| Loss of mitochondrial Ca[2+] response and CaMKII/ERK activation by LRRK2[R1441G] mutation correlate with impaired depolarization-induced mitophagy. | Loss of mitochondrial Ca(2+) response and CaMKII/ERK activation by LRRK2(R1441G) mutation correlate with impaired depolarization-induced mitophagy.
Chang EE, Liu H, Choi ZY, Malki Y, Zhang SX, Pang SY, Kung MH, Ramsden DB, Ho SL, Ho PW., Free PMC Article | 10/18/2024 |
| Rem2 interacts with CaMKII at synapses and restricts long-term potentiation in hippocampus. | Rem2 interacts with CaMKII at synapses and restricts long-term potentiation in hippocampus.
Anjum R, Clarke VRJ, Nagasawa Y, Murakoshi H, Paradis S., Free PMC Article | 10/11/2024 |
| circADAMTS6 via stabilizing CAMK2A is involved in smoking-induced emphysema through driving M2 macrophage polarization. | circADAMTS6 via stabilizing CAMK2A is involved in smoking-induced emphysema through driving M2 macrophage polarization.
Lin J, Xia H, Yu J, Wang Y, Wang H, Xie D, Cheng C, Lu L, Bian T, Wu Y, Liu Q. | 08/31/2024 |
| TRPC6 regulates necroptosis in myocardial ischemia/reperfusion injury via Ca[2+]/CaMKII signaling pathway. | TRPC6 regulates necroptosis in myocardial ischemia/reperfusion injury via Ca(2+)/CaMKII signaling pathway.
Li J, Zhang J, Zhong Y, Xie D, Han H, Zhang Z, Liu Y, Li S. | 08/31/2024 |
| A critical role of Ca[2+]/calmodulin-dependent protein kinase II in coupling between evening and morning circadian oscillators in the suprachiasmatic nucleus. | A critical role of Ca(2+)/calmodulin-dependent protein kinase II in coupling between evening and morning circadian oscillators in the suprachiasmatic nucleus.
Yoshikawa T, Honma KI, Shigeyoshi Y, Yamagata Y, Honma S. | 08/6/2024 |
| TRPM2 and CaMKII Signaling Drives Excessive GABAergic Synaptic Inhibition Following Ischemia. | TRPM2 and CaMKII Signaling Drives Excessive GABAergic Synaptic Inhibition Following Ischemia.
Burch AM, Garcia JD, O'Leary H, Haas A, Orfila JE, Tiemeier E, Chalmers N, Smith KR, Quillinan N, Herson PS., | 06/5/2024 |
| Deletion of CaMKIIalpha disrupts glucose metabolism, glutamate uptake, and synaptic energetics in the cerebral cortex. | Deletion of CaMKIIα disrupts glucose metabolism, glutamate uptake, and synaptic energetics in the cerebral cortex.
Andersen JV, Westi EW, Griem-Krey N, Skotte NH, Schousboe A, Aldana BI, Wellendorph P. | 05/21/2024 |
| Binding of CaMKII to the NMDA receptor is sufficient for long-term potentiation. | Binding of CaMKII to the NMDA receptor is sufficient for long-term potentiation.
Hell JW. | 11/10/2023 |
| A critical role for CaMKII in behavioral timescale synaptic plasticity in hippocampal CA1 pyramidal neurons. | A critical role for CaMKII in behavioral timescale synaptic plasticity in hippocampal CA1 pyramidal neurons.
Xiao K, Li Y, Chitwood RA, Magee JC., Free PMC Article | 09/12/2023 |
| Decreased nitrosylation of CaMKII causes aging-associated impairments in memory and synaptic plasticity in mice. | Decreased nitrosylation of CaMKII causes aging-associated impairments in memory and synaptic plasticity in mice.
Rumian NL, Freund RK, Dell'Acqua ML, Coultrap SJ, Bayer KU., Free PMC Article | 09/8/2023 |
| Autophosphorylation of alphaCaMKII regulates alcohol consumption by controlling sedative effects of alcohol and alcohol-induced loss of excitatory synapses. | Autophosphorylation of αCaMKII regulates alcohol consumption by controlling sedative effects of alcohol and alcohol-induced loss of excitatory synapses.
Cały A, Ziółkowska M, Pagano R, Salamian A, Śliwińska MA, Sotoudeh N, Bernaś T, Radwanska K. | 05/24/2023 |
| Calcium/calmodulin-dependent protein kinase IIalpha heterozygous knockout mice show electroencephalogram and behavioral changes characteristic of a subpopulation of schizophrenia and intellectual impairment. | Calcium/calmodulin-dependent protein kinase IIα heterozygous knockout mice show electroencephalogram and behavioral changes characteristic of a subpopulation of schizophrenia and intellectual impairment.
Featherstone RE, Shimada T, Crown LM, Melnychenko O, Yi J, Matsumoto M, Tajinda K, Mihara T, Adachi M, Siegel SJ. | 09/10/2022 |
| CaMKIIalpha knockout protects from ischemic neuronal cell death after resuscitation from cardiac arrest. | CaMKIIα knockout protects from ischemic neuronal cell death after resuscitation from cardiac arrest.
