor degeneration and choroidal neovascularization (CNV). Targeting the innate immune system may, therefore, be a complementary approach to anti-angiogenic therapy. This article presents data from polysialic acid treatment experiments in the laser-induced mouse model of wet AMD. The laser-CNV mouse model was used to simulate events of neovascular AMD. Polysialic acid was applied by intravitreal injection and microglia activity was assessed with Iba1 staining of retinal and RPE/choroidal flat mounts. Neovascular leakage was determined by fluorescein angiography. Intravitreal injection of polysialic acid reduced retinal and RPE/choroidal lesion-associated microglia activity in the laser-induced mouse model of AMD. Polysialic acid treatment also diminished vascular leakage at laser spots in this model. Local retinal immunomodulation with polysialic acid presents a novel concept for treatment of inflammatory conditions related to neovascular AMD.

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Age-related macular degeneration associated polymorphism rs10490924 in ARMS2 results in deficiency of a complement activator

Cited by 87 publications

References 35 publications

On phagocytes and macular degeneration

On phagocytes and macular degeneration

Association between Drusen Burden Determined by OCT and Genetic Risk in Early and Intermediate Age-Related Macular Degeneration

Polysialinsäure zur Immunmodulation im Tiermodell der feuchten altersabhängigen Makuladegeneration (AMD)

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