Search

Your search keyword '"Kleinlogel S"' showing total 45 results
Start Over Author "Kleinlogel S"
45 results on '"Kleinlogel S"'

3. Screening, diagnosis, treatment and follow-up of people suspected to be overexposed to inorganic arsenic due to their place of residence

Author

Garnier, R., Nouyrigat, E., Benoit, P., Goullé, J.-P., Granon, C., Manel, J., Manouchehri, N., Mathieu-Huart, A., Nisse, P., Normand, J.-C., Ronga-Pézeret, S., Roulet, A., Simon, F., Gabach, P., Tournoud, C., Augé, G., Barbillon, A., Boudet, C., Bourgeat, M., Droissart-Long, A., El Balkhi, S., Franchitto, N., Glaizal, M., Glorennec, P., Gnansia, E., Haufroid, V., Breurec, J.-Y., Cambier, P., Carlier, P., Carretier, J., Chanaud, D., Charrière, A., Clinard, F., Dereure, O., Kleinlogel, S., Labadie, M., Laporte, R., Heilier, J.-F., Javelaud, B., LEFRANC, A., Lelièvre, B., Lucas, D., Marot, F., Mathieu, O., Nesslany, F., Nikolova-Pavageau, N., Nisse, C., Peronnet, K., Puskarczyk, E., Quénel, P., Rauzier-Jaoul, M.-C., Roussel, H., Sadeg, N., Sapori, J.-M., Sauvant-Rochat, M.-P., VERDUN-ESQUER, C., Veyer, K., Villa, A., Vircondelet, S., Société de toxicologie clinique (STC), Haute Autorité de Santé [Saint-Denis La Plaine] (HAS), France Nature Environnement (FNE), Société française de toxicologie analytique (SFTA), Société française de santé publique, Paris-Saclay Food and Bioproduct Engineering (SayFood), AgroParisTech-Université Paris-Saclay-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Agence nationale de sécurité sanitaire de l'alimentation, de l'environnement et du travail (ANSES), Société française de médecine du travail (SFMT), Société francophone de santé environnement (SFSE), Association pour la dépollution des anciennes mines de la Vieille Montagne (ADAMVM), École des Hautes Études en Santé Publique [EHESP] (EHESP), Institut de recherche en santé, environnement et travail (Irset), Université d'Angers (UA)-Université de Rennes (UR)-École des Hautes Études en Santé Publique [EHESP] (EHESP)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Structure Fédérative de Recherche en Biologie et Santé de Rennes ( Biosit : Biologie - Santé - Innovation Technologique ), and Département Méthodes quantitatives en santé publique (METIS)

Subjects
Surexposition, Prévention, Prevention, Inorganic arsenic, Arsenic inorganique, Environment, Environnement, Treatment, Overexposure, Dépistage, Diagnosis, Screening, Diagnostic, Traitement, [SDV.MHEP]Life Sciences [q-bio]/Human health and pathology
Abstract

International audience; Background and objectives. - The French national authority for health (Haute Autorite de sante: HAS) and the French clinical toxicology society (Societe de toxicologie clinique: STC) received a formal request from the French ministry for heath to elaborate recommendations for the screening of environmental overexposure to inorganic arsenic (iAs), for the medical management of overexposed patients and for the medical surveillance of exposed population.Methods. - The method used for the elaboration was the Clinical practice guidelines method recommended by HAS in this situation (HAS, 2010).Results. - The recommendations are presented in the present article. They concern: a) identification of those sites with a high risk of iAs overexposure for the residents (using bioaccessible concentrations in soils); the target population for Asi overexposure screening and screening modalities (using measurement of iAs and its metabolites in urine); b) the biomonitoring indications and modalities for overexposed individuals; c) the fraction of the population with iAs environmental exposure which should be the target for the detection and the diagnosis of complications, and the modalities of these operations; d) the treatment and prevention of iAs environmental overexposure. (C) 2020 Elsevier Masson SAS. All rights reserved.; RésuméContexte et objectifsÀ la demande de la Direction générale de la santé, la Haute Autorité de santé (HAS), en partenariat avec la Société de toxicologie clinique (STC) et avec la collaboration de la Société française de médecine du travail (SFMT), la Société française de santé publique (SFSP), la Société française de toxicologie analytique (SFTA) et la Société francophone de santé-environnement (SFSE) a élaboré des recommandations pour le dépistage des surexpositions environnementales à l’arsenic inorganique (Asi) et la prise en charge des populations concernées.MéthodeLa méthode d’élaboration utilisée est celle des Recommandations pour la pratique clinique (RPC) de la HAS (HAS, 2010).RésultatsLes recommandations élaborées identifient : les sites susceptibles d’entraîner des surexpositions environnementales, à partir de la concentration d’Asi dans leur sol ; la fraction des résidents qui constitue la population cible du dépistage ; les modalités de ce dépistage qui utilise le dosage de l’Asi et de ses métabolites dans les urines. En fonction des résultats du primo-dépistage, elles précisent les indications et le déroulement de la surveillance biométrologique. Elles indiquent la fraction de la population exposée qui constitue la cible de la recherche de complications de la surexposition environnementale à l’Asi. Elles précisent les modalités de cette recherche. Enfin, elles proposent des mesures pour le traitement et la prévention des contaminations par l’Asi de l’environnement.

Published
2020
Full Text
View/download PDF

4. Dépistage, prise en charge et suivi des personnes potentiellement surexposées à l’arsenic inorganique du fait de leur lieu de résidence

Author

Garnier, R., primary, Nouyrigat, E., additional, Benoit, P., additional, Goullé, J.-P., additional, Granon, C., additional, Manel, J., additional, Manouchehri, N., additional, Mathieu-Huart, A., additional, Nisse, P., additional, Normand, J.-C., additional, Ronga-Pézeret, S., additional, Roulet, A., additional, Simon, F., additional, Gabach, P., additional, Tournoud, C., additional, Augé, G., additional, Barbillon, A., additional, Boudet, C., additional, Bourgeat, M., additional, Droissart-Long, A., additional, El Balkhi, S., additional, Franchitto, N., additional, Glaizal, M., additional, Glorennec, P., additional, Gnansia, E., additional, Haufroid, V., additional, Breurec, J.-Y., additional, Cambier, P., additional, Carlier, P., additional, Carretier, J., additional, Chanaud, D., additional, Charrière, A., additional, Clinard, F., additional, Dereure, O., additional, Kleinlogel, S., additional, Labadie, M., additional, Laporte, R., additional, Heilier, J.-F., additional, Javelaud, B., additional, Lefranc, A., additional, Lelièvre, B., additional, Lucas, D., additional, Marot, F., additional, Mathieu, O., additional, Nesslany, F., additional, Nikolova-Pavageau, N., additional, Nisse, C., additional, Peronnet, K., additional, Puskarczyk, E., additional, Quénel, P., additional, Rauzier-Jaoul, M.-C., additional, Roussel, H., additional, Sadeg, N., additional, Sapori, J.-M., additional, Sauvant-Rochat, M.-P., additional, Verdun-Esquer, C., additional, Veyer, K., additional, Villa, A., additional, and Vircondelet, S., additional

Published
2020
Full Text
View/download PDF

8. Dépistage, prise en charge et suivi des personnes potentiellement surexposées à l’arsenic inorganique du fait de leur lieu de résidence

Author

Augé, G., Barbillon, A., Boudet, C., Bourgeat, M., Droissart-Long, A., El Balkhi, S., Franchitto, N., Glaizal, M., Glorennec, P., Gnansia, E., Haufroid, V., Breurec, J.-Y., Cambier, P., Carlier, P., Carretier, J., Chanaud, D., Charrière, A., Clinard, F., Dereure, O., Kleinlogel, S., Labadie, M., Laporte, R., Heilier, J.-F., Javelaud, B., Lefranc, A., Lelièvre, B., Lucas, D., Marot, F., Mathieu, O., Nesslany, F., Nikolova-Pavageau, N., Nisse, C., Peronnet, K., Puskarczyk, E., Quénel, P., Rauzier-Jaoul, M.-C., Roussel, H., Sadeg, N., Sapori, J.-M., Sauvant-Rochat, M.-P., Verdun-Esquer, C., Veyer, K., Villa, A., Vircondelet, S., Garnier, R., Nouyrigat, E., Benoit, P., Goullé, J.-P., Granon, C., Manel, J., Manouchehri, N., Mathieu-Huart, A., Nisse, P., Normand, J.-C., Ronga-Pézeret, S., Roulet, A., Simon, F., Gabach, P., and Tournoud, C.

