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glp1r agonists  (MedChemExpress)


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    MedChemExpress glp1r agonists
    A,B) Hypothalamic cells differentiated from human pluripotent stem cells (hPSCs) contain a significant number of POMC neurons as visualized by immunostaining for aMSH (A) and in live cultures derived from a POMC-GFP reporter cell line (B). Scale bars represent 25 and 12 µm in A and B, respectively. C) UMAP of single-cell RNAseq data from five genetically distinct hPSC lines differentiated into hypothalamic neurons, separated by cells annotated as being in POMC (dark blue) or non-POMC (light blue) clusters. D,E) Expression of <t>GLP1R</t> mRNA in hPSC-derived hypothalamic neurons (UMI ≥ 1), color-coded by expression level (D) and quantified for POMC or SST cell clusters, and median expression across all cell clusters (E). F) UMAP with 66 annotated clusters from mouse single-cell and single-nucleus RNAseq data, with the arrowhead indicating the Pomc-expressing cell cluster. G,H) Expression of Glp1r mRNA in mouse hypothalamic neurons (UMI ≥ 1), color-coded by expression level (G) or quantified across Pomc or Sst clusters, or the median across all cell clusters.
    Glp1r Agonists, supplied by MedChemExpress, used in various techniques. Bioz Stars score: 93/100, based on 5 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    Images

    1) Product Images from "GLP1R agonists activate human POMC neurons"

    Article Title: GLP1R agonists activate human POMC neurons

    Journal: bioRxiv

    doi: 10.1101/2024.04.02.587825

    A,B) Hypothalamic cells differentiated from human pluripotent stem cells (hPSCs) contain a significant number of POMC neurons as visualized by immunostaining for aMSH (A) and in live cultures derived from a POMC-GFP reporter cell line (B). Scale bars represent 25 and 12 µm in A and B, respectively. C) UMAP of single-cell RNAseq data from five genetically distinct hPSC lines differentiated into hypothalamic neurons, separated by cells annotated as being in POMC (dark blue) or non-POMC (light blue) clusters. D,E) Expression of GLP1R mRNA in hPSC-derived hypothalamic neurons (UMI ≥ 1), color-coded by expression level (D) and quantified for POMC or SST cell clusters, and median expression across all cell clusters (E). F) UMAP with 66 annotated clusters from mouse single-cell and single-nucleus RNAseq data, with the arrowhead indicating the Pomc-expressing cell cluster. G,H) Expression of Glp1r mRNA in mouse hypothalamic neurons (UMI ≥ 1), color-coded by expression level (G) or quantified across Pomc or Sst clusters, or the median across all cell clusters.
    Figure Legend Snippet: A,B) Hypothalamic cells differentiated from human pluripotent stem cells (hPSCs) contain a significant number of POMC neurons as visualized by immunostaining for aMSH (A) and in live cultures derived from a POMC-GFP reporter cell line (B). Scale bars represent 25 and 12 µm in A and B, respectively. C) UMAP of single-cell RNAseq data from five genetically distinct hPSC lines differentiated into hypothalamic neurons, separated by cells annotated as being in POMC (dark blue) or non-POMC (light blue) clusters. D,E) Expression of GLP1R mRNA in hPSC-derived hypothalamic neurons (UMI ≥ 1), color-coded by expression level (D) and quantified for POMC or SST cell clusters, and median expression across all cell clusters (E). F) UMAP with 66 annotated clusters from mouse single-cell and single-nucleus RNAseq data, with the arrowhead indicating the Pomc-expressing cell cluster. G,H) Expression of Glp1r mRNA in mouse hypothalamic neurons (UMI ≥ 1), color-coded by expression level (G) or quantified across Pomc or Sst clusters, or the median across all cell clusters.

