Editing Cell Death (TRPM7)

{{tp|p=37842082|t=2023. Cell death induction and protection by activation of ubiquitously expressed anion/cation channels. Part 3: the roles and properties of TRPM2 and TRPM7.|pdf=|usr=}}{{37842082}}
{{tp|p=37146416|t=2023. Cyclophosphamide enfeebles myocardial isometric contraction force via RIP1/RIP3/MLKL/TRPM7-mediated necroptosis.|pdf=|usr=}}{{37146416}}
{{tp|p=35917680|t=2022. TRPM7 channel inhibition attenuates rheumatoid arthritis articular chondrocyte ferroptosis by suppression of the PKCalpha-NOX4 axis.|pdf=|usr=}}{{35917680}}
{{tp|p=35804467|t=2022. Increased Wnt/beta-catenin signaling contributes to autophagy inhibition resulting from a dietary magnesium deficiency in injury-induced osteoarthritis.|pdf=|usr=}}{{35804467}}
{{tp|p=33511120|t=2020. Cell Death Induction and Protection by Activation of Ubiquitously Expressed Anion/Cation Channels. Part 1: Roles of VSOR/VRAC in Cell Volume Regulation, Release of Double-Edged Signals and Apoptotic/Necrotic Cell Death.|pdf=|usr=}}{{33511120}}
{{tp|p=37264258|t=2023. TRPM7 mediates endoplasmic reticulum stress and ferroptosis in sepsis-induced myocardial injury.|pdf=|usr=}}{{37264258}}
{{tp|p=34175300|t=2021. Cell death modulation by transient receptor potential melastatin channels TRPM2 and TRPM7 and their underlying molecular mechanisms.|pdf=|usr=}}{{34175300}}
{{tp|p=31293101|t=2019. TRPM7 is involved in acid-induced necrotic cell death in a manner sensitive to progesterone in human cervical cancer cells.|pdf=|usr=}}{{31293101}}
{{tp|p=30076216|t=2018. TRPM7 channels play a role in high glucose-induced endoplasmic reticulum stress and neuronal cell apoptosis.|pdf=|usr=}}{{30076216}}
{{tp|p=25983327|t=2015. Regulation of basal autophagy by transient receptor potential melastatin 7 (TRPM7) channel.|pdf=|usr=}}{{25983327}}
{{tp|p=24647664|t=2014. Quercetin induces apoptosis by inhibiting MAPKs and TRPM7 channels in AGS cells.|pdf=|usr=}}{{24647664}}
{{tp|p=24220678|t=2014. Blockage of TRPM7 channel induces hepatic stellate cell death through endoplasmic reticulum stress-mediated apoptosis.|pdf=|usr=}}{{24220678}}
{{tp|p=21539414|t=2011. Increased expression of the transient receptor potential melastatin 7 channel is critically involved in lipopolysaccharide-induced reactive oxygen species-mediated neuronal death.|pdf=|usr=}}{{21539414}}
{{tp|p=26028116|t=2015. Inhibition of Transient Receptor Potential Melastain 7 Enhances Apoptosis Induced by TRAIL in PC-3 cells.|pdf=|usr=}}{{26028116}}
{{tp|p=16685599|t=2006. The role of TRP channels in oxidative stress-induced cell death.|pdf=|usr=}}{{16685599}}
{{tp|p=16044308|t=2005. TRPMs and neuronal cell death.|pdf=|usr=}}{{16044308}}
{{tp|p=23047499|t=2012. Retrovirus-mediated siRNA targeting TRPM7 gene induces apoptosis in RBL-2H3 cells.|pdf=|usr=}}{{23047499}}
{{tp|p=25780645|t=2012. Involvement of Transient Receptor Potential Melastatin 7 Channels in Sophorae Radix-induced Apoptosis in Cancer Cells: Sophorae Radix and TRPM7.|pdf=|usr=}}{{25780645}}
{{tp|p=22698280|t=2012. Cleavage of TRPM7 releases the kinase domain from the ion channel and regulates its participation in Fas-induced apoptosis.|pdf=|usr=}}{{22698280}}
{{ttp|p=29362479|t=2018. Molecular mechanisms of cell death: recommendations of the Nomenclature Committee on Cell Death 2018.|pdf=|usr=}}{{29362479}}
{{tp|p=33345265|t=2021. A paradox: Fe2+-containing agents decreased ROS and apoptosis induced by CoNPs in vascular endothelial cells by inhibiting HIF-1alpha.|pdf=|usr=}}{{33345265}}
{{tp|p=36412862|t=2022. AMPK/mTOR Pathway Is Involved in Autophagy Induced by Magnesium-Incorporated TiO(2) Surface to Promote BMSC Osteogenic Differentiation.|pdf=|usr=}}{{36412862}}
