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    Alomone Labs anti kv1 3
    Fyn modulates the posttranslational modification of <t>Kv1.3.</t> (A) Western blot analysis of postmortem human PD and age-matched control brains showing increased phosphorylation of Kv1.3. (B) Immunoprecipitation of Fyn and Kv1.3 showing direct Fyn-Kv1.3 interaction after αSyn Agg treatment. ( C ) Duolink PLA showing αSyn Agg -induced interaction between Kv1.3 and Fyn. Scale bar: 25 μm. ( D ) Western blot of Fyn WT and KO PMCs revealed that Kv1.3 phosphorylation at residue 135 was Fyn dependent. ( E ) IHC analysis of substantia nigra from Fyn +/+ and Fyn –/– mice showing reduced phosphorylation of Kv1.3 after αSyn PFF injection. Scale bars: 100 μm; 60 μm (insets). ( F ) IHC of substantia nigra from MitoPark mice and their littermate controls showing that pharmacological inhibition of Fyn by saracatinib reduced Kv1.3 phosphorylation. Scale bar: 100 μm. ( G – J ) Immortalized MMCs were either transfected with WT Kv1.3 or aY135A Kv1.3 plasmid. ( G ) qRT-PCR analysis and ( H ) Griess assay showing reduced levels of inducible NOS (iNOS) and nitrite release, respectively, in Y135A Kv1.3-transfected cells compared with WT cells. ( I ) qRT-PCR analysis showing reduced IL-1β production in Y135A Kv1.3–transfected versus WT Kv1.3–transfected MMCs. ( J ) Luminex assay showing reduced IL-1β secretion in Y135A Kv1.3–transfected compared with WT Kv1.3–transfected MMCs. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. A 2-tailed Student’s t test was used to compare 2 groups in A . Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments. * P ≤ 0.05, ** P
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    Fyn modulates the posttranslational modification of Kv1.3. (A) Western blot analysis of postmortem human PD and age-matched control brains showing increased phosphorylation of Kv1.3. (B) Immunoprecipitation of Fyn and Kv1.3 showing direct Fyn-Kv1.3 interaction after αSyn Agg treatment. ( C ) Duolink PLA showing αSyn Agg -induced interaction between Kv1.3 and Fyn. Scale bar: 25 μm. ( D ) Western blot of Fyn WT and KO PMCs revealed that Kv1.3 phosphorylation at residue 135 was Fyn dependent. ( E ) IHC analysis of substantia nigra from Fyn +/+ and Fyn –/– mice showing reduced phosphorylation of Kv1.3 after αSyn PFF injection. Scale bars: 100 μm; 60 μm (insets). ( F ) IHC of substantia nigra from MitoPark mice and their littermate controls showing that pharmacological inhibition of Fyn by saracatinib reduced Kv1.3 phosphorylation. Scale bar: 100 μm. ( G – J ) Immortalized MMCs were either transfected with WT Kv1.3 or aY135A Kv1.3 plasmid. ( G ) qRT-PCR analysis and ( H ) Griess assay showing reduced levels of inducible NOS (iNOS) and nitrite release, respectively, in Y135A Kv1.3-transfected cells compared with WT cells. ( I ) qRT-PCR analysis showing reduced IL-1β production in Y135A Kv1.3–transfected versus WT Kv1.3–transfected MMCs. ( J ) Luminex assay showing reduced IL-1β secretion in Y135A Kv1.3–transfected compared with WT Kv1.3–transfected MMCs. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. A 2-tailed Student’s t test was used to compare 2 groups in A . Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Fyn modulates the posttranslational modification of Kv1.3. (A) Western blot analysis of postmortem human PD and age-matched control brains showing increased phosphorylation of Kv1.3. (B) Immunoprecipitation of Fyn and Kv1.3 showing direct Fyn-Kv1.3 interaction after αSyn Agg treatment. ( C ) Duolink PLA showing αSyn Agg -induced interaction between Kv1.3 and Fyn. Scale bar: 25 μm. ( D ) Western blot of Fyn WT and KO PMCs revealed that Kv1.3 phosphorylation at residue 135 was Fyn dependent. ( E ) IHC analysis of substantia nigra from Fyn +/+ and Fyn –/– mice showing reduced phosphorylation of Kv1.3 after αSyn PFF injection. Scale bars: 100 μm; 60 μm (insets). ( F ) IHC of substantia nigra from MitoPark mice and their littermate controls showing that pharmacological inhibition of Fyn by saracatinib reduced Kv1.3 phosphorylation. Scale bar: 100 μm. ( G – J ) Immortalized MMCs were either transfected with WT Kv1.3 or aY135A Kv1.3 plasmid. ( G ) qRT-PCR analysis and ( H ) Griess assay showing reduced levels of inducible NOS (iNOS) and nitrite release, respectively, in Y135A Kv1.3-transfected cells compared with WT cells. ( I ) qRT-PCR analysis showing reduced IL-1β production in Y135A Kv1.3–transfected versus WT Kv1.3–transfected MMCs. ( J ) Luminex assay showing reduced IL-1β secretion in Y135A Kv1.3–transfected compared with WT Kv1.3–transfected MMCs. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. A 2-tailed Student’s t test was used to compare 2 groups in A . Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Modification, Western Blot, Immunoprecipitation, Proximity Ligation Assay, Immunohistochemistry, Mouse Assay, Injection, Inhibition, Transfection, Plasmid Preparation, Quantitative RT-PCR, Griess Assay, Luminex

