scholarly journals Retinal Tissue Develops an Inflammatory Reaction to Tobacco Smoke and Electronic Cigarette Vapor in Mice

2021 ◽  
Author(s):  
Feng Wang ◽  
Stefan Hadzic ◽  
Elsa T. Roxlau ◽  
Baerbel Fuehler ◽  
Annabella Janise-Libawski ◽  
...  
Keyword(s):  
Cigarette Smoke ◽  
Inflammatory Reaction ◽  
Electronic Cigarette ◽  
Age Related Macular Degeneration ◽  
Controlled Study ◽  
Cigarette Smoke Exposure ◽  
Retinal Tissue ◽  
Age Related

Abstract Cigarette smoke has been identified as a major risk factor for the development of age-related macular degeneration (AMD). As an alternative of conventional cigarette (C-cigarette), electronic cigarette (E-cigarette) has been rapidly promoted and used globally. The increasing usage of E-cigarette raises concerns with regard to long-term consequences related to retinal tissue. In the present study, a controlled study in mice models was conducted to probe the comprehensive effects of E-cigarette on retina, RPE and choroid tissues by (1) comparing the effect of C-cigarette smoke and E-cigarette smoke on retina; (2) determining the effects of E-cigarette vapor on the RPE and analyzing the changes with regard to inflammatory and angiogenic mediators in retina/RPE/choroid. The data showed that C-cigarette smoke exposure promoted an inflammatory reaction in the retina in vivo. Mice exposed to E-cigarette (nicotine-free) vapor developed inflammatory and angiogenic reactions more pronounced in RPE and choroid, while nicotine-containing E-cigarette vapor caused even a more serious reaction. Both, inflammatory and pro-angiogenic reactions increased with the extension of exposure time. These results demonstrate that exposure to C-cigarette smoke is harmful to the retina. Likewise, the exposure to E-cigarette vapor (with or without nicotine) increases the occurrence and progression of inflammatory and angiogenic stimuli in the retina, which might be similar effects causing the onset of wet AMD in humans.

scholarly journals Retinal tissue develops an inflammatory reaction to tobacco smoke and electronic cigarette vapor in mice

2021 ◽  
Author(s):  
Feng Wang ◽  
Stefan Hadzic ◽  
Elsa T. Roxlau ◽  
Baerbel Fuehler ◽  
Annabella Janise-Libawski ◽  
...  
Keyword(s):  
Cigarette Smoke ◽  
Exposure Time ◽  
Inflammatory Reaction ◽  
Smoke Exposure ◽  
Age Related Macular Degeneration ◽  
Controlled Study ◽  
Cigarette Smoke Exposure ◽  
List Type ◽  
Retinal Tissue

Abstract Cigarette smoke has been identified as a major risk factor for the development of age-related macular degeneration (AMD). As an alternative to conventional cigarettes (C-cigarette), electronic cigarettes (E-cigarette) have been globally promoted and are currently widely used. The increasing usage of E-cigarettes raises concerns with regard to short- (2 weeks), medium- (3 months), and long- (8 months) term consequences related to retinal tissue. In this report, a controlled study in mouse models was conducted to probe the comprehensive effects of E-cigarette vapor on retina, retinal pigmented epithelium (RPE), and choroidal tissues by (1) comparing the effects of C-cigarette smoke and E-cigarette vapor on retina separately and (2) determining the effects of E-cigarette vapor on the RPE and analyzing the changes with regard to inflammatory (IL-1β, TNFα, iNOS) and angiogenic (VEGF, PEDF) mediators in retina/RPE/choroid by ELISA assays. The data showed that C-cigarette smoke exposure promoted an inflammatory reaction in the retina in vivo. Mice exposed to E-cigarette (nicotine-free) vapor developed inflammatory and angiogenic reactions more pronounced in RPE and choroid as compared to retinal tissue, while nicotine-containing E-cigarette vapor caused even a more serious reaction. Both inflammatory and pro-angiogenic reactions increased with the extension of exposure time. These results demonstrate that exposure to C-cigarette smoke is harmful to the retina. Likewise, the exposure to E-cigarette vapor (with or without nicotine) increases the occurrence and progression of inflammatory and angiogenic stimuli in the retina, which might also be related to the onset of wet AMD in humans. Key messages C-cigarette smoke exposure promotes an inflammatory reaction in the retina in vivo. Mice exposed to E-cigarette (nicotine-free) vapor develop inflammatory and angiogenic reactions more pronounced in RPE and choroid compared to retinal tissue, while nicotine-containing E-cigarette vapor causes even a more serious reaction. Both inflammatory and pro-angiogenic reactions increase with the extension of E-cigarette vapor exposure time.

scholarly journals Sejtszintű képalkotás a retina in vivo vizsgálatában: jelen és jövő