    Techniques Used: Immunostaining, Derivative Assay, Expressing

    A) Photomicrographs from a POMC-GFP reporter cell line showing (from left to right) neuronal morphology in brightfield, baseline fluorescence from the Cal-590 AM calcium sensitive dye, endogenous GFP fluorescence from the reporter, and a merge of these images. B-D) Representative traces from single neurons in response to administration of 200 nM GLP-1 for two minutes showing no response (B), decreased fluorescence (C), a prolonged increase in fluorescence (D), where the Y axis represents ΔF/F 0 . E) Representative trace showing how GLP1R responsive cells were classified by calculating whether values for ΔF/F 0 taken in a baseline period were significantly different from those taken after GLP1R agonist administration. F) Plot of the significance of response probability (Y axis) versus the magnitude of response (ΔF/F 0 ), where GFP+ POMC neurons are plotted in green, and a cutoff of P<0.01 was used to assign cells into inhibited (blue), activated (red), and non-responsive (gray) categories. Significance was calculated by multiple paired t-test from 18 pre-stimulus and 18 post-stimulus fluorescence intensity values. G) Representative trace showing how the magnitude of response to GLP1R was calculated by taking the area under the curve (AUC) in three-minute time intervals before and after its administration. H) Summary of the activated and inhibited cell responses for GFP- and POMC neurons. Non-responsive neurons are not shown.
    Figure Legend Snippet: A) Photomicrographs from a POMC-GFP reporter cell line showing (from left to right) neuronal morphology in brightfield, baseline fluorescence from the Cal-590 AM calcium sensitive dye, endogenous GFP fluorescence from the reporter, and a merge of these images. B-D) Representative traces from single neurons in response to administration of 200 nM GLP-1 for two minutes showing no response (B), decreased fluorescence (C), a prolonged increase in fluorescence (D), where the Y axis represents ΔF/F 0 . E) Representative trace showing how GLP1R responsive cells were classified by calculating whether values for ΔF/F 0 taken in a baseline period were significantly different from those taken after GLP1R agonist administration. F) Plot of the significance of response probability (Y axis) versus the magnitude of response (ΔF/F 0 ), where GFP+ POMC neurons are plotted in green, and a cutoff of P<0.01 was used to assign cells into inhibited (blue), activated (red), and non-responsive (gray) categories. Significance was calculated by multiple paired t-test from 18 pre-stimulus and 18 post-stimulus fluorescence intensity values. G) Representative trace showing how the magnitude of response to GLP1R was calculated by taking the area under the curve (AUC) in three-minute time intervals before and after its administration. H) Summary of the activated and inhibited cell responses for GFP- and POMC neurons. Non-responsive neurons are not shown.

    Techniques Used: Fluorescence

    A) Normalized expression levels (low to high = yellow to dark green) of candidate genes from scRNAseq data of hPSC-derived hypothalamic POMC neurons (top row), or non-POMC neurons (bottom row), where dot size indicates the fraction of cells in each population in which the candidate gene was detected (UMI ≥ 1). POMC , GLP1R , and CACNA1D are significantly enriched in POMC neurons. B) Table of voltage-gated calcium channel (VGCC) gene names, channel type, and the identity of drugs that selectively inhibit them. C) In a Semaglutide-activated cell, a cocktail of VGCC blockers abolishes agonist-induced fluorescence of the calcium indicator. D,E) Administration of the P/Q-type VGCC blocker ω-Agatoxin does not significantly decrease Semaglutide-induced calcium indicator fluorescence, as seen in a representative trace (D) and in a summary of all Semaglutide-activated cells (E). F,G) Panels as in D,E but with the T-type VGCC blocker TTA-P2. H,I) Panels as in D-G, but with the L-type VGCC blocker Benidipine, which abolished Semaglutide-induced calcium dye fluorescence, as observed with the drug cocktail in (C). J,K) Panels as in D-I, showing that the results from Benidipine (H,I) are replicated with Nifedipine, a second L-type calcium channel blocker. *p<0.05, **p<0.01, ***p<0.001 ****p<0.0001 by one-way ANOVA with repeated measures in E, G, I, K.
    Figure Legend Snippet: A) Normalized expression levels (low to high = yellow to dark green) of candidate genes from scRNAseq data of hPSC-derived hypothalamic POMC neurons (top row), or non-POMC neurons (bottom row), where dot size indicates the fraction of cells in each population in which the candidate gene was detected (UMI ≥ 1). POMC , GLP1R , and CACNA1D are significantly enriched in POMC neurons. B) Table of voltage-gated calcium channel (VGCC) gene names, channel type, and the identity of drugs that selectively inhibit them. C) In a Semaglutide-activated cell, a cocktail of VGCC blockers abolishes agonist-induced fluorescence of the calcium indicator. D,E) Administration of the P/Q-type VGCC blocker ω-Agatoxin does not significantly decrease Semaglutide-induced calcium indicator fluorescence, as seen in a representative trace (D) and in a summary of all Semaglutide-activated cells (E). F,G) Panels as in D,E but with the T-type VGCC blocker TTA-P2. H,I) Panels as in D-G, but with the L-type VGCC blocker Benidipine, which abolished Semaglutide-induced calcium dye fluorescence, as observed with the drug cocktail in (C). J,K) Panels as in D-I, showing that the results from Benidipine (H,I) are replicated with Nifedipine, a second L-type calcium channel blocker. *p<0.05, **p<0.01, ***p<0.001 ****p<0.0001 by one-way ANOVA with repeated measures in E, G, I, K.

