Mitochondrial Dysfunction and Apoptosis in Brain Microvascular Endothelial Cells Following Blast Traumatic Brain Injury

[1]  A. Abramov,et al.  Interaction of Mitochondrial Calcium and ROS in Neurodegeneration , 2022, Cells.

[2]  M. LaPlaca,et al.  Lipidome Alterations following Mild Traumatic Brain Injury in the Rat , 2022, Metabolites.

[3]  A. Pliss,et al.  Mitochondrial Dysfunction: A Prelude to Neuropathogenesis of SARS-CoV-2 , 2022, ACS chemical neuroscience.

[4]  Nagalakshmi Balasubramanian,et al.  Repeated mild traumatic brain injuries perturb the mitochondrial biogenesis via DNA methylation in the hippocampus of rat. , 2021, Mitochondrion.

[5]  S. Mahajan,et al.  Blast-induced injury responsive relative gene expression of traumatic brain injury biomarkers in human brain microvascular endothelial cells , 2021, Brain Research.

[6]  Wenzhang Wang,et al.  Oxidative Stress Signaling in Blast TBI-Induced Tau Phosphorylation , 2021, Antioxidants.

[7]  O. Gokcumen,et al.  A Single-Organelle Optical Omics Platform for Cell Science and Biomarker Discovery. , 2021, Analytical chemistry.

[8]  N. Pencovich,et al.  Postoperative Rise of Circulating Mitochondrial DNA Is Associated with Inflammatory Response in Patients following Pancreaticoduodenectomy , 2021, European Surgical Research.

[9]  D. Munoz,et al.  Interleukin-1β mediates alterations in mitochondrial fusion/fission proteins and memory impairment induced by amyloid-β oligomers , 2021, Journal of neuroinflammation.

[10]  E. Aronica,et al.  Long-lasting blood-brain barrier dysfunction and neuroinflammation after traumatic brain injury , 2020, Neurobiology of Disease.

[11]  Martin H. Schaefer,et al.  Interactome Mapping Provides a Network of Neurodegenerative Disease Proteins and Uncovers Widespread Protein Aggregation in Affected Brains. , 2020, Cell reports.

[12]  A. Adamczyk,et al.  P2X7 Receptor is Involved in Mitochondrial Dysfunction Induced by Extracellular Alpha Synuclein in Neuroblastoma SH-SY5Y Cells , 2020, International journal of molecular sciences.

[13]  M. Garcia-Alloza,et al.  Increased mitochondrial calcium levels associated with neuronal death in a mouse model of Alzheimer’s disease , 2020, Nature Communications.

[14]  M. Theus,et al.  Mechanisms of Blood–Brain Barrier Dysfunction in Traumatic Brain Injury , 2020, International journal of molecular sciences.

[15]  M. Gilbert,et al.  IDH1 mutations induce organelle defects via dysregulated phospholipids , 2020, Nature Communications.

[16]  Z. Geto,et al.  Caspase-1 as a regulatory molecule of lipid metabolism , 2020, Lipids in Health and Disease.

[17]  J. Woo,et al.  Traumatic Brain Injury: An Overview of Epidemiology, Pathophysiology, and Medical Management. , 2020, The Medical clinics of North America.

[18]  Y. Akamatsu,et al.  Cell Death and Recovery in Traumatic Brain Injury , 2020, Neurotherapeutics.

[19]  S. Waisbren,et al.  ASL Metabolically Regulates Tyrosine Hydroxylase in the Nucleus Locus Coeruleus , 2019, Cell reports.

[20]  M. Gilbert,et al.  Towards Single Organelle Lipidomics in Live Cells. , 2019, Analytical chemistry.

[21]  Shamsher Singh,et al.  Mitochondrial dysfunctioning and neuroinflammation: Recent highlights on the possible mechanisms involved in Traumatic Brain Injury , 2019, Neuroscience Letters.

[22]  N. Chandra,et al.  Synergistic Role of Oxidative Stress and Blood-Brain Barrier Permeability as Injury Mechanisms in the Acute Pathophysiology of Blast-induced Neurotrauma , 2019, Scientific Reports.

[23]  N. Bowden,et al.  BCL-2 family isoforms in apoptosis and cancer , 2019, Cell Death & Disease.

