Eric R. Kuhn scite author profile

Despite recent advances in thermometry, determination of temperature at the nanometer scale in single molecules to live cells remains a challenge that holds great promise in disease detection among others. In the present study, we use a new approach to nanometer scale thermometry with a spatial and thermal resolution of 80 nm and 1 mK respectively, by directly associating 2 nm cadmium telluride quantum dots (CdTe QDs) to the subject under study. The 2 nm CdTe QDs physically adhered to bovine cardiac and rabbit skeletal muscle myosin, enabling the determination of heat released when ATP is hydrolyzed by both myosin motors. Greater heat loss reflects less work performed by the motor, hence decreased efficiency. Surprisingly, we found rabbit skeletal myosin to be more efficient than bovine cardiac. We have further extended this approach to demonstrate the gain in efficiency of Drosophila melanogaster skeletal muscle overexpressing the PGC-1α homologue spargel, a known mediator of improved exercise performance in humans. Our results establish a novel approach to determine muscle efficiency with promise for early diagnosis and treatment of various metabolic disorders including cancer.

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Nanoscale imaging using differential expansion microscopy

Pernal

Liyanaarachchi

Gatti

et al. 2020

Histochem Cell Biol

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Nanothermometry Reveals Calcium-Induced Remodeling of Myosin

et al. 2018

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Ions greatly influence protein structure–function and are critical to health and disease. A 10, 000-fold higher calcium in the sarcoplasmic reticulum (SR) of muscle suggests elevated calcium levels near active calcium channels at the SR membrane and the impact of localized high calcium on the structure–function of the motor protein myosin. In the current study, combined quantum dot (QD)-based nanothermometry and circular dichroism (CD) spectroscopy enabled detection of previously unknown enthalpy changes and associated structural remodeling of myosin, impacting its function following exposure to elevated calcium. Cadmium telluride QDs adhere to myosin, function as thermal sensors, and reveal that exposure of myosin to calcium is exothermic, resulting in lowering of enthalpy, a decrease in alpha helical content measured using CD spectroscopy, and the consequent increase in motor efficiency. Isolated muscle fibers subjected to elevated levels of calcium further demonstrate fiber lengthening and decreased motility of actin filaments on myosin-functionalized substrates. Our results, in addition to providing new insights into our understanding of muscle structure–function, establish a novel approach to understand the enthalpy of protein–ion interactions and the accompanying structural changes that may occur within the protein molecule.

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A Fluorescence-Based Coupling Reaction for Monitoring the Activity of Recombinant Human NAD Synthetase

Bembenek

Kuhn²,

Mallender³

et al. 2005

ASSAY and Drug Development Technologies

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NAD synthetase is responsible for the conversion of nicotinic acid adenine dinucleotide to nicotinamide adenine dinucleotide. This reaction provides a biosynthetic route of the coenzyme and, thus, a source of cellular reducing equivalents. Alterations in the oxidative reductive potential of the cell have been implicated as a contributing factor in many disease states. Thus, this enzyme represents a new class of potential drug targets, and, hence, our efforts were focused upon developing a robust assay for utilization in a high throughput screen. Toward that end, we describe a coupled enzyme assay format for the measurement of recombinant human NAD synthetase by employing lactate dehydrogenase in a cycling/amplification reaction linked ultimately to the fluorescence generation of resorufin from resazurin via diaphorase. We present kinetics of the reaction of NAD synthetase in the coupled assay format, optimization conditions, and inhibition of the reaction by gossypol [1,1',6,6',7,7'-hexahydroxy-3,3'-dimethyl-5,5'-bis(1-methylethyl)-[2,2'- binaphthalene]-8,8'-dicarboxaldehyde] and illustrate the robustness of the assay by demonstrating 384-well microtiter plate uniformity statistics. Collectively, our results show that the assay method is both robust and well suited for this class of enzymes involved in the NAD+ biosynthetic pathway.

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Secretion induces cell pH dynamics impacting assembly-disassembly of the fusion protein complex: A combined fluorescence and atomic force microscopy study

Lewis

Naik

Laha

et al. 2018

Seminars in Cell & Developmental Biology

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Eric R. Kuhn

Nanothermometry Measure of Muscle Efficiency

Nanoscale imaging using differential expansion microscopy

Nanothermometry Reveals Calcium-Induced Remodeling of Myosin

A Fluorescence-Based Coupling Reaction for Monitoring the Activity of Recombinant Human NAD Synthetase

Secretion induces cell pH dynamics impacting assembly-disassembly of the fusion protein complex: A combined fluorescence and atomic force microscopy study

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