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antibodies against gapdh  (Proteintech)


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    Proteintech antibodies against gapdh
    Antibodies Against Gapdh, supplied by Proteintech, used in various techniques. Bioz Stars score: 97/100, based on 5489 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Average 97 stars, based on 5489 article reviews
    antibodies against gapdh - by Bioz Stars, 2026-06
    97/100 stars

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    antibodies against gapdh  (Proteintech)
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    Proteintech antibodies against gapdh
    Antibodies Against Gapdh, supplied by Proteintech, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    primary antibodies against gapdh  (Servicebio Inc)
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    Primary Antibodies Against Gapdh, supplied by Servicebio Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    primary antibodies against gapdh  (Novus Biologicals)
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    Novus Biologicals primary antibodies against gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
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    antibodies against gapdh  (Cell Signaling Technology Inc)
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    Cell Signaling Technology Inc antibodies against gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Antibodies Against Gapdh, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    antibodies against glyceraldehyde 3 phosphate dehydrogenase gapdh  (Proteintech)
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    Proteintech antibodies against glyceraldehyde 3 phosphate dehydrogenase gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Antibodies Against Glyceraldehyde 3 Phosphate Dehydrogenase Gapdh, supplied by Proteintech, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    antibody against gapdh  (Santa Cruz Biotechnology)
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    Santa Cruz Biotechnology antibody against gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Antibody Against Gapdh, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    primary antibodies against gapdh  (Proteintech)
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    Proteintech primary antibodies against gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Primary Antibodies Against Gapdh, supplied by Proteintech, used in various techniques. Bioz Stars score: 98/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    primary antibody against gapdh  (Santa Cruz Biotechnology)
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    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Primary Antibody Against Gapdh, supplied by Santa Cruz Biotechnology, used in various techniques. Bioz Stars score: 97/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    rabbit monoclonal antibody against glyceraldehyde 3 phosphate dehydrogenase gapdh  (Cell Signaling Technology Inc)
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    Cell Signaling Technology Inc rabbit monoclonal antibody against glyceraldehyde 3 phosphate dehydrogenase gapdh
    Expression <t>of</t> <t>GluN2A</t> (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to <t>GAPDH</t> in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).
    Rabbit Monoclonal Antibody Against Glyceraldehyde 3 Phosphate Dehydrogenase Gapdh, supplied by Cell Signaling Technology Inc, used in various techniques. Bioz Stars score: 86/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Image Search Results


    Expression of GluN2A (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to GAPDH in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).

    Journal: Pharmacology Research & Perspectives

    Article Title: Combined Inhibition of TRPM 4/ NMDA Receptor Complex and Extrasynaptic NMDA Receptors Is Candidate Therapeutic Target for Suppression of Epileptic Seizures and Improvement of Cognitive Impairments

    doi: 10.1002/prp2.70256

    Figure Lengend Snippet: Expression of GluN2A (A) and GluN2B (B) and basal extracellular levels of L‐glutamate (C) and D‐serine (D) in 4‐weeks and 8‐weeks of age S286L‐TG and wild‐type littermate. Ordinates indicate mean ± SD ( n = 6) of (A) expression levels of GluN2A relative to GAPDH in the plasma membrane fraction (B) expression levels of GluN2B relative to GAPDH in the plasma membrane fraction, (C) basal extracellular L‐glutamate level (μM) and (D) basal extracellular D‐serine level (μM) in the frontal cortex of wild‐type (gray column) and S286L‐TG (blue column). The lower‐side panels in A and B indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to 4‐weeks of age (4 W) and # p < 0.05 relative to wild‐type using two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (A) expression of GluN2A ( F age [1, 20] = 46.7 [ p < 0.05], F genotype [1, 20] = 5.34 [ p < 0.05], F age*genotype [1, 20] = 1.1 [ p > 0.05]), (B) expression of GluN2B ( F age [1, 20] = 22.4 [ p < 0.05], F genotype [1, 20] = 8.3 [ p < 0.05], F age*genotype [1, 20] = 2.0 [ p > 0.05]), (C) L‐glutamate level ( F age [1, 20] = 3.2 [ p > 0.05], F genotype [1, 20] = 21.2 [ p < 0.05], F age*genotype [1, 20] = 1.9 [ p > 0.05]) and (D) D‐serine level ( F age [1, 20] = 8.4 [ p < 0.05], F genotype [1, 20] = 21.6 [ p < 0.05], F age*genotype [1, 20] = 2.8 [ p > 0.05]).

