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Novel insights into the mechanism of reactive oxygen species-mediated neurodegeneration

NEURAL REGENERATION RESEARCH (2023)

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Nox, Nox, Are You There? The Role of NADPH Oxidases in the Peripheral Nervous System

Stephanie A. Eid et al.

Summary: Reactive oxygen species (ROS), mainly derived from NADPH oxidase (Nox) family members, play important roles in multiple aspects of peripheral nervous system (PNS) biology. Although some Nox isoforms have been studied in the PNS, little is known about their subcellular localization, intercellular regulation, and interaction. Future research using specific genetic and pharmacological approaches is needed to better understand the physiological significance of Nox enzymes in PNS.

ANTIOXIDANTS & REDOX SIGNALING (2022)

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Article Neurosciences

Selective phosphorylation of serine 345 on p47-phox serves as a priming signal of ROS-mediated axonal degeneration

Shuji Wakatsuki et al.

Summary: In this study, we demonstrate that the NADPH oxidase subunit p47-phox regulates the activity of ZNRF1, and pS345 may serve as an important checkpoint to initiate ZNRF1-mediated neurite degeneration.

EXPERIMENTAL NEUROLOGY (2022)

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Review Cell Biology

Non-Canonical Roles of Apoptotic Caspases in the Nervous System

Mahshid H. Dehkordi et al.

Summary: Caspases are a family of proteases that play crucial roles in cell death processes, particularly apoptosis. However, they are also involved in various non-apoptotic processes, especially in regulating neuronal cell behaviors.

FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY (2022)

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Article Biochemistry & Molecular Biology

Reactive Oxygen Species and Their Impact in Neurodegenerative Diseases: Literature Landscape Analysis

Andy Wai Kan Yeung et al.

Summary: This research analyzed the literature on neurodegenerative diseases associated with ROS, identifying the US as the major contributor, the 21st century as the main publication time, and China, South Korea, and India as emerging major contributors. The study primarily focused on diseases such as AD, PD, and ALS, with future research directions emphasizing mitochondrial dysfunction, autophagy, and nuclear factor 2 related factor 2.

ANTIOXIDANTS & REDOX SIGNALING (2021)

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Article Cell Biology

p53 is required for nuclear but not mitochondrial DNA damage-induced degeneration

Matthew J. Geden et al.

Summary: The study reveals that mitochondrial DNA (mtDNA) damage results in selective axon degeneration, independent of known pathways such as apoptosis, axon pruning, and Wallerian degeneration.

CELL DEATH & DISEASE (2021)

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Article Neurosciences

Mechanism of initiation and regulation of axonal degeneration with special reference to NMNATs and Sarm1

Masabumi Funakoshi et al.

NEUROSCIENCE RESEARCH (2021)

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Review Cell Biology

Beneficial and Detrimental Effects of Reactive Oxygen Species on Lifespan: A Comprehensive Review of Comparative and Experimental Studies

Hazel J. Shields et al.

Summary: Studies suggest that oxidative damage caused by free radicals can affect lifespan, with ROS levels and oxidative damage inversely correlated with longevity across different species. However, experiments have shown some contradictory results, indicating a complex relationship between ROS and lifespan.

FRONTIERS IN CELL AND DEVELOPMENTAL BIOLOGY (2021)

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Review Biochemistry & Molecular Biology

Molecular mechanisms of cell death in neurological diseases

Diane Moujalled et al.

Summary: Cell death plays a critical role in the pathogenesis of neurological diseases and brain cancers, with abnormal activation of PCD pathways being a common feature. Controlling PCD pathways may be a key component of future therapeutic strategies for these diseases.

CELL DEATH AND DIFFERENTIATION (2021)

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SARM1 signaling mechanisms in the injured nervous system

Shilpa Sambashivan et al.

Summary: Axon degeneration is a major feature in the injured nervous system, driven by the protein SARM1 which actively promotes NAD(+) loss after injury. While SARM1 is believed to act as a sensor for metabolic changes and drive degeneration, its biology is complex and there is still much to learn about its role in governing nervous system responses to injury or disease.

CURRENT OPINION IN NEUROBIOLOGY (2021)

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Review Biochemistry & Molecular Biology

Redox metabolism: ROS as specific molecular regulators of cell signaling and function

Claudia Lennicke et al.

Summary: Redox reactions play a crucial role in energy metabolism and physiological functions of organisms. Reactive oxygen species (ROS), such as hydrogen peroxide, are important derivatives in normal aerobic metabolism. Hydrogen peroxide can modify protein activity by oxidizing cysteine residues, affecting enzyme and transcription factor functions and cellular processes.

MOLECULAR CELL (2021)

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Article Neurosciences

DLK Activation Synergizes with Mitochondrial Dysfunction to Downregulate Axon Survival Factors and Promote SARM1-Dependent Axon Degeneration

Daniel W. Summers et al.

MOLECULAR NEUROBIOLOGY (2020)

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Review Pharmacology & Pharmacy

Axons Matter: The Promise of Treating Neurodegenerative Disorders by Targeting SARM1-Mediated Axonal Degeneration

Raul Krauss et al.

TRENDS IN PHARMACOLOGICAL SCIENCES (2020)

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Review Neurosciences

Programmed axon degeneration: from mouse to mechanism to medicine

Michael P. Coleman et al.