Abstract

À la demande de la Direction générale de la santé, la Haute Autorité de santé (HAS), en partenariat avec la Société de toxicologie clinique (STC) et avec la collaboration de la Société française de médecine du travail (SFMT), la Société française de santé publique (SFSP), la Société française de toxicologie analytique (SFTA) et la Société francophone de santé-environnement (SFSE) a élaboré des recommandations pour le dépistage des surexpositions environnementales à l’arsenic inorganique (Asi) et la prise en charge des populations concernées.

Published
2020
Full Text
View/download PDF

12. Implémentation d'un Parcours « Lupus systémique » intégratif en Alsace.

Author

Scherlinger, M., Dieudonné, Y., Blaison, G., Dervieux, B., Ardizzone, M., Dahan, E., Morruzzi, C., Meyer, L., Barrand, L., Messer, L., Windstein, C., Walther, J., Dory, A., Riviere, M., Gonzalez, M., Carrier, C., Kleinlogel, S., Barthelemy, M., Chatelus, E., and Hinschberger, O.

Abstract

Le lupus systémique (LS) est une maladie auto-immune rare dont la prise en charge diagnostique et thérapeutique implique de nombreux défis. Le délai diagnostique médian est de deux ans et l'absence de parcours de soin bien défini entraîne un retard diagnostique péjoratif et un vécu négatif par les patients. L'objectif de ce travail était d'évaluer de manière systématique les difficultés et freins rencontrés par les patients diagnostiqués d'un LS en Alsace afin d'y répondre par la création d'un parcours LS Alsace. Un groupe de travail pluriprofessionnel comprenant des médecins (rhumatologues, internistes, dermatologues, biologistes, médecins du travail) hospitaliers et libéraux, des pharmaciens, des paramédicaux (infirmiers), ainsi que des patients et représentants d'association de patients ont participé à ce travail. Chaque étape du parcours patient a été étudiée afin d'évaluer les freins et les leviers d'amélioration potentiels. Des solutions ont été discutées au sein du groupe et implémentées en vie réelle afin d'améliorer le parcours des patients. Trois axes principaux ont été identifiés par le groupe de travail : 1/ les délais et difficultés diagnostiques : une sensibilisation des médecins libéraux au LS a été réalisée par le biais de réunions de formations médicales continues et par la diffusion d'une fiche de symptômes/plaintes devant faire évoquer un LS (Fig. 1). Afin d'améliorer l'identification précoce des patients, une fiche d'aide à la prescription du bilan immunologique regroupant symptomatologie et explorations adaptées a été diffusée (Fig. 2). Le rendu des résultats immunologiques a été harmonisé à l'échelle de l'Alsace avec des commentaires permettant au prescripteur d'orienter au mieux le patient. Une ligne de télé-expertise OMNIDOC a été mise en place afin d'accompagner les libéraux dans l'orientation et l'aide à la prise en charge des patients. Enfin, une fois le diagnostic posé, une proposition de verbatim a été élaborée avec médecins et patients afin que l'annonce diagnostique soit la mieux vécue possible ; 2/ la prise en charge thérapeutique : un document formalisant un projet personnalisé de soin (PPS) a été élaboré pour permettre au patient d'avoir une vision globale de sa prise en charge (Fig. 3). En outre, une réunion de concertation pluridisciplinaire présentielle ou à distance a été renforcée afin de discuter des dossiers complexes (i.e., LS réfractaire, grossesse) ; 3/ prise en charge globale : une hospitalisation de jour modulaire est maintenant mise en place, proposant de manière personnalisée des entretiens médicaux, pharmaceutiques, kinésithérapiques, diététiques, d'activité physique adaptée, d'ergothérapie ou de médecine du travail. La prise en charge des comorbidités (ostéoporose, cardiovasculaire) et de la vaccination est également proposée. Enfin, le programme LS développé par l'équipe d'éducation thérapeutique (ETP) vient renforcer l'offre de prise en charge. L'impact de chaque élément du parcours lupus sera évalué par le biais de mesures quantitative et qualitative. Ce parcours intégratif vise à améliorer et à faciliter le diagnostic précoce et la prise en charge globale des patients atteints de LS en Alsace. Ce type de parcours pourrait être étendu à d'autres régions et d'autres pathologies afin de renforcer les parcours de soin. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

13. Cardiac optogenetics: shining light on signaling pathways.

Author

Leemann S, Schneider-Warme F, and Kleinlogel S

Subjects
Membrane Potentials, Optogenetics methods, Heart, Signal Transduction
Abstract

In the early 2000s, the field of neuroscience experienced a groundbreaking transformation with the advent of optogenetics. This innovative technique harnesses the properties of naturally occurring and genetically engineered rhodopsins to confer light sensitivity upon target cells. The remarkable spatiotemporal precision offered by optogenetics has provided researchers with unprecedented opportunities to dissect cellular physiology, leading to an entirely new level of investigation. Initially revolutionizing neuroscience, optogenetics quickly piqued the interest of the wider scientific community, and optogenetic applications were expanded to cardiovascular research. Over the past decade, researchers have employed various optical tools to observe, regulate, and steer the membrane potential of excitable cells in the heart. Despite these advancements, achieving control over specific signaling pathways within the heart has remained an elusive goal. Here, we review the optogenetic tools suitable to control cardiac signaling pathways with a focus on GPCR signaling, and delineate potential applications for studying these pathways, both in healthy and diseased hearts. By shedding light on these exciting developments, we hope to contribute to the ongoing progress in basic cardiac research to facilitate the discovery of novel therapeutic possibilities for treating cardiovascular pathologies., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

14. Selective Block of Upregulated Kv1.3 Potassium Channels in ON-Bipolar Cells of the Blind Retina Enhances Optogenetically Restored Signaling.

Author

Schilardi G, Kralik J, and Kleinlogel S

Abstract

Loss of photoreceptors in retinal degenerative diseases also impacts the inner retina: bipolar cell dendrites retract, neurons rewire, and protein expression changes. ON-bipolar cells (OBCs) represent an attractive target for optogenetic vision restoration. However, the above-described maladaptations may negatively impact the quality of restored vision. To investigate this question, we employed human post-mortem retinas and transgenic rd1_Opto-mGluR6 mice expressing the optogenetic construct Opto-mGluR6 in OBCs and carrying the retinal degeneration rd1 mutation. We found significant changes in delayed rectifier potassium channel expression in OBCs of degenerative retinas. In particular, we found an increase in Kv1.3 expression already in early stages of degeneration. Immunohistochemistry localized Kv1.3 channels specifically to OBC axons. In whole-cell patch-clamp experiments, OBCs in the degenerated murine retina were less responsive, which could be reversed by application of the specific Kv1.3 antagonist Psora-4. Notably, Kv1.3 block significantly increased the amplitude and kinetics of Opto-mGluR6-mediated light responses in OBCs of the blind retina and increased the signal-to-noise ratio of light-triggered responses in retinal ganglion cells. We propose that reduction in Kv1.3 activity in the degenerated retina, either by pharmacological block or by KCNA3 gene silencing, could improve the quality of restored vision.

Published
2023
Full Text
View/download PDF

15. The Bovine Ex Vivo Retina: A Versatile Model for Retinal Neuroscience.

Author

Kralik J, van Wyk M, Leonardon B, Schilardi G, Schneider S, and Kleinlogel S

Subjects
Cattle, Animals, Mice, Retinal Pigment Epithelium, Retinal Ganglion Cells, Choroid, Retina, Retinal Neurons
Abstract

Purpose: The isolated ex vivo retina is the standard model in retinal physiology and neuroscience. During isolation, the retina is peeled from the retinal pigment epithelium (RPE), which plays a key role in the visual cycle. Here we introduce the choroid-attached bovine retina as an in vivo-like model for retinal physiology. We find that-in the bovine eye-the choroid and retina can be peeled from the sclera as a single thin sheet. Importantly, the retina remains tightly associated with the RPE, which is sandwiched between the retina and the choroid. Furthermore, bovine tissue is readily available and cheap, and there are no ethical concerns related to the use of animals solely for research purposes., Methods: We combine multi-electrode array and single-cell patch-clamp recordings to characterize light responses in the choroid-attached bovine ex vivo retina., Results: We demonstrate robust and consistent light responses in choroid-attached preparations. Importantly, light responses adapt to different levels of background illumination and rapidly recover from photobleaching. The choroid-attached retina is also thin enough to permit targeted electrophysiological recording from individual retinal neurons using standard differential interference contrast microscopy. We also characterize light responses and membrane properties of bovine retinal ganglion cells and compare data obtained from bovine and murine retinas., Conclusions: The choroid-attached retinal model retains the advantages of the isolated retina but with an intact visual cycle and represents a useful tool to elucidate retinal physiology.