[24]  A. Letai,et al.  Regulation of apoptosis in health and disease: the balancing act of BCL-2 family proteins , 2019, Nature Reviews Molecular Cell Biology.

[25]  A. Pliss,et al.  BCAbox Algorithm Expands Capabilities of Raman Microscope for Single Organelles Assessment , 2018, Biosensors.

[26]  Mohamed A. Ragheb,et al.  Regulating Apoptosis by Degradation: The N-End Rule-Mediated Regulation of Apoptotic Proteolytic Fragments in Mammalian Cells , 2018, International journal of molecular sciences.

[27]  Ying Peng,et al.  Mitochondrial dysfunction induces NLRP3 inflammasome activation during cerebral ischemia/reperfusion injury , 2018, Journal of Neuroinflammation.

[28]  I. Fournier,et al.  Lipid Changes Associated with Traumatic Brain Injury Revealed by 3D MALDI-MSI. , 2018, Analytical chemistry.

[29]  Christopher J. Smalt,et al.  Blast-induced cochlear synaptopathy in chinchillas , 2018, Scientific Reports.

[30]  P. Wipf,et al.  Evaluation of mitochondrial bioenergetics, dynamics, endoplasmic reticulum-mitochondria crosstalk, and reactive oxygen species in fibroblasts from patients with complex I deficiency , 2018, Scientific Reports.

[31]  Elizabeth J. Osterlund,et al.  BCL-2 family proteins: changing partners in the dance towards death , 2017, Cell Death and Differentiation.

[32]  Paras N Prasad,et al.  Ramanomics: New Omics Disciplines Using Micro Raman Spectrometry with Biomolecular Component Analysis for Molecular Profiling of Biological Structures , 2017, Biosensors.

[33]  M. Bennett,et al.  Blood-brain barrier dysfunction and recovery after ischemic stroke , 2017, Progress in Neurobiology.

[34]  P. Prasad,et al.  Macromolecular Profiling of Organelles in Normal Diploid and Cancer Cells. , 2017, Analytical chemistry.

[35]  A. Kumaria In Vitro Models as a Platform to Investigate Traumatic Brain Injury , 2017, Alternatives to laboratory animals : ATLA.

[36]  Jeneita M. Bell,et al.  CDC's efforts to improve traumatic brain injury surveillance. , 2017, Journal of safety research.

[37]  G. Burnstock,et al.  Inhibition of P2X7 receptors improves outcomes after traumatic brain injury in rats , 2017, Purinergic Signalling.

[38]  P. Prasad,et al.  Molecular profiling of single organelles for quantitative analysis of cellular heterogeneity , 2017, Scientific Reports.

[39]  D. Adkins,et al.  Striatal Mitochondrial Disruption following Severe Traumatic Brain Injury. , 2017, Journal of neurotrauma.

[40]  P. Pelegrín,et al.  Involvement of P2X7 receptor in neuronal degeneration triggered by traumatic injury , 2016, Scientific Reports.

[41]  S. Oeljeklaus,et al.  Mitochondrial Protein Synthesis Adapts to Influx of Nuclear-Encoded Protein , 2016, Cell.

[42]  J. Lieberman,et al.  Apoptosis Triggers Specific, Rapid, and Global mRNA Decay with 3′ Uridylated Intermediates Degraded by DIS3L2 , 2015, Cell reports.

[43]  P. Chinnery,et al.  Mitochondrial DNA and traumatic brain injury , 2014, Annals of neurology.

[44]  Xiaonan H. Wang,et al.  Understanding mitochondrial complex I assembly in health and disease. , 2012, Biochimica et biophysica acta.

[45]  P. Prasad,et al.  Nonlinear optical imaging and Raman microspectrometry of the cell nucleus throughout the cell cycle. , 2010, Biophysical journal.

[46]  Paras N Prasad,et al.  Biophotonic probing of macromolecular transformations during apoptosis , 2010, Proceedings of the National Academy of Sciences.

[47]  Thomas D. Schmittgen,et al.  Analysis of relative gene expression data using real-time quantitative PCR and the 2(-Delta Delta C(T)) Method. , 2001, Methods.

[48]  B. Kong,et al.  Ovarian serous carcinoma : recent concepts on its origin and carcinogenesis , 2012 .