    Kv1.3 inhibition protects against αSyn PFF -induced behavior deficit and dopaminergic neuronal loss. ( A ) Treatment paradigm corresponding to the αSyn PFF mouse model of PD. ( B ) Representative movement tracks showing that PAP-1 rescued movement deficits induced by αSyn PFF . ( C – E ) A VersaMax open-field test showed decreased ( C ) rest time and increased ( D ) horizontal activity and ( E ) total distance traveled for αSyn PFF mice treated with PAP-1. ( F and G ) HPLC showing that PAP-1 treatment protected against loss of ( F ) dopamine and ( G ) DOPAC induced by αSyn PFF . ( H ) Western blot analysis of TH showing loss of TH induced by αSyn PFF in the SNpc region. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–7 animals per group. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Kv1.3 inhibition protects against αSyn PFF -induced behavior deficit and dopaminergic neuronal loss. ( A ) Treatment paradigm corresponding to the αSyn PFF mouse model of PD. ( B ) Representative movement tracks showing that PAP-1 rescued movement deficits induced by αSyn PFF . ( C – E ) A VersaMax open-field test showed decreased ( C ) rest time and increased ( D ) horizontal activity and ( E ) total distance traveled for αSyn PFF mice treated with PAP-1. ( F and G ) HPLC showing that PAP-1 treatment protected against loss of ( F ) dopamine and ( G ) DOPAC induced by αSyn PFF . ( H ) Western blot analysis of TH showing loss of TH induced by αSyn PFF in the SNpc region. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–7 animals per group. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Inhibition, Activity Assay, Mouse Assay, High Performance Liquid Chromatography, Western Blot

    Upregulated expression of the potassium channel Kv1.3 upon aggregated αSyn stimulation in ex vivo slices and B cells derived from patients with PD. ( A ) Midbrain slice cultures were treated with 1 μM αSyn Agg for 24 hours. qRT-PCR shows upregulated Kv1.3 mRNA expression. ( B ) Western blot shows upregulated Kv1.3 protein level in midbrain slice cultures treated with 1 μM αSyn Agg for 24 hours. ( C ) qRT-PCR of midbrain slice cultures treated with 1 μM αSyn Agg for 24 hours, revealing upregulation of the proinflammatory factors Nos2 , Csf2 , IL-6 , IL-1β , and Tnfa . ( D ) qRT-PCR shows increased Kv1.3 mRNA expression in B cell lymphocytes isolated from patients with PD compared with expression in B cell lymphocytes from age-matched controls. ( E ) Whole-cell patch clamping of B cell lymphocytes isolated from patients with PD showed higher Kv1.3 channel activity compared with that observed in age-matched controls ( n = 3 control and n = 3 PD). A 1-way ANOVA was used to compare multiple groups in C and D . Tukey’s post hoc analysis was applied. A 2-tailed Student’s t test was used to compare 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–7 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05 and ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Upregulated expression of the potassium channel Kv1.3 upon aggregated αSyn stimulation in ex vivo slices and B cells derived from patients with PD. ( A ) Midbrain slice cultures were treated with 1 μM αSyn Agg for 24 hours. qRT-PCR shows upregulated Kv1.3 mRNA expression. ( B ) Western blot shows upregulated Kv1.3 protein level in midbrain slice cultures treated with 1 μM αSyn Agg for 24 hours. ( C ) qRT-PCR of midbrain slice cultures treated with 1 μM αSyn Agg for 24 hours, revealing upregulation of the proinflammatory factors Nos2 , Csf2 , IL-6 , IL-1β , and Tnfa . ( D ) qRT-PCR shows increased Kv1.3 mRNA expression in B cell lymphocytes isolated from patients with PD compared with expression in B cell lymphocytes from age-matched controls. ( E ) Whole-cell patch clamping of B cell lymphocytes isolated from patients with PD showed higher Kv1.3 channel activity compared with that observed in age-matched controls ( n = 3 control and n = 3 PD). A 1-way ANOVA was used to compare multiple groups in C and D . Tukey’s post hoc analysis was applied. A 2-tailed Student’s t test was used to compare 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–7 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05 and ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Expressing, Ex Vivo, Derivative Assay, Quantitative RT-PCR, Western Blot, Isolation, Activity Assay