{{tp|p=32316424|t=2020. Biological Factors, Metals, and Biomaterials Regulating Osteogenesis through Autophagy.|pdf=|usr=}}{{32316424}}
{{tp|p=24733250|t=2014. Inhibition of transient receptor potential melastatin 7 (TRPM7) channel induces RA FLSs apoptosis through endoplasmic reticulum (ER) stress.|pdf=|usr=}}{{24733250}}
{{tp|p=16025303|t=2005. The role of TRPM channels in cell death.|pdf=|usr=}}{{16025303}}
{{tp|p=37508500|t=2023. Modulation of Lysosomal Cl(-) Mediates Migration and Apoptosis through the TRPML1 as a Lysosomal Cl(-) Sensor.|pdf=|usr=}}{{37508500}}
{{tp|p=37436087|t=2023. Ferroptosis, Necroptosis, and Pyroptosis in Gastrointestinal Cancers: The Chief Culprits of Tumor Progression and Drug Resistance.|pdf=|usr=}}{{37436087}}
{{tp|p=34944044|t=2021. Ion Channels and Pumps in Autophagy: A Reciprocal Relationship.|pdf=|usr=}}{{34944044}}
{{tp|p=33088682|t=2020. Targeting necroptosis in anticancer therapy: mechanisms and modulators.|pdf=|usr=}}{{33088682}}
{{tp|p=32151027|t=2020. Regulation of Necroptosis by Phospholipids and Sphingolipids.|pdf=|usr=}}{{32151027}}
{{tp|p=28661482|t=2017. Necroptosis in neurodegenerative diseases: a potential therapeutic target.|pdf=|usr=}}{{28661482}}
{{tp|p=36505072|t=2022. Role of AMPK in autophagy.|pdf=|usr=}}{{36505072}}
{{tp|p=36090249|t=2022. Neuronal cell death mechanisms in Alzheimer's disease: An insight.|pdf=|usr=}}{{36090249}}
{{tp|p=35003139|t=2021. Apoptosis, Autophagy, NETosis, Necroptosis, and Pyroptosis Mediated Programmed Cell Death as Targets for Innovative Therapy in Rheumatoid Arthritis.|pdf=|usr=}}{{35003139}}
{{tp|p=25999420|t=2015. Regulated necrotic cell death: the passive aggressive side of Bax and Bak.|pdf=|usr=}}{{25999420}}
{{tp|p=37862200|t=2024. Ferroptosis: a potential therapeutic target for stroke.|pdf=|usr=}}{{37862200}}
{{tp|p=26491219|t=2015. Necroptotic Cell Death Signaling and Execution Pathway: Lessons from Knockout Mice.|pdf=|usr=}}{{26491219}}
{{tp|p=38126996|t=2023. Acetylshikonin induces necroptosis via the RIPK1/RIPK3-dependent pathway in lung cancer.|pdf=|usr=}}{{38126996}}
{{tp|p=37988198|t=2023. Investigating EGF and PAG1 as necroptosis-related biomarkers for diabetic nephropathy: an in silico and in vitro validation study.|pdf=|usr=}}{{37988198}}
{{tp|p=36858962|t=2023. The role of autophagy in bone metabolism and clinical significance.|pdf=|usr=}}{{36858962}}
{{tp|p=36358568|t=2022. Targeting Ferroptosis as a Promising Therapeutic Strategy for Ischemia-Reperfusion Injury.|pdf=|usr=}}{{36358568}}
{{tp|p=34829770|t=2021. IL-36alpha and Lipopolysaccharide Cooperatively Induce Autophagy by Triggering Pro-Autophagic Biased Signaling.|pdf=|usr=}}{{34829770}}
{{tp|p=33657975|t=2022. Ion Channels and Transporters in Autophagy.|pdf=|usr=}}{{33657975}}
{{tp|p=33525971|t=2022. Exploring the role of non-coding RNAs in autophagy.|pdf=|usr=}}{{33525971}}
{{tp|p=33163342|t=2020. The role of lysosome in regulated necrosis.|pdf=|usr=}}{{33163342}}
{{tp|p=30160610|t=2019. Autophagy mediates phosphatidylserine exposure and phagosome degradation during apoptosis through specific functions of GABARAP/LGG-1 and LC3/LGG-2.|pdf=|usr=}}{{30160610}}
{{tp|p=28980859|t=2018. Ion channels in the regulation of autophagy.|pdf=|usr=}}{{28980859}}
{{tp|p=27959630|t=2017. Necroptosis: Mechanisms and Relevance to Disease.|pdf=|usr=}}{{27959630}}
{{tp|p=26968619|t=2016. Necroptosis: an alternative cell death program defending against cancer.|pdf=|usr=}}{{26968619}}
{{tp|p=37391432|t=2023. Internalization of apoptotic cells during efferocytosis requires Mertk-mediated calcium influx.|pdf=|usr=}}{{37391432}}
