Vascular Endothelial Growth Factor (VEGF) Induced Downstream Responses to Transient Receptor Potential Vanilloid 1 (TRPV1) and 3-Iodothyronamine (3-T1AM) in Human Corneal Keratocytes

Türker, Ersal; Garreis, Fabian; Khajavi, Noushafarin; Reinach, Peter S.; Joshi, Pooja; Brockmann, Tobias; Lucius, Alexander; Ljubojevic, Nina; Turan, Elizabeth; Cooper, Drew; Schick, Felix; Reinholz, Rob; Pleyer, Uwe; Köhrle, Josef; Mergler, Stefan

doi:10.3389/fendo.2018.00670

Cited by 19 publications

(16 citation statements)

References 103 publications

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“…TRPV1 and TRPM8 are the only calcium transporters identified in keratocytes to date 18,19 , and no studies have examined cell to cell calcium signaling in keratocytes. In order to accurately analyze TPMD-induced calcium signaling, we chose to examine several parameters in human and mouse cultured stromal cells, and in keratocytes within human corneal rims.…”

Section: Discussionmentioning

confidence: 99%

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Transient Cell Membrane Disruptions induce Calcium Waves in Corneal Keratocytes

Chen

McGee‐Lawrence

et al. 2020

Sci Rep

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the purpose of this study was to determine if transient cell membrane disruptions (tpMDs) in single keratocytes can trigger signaling events in neighboring keratocytes. Stromal cells were cultured from human corneas (HcSc) and mouse corneas (McSc). tpMDs were produced using a multiphoton microscope in Cal-520-AM loaded cells. TPMD-induced calcium increases (Ca ++ i ) were measured in ca ++containing and ca ++ -free solutions containing thapsigargin, ryanodine, BAPTA-AM, 18-α-glycyrrhetinic acid (18α-GA), apyrase, BCTC, AMG 9810, or AMTB. Fluorescence intensity was recorded as the number of cells responding and the area under the fluorescence versus time curve. The maximum distance of responding neighboring cells in ex vivo human corneas was measured. Connexin 43 protein in HCSC and MCSC was examined using immunofluorescence staining, and corneal rubbing was applied to confirm whether TPMDs occur following mechanical manipulation. Our results demonstrate that single cell tpMDs result in ca ++ waves in neighboring keratocytes both in culture and within ex vivo corneas. the source of ca ++ is both intra-and extra-cellular, and the signal can be mediated by ATP and/or gap junctions, and is species dependent. Stromal rubbing confirmed that TPMDs do occur following mechanical manipulation. Keratocyte tpMDs and their associated signaling events are likely common occurrences following minor or major corneal trauma.The cornea is the anterior-most segment of the eye, and is the most powerful refractive element of the eye. Histologically, the cornea contains an outwardly-facing epithelium, a stroma containing keratocytes and nerves, and in inner-facing endothelium. Stromal keratocytes are dispersed among stromal collagen fibers, forming a network of cells interconnected via gap junctions 1-4 . Keratocytes are typically quiescent under normal physiological conditions. Following corneal injury, keratocytes activate and become myofibroblasts, which migrate to the wound area and are heavily involved in the wound repair process.In many cell types, including gastrointestinal tract cells, myocytes, and osteocytes, physiological mechanical loading can create transient micro-tears in the cell membrane termed transient plasma membrane disruptions (TPMDs) 5-8 , which is a common form of cell injury. These TPMDs are typically repaired rapidly (within 10 to 60 seconds) to allow for continued cell survival. Importantly, TPMDs foster molecular flux across cell membranes and promote tissue adaptation by initiating cellular mechanotransduction signaling. A TPMD facilitates rapid extracellular calcium influx at the site of membrane injury, which can trigger a number of downstream intra-and extracellular signaling events.TPMDs and their associated intercellular signaling responses may occur frequently in corneal keratocytes as a result of mechanical stimulation initiated by, for example, eye rubbing and minor or major corneal trauma. Mechanical stimulation has been postulated to be the source of TPMDs in bone osteocytes, which reside in bony ...

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Section: Discussionmentioning

confidence: 99%

“…While many corneal keratocyte signaling pathways have been previously described (e.g. reviewed in 16,17 ), the only keratocyte calcium transport pathways described to date are through the TRPV1 and TRPM8 channels 18,19 . The role of these two channels in keratocyte TPMD-induced calcium wave propagation was examined in the current study.…”

mentioning

confidence: 99%

Transient Cell Membrane Disruptions induce Calcium Waves in Corneal Keratocytes

Chen

McGee‐Lawrence

et al. 2020

Sci Rep

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“… 45 , 62 , 63 Although the function of cytosolic TRPV4-ir puncta is less clear, total internal reflection microscopy studies have linked such puncta to stimulus- and development-dependent trafficking of endosomes, membrane translocation, insertion, and/or internalization. 64 – 68 Given that TRPV4 is expressed in the CE, 12 , 14 afferents, 15 fibroblasts, 69 stromal keratocytes, 70 and the endothelium ( Fig. 1 ) it probably functions as a pan-corneal regulator of sensory inputs.…”

Section: Discussionmentioning

confidence: 99%

Polymodal Sensory Transduction in Mouse Corneal Epithelial Cells

Lapajne

Lakk

Yarishkin

et al. 2020

Invest. Ophthalmol. Vis. Sci.