Published
2023
Full Text
View/download PDF

16. A visual opsin from jellyfish enables precise temporal control of G protein signalling.

Author

van Wyk M and Kleinlogel S

Subjects
Animals, Mice, Rhodopsin genetics, Rhodopsin metabolism, Signal Transduction, GTP-Binding Proteins genetics, GTP-Binding Proteins metabolism, Mammals metabolism, Opsins genetics, Opsins metabolism, Cubozoa metabolism
Abstract

Phototransduction is mediated by distinct types of G protein cascades in different animal taxa: bilateral invertebrates typically utilise the Gαq pathway whereas vertebrates typically utilise the Gαt(i/o) pathway. By contrast, photoreceptors in jellyfish (Cnidaria) utilise the Gαs intracellular pathway, similar to olfactory transduction in mammals 1 . How this habitually slow pathway has adapted to support dynamic vision in jellyfish remains unknown. Here we study a light-sensing protein (rhodopsin) from the box jellyfish Carybdea rastonii and uncover a mechanism that dramatically speeds up phototransduction: an uninterrupted G protein-coupled receptor - G protein complex. Unlike known G protein-coupled receptors (GPCRs), this rhodopsin constitutively binds a single downstream Gαs partner to enable G-protein activation and inactivation within tens of milliseconds. We use this GPCR in a viral gene therapy to restore light responses in blind mice., (© 2023. The Author(s).)

Published
2023
Full Text
View/download PDF

17. Functional optimization of light-activatable Opto-GPCRs: Illuminating the importance of the proximal C-terminus in G-protein specificity.

Author

Leemann S and Kleinlogel S

Abstract

Introduction: G-protein coupled receptors (GPCRs) are the largest family of human receptors that transmit signals from natural ligands and pharmaceutical drugs into essentially every physiological process. One main characteristic of G-protein coupled receptors is their ability to specifically couple with different families of G-proteins, thereby triggering specific downstream signaling pathways. While an abundance of structural information is available on G-protein coupled receptorn interactions with G-proteins, little is known about the G-protein coupled receptor domains functionally mediating G-protein specificity, in particular the proximal C-terminus, the structure which cannot be predicted with high confidentiality due to its flexibility. Methods: In this study, we exploited OptoGPCR chimeras between lightgated G-protein coupled receptors (opsins) and ligand-gated G-protein coupled receptors to systematically investigate the involvement of the C-terminus steering G-protein specificity. We employed rhodopsin-beta2-adrenoceptor and melanopsin-mGluR6 chimeras in second messenger assays and developed structural models of the chimeras. Results: We discovered a dominant role of the proximal C-terminus, dictating G-protein selectivity in the melanopsin-mGluR6 chimera, whereas it is the intracellular loop 3, which steers G-protein tropism in the rhodopsin-beta2-adrenoceptor. From the functional results and structural predictions, melanopsin and mGluR6 use a different mechanism to bovine rhodopsin and b2AR to couple to a selective G-protein. Discussion: Collectively, this work adds knowledge to the G-protein coupled receptor domains mediating G-protein selectivity, ultimately paving the way to optogenetically elicited specific G-protein signaling on demand., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Leemann and Kleinlogel.)

Published
2023
Full Text
View/download PDF

19. Bipolar cell targeted optogenetic gene therapy restores parallel retinal signaling and high-level vision in the degenerated retina.

Author

Kralik J, van Wyk M, Stocker N, and Kleinlogel S

Subjects
Humans, Mice, Animals, Genetic Therapy methods, Vision, Ocular, Opsins, Optogenetics methods, Retina physiology
Abstract

Optogenetic gene therapies to restore vision are in clinical trials. Whilst current clinical approaches target the ganglion cells, the output neurons of the retina, new molecular tools enable efficient targeting of the first order retinal interneurons, the bipolar cells, with the potential to restore a higher quality of vision. Here we investigate retinal signaling and behavioral vision in blind mice treated with bipolar cell targeted optogenetic gene therapies. All tested tools, including medium-wave opsin, Opto-mGluR6, and two new melanopsin based chimeras restored visual acuity and contrast sensitivity. The best performing opsin was a melanopsin-mGluR6 chimera, which in some cases restored visual acuities and contrast sensitivities that match wild-type animals. Light responses from the ganglion cells were robust with diverse receptive-field types, inferring elaborate inner retinal signaling. Our results highlight the potential of bipolar cell targeted optogenetics to recover high-level vision in human patients with end-stage retinal degenerations., (© 2022. The Author(s).)

Published
2022
Full Text
View/download PDF

20. WNT Activation and TGFβ-Smad Inhibition Potentiate Stemness of Mammalian Auditory Neuroprogenitors for High-Throughput Generation of Functional Auditory Neurons In Vitro.

Author

Rousset F, Schilardi G, Sgroi S, Nacher-Soler G, Sipione R, Kleinlogel S, and Senn P

Subjects
Animals, Cochlea metabolism, Hair Cells, Auditory, Humans, Mammals, Mice, Neurons, Hearing Loss metabolism, Smad Proteins metabolism, Transforming Growth Factor beta metabolism, Wnt Proteins metabolism
Abstract

Hearing loss affects over 460 million people worldwide and is a major socioeconomic burden. Both genetic and environmental factors (i.e., noise overexposure, ototoxic drug treatment and ageing), promote the irreversible degeneration of cochlear hair cells and associated auditory neurons, leading to sensorineural hearing loss. In contrast to birds, fish and amphibians, the mammalian inner ear is virtually unable to regenerate due to the limited stemness of auditory progenitors, and no causal treatment is able to prevent or reverse hearing loss. As of today, a main limitation for the development of otoprotective or otoregenerative therapies is the lack of efficient preclinical models compatible with high-throughput screening of drug candidates. Currently, the research field mainly relies on primary organotypic inner ear cultures, resulting in high variability, low throughput, high associated costs and ethical concerns. We previously identified and characterized the phoenix auditory neuroprogenitors (ANPGs) as highly proliferative progenitor cells isolated from the A/J mouse cochlea. In the present study, we aim at identifying the signaling pathways responsible for the intrinsic high stemness of phoenix ANPGs. A transcriptomic comparison of traditionally low-stemness ANPGs, isolated from C57Bl/6 and A/J mice at early passages, and high-stemness phoenix ANPGs was performed, allowing the identification of several differentially expressed pathways. Based on differentially regulated pathways, we developed a reprogramming protocol to induce high stemness in presenescent ANPGs (i.e., from C57Bl6 mouse). The pharmacological combination of the WNT agonist (CHIR99021) and TGFβ/Smad inhibitors (LDN193189 and SB431542) resulted in a dramatic increase in presenescent neurosphere growth, and the possibility to expand ANPGs is virtually limitless. As with the phoenix ANPGs, stemness-induced ANPGs could be frozen and thawed, enabling distribution to other laboratories. Importantly, even after 20 passages, stemness-induced ANPGs retained their ability to differentiate into electrophysiologically mature type I auditory neurons. Both stemness-induced and phoenix ANPGs resolve a main bottleneck in the field, allowing efficient, high-throughput, low-cost and 3R-compatible in vitro screening of otoprotective and otoregenerative drug candidates. This study may also add new perspectives to the field of inner ear regeneration.

Published
2022
Full Text
View/download PDF

22. Improving patient pathways for systemic lupus erythematosus: a multistakeholder pathway optimisation study.

Author

Schlencker A, Messer L, Ardizzone M, Blaison G, Hinschberger O, Dahan E, Sordet C, Walther J, Dory A, Gonzalez M, Kleinlogel S, Bramont-Nachman A, Barrand L, Payen-Revol I, Sibilia J, Martin T, and Arnaud L

Subjects
Cross-Sectional Studies, Focus Groups, Humans, Severity of Illness Index, Lupus Erythematosus, Systemic psychology
Abstract