    Kv1.3 expression is highly induced in microglial cells in experimental models of PD and postmortem PD brains. ( A ) Western blot showing increased Kv1.3 protein levels in the substantia nigra of the Syn-AAV mouse model of PD. ( B ) qRT-PCR analysis of 8- to 24-week-old nigral tissues from the MitoPark mouse model of PD showing Kv1.3 induction compared with age-matched littermate controls. ( C ) Western blot of 24-week-old nigral tissues from the MitoPark mouse model of PD (MP) showing induction of Kv1.3 protein expression compared with age-matched littermate control mice (LM). ( D ) IHC in 24-week-old nigral tissues from the MitoPark mouse model of PD showing higher Kv1.3 protein levels (red) in IBA1-positive microglial cells (green) compared with age-matched controls as revealed by their colocalization (yellow). Scale bar: 20 μm. ( E ) qRT-PCR analysis of nigral tissues from the MPTP mouse model revealing induction of Kv1.3 mRNA expression. ( F ) Western blot showing increased Kv1.3 protein levels in substantia nigra of the MPTP mouse model of PD. ( G ) qRT-PCR analysis of postmortem human PD brains showing elevated Kv1.3 mRNA expression. ( H ) Western blot of the SN region of postmortem human PD brain showing induction of Kv1.3 protein expression compared with age-matched controls. n = 6–8. ( I ) Immunostaining revealing higher Kv1.3 levels in the prefrontal cortex of postmortem human PD brains compared with age-matched controls. Lower panel shows the deconvoluted binary image used for analysis. Three regions per brain were analyzed. Scale bar: 200 μm. ( J ) Dual DAB staining showing induction of Kv1.3 expression in HLA-DR–positive microglial cells in patients with DLBs compared with age-matched controls. Scale bars: 100 μm; 20 μm (enlarged insets). A 1-way ANOVA was used to compare multiple groups. Tukey’s post hoc analysis was applied B . A 2-tailed Student’s t test was used to compare 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–9 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Kv1.3 expression is highly induced in microglial cells in experimental models of PD and postmortem PD brains. ( A ) Western blot showing increased Kv1.3 protein levels in the substantia nigra of the Syn-AAV mouse model of PD. ( B ) qRT-PCR analysis of 8- to 24-week-old nigral tissues from the MitoPark mouse model of PD showing Kv1.3 induction compared with age-matched littermate controls. ( C ) Western blot of 24-week-old nigral tissues from the MitoPark mouse model of PD (MP) showing induction of Kv1.3 protein expression compared with age-matched littermate control mice (LM). ( D ) IHC in 24-week-old nigral tissues from the MitoPark mouse model of PD showing higher Kv1.3 protein levels (red) in IBA1-positive microglial cells (green) compared with age-matched controls as revealed by their colocalization (yellow). Scale bar: 20 μm. ( E ) qRT-PCR analysis of nigral tissues from the MPTP mouse model revealing induction of Kv1.3 mRNA expression. ( F ) Western blot showing increased Kv1.3 protein levels in substantia nigra of the MPTP mouse model of PD. ( G ) qRT-PCR analysis of postmortem human PD brains showing elevated Kv1.3 mRNA expression. ( H ) Western blot of the SN region of postmortem human PD brain showing induction of Kv1.3 protein expression compared with age-matched controls. n = 6–8. ( I ) Immunostaining revealing higher Kv1.3 levels in the prefrontal cortex of postmortem human PD brains compared with age-matched controls. Lower panel shows the deconvoluted binary image used for analysis. Three regions per brain were analyzed. Scale bar: 200 μm. ( J ) Dual DAB staining showing induction of Kv1.3 expression in HLA-DR–positive microglial cells in patients with DLBs compared with age-matched controls. Scale bars: 100 μm; 20 μm (enlarged insets). A 1-way ANOVA was used to compare multiple groups. Tukey’s post hoc analysis was applied B . A 2-tailed Student’s t test was used to compare 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–9 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Expressing, Western Blot, Quantitative RT-PCR, Mouse Assay, Immunohistochemistry, Immunostaining, Staining