2021 ◽  
Vol 162 (22) ◽  
pp. 851-860
Author(s):  
András Végh ◽  
Dániel Péter Magda ◽  
Ferenc Kilin ◽  
Anita Csorba ◽  
Mikós Resch ◽  
...  
Keyword(s):  
Ganglion Cell ◽  
Clinical Examination ◽  
Cell Types ◽  
Age Related Macular Degeneration ◽  
Everyday Clinical Practice ◽  
Retinal Tissue ◽  
Age Related ◽  
Examination Methods ◽  
Ganglion Cell Death

Összefoglaló. A látószerv különböző betegségei, valamint egyes szisztémás megbetegedések részben vagy kifejezetten az ideghártya károsodásával járnak. A patológia segítségével ma már tudjuk, hogy ezek a betegségek a retina mely rétegének vagy rétegeinek elváltozásait okozzák: míg az időskori maculadegeneratio a külső retinában található fotoreceptorokat érinti kifejezetten a fovea centralis területén, addig a glaucoma a belső retina ganglionsejtjeinek pusztulásával, valamint e sejtek opticusrostjainak károsodásával jár a stratum ganglionaréban és a stratum neurofibrarumban. Az emberi retina sejtjei azonban egyelőre nem maradéktalanul karakterizáltak, az egyes sejttípusok számát csak becsülni tudjuk, így nem írhatók le az egyes sejtszintű elváltozások sem kellő pontossággal. A szövettani feldolgozás és vizsgálat megfelelő részletességgel tájékoztat a diagnózisról és az elváltozás súlyosságáról, értelemszerűen azonban ez a módszer in vivo nem használható a mindennapi klinikai gyakorlatban. A sejtszintű elváltozások ismerete az egyes kórképekben felvetette és szükségessé tette olyan in vivo, a klinikumban is alkalmazható vizsgálómódszerek kifejlesztését, amelyek lehetőséget nyújtanak a retina neurális és egyéb sejtjeinek celluláris és szubcelluláris szintű vizsgálatára, ideértve a vér alakos elemeit is, amelyek egészséges vagy neovascularis eredetű erekben áramlanak. A jelenleg is használt klinikai vizsgálatok mellett ezek a képalkotó módszerek segítségül szolgálhatnak a diagnózis megerősítésében vagy elvetésében, emellett az elváltozás súlyosságának megítélésében, valamint a progresszió vagy remisszió monitorozásában. Orv Hetil. 2021; 162(22): 851–860. Summary. Diseases of the visual system as well as many systemic illnesses are usually associated with retinal damage. With the help of pathology, we can clearly identify the affected layer(s): while age-related macular degeneration mostly damages the photoreceptors in the outer retina at the central fovea, glaucoma promotes ganglion cell death in the ganglion cell layer and damages respective neural fibers. However, the diverse cell types of the human retina have not been fully characterized yet, thus in most cases our knowledge on cellular pathologies is not precise enough. While histopathological preparation and examination of the retinal tissue provide more detailed information about the diagnosis and the severity of the condition, unfortunately, it cannot be used in vivo in everyday clinical practice. Our understanding of the cellular changes in different diseases has revealed a need for new everyday clinical examination methods that can be used in vivo to asses cellular and subcellular changes in neural and other cells of the retina, such as blood cells flowing in healthy vessels or in vessels of neovascular origin. In addition to the currently used clinical examination methods, these imaging methods could help confirm or dismiss diagnoses, assess the severity of a condition, and monitor disease progression or remission. Orv Hetil. 2021; 162(22): 851–860.

scholarly journals In Vivo Effects of Long-Term Cigarette Smoke Exposure on Mammary Tissue in Mice

2017 ◽  
Vol 187 (6) ◽  
pp. 1238-1244 ◽  
Author(s):  
Shannon Kispert ◽  
Susan Crawford ◽  
Grant Kolar ◽  
Jane McHowat
Keyword(s):  
Cigarette Smoke ◽  
Smoke Exposure ◽  
Cigarette Smoke Exposure ◽  
Mammary Tissue ◽  
In Vivo Effects

scholarly journals The retinal toxicity profile towards assemblies of Amyloid-β indicate the predominant pathophysiological activity of oligomeric species

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Efrat Naaman ◽  
Sarah Ya’ari ◽  
Chen Itzkovich ◽  
Shadi Safuri ◽  
Flora Macsi ◽  
...  
Keyword(s):  
Toxic Effect ◽  
Self Assembly ◽  
Amyloid Β ◽  
Age Related Macular Degeneration ◽  
Retinal Tissue ◽  
Age Related ◽  
Aβ Aggregation ◽  
And Function ◽  
The Impact