Objective: Among the most significant challenges in SLE are the excessive diagnosis delay and the lack of coordinated care. The aim of the study was to investigate patient pathways in SLE in order to improve clinical and organisational challenges in the management of those with suspected and confirmed SLE., Methods: We conducted a cross-sectional study of patients with SLE, healthcare providers and other representative stakeholders. Focus groups were conducted, and based on the collected data the most impactful disruption points in SLE patient pathways were identified. A novel framework to improve individual patient pathways in SLE was developed, discussed and validated during a consensus meeting with representative stakeholders., Results: Six thematic clusters regarding disruption in optimal patient pathways in SLE were identified: appropriate and timely referral strategy for SLE diagnosis; the need for a dedicated consultation during which the diagnosis of SLE would be announced, and following which clarifications and psychological support offered; individualised patient pathways with coordinated care based on organ involvement, disease severity and patient preference; improved therapeutic patient education; prevention of complications such as infections, osteoporosis and cancer; and additional patient support. During the consensus meeting, the broader panel of stakeholders achieved consensus on these attributes and a framework for optimising SLE patient pathways was developed., Conclusions: We have identified significant disruption points and developed a novel conceptual framework to improve individual patient pathways in SLE. These data may be of valuable interest to patients with SLE, their physicians, health organisations as well as policy makers., Competing Interests: Competing interests: LA has acted as a consultant for Alexion, Amgen, AstraZeneca, Biogen, BMS, Boehringer Ingelheim, GSK, Grifols, Janssen-Cilag, LFB, Lilly, Menarini France, Medac, Novartis, Pfizer, Roche-Chugaï and UCB. Médiation Conseil Santé has been hired as a consulting agency for the organisation of the patient pathway study., (© Author(s) (or their employer(s)) 2022. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published
2022
Full Text
View/download PDF

23. Two Functional Classes of Rod Bipolar Cells in the Healthy and Degenerated Optogenetically Treated Murine Retina.

Author

Schilardi G and Kleinlogel S

Abstract

Bipolar cells have become successful targets for optogenetic gene therapies that restore vision after photoreceptor degeneration. However, degeneration was shown to cause changes in neuronal connectivity and protein expression, which may impact the quality of synthetically restored signaling. Further, the expression of an optogenetic protein may alter passive membrane properties of bipolar cells affecting signal propagation. We here investigated the passive membrane properties of rod bipolar cells in three different systems, the healthy retina, the degenerated retina, and the degenerated retina expressing the optogenetic actuator Opto-mGluR6 . We found that, based on the shape of their current-voltage relations, rod bipolar cells in healthy and degenerated retinas form two clear functional groups (type 1 and type 2 cells). Depolarizing the membrane potential changed recorded current-voltage curves from type 1 to type 2, confirming a single cell identity with two functional states. Expression of Opto-mGluR6 did not alter the passive properties of the rod bipolar cell. With progressing degeneration, dominant outward rectifying currents recorded in type 2 rod bipolar cells decreased significantly. We demonstrate that this is caused by a downregulation of BK channel expression in the degenerated retina. Since this BK conductance will normally recover the membrane potential after RBCs are excited by open TRPM1 channels, a loss in BK will decrease high-pass filtering at the rod bipolar cell level. A better understanding of the changes of bipolar cell physiology during retinal degeneration may pave the way to optimize future treatment strategies of blindness., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Schilardi and Kleinlogel.)

Published
2022
Full Text
View/download PDF

24. Functional Availability of ON-Bipolar Cells in the Degenerated Retina: Timing and Longevity of an Optogenetic Gene Therapy.

Author

Kralik J and Kleinlogel S

Subjects
Animals, Blindness genetics, Blindness physiopathology, Blindness therapy, Cyclic Nucleotide Phosphodiesterases, Type 6 genetics, Disease Models, Animal, Electroretinography, Mice, Mice, Inbred C3H, Mice, Inbred C57BL, Mice, Mutant Strains, Receptors, Metabotropic Glutamate genetics, Receptors, Metabotropic Glutamate physiology, Retinal Degeneration genetics, Retinal Degeneration physiopathology, Signal Transduction, Vision, Ocular physiology, Genetic Therapy methods, Optogenetics methods, Retinal Bipolar Cells physiology, Retinal Degeneration therapy
Abstract

Degenerative diseases of the retina are responsible for the death of photoreceptors and subsequent loss of vision in patients. Nevertheless, the inner retinal layers remain intact over an extended period of time, enabling the restoration of light sensitivity in blind retinas via the expression of optogenetic tools in the remaining retinal cells. The chimeric Opto-mGluR6 protein represents such a tool. With exclusive ON-bipolar cell expression, it combines the light-sensitive domains of melanopsin and the intracellular domains of the metabotropic glutamate receptor 6 (mGluR6), which naturally mediates light responses in these cells. Albeit vision restoration in blind mice by Opto-mGluR6 delivery was previously shown, much is left to be explored in regard to the effects of the timing of the treatment in the degenerated retina. We performed a functional evaluation of Opto-mGluR6-treated murine blind retinas using multi-electrode arrays (MEAs) and observed long-term functional preservation in the treated retinas, as well as successful therapeutical intervention in later stages of degeneration. Moreover, the treatment decreased the inherent retinal hyperactivity of the degenerated retinas to levels undistinguishable from healthy controls. Finally, we observed for the first time micro electroretinograms (mERGs) in optogenetically treated animals, corroborating the origin of Opto-mGluR6 signalling at the level of mGluR6 of ON-bipolar cells.

Published
2021
Full Text
View/download PDF

25. Emerging Approaches for Restoration of Hearing and Vision.

Author

Kleinlogel S, Vogl C, Jeschke M, Neef J, and Moser T

Subjects
Humans, Optogenetics, Visual Prosthesis, Hearing Loss therapy, Vision Disorders therapy
Abstract

Impairments of vision and hearing are highly prevalent conditions limiting the quality of life and presenting a major socioeconomic burden. For a long time, retinal and cochlear disorders have remained intractable for causal therapies, with sensory rehabilitation limited to glasses, hearing aids, and electrical cochlear or retinal implants. Recently, the application of gene therapy and optogenetics to eye and ear has generated hope for a fundamental improvement of vision and hearing restoration. To date, one gene therapy for the restoration of vision has been approved, and ongoing clinical trials will broaden its application including gene replacement, genome editing, and regenerative approaches. Moreover, optogenetics, i.e., controlling the activity of cells by light, offers a more general alternative strategy. Over little more than a decade, optogenetic approaches have been developed and applied to better understand the function of biological systems, while protein engineers have identified and designed new opsin variants with desired physiological features. Considering potential clinical applications of optogenetics, the spotlight is on the sensory systems, particularly the eye and ear. Multiple efforts have been undertaken to restore lost or hampered function in the eye and ear. Optogenetic stimulation promises to overcome fundamental shortcomings of electrical stimulation, namely, poor spatial resolution and cellular specificity, and accordingly to deliver more detailed sensory information. This review aims to provide a comprehensive reference on current gene therapeutic and optogenetic research relevant to the restoration of hearing and vision. We will introduce gene-therapeutic approaches and discuss the biotechnological and optoelectronic aspects of optogenetic hearing and vision restoration.

Published
2020
Full Text
View/download PDF

26. Empowering Retinal Gene Therapy with a Specific Promoter for Human Rod and Cone ON-Bipolar Cells.

Author

Hulliger EC, Hostettler SM, and Kleinlogel S

Abstract

Optogenetic gene therapy holds promise to restore high-quality vision in blind patients and recently reached clinical trials. Although the ON-bipolar cells, the first retinal interneurons, make the most attractive targets for optogenetic vision restoration, they have remained inaccessible to human gene therapy due to the lack of a robust cell-specific promoter. We describe the design and functional evaluation of 770En_454P(h GRM6 ), a human GRM6 gene-derived, short promoter that drives strong and highly specific expression in both the rod- and cone-type ON-bipolar cells of the human retina. Expression also in cone-type ON-bipolar cells is of importance, since the cone-dominated macula mediates high-acuity vision and is the primary target of gene therapies. 770En_454P(h GRM6 )-driven middle-wave opsin expression in ON-bipolar cells achieved lasting restoration of high visual acuity in the rd1 mouse model of late retinal degeneration. The new promoter enables precise manipulation of the inner retinal network and paves the way for clinical application of gene therapies for high-resolution optogenetic vision restoration, raising hopes of significantly improving the life quality of people suffering from blindness., (© 2020 The Author(s).)

