Yann Wan Yap scite author profile

Dietary protein dilution (DPD) promotes metabolic-remodelling and-health but the precise nutritional components driving this response remain elusive. Here, by mimicking amino acid (AA) supply from a casein-based diet, we demonstrate that restriction of dietary essential AA (EAA), but not non-EAA, drives the systemic metabolic response to total AA deprivation; independent from dietary carbohydrate supply. Furthermore, systemic deprivation of threonine and tryptophan, independent of total AA supply, are both adequate and necessary to confer the systemic metabolic response to both diet, and genetic AA-transport loss, driven AA restriction. Dietary threonine restriction (DTR) retards the development of obesityassociated metabolic dysfunction. Liver-derived fibroblast growth factor 21 is required for the metabolic remodelling with DTR. Strikingly, hepatocyte-selective establishment of threonine biosynthetic capacity reverses the systemic metabolic response to DTR. Taken together, our studies of mice demonstrate that the restriction of EAA are sufficient and necessary to confer the systemic metabolic effects of DPD.

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Hypochlorous acid induces apoptosis of cultured cortical neurons through activation of calpains and rupture of lysosomes

Yap

Whiteman²,

Bay³

et al. 2006

Journal of Neurochemistry

135

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Liver alanine catabolism promotes skeletal muscle atrophy and hyperglycaemia in type 2 diabetes

et al. 2021

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Early induction of calpains in rotenone-mediated neuronal apoptosis

Chen

Yap

Choy

et al. 2006

Neuroscience Letters

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Glutaredoxin1 protects neuronal cells from copper-induced toxicity

et al. 2014

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Glutaredoxin1 (GRX1) is a glutathione (GSH)-dependent thiol oxidoreductase. The GRX1/GSH system is important for the protection of proteins from oxidative damage and in the regulation of protein function. Previously we demonstrated that GRX1/GSH regulates the activity of the essential copper-transporting P1B-Type ATPases (ATP7A, ATP7B) in a copper-responsive manner. It has also been established that GRX1 binds copper with high affinity and regulates the redox chemistry of the metallochaperone ATOX1, which delivers copper to the copper-ATPases. In this study, to further define the role of GRX1 in copper homeostasis, we examined the effects of manipulating GRX1 expression on copper homeostasis and cell survival in mouse embryonic fibroblasts and in human neuroblastoma cells (SH-SY5Y). GRX1 knockout led to cellular copper retention (especially when cultured with elevated copper) and reduced copper tolerance, while in GRX1-overexpressing cells challenged with elevated copper, there was a reduction in both intracellular copper levels and copper-induced reactive oxygen species, coupled with enhanced cell proliferation. These effects are consistent with a role for GRX1 in regulating ATP7A-mediated copper export, and further support a new function for GRX1 in neuronal copper homeostasis and in protection from copper-mediated oxidative injury.

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Comparative Microarray Analysis Identifies Commonalities in Neuronal Injury: Evidence for Oxidative Stress, Dysfunction of Calcium Signalling, and Inhibition of Autophagy–Lysosomal Pathway

et al. 2015

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Mitochondrial dysfunction, ubiquitin-proteasomal system impairment and excitotoxicity occur during the injury and death of neurons in neurodegenerative conditions. The aim of this work was to elucidate the cellular mechanisms that are universally altered by these conditions. Through overlapping expression profiles of rotenone-, lactacystin- and N-methyl-D-aspartate-treated cortical neurons, we have identified three affected biological processes that are commonly affected; oxidative stress, dysfunction of calcium signalling and inhibition of the autophagic-lysosomal pathway. These data provides many opportunities for therapeutic intervention in neurodegenerative conditions, where mitochondrial dysfunction, proteasomal inhibition and excitotoxicity are evident.

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Gene expression profiling of rotenone-mediated cortical neuronal death: Evidence for inhibition of ubiquitin–proteasome system and autophagy-lysosomal pathway, and dysfunction of mitochondrial and calcium signaling

Yap

Chen

Zhao

et al. 2013

Neurochemistry International

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Mitochondrial dysfunction and oxidative stress are currently considered two key mechanisms contributing to pathobiology in neurodegenerative conditions. The current study investigated the temporal molecular events contributing to programmed cell death after treatment with the mitochondrial complex I inhibitor rotenone. Microarray analysis was performed using cultured neocortical neurons treated with 10nM rotenone for 8, 15, and 24h. Genes showing at least ±1.2-fold change in expression at one time point were considered significant. Transcriptomic analysis of the 4178 genes probes revealed major changes to nine biological processes, including those eliciting mitochondrial dysfunction, activation of calcium signaling, increased expression of apoptotic genes, and downplay of chaperones/co-chaperones, ubiquitin-proteasome system and autophagy. These data define targets for intervention where mitochondrial complex I dysfunction plays a substantial role, most notably Parkinson's disease.

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12 3

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Yann Wan Yap

Chlorinative stress: An under appreciated mediator of neurodegeneration?

Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution

Hypochlorous acid induces apoptosis of cultured cortical neurons through activation of calpains and rupture of lysosomes

Liver alanine catabolism promotes skeletal muscle atrophy and hyperglycaemia in type 2 diabetes

Early induction of calpains in rotenone-mediated neuronal apoptosis

Glutaredoxin1 protects neuronal cells from copper-induced toxicity

Comparative Microarray Analysis Identifies Commonalities in Neuronal Injury: Evidence for Oxidative Stress, Dysfunction of Calcium Signalling, and Inhibition of Autophagy–Lysosomal Pathway

Gene expression profiling of rotenone-mediated cortical neuronal death: Evidence for inhibition of ubiquitin–proteasome system and autophagy-lysosomal pathway, and dysfunction of mitochondrial and calcium signaling

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