    Fyn modulates the transcriptional regulation of Kv1.3 in microglial cells through the Fyn/PKCδ kinase signaling cascade. ( A ) In silico analysis of the promoter sequence of Kv1.3 revealed probable Nf-κB– and SP1-binding sites. ( B ) qRT-PCR analysis of immortalized MMCs cotreated with αSyn Agg and either SN50 (100 μg/mL) or SB203580 (1 μM), showing that both compounds attenuated αSyn Agg -induced Kv1.3 expression. ( C ) Western blot of Fyn WT and KO PMCs treated with αSyn Agg , showing that Fyn KO reduced the induction of the p38 MAPK pathway. ( D ) qRT-PCR analysis revealed that Fyn KO reduced αSyn Agg -induced Kv1.3 mRNA levels. ( E ) Whole-cell patch-clamp recording showing that Fyn KO attenuated αSyn Agg - and LPS-induced Kv1.3 activity compared with Fyn WT PMCs (WT control n = 24, WT αSyn Agg n = 12, WT LPS n = 29, Fyn KO αSyn Agg n = 20, Fyn KO LPS n = 15). ( F ) ICC showing that Fyn KO reduced αSyn Agg -induced Kv1.3 protein levels in PMCs. Scale bar: 15 μm. ( G ) ICC of PMCs revealed that αSyn Agg -induced Kv1.3 protein expression was reduced by PKCδ KO. Scale bar: 15 μm. ( H ) qRT-PCR analysis of PMCs showing that PKC KO reduced the expression of αSyn Agg -induced Kv1.3 mRNA. ( I ) Whole-cell patch clam recording of PMCs showing that PKC KO attenuated αSyn Agg - and LPS-induced Kv1.3 activity compared with PKC WT PMCs (WT control n = 24, WT αSyn Agg n = 12, WT LPS n = 20, PKC-KO αSyn Agg n = 29, PKC-KO LPS n = 35). Data are presented as the mean ± SD. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Fyn modulates the transcriptional regulation of Kv1.3 in microglial cells through the Fyn/PKCδ kinase signaling cascade. ( A ) In silico analysis of the promoter sequence of Kv1.3 revealed probable Nf-κB– and SP1-binding sites. ( B ) qRT-PCR analysis of immortalized MMCs cotreated with αSyn Agg and either SN50 (100 μg/mL) or SB203580 (1 μM), showing that both compounds attenuated αSyn Agg -induced Kv1.3 expression. ( C ) Western blot of Fyn WT and KO PMCs treated with αSyn Agg , showing that Fyn KO reduced the induction of the p38 MAPK pathway. ( D ) qRT-PCR analysis revealed that Fyn KO reduced αSyn Agg -induced Kv1.3 mRNA levels. ( E ) Whole-cell patch-clamp recording showing that Fyn KO attenuated αSyn Agg - and LPS-induced Kv1.3 activity compared with Fyn WT PMCs (WT control n = 24, WT αSyn Agg n = 12, WT LPS n = 29, Fyn KO αSyn Agg n = 20, Fyn KO LPS n = 15). ( F ) ICC showing that Fyn KO reduced αSyn Agg -induced Kv1.3 protein levels in PMCs. Scale bar: 15 μm. ( G ) ICC of PMCs revealed that αSyn Agg -induced Kv1.3 protein expression was reduced by PKCδ KO. Scale bar: 15 μm. ( H ) qRT-PCR analysis of PMCs showing that PKC KO reduced the expression of αSyn Agg -induced Kv1.3 mRNA. ( I ) Whole-cell patch clam recording of PMCs showing that PKC KO attenuated αSyn Agg - and LPS-induced Kv1.3 activity compared with PKC WT PMCs (WT control n = 24, WT αSyn Agg n = 12, WT LPS n = 20, PKC-KO αSyn Agg n = 29, PKC-KO LPS n = 35). Data are presented as the mean ± SD. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments unless otherwise indicated. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: In Silico, Sequencing, Binding Assay, Quantitative RT-PCR, Expressing, Western Blot, Patch Clamp, Activity Assay, Immunocytochemistry