Published
2020
Full Text
View/download PDF

27. Dynamic all-optical drug screening on cardiac voltage-gated ion channels.

Author

Streit J and Kleinlogel S

Subjects
Astemizole pharmacology, Dose-Response Relationship, Drug, ERG1 Potassium Channel genetics, ERG1 Potassium Channel metabolism, Flecainide pharmacology, Gene Expression, HEK293 Cells, Humans, Lidocaine pharmacology, Membrane Potentials drug effects, Membrane Potentials physiology, NAV1.5 Voltage-Gated Sodium Channel genetics, Optogenetics instrumentation, Patch-Clamp Techniques, Phosphines pharmacology, Plasmids chemistry, Plasmids metabolism, Quinidine pharmacology, ERG1 Potassium Channel antagonists & inhibitors, High-Throughput Screening Assays, NAV1.5 Voltage-Gated Sodium Channel metabolism, Optogenetics methods, Potassium Channel Blockers pharmacology, Voltage-Gated Sodium Channel Blockers pharmacology
Abstract

Voltage-gated ion channels (VGCs) are prime targets for the pharmaceutical industry, but drug profiling on VGCs is challenging, since drug interactions are confined to specific conformational channel states mediated by changes in transmembrane potential. Here we combined various optogenetic tools to develop dynamic, high-throughput drug profiling assays with defined light-step protocols to interrogate VGC states on a millisecond timescale. We show that such light-induced electrophysiology (LiEp) yields high-quality pharmacological data with exceptional screening windows for drugs acting on the major cardiac VGCs, including hNa v 1.5, hK v 1.5 and hERG. LiEp-based screening remained robust when using a variety of optogenetic actuators (ChR2, ChR2(H134R), CatCh, ChR2-EYFP-βArchT) and different types of organic (RH421, Di-4-ANBDQPQ, BeRST1) or genetic voltage sensors (QuasAr1). The tractability of LiEp allows a versatile and precise alternative to state-of-the-art VGC drug screening platforms such as automated electrophysiology or FLIPR readers.

Published
2018
Full Text
View/download PDF

28. Generation of Otic Sensory Neurons from Mouse Embryonic Stem Cells in 3D Culture.

Author

Perny M, Ting CC, Kleinlogel S, Senn P, and Roccio M

Abstract

The peripheral hearing process taking place in the cochlea mainly depends on two distinct sensory cell types: the mechanosensitive hair cells and the spiral ganglion neurons (SGNs). The first respond to the mechanical stimulation exerted by sound pressure waves on their hair bundles by releasing neurotransmitters and thereby activating the latter. Loss of these sensorineural cells is associated with permanent hearing loss. Stem cell-based approaches aiming at cell replacement or in vitro drug testing to identify potential ototoxic, otoprotective, or regenerative compounds have lately gained attention as putative therapeutic strategies for hearing loss. Nevertheless, they rely on efficient and reliable protocols for the in vitro generation of cochlear sensory cells for their implementation. To this end, we have developed a differentiation protocol based on organoid culture systems, which mimics the most important steps of in vivo otic development, robustly guiding mouse embryonic stem cells (mESCs) toward otic sensory neurons (OSNs). The stepwise differentiation of mESCs toward ectoderm was initiated using a quick aggregation method in presence of Matrigel in serum-free conditions. Non-neural ectoderm was induced via activation of bone morphogenetic protein (BMP) signaling and concomitant inhibition of transforming growth factor beta (TGFβ) signaling to prevent mesendoderm induction. Preplacodal and otic placode ectoderm was further induced by inhibition of BMP signaling and addition of fibroblast growth factor 2 (FGF2). Delamination and differentiation of SGNs was initiated by plating of the organoids on a 2D Matrigel-coated substrate. Supplementation with brain-derived neurotrophic factor (BDNF) and neurotrophin-3 (NT-3) was used for further maturation until 15 days of in vitro differentiation. A large population of neurons with a clear bipolar morphology and functional excitability was derived from these cultures. Immunostaining and gene expression analysis performed at different time points confirmed the transition trough the otic lineage and final expression of the key OSN markers. Moreover, the stem cell-derived OSNs exhibited functional electrophysiological properties of native SGNs. Our established in vitro model of OSNs development can be used for basic developmental studies, for drug screening or for the exploration of their regenerative potential.

Published
2017
Full Text
View/download PDF

29. Present Molecular Limitations of ON-Bipolar Cell Targeted Gene Therapy.

Author

van Wyk M, Hulliger EC, Girod L, Ebneter A, and Kleinlogel S

Abstract

Recent studies have demonstrated the safety and efficacy of ocular gene therapy based on adeno-associated viral vectors (AAVs). Accordingly, a surge in promising new gene therapies is entering clinical trials, including the first optogenetic therapy for vision restoration. To date, optogenetic therapies for vision restoration target either the retinal ganglion cells (GCs) or presynaptic ON-bipolar cells (OBCs). Initiating light responses at the level of the OBCs has significant advantages over optogenetic activation of GCs. For example, important neural circuitries in the inner retina, which shape the receptive fields of GCs, remain intact when activating the OBCs. Current drawbacks of AAV-mediated gene therapies targeting OBCs include (1) a low transduction efficiency, (2) off-target expression in unwanted cell populations, and (3) a poor performance in human tissue compared to the murine retina. Here, we examined side-by-side the performance of three state-of-the art AAV capsid variants, AAV7m8, AAVBP2, and AAV7m8(Y444F) in combination with the 4x GRM6 -SV40 promoter construct in the healthy and degenerated mouse retina and in human post-mortem retinal explants. We find that (1) the 4x GRM6 -SV40 promoter is not OBC specific, (2) that all AAV variants possess broad cellular transduction patterns, with differences between the transduction patterns of capsid variants AAVBP2 and AAV7m8 and, most importantly, (3) that all vectors target OBCs in healthy tissue but not in the degenerated rd1 mouse model, potentially limiting the possibilities for an OBC-targeted optogenetic therapy for vision restoration in the blind.

Published
2017
Full Text
View/download PDF

30. Chronic activation of the D156A point mutant of Channelrhodopsin-2 signals apoptotic cell death: the good and the bad.

Author

Perny M, Muri L, Dawson H, and Kleinlogel S

Subjects
Animals, Antineoplastic Agents pharmacology, Apoptosis drug effects, Apoptosis radiation effects, Calcium metabolism, Cell Line, Tumor, Cell Membrane Permeability drug effects, Cell Membrane Permeability radiation effects, Cell Proliferation drug effects, Cell Proliferation radiation effects, Channelrhodopsins, G1 Phase drug effects, Humans, Immunohistochemistry, Ionophores pharmacology, Light, Melanoma pathology, Mice, Mice, Nude, Models, Biological, Optogenetics, Signal Transduction drug effects, Signal Transduction radiation effects, Xenograft Model Antitumor Assays, Xenopus, Apoptosis genetics, Point Mutation genetics
Abstract

Channelrhodopsin-2 (ChR2) has become a celebrated research tool and is considered a promising potential therapeutic for neurological disorders. While making its way into the clinic, concerns about the safety of chronic ChR2 activation have emerged; in particular as the high-intensity blue light illumination needed for ChR2 activation may be phototoxic. Here we set out to quantify for the first time the cytotoxic effects of chronic ChR2 activation. We studied the safety of prolonged illumination on ChR2(D156A)-expressing human melanoma cells as cancer cells are notorious for their resistance to killing. Three days of illumination eradicated the entire ChR2(D156A)-expressing cell population through mitochondria-mediated apoptosis, whereas blue light activation of non-expressing control cells did not significantly compromise cell viability. In other words, chronic high-intensity blue light illumination alone is not phototoxic, but prolonged ChR2 activation induces mitochondria-mediated apoptosis. The results are alarming for gain-of-function translational neurological studies but open the possibility to optogenetically manipulate the viability of non-excitable cells, such as cancer cells. In a second set of experiments we therefore evaluated the feasibility to put melanoma cell proliferation and apoptosis under the control of light by transdermally illuminating in vivo melanoma xenografts expressing ChR2(D156A). We show clear proof of principle that light treatment inhibits and even reverses tumor growth, rendering ChR2s potential tools for targeted light-therapy of cancers.

Published
2016
Full Text
View/download PDF

31. Embryonic Cell Grafts in a Culture Model of Spinal Cord Lesion: Neuronal Relay Formation Is Essential for Functional Regeneration.

Author

Tscherter A, Heidemann M, Kleinlogel S, and Streit J

Abstract

Presently there exists no cure for spinal cord injury (SCI). However, transplantation of embryonic tissue into spinal cord (SC) lesions resulted in axon outgrowth across the lesion site and some functional recovery, fostering hope for future stem cell therapies. Although in vivo evidence for functional recovery is given, the exact cellular mechanism of the graft support remains elusive: either the grafted cells provide a permissive environment for the host tissue to regenerate itself or the grafts actually integrate functionally into the host neuronal network reconnecting the separated SC circuits. We tested the two hypotheses in an in vitro SC lesion model that is based on propagation of activity between two rat organotypic SC slices in culture. Transplantation of dissociated cells from E14 rat SC or forebrain (FB) re-established the relay of activity over the lesion site and thus, provoked functional regeneration. Combining patch-clamp recordings from transplanted cells with network activity measurements from the host tissue on multi-electrode arrays (MEAs) we here show that neurons differentiate from the grafted cells and integrate into the host circuits. Optogenetic silencing of neurons developed from transplanted embryonic mouse FB cells provides clear evidence that they replace the lost neuronal connections to relay and synchronize activity between the separated SC circuits. In contrast, transplantation of neurospheres (NS) induced neither the differentiation of mature neurons from the grafts nor an improvement of functional regeneration. Together these findings suggest, that the formation of neuronal relays from grafted embryonic cells is essential to re-connect segregated SC circuits.

