Recombinant Rat Potassium voltage-gated channel subfamily D member 2 (Kcnd2)

1. Study revealed that ERK5 signaling promotes phosphorylation of Kv4.2 and inhibits the inactivation of the A-type current for the enhancement of membrane excitability in PC12 cells. PMID: 29996472
2. Results showed: (i) seizures are associated with more brain damage and neuronal damage is not the major contributor of seizure generation in ischemic rats; (ii) the expression of IA channel subunit Kv4.2 is selectively reduced in ischemic rats with spontaneous behavioral seizures; (iii) The reduction of Kv4.2 may be associated with the long-term increased seizure susceptibility of ischemic rats. PMID: 27259067
3. NMDA reduced both currents in a concentration-dependent manner, whereas there was no significant impact on the currents when perfused with MK-801. MDD rats exhibited significantly more fibrosis areas in heart tissue and reduced expression of Kv4.2, Kv4.3, and Cav1.2. PMID: 28566490
4. Data show that voltage-gated K+ channel Kv4.2 as a target gene of microRNA miR-223-3p. PMID: 27322747
5. 17betaestradiol suppresses epileptiform activity by enhancing Kv4.2-mediated transient outward potassium currents in primary hippocampal neurons. PMID: 26179130
6. The study provides the first piece of evidence for the role of H2S in regulating Ito potassium channels and also the specific motif in an ion channel labile for H2S regulation. PMID: 25756524
7. The rsults of this study suggested that the reduction of Kv4.2 expression could contribute to the development of postischemic seizures in hyperglycemia. PMID: 25043828
8. Subunit counting by single-molecule imaging revealed that the bound number of KChIP4 in each Kv4.2.KChIP4 complex was dependent on the expression level of KChIP4. PMID: 24811166
9. we show for the first time that Kv4.2 channels can self-organize to locally alter the excitability of the dendrite in the absence of any signaling resulting from synaptic potentiation. PMID: 24404150
10. This study demonistrared that the expression and function of Kv4.2 channels in neurons of the rat bed nucleus of the stria terminalis. PMID: 24037673
11. Neuritin activates insulin receptor pathway to up-regulate Kv4.2-mediated transient outward K+ current in rat cerebellar granule neurons PMID: 23066017
12. The expression densities of Kv4.2 and Kv4.3 channels are significantly higher in type I neurons than in type II neurons. PMID: 22245500
13. This study showed that Significant differences in Kv4.2 and Kv4.3 mRNA levels in conditioned rats. and up regulation in the brain. PMID: 22700470
14. Traumatic brain injury causes a transient downregulation of the kv4.2 channel subunit in hippocampal CA1 neurons, which is associated with hyperexcitability in the post-traumatic hippocampus and in turn leads to seizures and epilepsy. PMID: 21895522
15. These results indicate that distance-dependent Kv4.2 mobility is regulated by activity-dependent phosphorylation of Kv4.2 by PKA. PMID: 21472817
16. Differential dorso-ventral distributions of Kv4.2 and HCN proteins confer distinct integrative properties to hippocampal CA1 pyramidal cell distal dendrites. PMID: 22511771
17. Data suggest that the increase in current along the proximo-distal axis of pyramidal cell dendrites cannot be solely explained by a corresponding increase in Kv4.2 channel number. PMID: 22098631
18. Immunocytochemistry indicated that protein expression for Kv4.2 increased between 1 wk and 4-5 wk of age. PMID: 21451062
19. Collectively, these results indicate that Kv4.2 mRNA levels are regulated in response to synaptic activity, and this phenomenon may be the mechanism underlying the homeostasis of Kv4.2 protein on dendritic surfaces. PMID: 21511008
20. The K(V)4.2/K(V)4.3 channel forms a supramolecular complex with PKA through AKAP100 and is attached to caveolae by interacting with caveolin-3. PMID: 20224290
21. Results indicate that Kv4.2 channels must regulate synaptic integration and plasticity through another mechanism in addition to their regulation of synaptic NR2 subunit composition. PMID: 20920553
22. AKAP79/150 provides a platform for dynamic protein kinase A regulation of Kv4.2 expression, fundamentally impacting CA1 excitability. PMID: 21273417
23. The dendritic localization of Kv4.2 mRNAs might regulate the dendritic surface level of Kv4.2 channels and synaptic plasticity. PMID: 21034530
24. results show that the glutamate-induced downregulation of Kv4.2 is mediated by NR2B-containing NMDA receptors and is linked to proteolysis by calpain, which might contribute to the development of neuronal hyperexcitability and neurodegenerative diseases. PMID: 19857555
25. Kv4.2 overexpression counteracted cardiac hypertrophy-related changes in isolated electrically and chemically stimulated cardiomyocytes PMID: 12403671