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PURPOSE. Contact lenses, osmotic stressors, and chemical burns may trigger severe discomfort and vision loss by damaging the cornea, but the signaling mechanisms used by corneal epithelial cells (CECs) to sense extrinsic stressors are not well understood. We therefore investigated the mechanisms of swelling, temperature, strain, and chemical transduction in mouse CECs. METHODS. Intracellular calcium imaging in conjunction with electrophysiology, pharmacology, transcript analysis, immunohistochemistry, and bioluminescence assays of adenosine triphosphate (ATP) release were used to track mechanotransduction in dissociated CECs and epithelial sheets isolated from the mouse cornea. RESULTS. The transient receptor potential vanilloid (TRPV) transcriptome in the mouse corneal epithelium is dominated by Trpv4, followed by Trpv2, Trpv3, and low levels of Trpv1 mRNAs. TRPV4 protein was localized to basal and intermediate epithelial strata, keratocytes, and the endothelium in contrast to the cognate TRPV1, which was confined to intraepithelial afferents and a sparse subset of CECs. The TRPV4 agonist GSK1016790A induced cation influx and calcium elevations, which were abolished by the selective blocker HC067047. Hypotonic solutions, membrane strain, and moderate heat elevated [Ca 2+ ] CEC with swelling-and temperature-, but not strain-evoked signals, sensitive to HC067047. GSK1016790A and swelling evoked calcium-dependent ATP release, which was suppressed by HC067027 and the hemichannel blocker probenecid. CONCLUSIONS. These results demonstrate that cation influx via TRPV4 transduces osmotic and thermal but not strain inputs to CECs and promotes hemichannel-dependent ATP release. The TRPV4-hemichannel-ATP signaling axis might modulate corneal pain induced by excessive mechanical, osmotic, and chemical stimulation.

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“…B. Borneol) sind vielversprechend [49,50]. Hier wäre auch eine Anwendung von 3-T 1 AM denkbar [10,43]. Außerdem gibt es Studien, die zeigen, dass über siRNA-Techniken (siRNA: small interfering oligonucleotide of RNA) die Genexpression von TRPV1 unterdrückt werden kann (Tivanisiran) und in weiteren klinischen Studien getestet werden könnte [51].…”

Section: Klinische Relevanzunclassified

“…Adrenerge Rezeptoren sind an G-Proteine gekoppelt und können über 3-T 1 AM aktiviert werden[52]. Neuere Untersuchungen deuten auf eine Assoziation zwischen VEGF-Rezeptoren und TRPV1-Kanälen hin[10] (Zeichnung S. Mergler).…”

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Bedeutung von transienten Rezeptorpotenzialkanälen für die okuläre Oberfläche: Einblick und Ausblick – von der Laborforschung zur klinischen Praxis

Mergler

Pleyer

2020

Klin Monbl Augenheilkd

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ZusammenfassungFür eine optimale visuelle Funktion ist eine Augenoberfläche mit einem vitalen Epithelverband und stabilen Tränenfilm erforderlich. Eine Vielzahl von endogenen und externen Faktoren kann die empfindliche Homöostase der Augenoberfläche beeinflussen und zu einem „trockenen Auge“ führen. Studien im letzten Jahrzehnt haben gezeigt, dass Ca2+ ein wichtiger Faktor bei der Kontrolle der Epithelfunktion der Augenoberfläche ist. Dabei konnten insbesondere transiente Rezeptorpotenzialkanäle (TRPs) als wichtige Komponenten in Hornhaut- und Bindehautzellen identifiziert werden. Die TRPs sind nicht selektive Kationenkanäle, die als molekulare Sensoren wärme-, nozi- bzw. osmosensibel sind. Unsere Ca2+-Imaging- und Patch-Clamp-Studien zeigen, dass die Aktivität von 2 TRP-Isoformen, TRPV1 und TRPM8, durch Änderungen der Osmolarität, der Außentemperatur und einiger endogener Substrate moduliert werden kann. Diese TRPs werden sowohl an nicht neuronalen als auch an neuronalen Hornhautzellen exprimiert. Darüber hinaus beeinflussen diese Wechselwirkungen die Expression von Zytokinen, die inflammatorische Prozesse fördern oder hemmen und damit einen wichtigen Beitrag zur Physiologie des Trockenen Auges leisten. Zusammengenommen führen diese Ergebnisse nicht nur zu einem besseren Verständnis der Pathophysiologie von Schmerz- und Entzündungsreaktionen der Augenoberfläche. Diese Studien können auch neue Wege aufzeigen, um die Pathophysiologie der Krankheit zu verstehen und die Entwicklung neuer therapeutischer Angriffspunkte beim Syndrom des Trockenen Auges fördern.

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Vascular Endothelial Growth Factor (VEGF) Induced Downstream Responses to Transient Receptor Potential Vanilloid 1 (TRPV1) and 3-Iodothyronamine (3-T1AM) in Human Corneal Keratocytes

Cited by 19 publications

References 103 publications

Transient Cell Membrane Disruptions induce Calcium Waves in Corneal Keratocytes

Transient Cell Membrane Disruptions induce Calcium Waves in Corneal Keratocytes

Polymodal Sensory Transduction in Mouse Corneal Epithelial Cells

Bedeutung von transienten Rezeptorpotenzialkanälen für die okuläre Oberfläche: Einblick und Ausblick – von der Laborforschung zur klinischen Praxis

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