Published
2016
Full Text
View/download PDF

32. Optogenetic user's guide to Opto-GPCRs.

Author

Kleinlogel S

Subjects
Humans, Ligands, Light, Optogenetics, Receptors, G-Protein-Coupled metabolism
Abstract

Optogenetics has taken biomedical research by storm. The power and precision at which light-gated ion channels control cellular excitability in diverse biological systems has convinced researchers of an optical future. Growing interest in optical methods has sparked the development of multiple new optogenetic tools, which allow precise control of numerous cellular processes. Among these new tools are the light-activatable G-protein coupled receptors (GPCRs) or Opto-GPCRs. The extent of the GPCR family, which in humans alone encompasses approximately 800 different proteins, and the immense therapeutic potential of Opto-GPCRs predict a big future for this juvenile field. Here the different approaches taken to design Opto-GPCRs are reviewed, outlining the advantages and disadvantages of each method for physiological and potential clinical application.

Published
2016
Full Text
View/download PDF

33. Variable phenotypic expressivity in inbred retinal degeneration mouse lines: A comparative study of C3H/HeOu and FVB/N rd1 mice.

Author

van Wyk M, Schneider S, and Kleinlogel S

Subjects
Animals, Disease Progression, Electroretinography, Female, Humans, Male, Mice, Mice, Congenic, Mice, Inbred C3H, Mice, Inbred Strains, Mice, Mutant Strains, Mutant Proteins genetics, Opsins genetics, Opsins metabolism, Optogenetics, Phenotype, RNA, Messenger genetics, RNA, Messenger metabolism, Retinal Degeneration pathology, Retinal Degeneration physiopathology, Retinal Ganglion Cells physiology, Retinitis Pigmentosa genetics, Species Specificity, Cyclic Nucleotide Phosphodiesterases, Type 6 genetics, Retinal Degeneration genetics
Abstract

Purpose: Recent advances in optogenetics and gene therapy have led to promising new treatment strategies for blindness caused by retinal photoreceptor loss. Preclinical studies often rely on the retinal degeneration 1 (rd1 or Pde6b(rd1)) retinitis pigmentosa (RP) mouse model. The rd1 founder mutation is present in more than 100 actively used mouse lines. Since secondary genetic traits are well-known to modify the phenotypic progression of photoreceptor degeneration in animal models and human patients with RP, negligence of the genetic background in the rd1 mouse model is unwarranted. Moreover, the success of various potential therapies, including optogenetic gene therapy and prosthetic implants, depends on the progress of retinal degeneration, which might differ between rd1 mice. To examine the prospect of phenotypic expressivity in the rd1 mouse model, we compared the progress of retinal degeneration in two common rd1 lines, C3H/HeOu and FVB/N., Methods: We followed retinal degeneration over 24 weeks in FVB/N, C3H/HeOu, and congenic Pde6b(+) seeing mouse lines, using a range of experimental techniques including extracellular recordings from retinal ganglion cells, PCR quantification of cone opsin and Pde6b transcripts, in vivo flash electroretinogram (ERG), and behavioral optokinetic reflex (OKR) recordings., Results: We demonstrated a substantial difference in the speed of retinal degeneration and accompanying loss of visual function between the two rd1 lines. Photoreceptor degeneration and loss of vision were faster with an earlier onset in the FVB/N mice compared to C3H/HeOu mice, whereas the performance of the Pde6b(+) mice did not differ significantly in any of the tests. By postnatal week 4, the FVB/N mice expressed significantly less cone opsin and Pde6b mRNA and had neither ERG nor OKR responses. At 12 weeks of age, the retinal ganglion cells of the FVB/N mice had lost all light responses. In contrast, 4-week-old C3H/HeOu mice still had ERG and OKR responses, and we still recorded light responses from C3H/HeOu retinal ganglion cells until the age of 24 weeks. These results show that genetic background plays an important role in the rd1 mouse pathology., Conclusions: Analogous to human RP, the mouse genetic background strongly influences the rd1 phenotype. Thus, different rd1 mouse lines may follow different timelines of retinal degeneration, making exact knowledge of genetic background imperative in all studies that use rd1 models.

Published
2015

34. Restoring the ON Switch in Blind Retinas: Opto-mGluR6, a Next-Generation, Cell-Tailored Optogenetic Tool.

Author

van Wyk M, Pielecka-Fortuna J, Löwel S, and Kleinlogel S

Subjects
Animals, HEK293 Cells, Humans, Mice, Inbred C3H, Mice, Transgenic, Receptors, Metabotropic Glutamate administration & dosage, Receptors, Metabotropic Glutamate genetics, Retinal Bipolar Cells drug effects, Rod Opsins administration & dosage, Rod Opsins genetics, Vision, Ocular, Visual Perception, Blindness therapy, Genetic Therapy methods, Optogenetics methods, Receptors, Metabotropic Glutamate metabolism, Retinal Bipolar Cells metabolism, Rod Opsins metabolism
Abstract

Photoreceptor degeneration is one of the most prevalent causes of blindness. Despite photoreceptor loss, the inner retina and central visual pathways remain intact over an extended time period, which has led to creative optogenetic approaches to restore light sensitivity in the surviving inner retina. The major drawbacks of all optogenetic tools recently developed and tested in mouse models are their low light sensitivity and lack of physiological compatibility. Here we introduce a next-generation optogenetic tool, Opto-mGluR6, designed for retinal ON-bipolar cells, which overcomes these limitations. We show that Opto-mGluR6, a chimeric protein consisting of the intracellular domains of the ON-bipolar cell-specific metabotropic glutamate receptor mGluR6 and the light-sensing domains of melanopsin, reliably recovers vision at the retinal, cortical, and behavioral levels under moderate daylight illumination.

Published
2015
Full Text
View/download PDF

35. A gene-fusion strategy for stoichiometric and co-localized expression of light-gated membrane proteins.

Author

Kleinlogel S, Terpitz U, Legrum B, Gökbuget D, Boyden ES, Bamann C, Wood PG, and Bamberg E

Subjects
Bacteriorhodopsins analysis, Bacteriorhodopsins biosynthesis, Bacteriorhodopsins genetics, HEK293 Cells, Hippocampus cytology, Humans, Molecular Sequence Data, Neurons cytology, Neurons metabolism, Rhodopsin analysis, Rhodopsin biosynthesis, Artificial Gene Fusion, Light, Rhodopsin genetics
Abstract

The precise co-localization and stoichiometric expression of two different light-gated membrane proteins can vastly improve the physiological usefulness of optogenetics for the modulation of cell excitability with light. Here we present a gene-fusion strategy for the stable 1:1 expression of any two microbial rhodopsins in a single polypeptide chain. By joining the excitatory channelrhodopsin-2 with the inhibitory ion pumps halorhodopsin or bacteriorhodopsin, we demonstrate light-regulated quantitative bi-directional control of the membrane potential in HEK293 cells and neurons in vitro. We also present synergistic rhodopsin combinations of channelrhodopsin-2 with Volvox carteri channelrhodopsin-1 or slow channelrhodopsin-2 mutants, to achieve enhanced spectral or kinetic properties, respectively. Finally, we demonstrate the utility of our fusion strategy to determine ion-turnovers of as yet uncharacterized rhodopsins, exemplified for archaerhodopsin and CatCh, or to correct pump cycles, exemplified for halorhodopsin.