26. An evolutionarily conserved dileucine motif is necessary for dendritic targeting of potassium channel Kv4.2 and is sufficient to target the axonally localized channels Kv1.3 and Kv1.4 to the dendrites PMID: 12592409
27. autocrine release of angiotensin II and endothelin 1 in diabetic and hypothyroid conditions attenuates K(+) currents by suppressing synthesis of potassium channels, the Kv4.2 component here, with effects mediated by protein kinase C-epsilon PMID: 12626328
28. zinc-mediated tetramerization also is a physiologically important event for full-length functional channel formation. PMID: 12754210
29. crystal structure of the Kv4.2 T1 domain PMID: 12835418
30. Kv4.2 plays an essential role in producing the A-type current in striatal cholinergic interneurons during the entire course of postnatal development. PMID: 12843309
31. Increased numbers and altered distribution of Kv4.2 channels at the cell surface are primarily the result of reorganization of the actin cytoskeleton. PMID: 14551056
32. Hippocampal dentate granule and CA3 pyramidal cells and cerebellar granule cells express high levels of colocalized Kv4.2 and Kv4.3 which coassociate with KChIPs 1-4. These channels may play a major role as modulators of somatodendritic excitability. PMID: 15356203
33. Zinc(2+)-less potassium voltage gated(Kv4.2) channels expressed with KChIP3 protein demonstrate several distinct kinetic changes in channel gating PMID: 15485870
34. DPP10 modulates Kv4.2-mediated A-type potassium channels PMID: 15671030
35. A-type potassium channels containing Kv4.2 play a critical role in regulating postsynaptic excitability at the cerebellar mossy-fiber/granule cell synapse. PMID: 15736227
36. In conclusion, the native neuronal subthreshold A-type channel is probably a macromolecular complex formed from Kv4 and a combination of both KChIP and DPL proteins. PMID: 16123112
37. These results point to Kv4.2 as the major contributor to the A-current in hippocampal CA1 neurones. PMID: 16141270
38. the data of this study suggest that Kv4.2 subunits could be involved in pain modulation. PMID: 16176357
39. Study shows the molecular basis of A type current increase in central neurons and that endogenous production of Amyloid beta is important in the modulation of Kv4.2 and Kv4.3 subunit expression. PMID: 16271805
40. Data support the hypothesis that expression of A-type K(+) channel alpha subunits Kv4.2 and Kv4.3 may protect somatic motoneurons, and possibly also interneurons, from naturally occurring cell death during developmental selection. PMID: 16553778
41. Our results establish a specific role for native Kv4.2 transcripts in forming and maintaining I(SA) current at characteristic levels in hippocampal pyramidal neurons PMID: 17026528
42. Data show that in the Kv4.2+KChIP3+DPP10 channel complex, all DPP10 variants accelerate channel gating kinetics; however, the splice variant DPP10a produces uniquely fast inactivation kinetics that accelerates with increasing depolarization. PMID: 17475505
43. Coexpression of Kv4.2 with STX1A resulted in a reduction of Kv4.2 current amplitude; caused a depolarizing shift of the steady-state inactivation curve; enhanced the rate of current decay; accelerated the rate of recovery from inactivation. PMID: 17725325
44. Taken together, our results suggest that excitatory neurotransmission affects neuronal excitability via the regulation of the K+ channel membrane translocation. PMID: 18088376
45. These results demonstrate a glutamate-induced alteration of Kv4.2 channels in cultured hippocampal neurons, which might be involved in activity-dependent changes of neuronal excitability and synaptic plasticity. PMID: 18363830
46. Evidence for highly non-uniform subcellular distribution of A-type Kv4.2 potassium channels predicts their involvement in novel forms of intercellular communication in the olfactory pathway. PMID: 18371079
47. Increased extracelluar signal-regulated kinase (ERK) phosphorylation of Kv4.2 and decreased levels of Kv4.2 channels in the post-synaptic membrane of hippocampal neurons contribute to hyperexcitability during status epilepticus. PMID: 18513371
48. Data suggest that the expression of Kv4.2 channels in the failing heart is redox-regulated by the thioredoxin system. PMID: 18515646
49. Interaction between transcription factors Iroquois proteins 4 and 5 controls cardiac potassium channel Kv4.2 gene transcription across the left ventricular wall of rodent hearts. PMID: 18815185
50. mRNA expression for Kcnd2 and Kcne2 was significantly reduced in diabetic rats which may underlie delayed propagation of electrical activity in the ventricular myocardium PMID: 19267230

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KEGG: rno:65180

STRING: 10116.ENSRNOP00000039227

UniGene: Rn.87841