NATURE REVIEWS NEUROSCIENCE (2020)

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Review Neurosciences

The SARM1 axon degeneration pathway: control of the NAD+ metabolome regulates axon survival in health and disease

Matthew D. Figley et al.

CURRENT OPINION IN NEUROBIOLOGY (2020)

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Article Mathematical & Computational Biology

ROS networks: designs, aging, Parkinson's disease and precision therapies

Alexey N. Kolodkin et al.

NPJ SYSTEMS BIOLOGY AND APPLICATIONS (2020)

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Enriched conditioning expands the regenerative ability of sensory neurons after spinal cord injury via neuronal intrinsic redox signaling

Francesco De Virgiliis et al.

NATURE COMMUNICATIONS (2020)

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Regulation of neuronal/axonal degeneration by ZNRF1 ubiquitin ligase

Toshiyuki Araki et al.

NEUROSCIENCE RESEARCH (2019)

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Axon degeneration: mechanistic insights lead to therapeutic opportunities for the prevention and treatment of peripheral neuropathy

Aaron DiAntonio

PAIN (2019)

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Oxidative stress in vagal neurons promotes parkinsonian pathology and intercellular α-synuclein transfer

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JOURNAL OF CLINICAL INVESTIGATION (2019)

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The clinical consequences of neutrophil priming

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CURRENT OPINION IN HEMATOLOGY (2019)

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Reactive oxygen species regulate axonal regeneration through the release of exosomal NADPH oxidase 2 complexes into injured axons

Arnau Hervera et al.

NATURE CELL BIOLOGY (2018)

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Review Neurosciences

Brain Energy and Oxygen Metabolism: Emerging Role in Normal Function and Disease

Michelle E. Watts et al.

FRONTIERS IN MOLECULAR NEUROSCIENCE (2018)

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Protein misfolding, aggregation, and conformational strains in neurodegenerative diseases

Claudio Soto et al.

NATURE NEUROSCIENCE (2018)

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Converging pathways in neurodegeneration, from genetics to mechanisms

Li Ga et al.

NATURE NEUROSCIENCE (2018)

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NOX Activation by Subunit Interaction and Underlying Mechanisms in Disease

Radhika Rastogi et al.

FRONTIERS IN CELLULAR NEUROSCIENCE (2017)

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Review Physiology

Biological and physiological role of reactive oxygen species - the good, the bad and the ugly

L. Zuo et al.

ACTA PHYSIOLOGICA (2015)

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Review Cell Biology

Sculpting Neural Circuits by Axon and Dendrite Pruning

Martin M. Riccomagno et al.

ANNUAL REVIEW OF CELL AND DEVELOPMENTAL BIOLOGY, VOL 31 (2015)

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Pathological Axonal Death through a MAPK Cascade that Triggers a Local Energy Deficit

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Oxidative stress-dependent phosphorylation activates ZNRF1 to induce neuronal/axonal degeneration

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New Views on the Misconstrued: Executioner Caspases and Their Diverse Non-apoptotic Roles

Nicolas Unsain et al.

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The Role of Oxidative Stress in Parkinson's Disease

Vera Dias et al.

JOURNAL OF PARKINSONS DISEASE (2013)

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CRMP2 Hyperphosphorylation is Characteristic of Alzheimer's Disease and not a Feature Common to Other Neurodegenerative Diseases

Ritchie Williamson et al.

JOURNAL OF ALZHEIMERS DISEASE (2011)

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Review Clinical Neurology

Huntington's disease: from molecular pathogenesis to clinical treatment

Christopher A. Ross et al.

LANCET NEUROLOGY (2011)

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Article Cell Biology

ZNRF1 promotes Wallerian degeneration by degrading AKT to induce GSK3B-dependent CRMP2 phosphorylation

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NATURE CELL BIOLOGY (2011)

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Article Hematology

NADPH Oxidases: Functions and Pathologies in the Vasculature

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ARTERIOSCLEROSIS THROMBOSIS AND VASCULAR BIOLOGY (2010)

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CaMKII phosphorylates collapsin response mediator protein 2 and modulates axonal damage during glutamate excitotoxicity

Sheng T. Hou et al.

JOURNAL OF NEUROCHEMISTRY (2009)

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Article Multidisciplinary Sciences

APP binds DR6 to trigger axon pruning and neuron death via distinct caspases

Anatoly Nikolaev et al.

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A dual leucine kinase-dependent axon self-destruction program promotes Wallerian degeneration

Bradley R. Miller et al.

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Article Clinical Neurology

Apoptotic Mechanisms After Cerebral Ischemia

Brad R. S. Broughton et al.

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Stimulus-dependent regulation of the phagocyte NADPH oxidase by a VAV1, Rac1, and PAK1 signaling axis

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Collapsin response mediator protein-2 hyperphosphorylation is an early event in Alzheimer's disease progression

Adam R. Cole et al.

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Review Physiology

The NOX family of ROS-generating NADPH oxidases: Physiology and pathophysiology

Karen Bedard et al.

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A specific p47phox-serine phosphorylated by convergent MAPKs mediates neutrophil NADPH oxidase priming at inflammatory sites

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Activation of GSK-3 and phosphorylation of CRMP2 in transgenic mice expressing APP intracellular domain

KA Ryan et al.

JOURNAL OF CELL BIOLOGY (2005)

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Increased nuclear NAD biosynthesis and SIRT1 activation prevent axonal degeneration

T Araki et al.

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Cell death mode switch from necrosis to apoptosis in brain

H Ueda et al.

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