Published
2011
Full Text
View/download PDF

36. Ultra light-sensitive and fast neuronal activation with the Ca²+-permeable channelrhodopsin CatCh.

Author

Kleinlogel S, Feldbauer K, Dempski RE, Fotis H, Wood PG, Bamann C, and Bamberg E

Subjects
Animals, Calcium Signaling radiation effects, Cell Membrane Permeability physiology, Cell Membrane Permeability radiation effects, Cells, Cultured, Channelrhodopsins, Crystallography, X-Ray, HEK293 Cells, Humans, Nerve Tissue Proteins radiation effects, Neurons radiation effects, Oocytes physiology, Oocytes radiation effects, Photic Stimulation methods, Rats, Reaction Time physiology, Reaction Time radiation effects, Synaptic Transmission physiology, Synaptic Transmission radiation effects, Xenopus laevis, Calcium Signaling physiology, Light, Nerve Tissue Proteins physiology, Neurons physiology
Abstract

The light-gated cation channel channelrhodopsin-2 (ChR2) has rapidly become an important tool in neuroscience, and its use is being considered in therapeutic interventions. Although wild-type and known variant ChR2s are able to drive light-activated spike trains, their use in potential clinical applications is limited by either low light sensitivity or slow channel kinetics. We present a new variant, calcium translocating channelrhodopsin (CatCh), which mediates an accelerated response time and a voltage response that is ~70-fold more light sensitive than that of wild-type ChR2. CatCh's superior properties stem from its enhanced Ca²(+) permeability. An increase in [Ca²(+)](i) elevates the internal surface potential, facilitating activation of voltage-gated Na(+) channels and indirectly increasing light sensitivity. Repolarization following light-stimulation is markedly accelerated by Ca²(+)-dependent BK channel activation. Our results demonstrate a previously unknown principle: shifting permeability from monovalent to divalent cations to increase sensitivity without compromising fast kinetics of neuronal activation. This paves the way for clinical use of light-gated channels.

Published
2011
Full Text
View/download PDF

37. Structural guidance of the photocycle of channelrhodopsin-2 by an interhelical hydrogen bond.

Author

Bamann C, Gueta R, Kleinlogel S, Nagel G, and Bamberg E

Subjects
Animals, Cell Line, Channelrhodopsins, DNA, Complementary, Female, Genetic Variation, Humans, Mutagenesis, Site-Directed, Nerve Tissue Proteins chemistry, Nerve Tissue Proteins genetics, Oocytes physiology, Photolysis, Pichia physiology, Point Mutation, Polymorphism, Single Nucleotide, Restriction Mapping, Transfection, Xenopus physiology
Abstract

Channelrhodopsin-2 (ChR2) is a light-gated cation channel and a member of the family of retinylidene photoreceptors. Since the demonstration of light-induced depolarization of ChR2-expressing animal cell membranes, it was increasingly exploited for light triggering of action potentials. ChR2 conducts cations upon light absorption that embodies retinal isomerization as the primary reaction and a structurally unknown opening mechanism. It is evident from spectroscopic data that protonation reactions at the Schiff base are part of the photocycle, comparable to other microbial-type rhodopsins. However, the connection between the processes at the chromophore site and the channel's pore remained enigmatic. Here, we use slow mutants of ChR2 that we generated by disturbing a postulated hydrogen bond when mutating C128 in the transmembrane (TM) helix 3 and D156 in TM helix 4. The lifetime of the mutants' open state is increased more than 100 times. We investigated the spectral properties of the slow mutants. Whereas the deprotonation of the Schiff base (yielding P390) occurs on the same time scale as that of the wild type, reprotonation to P520 is retarded in the slow mutants and their photocycle is split, leading to the presence of two photointermediates, P390 and P520, in the open state. The photoreactions of P390 and P520 lead to a quenching of the current in electrophysiological measurements. We conclude that the putative hydrogen bond between C128 and D156 is an important structural determinant of the channel's closing reaction. Furthermore, we show that the D156A mutant is even more suitable for light control of excitable cells than C128A.

Published
2010
Full Text
View/download PDF

38. Ultraviolet polarisation sensitivity in the stomatopod crustacean Odontodactylus scyllarus.

Author

Kleinlogel S and Marshall NJ

Subjects
Action Potentials physiology, Action Potentials radiation effects, Adaptation, Physiological physiology, Animals, Electrophysiology, Female, Fluorescent Dyes, Male, Microvilli radiation effects, Microvilli ultrastructure, Photic Stimulation, Photoreceptor Cells, Invertebrate radiation effects, Photoreceptor Cells, Invertebrate ultrastructure, Species Specificity, Staining and Labeling, Vision, Ocular radiation effects, Crustacea physiology, Microvilli physiology, Ocular Physiological Phenomena radiation effects, Photoreceptor Cells, Invertebrate physiology, Ultraviolet Rays, Vision, Ocular physiology
Abstract

The ommatidia of crustacean eyes typically contain two classes of photoreceptors with orthogonally oriented microvilli. These receptors provide the basis for two-channel polarisation vision in the blue-green spectrum. The retinae of gonodactyloid stomatopod crustaceans possess a great variety of structural specialisations for elaborate polarisation vision. One type of specialisation is found in the small, distally placed R8 cells within the two most ventral rows of the mid-band. These ultraviolet-sensitive photoreceptors produce parallel microvilli, a feature suggestive for polarisation-sensitive photoreceptors. Here, we show by means of intracellular recordings combined with dye-injections that in the gonodactyloid species Odontodactylus scyllarus, the R8 cells of mid-band rows 5 and 6 are sensitive to linear polarised ultraviolet light. We show that mid-band row 5 R8 cells respond maximally to light with an e-vector oriented parallel to the mid-band, whereas mid-band row 6 R8 cells respond maximally to light with an e-vector oriented perpendicular to the mid-band. This orthogonal arrangement of ultraviolet-sensitive receptor cells could support ultraviolet polarisation vision. R8 cells of rows 5 and 6 are known to act as quarter-wave retarders around 500 nm and thus are the first photoreceptor type described with a potential dual role in polarisation vision.

Published
2009
Full Text
View/download PDF

39. The secret world of shrimps: polarisation vision at its best.

Author

Kleinlogel S and White AG

Subjects
Animals, Light, Crustacea physiology, Vision, Ocular
Abstract

Background: Animal vision spans a great range of complexity, with systems evolving to detect variations in light intensity, distribution, colour, and polarisation. Polarisation vision systems studied to date detect one to four channels of linear polarisation, combining them in opponent pairs to provide intensity-independent operation. Circular polarisation vision has never been seen, and is widely believed to play no part in animal vision., Methodology/principal Findings: Polarisation is fully measured via Stokes' parameters--obtained by combined linear and circular polarisation measurements. Optimal polarisation vision is the ability to see Stokes' parameters: here we show that the crustacean Gonodactylus smithii measures the exact components required., Conclusions/significance: This vision provides optimal contrast-enhancement and precise determination of polarisation with no confusion states or neutral points--significant advantages. Linear and circular polarisation each give partial information about the polarisation of light--but the combination of the two, as we will show here, results in optimal polarisation vision. We suggest that linear and circular polarisation vision not be regarded as different modalities, since both are necessary for optimal polarisation vision; their combination renders polarisation vision independent of strongly linearly or circularly polarised features in the animal's environment.

Published
2008
Full Text
View/download PDF

40. Circular polarization vision in a stomatopod crustacean.

Author

Chiou TH, Kleinlogel S, Cronin T, Caldwell R, Loeffler B, Siddiqi A, Goldizen A, and Marshall J

Subjects
Animals, Choice Behavior physiology, Crustacea anatomy & histology, Electrophysiology, Male, Photoreceptor Cells, Invertebrate anatomy & histology, Crustacea physiology, Light, Photoreceptor Cells, Invertebrate physiology, Vision, Ocular physiology, Visual Perception physiology
Abstract

We describe the addition of a fourth visual modality in the animal kingdom, the perception of circular polarized light. Animals are sensitive to various characteristics of light, such as intensity, color, and linear polarization [1, 2]. This latter capability can be used for object identification, contrast enhancement, navigation, and communication through polarizing reflections [2-4]. Circularly polarized reflections from a few animal species have also been known for some time [5, 6]. Although optically interesting [7, 8], their signal function or use (if any) was obscure because no visual system was known to detect circularly polarized light. Here, in stomatopod crustaceans, we describe for the first time a visual system capable of detecting and analyzing circularly polarized light. Four lines of evidence-behavior, electrophysiology, optical anatomy, and details of signal design-are presented to describe this new visual function. We suggest that this remarkable ability mediates sexual signaling and mate choice, although other potential functions of circular polarization vision, such as enhanced contrast in turbid environments, are also possible [7, 8]. The ability to differentiate the handedness of circularly polarized light, a visual feat never expected in the animal kingdom, is demonstrated behaviorally here for the first time.