{{tp|p=35501340|t=2022. Types of necroinflammation, the effect of cell death modalities on sterile inflammation.|pdf=|usr=}}{{35501340}}
{{tp|p=34440894|t=2021. Calcium Signaling Regulates Autophagy and Apoptosis.|pdf=|usr=}}{{34440894}}
{{tp|p=31719524|t=2019. Current translational potential and underlying molecular mechanisms of necroptosis.|pdf=|usr=}}{{31719524}}
{{tp|p=30683840|t=2019. CK2 inhibition with silmitasertib promotes methuosis-like cell death associated to catastrophic massive vacuolization of colorectal cancer cells.|pdf=|usr=}}{{30683840}}
{{tp|p=30050058|t=2019. Necroptosis in anti-viral inflammation.|pdf=|usr=}}{{30050058}}
{{tp|p=29076500|t=2018. Plasma membrane changes during programmed cell deaths.|pdf=|usr=}}{{29076500}}
{{tp|p=28545724|t=2018. The role of Ca(2+) in cell death caused by oxidative glutamate toxicity and ferroptosis.|pdf=|usr=}}{{28545724}}
{{tp|p=28498367|t=2017. Initiation and execution mechanisms of necroptosis: an overview.|pdf=|usr=}}{{28498367}}
{{tp|p=28380356|t=2017. Necroptosis Execution Is Mediated by Plasma Membrane Nanopores Independent of Calcium.|pdf=|usr=}}{{28380356}}
{{tp|p=27052312|t=2016. An outline of necrosome triggers.|pdf=|usr=}}{{27052312}}
{{tp|p=26995055|t=2016. Functional role of TRP channels in modulating ER stress and Autophagy.|pdf=|usr=}}{{26995055}}
{{tp|p=34249909|t=2021. From Pinocytosis to Methuosis-Fluid Consumption as a Risk Factor for Cell Death.|pdf=|usr=}}{{34249909}}
{{tp|p=26523449|t=2015. Tissue acidosis induces neuronal necroptosis via ASIC1a channel independent of its ionic conduction.|pdf=|usr=}}{{26523449}}
{{tp|p=26049749|t=2015. Fight or flight: regulation of emergency hematopoiesis by pyroptosis and necroptosis.|pdf=|usr=}}{{26049749}}
{{tp|p=24412261|t=2014. Necrosis-dependent and independent signaling of the RIP kinases in inflammation.|pdf=|usr=}}{{24412261}}
{{tp|p=38022638|t=2023. The impact of aging and oxidative stress in metabolic and nervous system disorders: programmed cell death and molecular signal transduction crosstalk.|pdf=|usr=}}{{38022638}}
{{tp|p=37928554|t=2023. Ferroptosis as an emerging target in rheumatoid arthritis.|pdf=|usr=}}{{37928554}}
{{tp|p=37670938|t=2023. A novel defined risk signature of cuproptosis-related long non-coding RNA for predicting prognosis, immune infiltration, and immunotherapy response in lung adenocarcinoma.|pdf=|usr=}}{{37670938}}
{{tp|p=37492576|t=2023. Identification of potential ferroptosis-associated biomarkers in rheumatoid arthritis.|pdf=|usr=}}{{37492576}}
{{tp|p=36794281|t=2023. Autophagy and necroptosis in cisplatin-induced acute kidney injury: Recent advances regarding their role and therapeutic potential.|pdf=|usr=}}{{36794281}}
{{tp|p=36267583|t=2022. Advancement in understanding the role of ferroptosis in rheumatoid arthritis.|pdf=|usr=}}{{36267583}}
{{tp|p=36189275|t=2022. A risk signature based on necroptotic-process-related genes predicts prognosis and immune therapy response in kidney cell carcinoma.|pdf=|usr=}}{{36189275}}
{{tp|p=35733856|t=2022. Circ_0004951 Promotes Pyroptosis of Renal Tubular Cells via the NLRP3 Inflammasome in Diabetic Kidney Disease.|pdf=|usr=}}{{35733856}}
{{tp|p=33344232|t=2020. Transient Receptor Potential Melastatin 8 (TRPM8) Channel Regulates Proliferation and Migration of Breast Cancer Cells by Activating the AMPK-ULK1 Pathway to Enhance Basal Autophagy.|pdf=|usr=}}{{33344232}}
{{tp|p=29731704|t=2018. Oxytosis/Ferroptosis-(Re-) Emerging Roles for Oxidative Stress-Dependent Non-apoptotic Cell Death in Diseases of the Central Nervous System.|pdf=|usr=}}{{29731704}}