    Article Snippet: Primary antibodies against GAPDH (NB300‐327, RRID:AB_10001915, 1:300; Novus Biologicals, Littleton, CO, USA), GluN2A (PPS012, RRID:AB_2112297, 1:100, R&D Systems, Minneapolis, MN, USA), GluN2B (PPS013, RRID:AB_562667, 1:100, R&D Systems), cAMP response element binding protein (CREB) (#4820, 1:50, Cell Signaling Technology, Danvers, MA, USA), and pCREB (#9198, 1:50, Cell Signaling) were used.

    Techniques: Expressing, Clinical Proteomics, Membrane, Western Blot

    Effects of chronic administration of probenecid, MK‐801, memantine, and FP802 on expression of GluN2A and GluN2B in S286L‐TG and wild‐type littermates. All rats were chronically administered by vehicle (control), probenecid (PBN: 100 mg/kg/day), MK‐801 (0.1 mg/kg/day), memantine (MEM: 10 mg/kg/day) and FP802 (40 mg/kg/day) for 2‐weeks (from 6‐weeks to 8‐weeks of age). Ordinates indicate mean ± SD ( n = 6) of expression levels of GluN2A (A1‐A4) and GluN2B (B1‐B4) relative to GAPDH in wild‐type (A1‐A2, B1‐B2) and S286L‐TG (A3‐A4, B3‐B4). The right‐side panels indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to control using one‐way ANOVA with Scheffe's post hoc test. F ‐values regarding effects of probenecid and MK‐801 on GluN2A expression in wild‐type (A1) ( F [2, 15] = 7.8 [ p < 0.05]), GluN2A in S286L (A3) ( F [2, 15] = 19.4 [ p < 0.05]), GluN2B in wild‐type (B1) ( F [2, 15] = 12.1 [ p < 0.05]) and GluN2B in S286L‐TG (B3) ( F [2, 15] = 18.2 [ p < 0.05]). F ‐values regarding effects of memantine and FP802 on GluN2A in wild‐type (A2) ( F [2, 15] = 0.4 [ p > 0.05]), GluN2A in S286L‐TG (A4) ( F [2, 15] = 7.1 [ p < 0.05]), GluN2B in wild‐type (B2) ( F [2, 15] = 0.2 [ p > 0.05]) and GluN2B in S286L‐TG (B4) ( F [2, 15] = 4.8 [ p < 0.05]).

    Journal: Pharmacology Research & Perspectives

    Article Title: Combined Inhibition of TRPM 4/ NMDA Receptor Complex and Extrasynaptic NMDA Receptors Is Candidate Therapeutic Target for Suppression of Epileptic Seizures and Improvement of Cognitive Impairments

    doi: 10.1002/prp2.70256

    Figure Lengend Snippet: Effects of chronic administration of probenecid, MK‐801, memantine, and FP802 on expression of GluN2A and GluN2B in S286L‐TG and wild‐type littermates. All rats were chronically administered by vehicle (control), probenecid (PBN: 100 mg/kg/day), MK‐801 (0.1 mg/kg/day), memantine (MEM: 10 mg/kg/day) and FP802 (40 mg/kg/day) for 2‐weeks (from 6‐weeks to 8‐weeks of age). Ordinates indicate mean ± SD ( n = 6) of expression levels of GluN2A (A1‐A4) and GluN2B (B1‐B4) relative to GAPDH in wild‐type (A1‐A2, B1‐B2) and S286L‐TG (A3‐A4, B3‐B4). The right‐side panels indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to control using one‐way ANOVA with Scheffe's post hoc test. F ‐values regarding effects of probenecid and MK‐801 on GluN2A expression in wild‐type (A1) ( F [2, 15] = 7.8 [ p < 0.05]), GluN2A in S286L (A3) ( F [2, 15] = 19.4 [ p < 0.05]), GluN2B in wild‐type (B1) ( F [2, 15] = 12.1 [ p < 0.05]) and GluN2B in S286L‐TG (B3) ( F [2, 15] = 18.2 [ p < 0.05]). F ‐values regarding effects of memantine and FP802 on GluN2A in wild‐type (A2) ( F [2, 15] = 0.4 [ p > 0.05]), GluN2A in S286L‐TG (A4) ( F [2, 15] = 7.1 [ p < 0.05]), GluN2B in wild‐type (B2) ( F [2, 15] = 0.2 [ p > 0.05]) and GluN2B in S286L‐TG (B4) ( F [2, 15] = 4.8 [ p < 0.05]).

    Article Snippet: Primary antibodies against GAPDH (NB300‐327, RRID:AB_10001915, 1:300; Novus Biologicals, Littleton, CO, USA), GluN2A (PPS012, RRID:AB_2112297, 1:100, R&D Systems, Minneapolis, MN, USA), GluN2B (PPS013, RRID:AB_562667, 1:100, R&D Systems), cAMP response element binding protein (CREB) (#4820, 1:50, Cell Signaling Technology, Danvers, MA, USA), and pCREB (#9198, 1:50, Cell Signaling) were used.