Published
2008
Full Text
View/download PDF

41. Stomatopod eye structure and function: a review.

Author

Marshall J, Cronin TW, and Kleinlogel S

Subjects
Animals, Decapoda anatomy & histology, Decapoda physiology, Eye anatomy & histology, Ocular Physiological Phenomena
Abstract

Stomatopods (mantis shrimps) possess apposition compound eyes that contain more photoreceptor types than any other animal described. This has been achieved by sub-dividing the eye into three morphologically discrete regions, a mid-band and two laterally placed hemispheres, and within the mid-band, making simple modifications to a commonly encountered crustacean photoreceptor pattern of eight photoreceptors (rhabdomeres) per ommatidium. Optically the eyes are also unusual with the directions of view of the ommatidia of all three eye regions skewed such that over 70% of the eye views a narrow strip in space. In order to scan the world with this strip, the stalked eyes of stomatopods are in almost continual motion. Functionally, the end result is a trinocular eye with monocular range finding capability, a 12-channel colour vision system, a 2-channel linear polarisation vision system and a line scan sampling arrangement that more resembles video cameras and satellite sensors than animal eyes. Not surprisingly, we are still struggling to understand the biological significance of stomatopod vision and attempt few new explanations here. Instead we use this special edition as an opportunity to review and summarise the structural aspects of the stomatopod retina that allow it to be so functionally complex.

Published
2007
Full Text
View/download PDF

42. Electrophysiological evidence for linear polarization sensitivity in the compound eyes of the stomatopod crustacean Gonodactylus chiragra.

Author

Kleinlogel S and Marshall NJ

Subjects
Animals, Crustacea cytology, Electrophysiology, Female, Light, Male, Photoreceptor Cells, Invertebrate cytology, Spectrum Analysis, Crustacea physiology, Photoreceptor Cells, Invertebrate physiology, Vision, Ocular physiology
Abstract

Gonodactyloid stomatopod crustaceans possess polarization vision, which enables them to discriminate light of different e-vector angle. Their unusual apposition compound eyes are divided by an equatorial band of six rows of enlarged, structurally modified ommatidia, the mid-band (MB). The rhabdoms of the two most ventral MB rows 5 and 6 are structurally designed for polarization vision. Here we show, with electrophysiological recordings, that the photoreceptors R1-R7 within these two MB rows in Gonodactylus chiragra are highly sensitive to linear polarized light of two orthogonal directions (PS=6.1). They possess a narrow spectral sensitivity peaking at 565 nm. Unexpectedly, photoreceptors within the distal rhabdomal tier of MB row 2 also possess highly sensitive linear polarization receptors, which are in their spectral and polarization characteristics similar to the receptors of MB rows 5 and 6. Photoreceptors R1-R7 within the remainder of the MB exhibit low polarization sensitivity (PS=2.3). Outside the MB, in the two hemispheres, R1-R7 possess medium linear polarization sensitivity (PS=3.8) and a broad spectral sensitivity peaking at around 500 nm, typical for most crustaceans. Throughout the retina the most distally situated UV-sensitive R8 cells are not sensitive to linear polarized light.

Published
2006
Full Text
View/download PDF

43. Photoreceptor projection and termination pattern in the lamina of gonodactyloid stomatopods (mantis shrimp).

Author

Kleinlogel S and Marshall NJ

Subjects
Animals, Color Perception physiology, Crustacea physiology, Female, Male, Microscopy, Electron, Transmission, Photoreceptor Cells, Invertebrate physiology, Presynaptic Terminals physiology, Retina cytology, Retina physiology, Species Specificity, Synaptic Transmission physiology, Visual Pathways physiology, Crustacea ultrastructure, Eye ultrastructure, Photoreceptor Cells, Invertebrate ultrastructure, Presynaptic Terminals ultrastructure, Vision, Ocular physiology, Visual Pathways ultrastructure
Abstract

The apposition compound eyes of gonodactyloid stomatopods are divided into a ventral and a dorsal hemisphere by six equatorial rows of enlarged ommatidia, the mid-band (MB). Whereas the hemispheres are specialized for spatial vision, the MB consists of four dorsal rows of ommatidia specialized for colour vision and two ventral rows specialized for polarization vision. The eight retinula cell axons (RCAs) from each ommatidium project retinotopically onto one corresponding lamina cartridge, so that the three retinal data streams (spatial, colour and polarization) remain anatomically separated. This study investigates whether the retinal specializations are reflected in differences in the RCA arrangement within the corresponding lamina cartridges. We have found that, in all three eye regions, the seven short visual fibres (svfs) formed by retinula cells 1-7 (R1-R7) terminate at two distinct lamina levels, geometrically separating the terminals of photoreceptors sensitive to either orthogonal e-vector directions or different wavelengths of light. This arrangement is required for the establishment of spectral and polarization opponency mechanisms. The long visual fibres (lvfs) of the eighth retinula cells (R8) pass through the lamina and project retinotopically to the distal medulla externa. Differences between the three eye regions exist in the packing of svf terminals and in the branching patterns of the lvfs within the lamina. We hypothesize that the R8 cells of MB rows 1-4 are incorporated into the colour vision system formed by R1-R7, whereas the R8 cells of MB rows 5 and 6 form a separate neural channel from R1 to R7 for polarization processing.

Published
2005
Full Text
View/download PDF

44. Neuroarchitecture of the color and polarization vision system of the stomatopod Haptosquilla.

Author

Kleinlogel S, Marshall NJ, Horwood JM, and Land MF

Subjects
Animals, Crustacea ultrastructure, Microscopy, Electron, Neuropil chemistry, Neuropil ultrastructure, Photoreceptor Cells cytology, Photoreceptor Cells ultrastructure, Retina chemistry, Retina ultrastructure, Vision, Ocular physiology, Visual Pathways chemistry, Visual Pathways ultrastructure, Color Perception physiology, Crustacea anatomy & histology, Crustacea physiology, Neuropil cytology, Photoreceptor Cells physiology, Visual Pathways anatomy & histology
Abstract

The apposition compound eyes of stomatopod crustaceans contain a morphologically distinct eye region specialized for color and polarization vision, called the mid-band. In two stomatopod superfamilies, the mid-band is constructed from six rows of enlarged ommatidia containing multiple photoreceptor classes for spectral and polarization vision. The aim of this study was to begin to analyze the underlying neuroarchitecture, the design of which might reveal clues how the visual system interprets and communicates to deeper levels of the brain the multiple channels of information supplied by the retina. Reduced silver methods were used to investigate the axon pathways from different retinal regions to the lamina ganglionaris and from there to the medulla externa, the medulla interna, and the medulla terminalis. A swollen band of neuropil-here termed the accessory lobe-projects across the equator of the lamina ganglionaris, the medulla externa, and the medulla interna and represents, structurally, the retina's mid-band. Serial semithin and ultrathin resin sections were used to reconstruct the projection of photoreceptor axons from the retina to the lamina ganglionaris. The eight axons originating from one ommatidium project to the same lamina cartridge. Seven short visual fibers end at two distinct levels in each lamina cartridge, thus geometrically separating the two channels of polarization and spectral information. The eighth visual fiber runs axially through the cartridge and terminates in the medulla externa. We conclude that spatial, color, and polarization information is divided into three parallel data streams from the retina to the central nervous system., (Copyright 2003 Wiley-Liss, Inc.)

Published
2003
Full Text
View/download PDF

45. Metabotropic glutamate receptors group I are involved in cochlear neurotransmission.

Author

Kleinlogel S, Oestreicher E, Arnold T, Ehrenberger K, and Felix D

Subjects
6-Cyano-7-nitroquinoxaline-2,3-dione pharmacology, Animals, Excitatory Amino Acid Agonists pharmacology, Excitatory Amino Acid Antagonists pharmacology, Female, Glutamic Acid physiology, Guinea Pigs, Hair Cells, Auditory, Inner drug effects, Indans pharmacology, Methoxyhydroxyphenylglycol analogs & derivatives, Methoxyhydroxyphenylglycol pharmacology, N-Methylaspartate pharmacology, Receptors, Metabotropic Glutamate antagonists & inhibitors, Synaptic Transmission drug effects, alpha-Amino-3-hydroxy-5-methyl-4-isoxazolepropionic Acid pharmacology, Hair Cells, Auditory, Inner chemistry, Hair Cells, Auditory, Inner physiology, Receptors, Metabotropic Glutamate physiology, Synaptic Transmission physiology
Abstract

All three types of ionotropic glutamate receptors, AMPA, NMDA and kainate, contribute to the neurotransmission between inner hair cells (IHC) and afferent neurons in the mammalian cochlea. We used microiontophoretic techniques to investigate whether metabotropic glutamate receptors group I (mGluR I) are also involved in the transmission of IHC afferents of the guinea pig. The mGluR I agonist DHPG produced an increase in afferent firing, which lasted significantly longer than that of the ionotropic agonists AMPA and NMDA. The activation was reversibly blocked by the mGluR I antagonist AIDA in a dose-dependent manner. AIDA also diminished spontaneous activity, but only slightly affected the AMPA- or NMDA-induced firing rate. Our results suggest that mGluR I are involved in peripheral auditory processing.

Published
1999
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results