Laurie M. Biela scite author profile

Chronic inhibition of the protein synthesis regulator mTORC1 through rapamycin extends life span in mice, with longer extension in females than in males. Whether rapamycin treatment inhibits protein synthesis or whether it does so differently between sexes has not been examined. UM-HET3 mice were fed a control or rapamycin-supplemented (Rap) diet for 12 weeks. Protein synthesis in mixed, cytosolic (cyto), and mitochondrial (mito) fractions and DNA synthesis and mTORC1 signaling were determined in skeletal muscle, heart, and liver. In both sexes, mito protein synthesis was maintained in skeletal muscle from Rap despite decreases in mixed and cyto fractions, DNA synthesis, and rpS6 phosphorylation. In the heart, no change in protein synthesis occurred despite the decreased DNA synthesis. In the heart and liver, Rap males were more sensitive to mTORC1 inhibition than Rap females. In conclusion, we show changes in protein synthesis and mTORC1 signaling that differ by sex and tissue.

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Metformin inhibits mitochondrial adaptations to aerobic exercise training in older adults

Konopka

et al. 2018

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Metformin and exercise independently improve insulin sensitivity and decrease the risk of diabetes. Metformin was also recently proposed as a potential therapy to slow aging. However, recent evidence indicates that adding metformin to exercise antagonizes the exercise‐induced improvement in insulin sensitivity and cardiorespiratory fitness. The purpose of this study was to test the hypothesis that metformin diminishes the improvement in insulin sensitivity and cardiorespiratory fitness after aerobic exercise training (AET) by inhibiting skeletal muscle mitochondrial respiration and protein synthesis in older adults (62 ± 1 years). In a double‐blinded fashion, participants were randomized to placebo (n = 26) or metformin (n = 27) treatment during 12 weeks of AET. Independent of treatment, AET decreased fat mass, HbA1c, fasting plasma insulin, 24‐hr ambulant mean glucose, and glycemic variability. However, metformin attenuated the increase in whole‐body insulin sensitivity and VO2max after AET. In the metformin group, there was no overall change in whole‐body insulin sensitivity after AET due to positive and negative responders. Metformin also abrogated the exercise‐mediated increase in skeletal muscle mitochondrial respiration. The change in whole‐body insulin sensitivity was correlated to the change in mitochondrial respiration. Mitochondrial protein synthesis rates assessed during AET were not different between treatments. The influence of metformin on AET‐induced improvements in physiological function was highly variable and associated with the effect of metformin on the mitochondria. These data suggest that prior to prescribing metformin to slow aging, additional studies are needed to understand the mechanisms that elicit positive and negative responses to metformin with and without exercise.

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Membrane Penetration by Synaptotagmin Is Required for Coupling Calcium Binding to Vesicle FusionIn Vivo

Paddock¹,

Wang²,

Biela³

et al. 2011

J. Neurosci.

101

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Calcium Binding by Synaptotagmin's C₂A Domain is an Essential Element of the Electrostatic Switch That Triggers Synchronous Synaptic Transmission

Striegel

Biela²,

Evans³

et al. 2012

J. Neurosci.

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Synaptotagmin is the major calcium sensor for fast synaptic transmission which requires the synchronous fusion of synaptic vesicles. Synaptotagmin contains two calcium binding domains: C2A and C2B. Mutation of a positively charged residue (R233Q in rat) showed that Ca2+-dependent interactions between the C2A domain and membranes play a role in the electrostatic switch that initiates fusion. Surprisingly, aspartate to asparagine mutations in C2A that inhibit Ca2+ binding support efficient synaptic transmission, suggesting that Ca2+ binding by C2A is not required for triggering synchronous fusion. Based on a structural analysis, we generated a novel mutation of a single Ca2+-binding residue in C2A (D229E in Drosophila) that inhibited Ca2+ binding, but maintained the negative charge of the pocket. This C2A aspartate to glutamate mutation resulted in ~80% decrease in synchronous transmitter release and a decrease in the apparent Ca2+ affinity of release. Previous aspartate to asparagine mutations in C2A partially mimicked Ca2+ binding by decreasing the negative charge of the pocket. We now show that the major function of Ca2+ binding to C2A is to neutralize the negative charge of the pocket, thereby unleashing the fusion-stimulating activity of synaptotagmin. Our results demonstrate that Ca2+ binding by C2A is a critical component of the electrostatic switch that triggers synchronous fusion. Thus, Ca2+ binding by C2B is necessary and sufficient to regulate the precise timing required for coupling vesicle fusion to Ca2+ influx, but Ca2+ binding by both C2 domains is required to flip the electrostatic switch that triggers efficient synchronous synaptic transmission.

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Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models

Bruns

Drake

Biela

et al. 2015

Oxidative Medicine and Cellular Longevity

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Studying long-lived animals provides novel insight into shared characteristics of aging and represents a unique model to elucidate approaches to prevent chronic disease. Oxidant stress underlies many chronic diseases and resistance to stress is a potential mechanism governing slowed aging. The transcription factor nuclear factor (erythroid-derived 2)-like 2 is the “master regulator” of cellular antioxidant defenses. Nrf2 is upregulated by some longevity promoting interventions and may play a role in regulating species longevity. However, Nrf2 expression and activity in long-lived models have not been well described. Here, we review evidence for altered Nrf2 signaling in a variety of slowed aging models that accomplish lifespan extension via pharmacological, nutritional, evolutionary, genetic, and presumably epigenetic means.

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Laurie M. Biela

Assessment of Mitochondrial Biogenesis and mTORC1 Signaling During Chronic Rapamycin Feeding in Male and Female Mice

Metformin inhibits mitochondrial adaptations to aerobic exercise training in older adults

Membrane Penetration by Synaptotagmin Is Required for Coupling Calcium Binding to Vesicle FusionIn Vivo

Calcium Binding by Synaptotagmin's C₂A Domain is an Essential Element of the Electrostatic Switch That Triggers Synchronous Synaptic Transmission

Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models

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Laurie M. Biela

Assessment of Mitochondrial Biogenesis and mTORC1 Signaling During Chronic Rapamycin Feeding in Male and Female Mice

Metformin inhibits mitochondrial adaptations to aerobic exercise training in older adults

Membrane Penetration by Synaptotagmin Is Required for Coupling Calcium Binding to Vesicle FusionIn Vivo

Calcium Binding by Synaptotagmin's C2A Domain is an Essential Element of the Electrostatic Switch That Triggers Synchronous Synaptic Transmission

Nrf2 Signaling and the Slowed Aging Phenotype: Evidence from Long-Lived Models

Contact Info

Product

Resources

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Calcium Binding by Synaptotagmin's C₂A Domain is an Essential Element of the Electrostatic Switch That Triggers Synchronous Synaptic Transmission