AbstractAmyloid-β (Aβ), reported as a significant constituent of drusen, was implicated in the pathophysiology of age-related macular degeneration (AMD), yet the identity of the major pathogenic Aβ species in the retina has remained hitherto unclear. Here, we examined the in-vivo retinal impact of distinct supramolecular assemblies of Aβ. Fibrillar (Aβ40, Aβ42) and oligomeric (Aβ42) preparations showed clear biophysical hallmarks of amyloid assemblies. Measures of retinal structure and function were studied longitudinally following intravitreal administration of the various Aβ assemblies in rats. Electroretinography (ERG) delineated differential retinal neurotoxicity of Aβ species. Oligomeric Aβ42 inflicted the major toxic effect, exerting diminished ERG responses through 30 days post injection. A lesser degree of retinal dysfunction was noted following treatment with fibrillar Aβ42, whereas no retinal compromise was recorded in response to Aβ40 fibrils. The toxic effect of Aβ42 architectures was further reflected by retinal glial response. Fluorescence labelling of Aβ42 species was used to detect their accumulation into the retinal tissue. These results provide conceptual evidence of the differential toxicity of particular Aβ species in-vivo, and promote the mechanistic understanding of their retinal pathogenicity. Stratifying the impact of pathological Aβ aggregation in the retina may merit further investigation to decipher the pathophysiological relevance of processes of molecular self-assembly in retinal disorders.

scholarly journals Crosstalk between Long-Term Sublethal Oxidative Stress and Detrimental Inflammation as Potential Drivers for Age-Related Retinal Degeneration

Antioxidants ◽  
2020 ◽  
Vol 10 (1) ◽  
pp. 25
Author(s):  
Lara Macchioni ◽  
Davide Chiasserini ◽  
Letizia Mezzasoma ◽  
Magdalena Davidescu ◽  
Pier Luigi Orvietani ◽  
...  
Keyword(s):  
Oxidative Stress ◽  
Molecular Mechanisms ◽  
Age Related Macular Degeneration ◽  
Inflammasome Activation ◽  
Related Factor ◽  
Nuclear Factor ◽  
Rpe Cells ◽  
Age Related ◽  
Oxidative Insult

Age-related retinal degenerations, including age-related macular degeneration (AMD), are caused by the loss of retinal pigmented epithelial (RPE) cells and photoreceptors. The pathogenesis of AMD, deeply linked to the aging process, also involves oxidative stress and inflammatory responses. However, the molecular mechanisms contributing to the shift from healthy aging to AMD are still poorly understood. Since RPE cells in the retina are chronically exposed to a pro-oxidant microenvironment throughout life, we simulated in vivo conditions by growing ARPE-19 cells in the presence of 10 μM H2O2 for several passages. This long-term oxidative insult induced senescence in ARPE-19 cells without affecting cell proliferation. Global proteomic analysis revealed a dysregulated expression in proteins involved in antioxidant response, mitochondrial homeostasis, and extracellular matrix organization. The analyses of mitochondrial functionality showed increased mitochondrial biogenesis and ATP generation and improved response to oxidative stress. The latter, however, was linked to nuclear factor-κB (NF-κB) rather than nuclear factor erythroid 2–related factor 2 (Nrf2) activation. NF-κB hyperactivation also resulted in increased pro-inflammatory cytokines expression and inflammasome activation. Moreover, in response to additional pro-inflammatory insults, senescent ARPE-19 cells underwent an exaggerated inflammatory reaction. Our results indicate senescence as an important link between chronic oxidative insult and detrimental chronic inflammation, with possible future repercussions for therapeutic interventions.

scholarly journals Complement C5 is not critical for the formation of sub-RPE deposits in Efemp1 mutant mice

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Donita L. Garland ◽  
Eric A. Pierce ◽  
Rosario Fernandez-Godino
Keyword(s):  
Macular Degeneration ◽  
Retinal Pigment ◽  
Age Related Macular Degeneration ◽  
Deposit Formation ◽  
Genetic Ablation ◽  
Age Related ◽  
Complement Dysregulation

AbstractThe complement system plays a role in the formation of sub-retinal pigment epithelial (RPE) deposits in early stages of age-related macular degeneration (AMD). But the specific mechanisms that connect complement activation and deposit formation in AMD patients are unknown, which limits the development of efficient therapies to reduce or stop disease progression. We have previously demonstrated that C3 blockage prevents the formation of sub-RPE deposits in a mouse model of EFEMP1-associated macular degeneration. In this study, we have used double mutant Efemp1R345W/R345W:C5-/- mice to investigate the role of C5 in the formation of sub-RPE deposits in vivo and in vitro. The data revealed that the genetic ablation of C5 does not eliminate the formation of sub-RPE deposits. Contrarily, the absence of C5 in RPE cultures promotes complement dysregulation that results in increased activation of C3, which likely contributes to deposit formation even in the absence of EFEMP1-R345W mutant protein. The results also suggest that genetic ablation of C5 alters the extracellular matrix turnover through an effect on matrix metalloproteinases in RPE cell cultures. These results confirm that C3 rather than C5 could be an effective therapeutic target to treat early AMD.

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