{{tp|p=38187270|t=2024. A ROS-responsive microsphere capsule encapsulated with NADPH oxidase 4 inhibitor ameliorates macrophage inflammation and ferroptosis.|pdf=|usr=}}{{38187270}}
{{tp|p=37920499|t=2023. Identification of potential ferroptosis key genes and immune infiltration in rheumatoid arthritis by integrated bioinformatics analysis.|pdf=|usr=}}{{37920499}}
{{tp|p=37841588|t=2023. Development of novel cytoprotective small compounds inhibiting mitochondria-dependent cell death.|pdf=|usr=}}{{37841588}}
{{tp|p=37108505|t=2023. Ferroptosis-Related Molecular Clusters and Diagnostic Model in Rheumatoid Arthritis.|pdf=|usr=}}{{37108505}}
{{tp|p=36361505|t=2022. Necroptosis: A Pathogenic Negotiator in Human Diseases.|pdf=|usr=}}{{36361505}}
{{tp|p=32334815|t=2020. The interplay of autophagy and non-apoptotic cell death pathways.|pdf=|usr=}}{{32334815}}
{{tp|p=30917630|t=2020. Cell Death and Liver Disease.|pdf=|usr=}}{{30917630}}
{{tp|p=29593066|t=2018. Necroptosis in development and diseases.|pdf=|usr=}}{{29593066}}
{{tp|p=24106480|t=2013. Calcium-permeable ion channels in control of autophagy and cancer.|pdf=|usr=}}{{24106480}}
{{tp|p=37872954|t=2023. Targeting Ferroptosis in Bone-Related Diseases: Facts and Perspectives.|pdf=|usr=}}{{37872954}}
{{tp|p=35597275|t=2022. Necroptosis in heart disease: Molecular mechanisms and therapeutic implications.|pdf=|usr=}}{{35597275}}
{{tp|p=33064829|t=2021. The molecular mechanisms of MLKL-dependent and MLKL-independent necrosis.|pdf=|usr=}}{{33064829}}
{{tp|p=32298766|t=2020. Lytic cell death in metabolic liver disease.|pdf=|usr=}}{{32298766}}
{{tp|p=27385778|t=2016. Active Caspase-1 Induces Plasma Membrane Pores That Precede Pyroptotic Lysis and Are Blocked by Lanthanides.|pdf=|usr=}}{{27385778}}
{{tp|p=24833670|t=2014. Die another way--non-apoptotic mechanisms of cell death.|pdf=|usr=}}{{24833670}}
{{tp|p=24760834|t=2014. Progressive degeneration of dopaminergic neurons through TRP channel-induced cell death.|pdf=|usr=}}{{24760834}}
{{tp|p=24563506|t=2014. True grit: programmed necrosis in antiviral host defense, inflammation, and immunogenicity.|pdf=|usr=}}{{24563506}}
{{tp|p=30467385|t=2019. Necroptosis and RIPK1-mediated neuroinflammation in CNS diseases.|pdf=|usr=}}{{30467385}}
{{tp|p=27308513|t=2015. Molecular crosstalk between apoptosis, necroptosis, and survival signaling.|pdf=|usr=}}{{27308513}}
{{tp|p=27308464|t=2015. Flicking the molecular switch underlying MLKL-mediated necroptosis.|pdf=|usr=}}{{27308464}}
{{tp|p=27308332|t=2014. Execution of RIPK3-regulated necrosis.|pdf=|usr=}}{{27308332}}
{{tp|p=10648601|t=2000. c-Myc protein synthesis is initiated from the internal ribosome entry segment during apoptosis.|pdf=|usr=}}{{10648601}}
{{tp|p=35646124|t=2022. MSC-Derived Extracellular Vesicles Activate Mitophagy to Alleviate Renal Ischemia/Reperfusion Injury via the miR-223-3p/NLRP3 Axis.|pdf=|usr=}}{{35646124}}
{{tp|p=33901180|t=2021. Farnesyl pyrophosphate is a new danger signal inducing acute cell death.|pdf=|usr=}}{{33901180}}
{{tp|p=33893234|t=2021. A unique mode of keratinocyte death requires intracellular acidification.|pdf=|usr=}}{{33893234}}
{{33854178}}
{{tp|p=28126382|t=2017. Complex Pathologic Roles of RIPK1 and RIPK3: Moving Beyond Necroptosis.|pdf=|usr=}}{{28126382}}
{{tp|p=34307382|t=2021. Cell Death Induction and Protection by Activation of Ubiquitously Expressed Anion/Cation Channels. Part 2: Functional and Molecular Properties of ASOR/PAC Channels and Their Roles in Cell Volume Dysregulation and Acidotoxic Cell Death.|pdf=|usr=}}{{34307382}}
{{tp|p=24316671|t=2014. Plasma membrane translocation of trimerized MLKL protein is required for TNF-induced necroptosis.|pdf=|usr=}}{{24316671}}