Lysosomal damage after spinal cord injury causes accumulation of RIPK1 and RIPK3 proteins and potentiation of necroptosis
Published 2018 View Full Article
- Home
- Publications
- Publication Search
- Publication Details
Title
Lysosomal damage after spinal cord injury causes accumulation of RIPK1 and RIPK3 proteins and potentiation of necroptosis
Authors
Keywords
-
Journal
Cell Death & Disease
Volume 9, Issue 5, Pages -
Publisher
Springer Nature
Online
2018-04-23
DOI
10.1038/s41419-018-0469-1
References
Ask authors/readers for more resources
Related references
Note: Only part of the references are listed.- Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition)
- (2016) Daniel J Klionsky et al. Autophagy
- Endoplasmic Reticulum Stress and Disrupted Neurogenesis in the Brain Are Associated with Cognitive Impairment and Depressive-Like Behavior after Spinal Cord Injury
- (2016) Junfang Wu et al. JOURNAL OF NEUROTRAUMA
- Reactive astrocytes undergo M1 microglia/macrohpages-induced necroptosis in spinal cord injury
- (2016) Hong Fan et al. Molecular Neurodegeneration
- CHIP controls necroptosis through ubiquitylation- and lysosome-dependent degradation of RIPK3
- (2016) Jinho Seo et al. NATURE CELL BIOLOGY
- RIPK1 mediates axonal degeneration by promoting inflammation and necroptosis in ALS
- (2016) Yasushi Ito et al. SCIENCE
- Function and Mechanisms of Autophagy in Brain and Spinal Cord Trauma
- (2015) Marta M. Lipinski et al. ANTIOXIDANTS & REDOX SIGNALING
- Ablation of the transcription factors E2F1-2 limits neuroinflammation and associated neurological deficits after contusive spinal cord injury
- (2015) Junfang Wu et al. CELL CYCLE
- Rapamycin increases neuronal survival, reduces inflammation and astrocyte proliferation after spinal cord injury
- (2015) Yona Goldshmit et al. MOLECULAR AND CELLULAR NEUROSCIENCE
- Modification of autophagy-lysosomal pathway as a neuroprotective treatment for spinal cord injury
- (2015) MartaM Lipinski et al. Neural Regeneration Research
- Involvement of endoplasmic reticulum stress in the necroptosis of microglia/macrophages after spinal cord injury
- (2015) H. Fan et al. NEUROSCIENCE
- Disrupted autophagy after spinal cord injury is associated with ER stress and neuronal cell death
- (2015) S Liu et al. Cell Death & Disease
- Activation of Necroptosis in Multiple Sclerosis
- (2015) Dimitry Ofengeim et al. Cell Reports
- Spinal Cord Injury Causes Brain Inflammation Associated with Cognitive and Affective Changes: Role of Cell Cycle Pathways
- (2014) J. Wu et al. JOURNAL OF NEUROSCIENCE
- Necroptosis, a novel type of programmed cell death, contributes to early neural cells damage after spinal cord injury in adult mice
- (2014) Ming Liu et al. JOURNAL OF SPINAL CORD MEDICINE
- Mixed Lineage Kinase Domain-like Protein MLKL Causes Necrotic Membrane Disruption upon Phosphorylation by RIP3
- (2014) Huayi Wang et al. MOLECULAR CELL
- Neuroprotective Effects of Autophagy Induced by Rapamycin in Rat Acute Spinal Cord Injury Model
- (2014) Zhen-Yu Wang et al. NEUROIMMUNOMODULATION
- Necroptosis inhibitor necrostatin-1 promotes cell protection and physiological function in traumatic spinal cord injury
- (2014) Y. Wang et al. NEUROSCIENCE
- Akt and mTOR mediate programmed necrosis in neurons
- (2014) Q Liu et al. Cell Death & Disease
- Obatoclax (GX15-070) triggers necroptosis by promoting the assembly of the necrosome on autophagosomal membranes
- (2013) F Basit et al. CELL DEATH AND DIFFERENTIATION
- Regulation of RIP1 kinase signalling at the crossroads of inflammation and cell death
- (2013) Dimitry Ofengeim et al. NATURE REVIEWS MOLECULAR CELL BIOLOGY
- Akt Regulates TNFα Synthesis Downstream of RIP1 Kinase Activation during Necroptosis
- (2013) Colleen R. McNamara et al. PLoS One
- Identification of Small Molecule Inhibitors of Neurite Loss Induced by Aβ peptide using High Content Screening
- (2012) Dimitry Ofengeim et al. JOURNAL OF BIOLOGICAL CHEMISTRY
- A novel role for RIP1 kinase in mediating TNFα production
- (2012) D E Christofferson et al. Cell Death & Disease
- Combination Therapy Targeting Akt and Mammalian Target of Rapamycin Improves Functional Outcome after Controlled Cortical Impact in Mice
- (2011) Juyeon Park et al. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM
- Rapamycin Promotes Autophagy and Reduces Neural Tissue Damage and Locomotor Impairment after Spinal Cord Injury in Mice
- (2011) Akira Sekiguchi et al. JOURNAL OF NEUROTRAUMA
- Molecular mechanisms of necroptosis: an ordered cellular explosion
- (2010) Peter Vandenabeele et al. NATURE REVIEWS MOLECULAR CELL BIOLOGY
- Identification of a Molecular Signaling Network that Regulates a Cellular Necrotic Cell Death Pathway
- (2008) Junichi Hitomi et al. CELL
- Necrostatin-1 Reduces Histopathology and Improves Functional Outcome after Controlled Cortical Impact in Mice
- (2008) Zerong You et al. JOURNAL OF CEREBRAL BLOOD FLOW AND METABOLISM
- Immunohistochemical Study of Cathepsin D in the Spinal Cords of Rats with Clip Compression Injury
- (2008) Changjong MOON et al. JOURNAL OF VETERINARY MEDICAL SCIENCE
Discover Peeref hubs
Discuss science. Find collaborators. Network.
Join a conversationBecome a Peeref-certified reviewer
The Peeref Institute provides free reviewer training that teaches the core competencies of the academic peer review process.
Get Started