    Kv1.3 modulates neuroinflammation in a cell culture model of PD. ( A – C ) Kv1.3 WT and KO PMCs were treated with 1 μM αSyn Agg for 24 hours. Luminex analysis shows that Kv1.3 KO reduced the release of the αSyn Agg -induced proinflammatory factors ( A ) TNF-α, ( B ) IL-12, and ( C ) IL-1β. ( D – H ) Immortalized MMCs were transfected with WT a Kv1.3 plasmid, and then 48 hours after transfection, cells were treated with 1 μM αSyn Agg for 24 hours. ( D – F ) qRT-PCR analysis showing that Kv1.3 overexpression aggravated αSyn Agg -induced production of the proinflammatory factors ( D ) Nos2 , ( E ) pro– IL-1β , and ( F ) TNF-α . ( G and H ) Luminex analysis showing that Kv1.3 overexpression potentiated the release of the proinflammatory factors ( G ) IL-6 and ( H ) IL-12. ( I ) Voltage ramp from –120 mV to 40 mV elicited a characteristic outward rectifying current in αSyn Agg -treated microglia that was sensitive to the Kv1.3-selective inhibitor PAP-1. ( J ) LDH assay showing that PAP-1 reduced αSyn Agg -induced LDH release from microglial cells. ( K – M ) Luminex assay revealing that PAP-1 attenuated the αSyn Agg -induced proinflammatory factors ( K ) IL-12, ( L ) TNF-α, and ( M ) IL-6. ( N ) Western blot analysis demonstrating that PAP-1 reduced αSyn Agg -induced NLRP3 expression. ( O ) ICC analysis revealed that PAP-1 reduced NLRP3 expression induced by αSyn Agg . Scale bar: 25 μm. A 1-way ANOVA was performed to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Kv1.3 modulates neuroinflammation in a cell culture model of PD. ( A – C ) Kv1.3 WT and KO PMCs were treated with 1 μM αSyn Agg for 24 hours. Luminex analysis shows that Kv1.3 KO reduced the release of the αSyn Agg -induced proinflammatory factors ( A ) TNF-α, ( B ) IL-12, and ( C ) IL-1β. ( D – H ) Immortalized MMCs were transfected with WT a Kv1.3 plasmid, and then 48 hours after transfection, cells were treated with 1 μM αSyn Agg for 24 hours. ( D – F ) qRT-PCR analysis showing that Kv1.3 overexpression aggravated αSyn Agg -induced production of the proinflammatory factors ( D ) Nos2 , ( E ) pro– IL-1β , and ( F ) TNF-α . ( G and H ) Luminex analysis showing that Kv1.3 overexpression potentiated the release of the proinflammatory factors ( G ) IL-6 and ( H ) IL-12. ( I ) Voltage ramp from –120 mV to 40 mV elicited a characteristic outward rectifying current in αSyn Agg -treated microglia that was sensitive to the Kv1.3-selective inhibitor PAP-1. ( J ) LDH assay showing that PAP-1 reduced αSyn Agg -induced LDH release from microglial cells. ( K – M ) Luminex assay revealing that PAP-1 attenuated the αSyn Agg -induced proinflammatory factors ( K ) IL-12, ( L ) TNF-α, and ( M ) IL-6. ( N ) Western blot analysis demonstrating that PAP-1 reduced αSyn Agg -induced NLRP3 expression. ( O ) ICC analysis revealed that PAP-1 reduced NLRP3 expression induced by αSyn Agg . Scale bar: 25 μm. A 1-way ANOVA was performed to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–4 biological replicates from 2–3 independent experiments. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Cell Culture, Luminex, Transfection, Plasmid Preparation, Quantitative RT-PCR, Over Expression, Lactate Dehydrogenase Assay, Western Blot, Expressing, Immunocytochemistry

