Kaya Keutler scite author profile

Kaya Keutler

4Publications

55Citation Statements Received

397Citation Statements Given

How they've been cited

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384

Affiliations

European Molecular Biology Laboratory, Oregon Health & Science University, European Molecular Biology Laboratory

Publications

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Endogenous Fatty Acids Are Essential Signaling Factors of Pancreatic β-Cells and Insulin Secretion

Hauke

Keutler

Phapale

et al. 2018

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The secretion of insulin from β-cells depends on extracellular factors, in particular glucose and other small molecules, some of which act on G-protein-coupled receptors. Fatty acids (FAs) have been discussed as exogenous secretagogues of insulin for decades, especially after the FA receptor GPR40 (G-protein-coupled receptor 40) was discovered. However, the role of FAs as endogenous signaling factors has not been investigated until now. In the present work, we demonstrate that lowering endogenous FA levels in β-cell medium by stringent washing or by the application of FA-free (FAF) BSA immediately reduced glucose-induced oscillations of cytosolic Ca ([Ca] oscillations) in MIN6 cells and mouse primary β-cells, as well as insulin secretion. Mass spectrometry confirmed BSA-mediated removal of FAs, with palmitic, stearic, oleic, and elaidic acid being the most abundant species. [Ca] oscillations in MIN6 cells recovered when BSA was replaced by buffer or as FA levels in the supernatant were restored. This was achieved by recombinant lipase-mediated FA liberation from membrane lipids, by the addition of FA-preloaded FAF-BSA, or by the photolysis of cell-impermeant caged FAs. Our combined data support the hypothesis of FAs as essential endogenous signaling factors for β-cell activity and insulin secretion.

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Regulation of Calcium Oscillations in β-Cells by Co-activated Cannabinoid Receptors

Laguerre

Keutler

Hauke

et al. 2021

Cell Chemical Biology

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Chemical Biology Toolbox for Studying Pancreatic Islet Function – A Perspective

Huey

Keutler

Schultz

2020

Cell Chemical Biology

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The islets of Langerhans represent one of the many complex endocrine organs in mammals. Traditionally, islet function is studied by a mixture of physiological, cell biological, and molecular biological methods. Recently, novel techniques stemming from the ever-increasing toolbox provided by chemical laboratories have been added to the repertoire. Many emerging techniques will soon be available to manipulate and monitor islet function at the single-cell level and potentially in intact model animals, as well as in isolated human islets. Here, we review the most current small-molecule-based and genetically encoded molecular tool sets available to study islet function. We provide an outlook regarding future tool developments that will impact islet research, with a special focus on the interplay between different islet cell types. ll

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Thermogenetic control of Ca²⁺levels in cells and tissues

Ermakova

Waadt

Ozturk

et al. 2023

Preprint

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Virtually all major processes in cells and tissues are regulated by calcium ions (Ca2+). Understanding the influence of Ca2+ on cell function requires technologies that allow for non-invasive manipulation of intracellular calcium levels including the formation of calcium patterns, ideally in a way that is expandable to intact organisms. The currently existing tools for optical and optogenetic Ca2+ manipulation are limited with respect to response time, and tissue penetration depth. Here we present Genetically Encoded Calcium Controller (GECCO), a system for thermogenetic Ca2+ manipulation based on snake TRP channels optically controlled by infrared illumination. GECCO is functional in animal and plant cells and allows studying how cells decode different profiles of Ca2+ signals. GECCO enabled the shaping of insulin release from beta-cells, the identification of drugs that potentiate Ca2+-induced insulin release, and the generation of synthetic Ca2+ signatures in plants.

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Kaya Keutler

Endogenous Fatty Acids Are Essential Signaling Factors of Pancreatic β-Cells and Insulin Secretion

Regulation of Calcium Oscillations in β-Cells by Co-activated Cannabinoid Receptors

Chemical Biology Toolbox for Studying Pancreatic Islet Function – A Perspective

Thermogenetic control of Ca²⁺levels in cells and tissues

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Product

Resources

About

Kaya Keutler

Endogenous Fatty Acids Are Essential Signaling Factors of Pancreatic β-Cells and Insulin Secretion

Regulation of Calcium Oscillations in β-Cells by Co-activated Cannabinoid Receptors

Chemical Biology Toolbox for Studying Pancreatic Islet Function – A Perspective

Thermogenetic control of Ca2+levels in cells and tissues

Contact Info

Product

Resources

About

Thermogenetic control of Ca²⁺levels in cells and tissues