    Techniques: Expressing, Control, Western Blot

    Effects of chronic combined administration of memantine with FP802 on ADSHE seizure frequency (A), sucrose preference (B), expression of GluN2A (C1) and GluN2B (C2), and basal extracellular levels of L‐glutamate (D) and D‐serine (E) in S286L‐TG and wild‐type littermate. All rats were chronically administered by vehicle (control) and combined of memantine (MEM: 10 mg/kg/day) with FP802 (40 mg/kg/day) for 2‐weeks (from 6‐weeks to 8‐weeks of age). Ordinates indicate mean ± SD ( n = 6) of (A) ADSHE seizure frequency (count h −1 ), (B) consumption of sucrose preference (%), (C1) expression levels of GluN2A relative to GAPDH, (C2) expression levels of GluN2B relative to GAPDH, (D) basal extracellular L‐glutamate level (μM) and (E) basal extracellular D‐serine level (μM). The right‐side panels in C1‐C2 indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to control and # p < 0.05 relative to wild‐type using student T ‐test or one‐way or two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (B) sucrose preference: MEM ( F memantine+FP802 [1, 20] = 21.3 [ p < 0.05], F genotype [1, 20] = 5.1 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 5.3 [ p < 0.05]), (D) L‐glutamate level: ( F memantine+FP802 [1, 20] = 5.3 [ p < 0.05], F genotype [1, 20] = 15.9 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 4.8 [ p < 0.05]), (E) D‐serine level: ( F memantine+FP802 [1, 20] = 7.6 [ p < 0.05], F genotype [1, 20] = 22.4 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 10.4 [ p < 0.05]).

    Journal: Pharmacology Research & Perspectives

    Article Title: Combined Inhibition of TRPM 4/ NMDA Receptor Complex and Extrasynaptic NMDA Receptors Is Candidate Therapeutic Target for Suppression of Epileptic Seizures and Improvement of Cognitive Impairments

    doi: 10.1002/prp2.70256

    Figure Lengend Snippet: Effects of chronic combined administration of memantine with FP802 on ADSHE seizure frequency (A), sucrose preference (B), expression of GluN2A (C1) and GluN2B (C2), and basal extracellular levels of L‐glutamate (D) and D‐serine (E) in S286L‐TG and wild‐type littermate. All rats were chronically administered by vehicle (control) and combined of memantine (MEM: 10 mg/kg/day) with FP802 (40 mg/kg/day) for 2‐weeks (from 6‐weeks to 8‐weeks of age). Ordinates indicate mean ± SD ( n = 6) of (A) ADSHE seizure frequency (count h −1 ), (B) consumption of sucrose preference (%), (C1) expression levels of GluN2A relative to GAPDH, (C2) expression levels of GluN2B relative to GAPDH, (D) basal extracellular L‐glutamate level (μM) and (E) basal extracellular D‐serine level (μM). The right‐side panels in C1‐C2 indicate pseudo‐gel images of capillary immunoblotting. Circles indicate the values of each individual rat. * p < 0.05, relative to control and # p < 0.05 relative to wild‐type using student T ‐test or one‐way or two‐way ANOVA with Scheffe's post hoc test. F ‐values were in (B) sucrose preference: MEM ( F memantine+FP802 [1, 20] = 21.3 [ p < 0.05], F genotype [1, 20] = 5.1 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 5.3 [ p < 0.05]), (D) L‐glutamate level: ( F memantine+FP802 [1, 20] = 5.3 [ p < 0.05], F genotype [1, 20] = 15.9 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 4.8 [ p < 0.05]), (E) D‐serine level: ( F memantine+FP802 [1, 20] = 7.6 [ p < 0.05], F genotype [1, 20] = 22.4 [ p < 0.05], F rmemantine+FP802*genotype [1, 20] = 10.4 [ p < 0.05]).

    Article Snippet: Primary antibodies against GAPDH (NB300‐327, RRID:AB_10001915, 1:300; Novus Biologicals, Littleton, CO, USA), GluN2A (PPS012, RRID:AB_2112297, 1:100, R&D Systems, Minneapolis, MN, USA), GluN2B (PPS013, RRID:AB_562667, 1:100, R&D Systems), cAMP response element binding protein (CREB) (#4820, 1:50, Cell Signaling Technology, Danvers, MA, USA), and pCREB (#9198, 1:50, Cell Signaling) were used.

    Techniques: Expressing, Control, Western Blot