    Upregulated expression of the potassium channel Kv1.3 upon aggregated αSyn stimulation in microglial cells in vitro. ( A ) Whole-cell patch-clamp recordings of PMCs treated with 1 μM αSyn Agg for 24–48 hours, showing αSyn Agg -induced increased Kv1.3 activity (control n = 24 and αSyn Agg n = 12). Kv1.3 was identified by its characteristic use dependence, which was revealed when applying a train of ten 200-ms pulses from –80 to 40 mV at 1-second intervals (1 Hz). ( B ) qRT-PCR showing that αSyn Agg induced Kv1.3 mRNA expression without significantly altering other potassium channels. ( C ) Western blot of αSyn Agg -induced Kv1.3 protein expression in PMCs. ( D ) ICC of αSyn Agg -induced Kv1.3 protein expression in PMCs. Scale bar: 100 μm. ( E ) Flow cytometric analysis of immortalized MMCs treated with 1 μM αSyn Agg for 24 hours, showing αSyn Agg -induced Kv1.3 surface expression. ( F ) qRT-PCR of human microglia treated with LPS (1 μg/mL) and IL-4 (20 ng/mL) for 6 hours, showing LPS-induced Kv1.3 expression. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied in B and F . A 2-tailed Student’s t test was used for all other figures when comparing 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–5 biological replicates from 2–3 independent experiments unless otherwise noted. * P ≤ 0.05, ** P

    Journal: The Journal of Clinical Investigation

    Article Title: Kv1.3 modulates neuroinflammation and neurodegeneration in Parkinson’s disease

    doi: 10.1172/JCI136174

    Figure Lengend Snippet: Upregulated expression of the potassium channel Kv1.3 upon aggregated αSyn stimulation in microglial cells in vitro. ( A ) Whole-cell patch-clamp recordings of PMCs treated with 1 μM αSyn Agg for 24–48 hours, showing αSyn Agg -induced increased Kv1.3 activity (control n = 24 and αSyn Agg n = 12). Kv1.3 was identified by its characteristic use dependence, which was revealed when applying a train of ten 200-ms pulses from –80 to 40 mV at 1-second intervals (1 Hz). ( B ) qRT-PCR showing that αSyn Agg induced Kv1.3 mRNA expression without significantly altering other potassium channels. ( C ) Western blot of αSyn Agg -induced Kv1.3 protein expression in PMCs. ( D ) ICC of αSyn Agg -induced Kv1.3 protein expression in PMCs. Scale bar: 100 μm. ( E ) Flow cytometric analysis of immortalized MMCs treated with 1 μM αSyn Agg for 24 hours, showing αSyn Agg -induced Kv1.3 surface expression. ( F ) qRT-PCR of human microglia treated with LPS (1 μg/mL) and IL-4 (20 ng/mL) for 6 hours, showing LPS-induced Kv1.3 expression. A 1-way ANOVA was used to compare multiple groups. In most cases, Tukey’s post hoc analysis was applied in B and F . A 2-tailed Student’s t test was used for all other figures when comparing 2 groups. Each dot on the bar graphs represents a biological replicate. Data are presented as the mean ± SEM, with 3–5 biological replicates from 2–3 independent experiments unless otherwise noted. * P ≤ 0.05, ** P

    Article Snippet: Lysates were incubated overnight with the Fyn antibody (Thermo Fisher Scientific, RRID: AB_1074491) and the Kv1.3 antibody (Alomone Labs, RRID: AB_2040151) separately.

    Techniques: Expressing, In Vitro, Patch Clamp, Activity Assay, Quantitative RT-PCR, Western Blot, Immunocytochemistry