Rumian NL, Chalmers NE, Tullis JE, Herson PS, Bayer KU., Free PMC Article | 03/26/2022 |
| The oxidation-resistant CaMKII-MM281/282VV mutation does not prevent arrhythmias in CPVT1. | The oxidation-resistant CaMKII-MM281/282VV mutation does not prevent arrhythmias in CPVT1.
Sadredini M, Manotheepan R, Lehnart SE, Anderson ME, Sjaastad I, Stokke MK., Free PMC Article | 03/5/2022 |
| Synaptic memory requires CaMKII. | Synaptic memory requires CaMKII.
Tao W, Lee J, Chen X, Díaz-Alonso J, Zhou J, Pleasure S, Nicoll RA., Free PMC Article | 02/19/2022 |
| Activation of transient receptor potential vanilloid 4 exacerbates myocardial ischemia-reperfusion injury via JNK-CaMKII phosphorylation pathway in isolated mice hearts. | Activation of transient receptor potential vanilloid 4 exacerbates myocardial ischemia-reperfusion injury via JNK-CaMKII phosphorylation pathway in isolated mice hearts.
Zhang S, Lu K, Yang S, Wu Y, Liao J, Lu Y, Wu Q, Zhao N, Dong Q, Chen L, Du Y. | 01/22/2022 |
| ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion. | ERK1/2 inhibition promotes robust myotube growth via CaMKII activation resulting in myoblast-to-myotube fusion.
Eigler T, Zarfati G, Amzallag E, Sinha S, Segev N, Zabary Y, Zaritsky A, Shakked A, Umansky KB, Schejter ED, Millay DP, Tzahor E, Avinoam O., Free PMC Article | 01/15/2022 |
| Preservation of vision after CaMKII-mediated protection of retinal ganglion cells. | Preservation of vision after CaMKII-mediated protection of retinal ganglion cells.
Guo X, Zhou J, Starr C, Mohns EJ, Li Y, Chen EP, Yoon Y, Kellner CP, Tanaka K, Wang H, Liu W, Pasquale LR, Demb JB, Crair MC, Chen B., Free PMC Article | 01/8/2022 |
| MLKL and CaMKII Are Involved in RIPK3-Mediated Smooth Muscle Cell Necroptosis. | MLKL and CaMKII Are Involved in RIPK3-Mediated Smooth Muscle Cell Necroptosis.
Zhou T, DeRoo E, Yang H, Stranz A, Wang Q, Ginnan R, Singer HA, Liu B., Free PMC Article | 11/27/2021 |
| CMTR1-Catalyzed 2'-O-Ribose Methylation Controls Neuronal Development by Regulating Camk2alpha Expression Independent of RIG-I Signaling. | CMTR1-Catalyzed 2'-O-Ribose Methylation Controls Neuronal Development by Regulating Camk2α Expression Independent of RIG-I Signaling.
Lee YL, Kung FC, Lin CH, Huang YS., Free PMC Article | 10/23/2021 |
| Long-term Memory Upscales Volume of Postsynaptic Densities in the Process that Requires Autophosphorylation of alphaCaMKII. | Long-term Memory Upscales Volume of Postsynaptic Densities in the Process that Requires Autophosphorylation of αCaMKII.
Śliwińska MA, Cały A, Borczyk M, Ziółkowska M, Skonieczna E, Chilimoniuk M, Bernaś T, Giese KP, Radwanska K. | 08/21/2021 |
| Convergent NMDA receptor-Pannexin1 signaling pathways regulate the interaction of CaMKII with Connexin-36. | Convergent NMDA receptor-Pannexin1 signaling pathways regulate the interaction of CaMKII with Connexin-36.
Siu RCF, Kotova A, Timonina K, Zoidl C, Zoidl GR., Free PMC Article | 08/14/2021 |
| Cellular Mechanisms of the Anti-Arrhythmic Effect of Cardiac PDE2 Overexpression. | Cellular Mechanisms of the Anti-Arrhythmic Effect of Cardiac PDE2 Overexpression.
Wagner M, Sadek MS, Dybkova N, Mason FE, Klehr J, Firneburg R, Cachorro E, Richter K, Klapproth E, Kuenzel SR, Lorenz K, Heijman J, Dobrev D, El-Armouche A, Sossalla S, Kämmerer S., Free PMC Article | 07/3/2021 |
| Cobalt Regulates Activation of Camk2alpha in Neurons by Influencing Fructose 1,6-bisphosphatase 2 Quaternary Structure and Subcellular Localization. | Cobalt Regulates Activation of Camk2α in Neurons by Influencing Fructose 1,6-bisphosphatase 2 Quaternary Structure and Subcellular Localization.
Duda P, Budziak B, Rakus D., Free PMC Article | 05/29/2021 |
| CaMKIIalpha Expressing Neurons to Report Activity-Related Endogenous Hypoxia upon Motor-Cognitive Challenge. | CaMKIIα Expressing Neurons to Report Activity-Related Endogenous Hypoxia upon Motor-Cognitive Challenge.
Butt UJ, Hassouna I, Fernandez Garcia-Agudo L, Steixner-Kumar AA, Depp C, Barnkothe N, Zillmann MR, Ronnenberg A, Bonet V, Goebbels S, Nave KA, Ehrenreich H., Free PMC Article | 05/15/2021 |