    Techniques Used: Expressing, Derivative Assay, Fluorescence



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    Image Search Results


    A,B) Hypothalamic cells differentiated from human pluripotent stem cells (hPSCs) contain a significant number of POMC neurons as visualized by immunostaining for aMSH (A) and in live cultures derived from a POMC-GFP reporter cell line (B). Scale bars represent 25 and 12 µm in A and B, respectively. C) UMAP of single-cell RNAseq data from five genetically distinct hPSC lines differentiated into hypothalamic neurons, separated by cells annotated as being in POMC (dark blue) or non-POMC (light blue) clusters. D,E) Expression of GLP1R mRNA in hPSC-derived hypothalamic neurons (UMI ≥ 1), color-coded by expression level (D) and quantified for POMC or SST cell clusters, and median expression across all cell clusters (E). F) UMAP with 66 annotated clusters from mouse single-cell and single-nucleus RNAseq data, with the arrowhead indicating the Pomc-expressing cell cluster. G,H) Expression of Glp1r mRNA in mouse hypothalamic neurons (UMI ≥ 1), color-coded by expression level (G) or quantified across Pomc or Sst clusters, or the median across all cell clusters.

    Journal: bioRxiv

    Article Title: GLP1R agonists activate human POMC neurons

    doi: 10.1101/2024.04.02.587825

    Figure Lengend Snippet: A,B) Hypothalamic cells differentiated from human pluripotent stem cells (hPSCs) contain a significant number of POMC neurons as visualized by immunostaining for aMSH (A) and in live cultures derived from a POMC-GFP reporter cell line (B). Scale bars represent 25 and 12 µm in A and B, respectively. C) UMAP of single-cell RNAseq data from five genetically distinct hPSC lines differentiated into hypothalamic neurons, separated by cells annotated as being in POMC (dark blue) or non-POMC (light blue) clusters. D,E) Expression of GLP1R mRNA in hPSC-derived hypothalamic neurons (UMI ≥ 1), color-coded by expression level (D) and quantified for POMC or SST cell clusters, and median expression across all cell clusters (E). F) UMAP with 66 annotated clusters from mouse single-cell and single-nucleus RNAseq data, with the arrowhead indicating the Pomc-expressing cell cluster. G,H) Expression of Glp1r mRNA in mouse hypothalamic neurons (UMI ≥ 1), color-coded by expression level (G) or quantified across Pomc or Sst clusters, or the median across all cell clusters.

    Article Snippet: To test for the transcriptional consequences of longer-term exposure to GLP1R agonists, HUES9-POMC-GFP hypothalamic cultures at 40 ± 2 days post-differentiation were cultured in N2B27 medium for 72 hours prior to treatment with vehicle (DMSO) or Semaglutide (2 µM, MedChem Express) in N2B27 medium for 20 hours.

    Techniques: Immunostaining, Derivative Assay, Expressing

    A) Photomicrographs from a POMC-GFP reporter cell line showing (from left to right) neuronal morphology in brightfield, baseline fluorescence from the Cal-590 AM calcium sensitive dye, endogenous GFP fluorescence from the reporter, and a merge of these images. B-D) Representative traces from single neurons in response to administration of 200 nM GLP-1 for two minutes showing no response (B), decreased fluorescence (C), a prolonged increase in fluorescence (D), where the Y axis represents ΔF/F 0 . E) Representative trace showing how GLP1R responsive cells were classified by calculating whether values for ΔF/F 0 taken in a baseline period were significantly different from those taken after GLP1R agonist administration. F) Plot of the significance of response probability (Y axis) versus the magnitude of response (ΔF/F 0 ), where GFP+ POMC neurons are plotted in green, and a cutoff of P<0.01 was used to assign cells into inhibited (blue), activated (red), and non-responsive (gray) categories. Significance was calculated by multiple paired t-test from 18 pre-stimulus and 18 post-stimulus fluorescence intensity values. G) Representative trace showing how the magnitude of response to GLP1R was calculated by taking the area under the curve (AUC) in three-minute time intervals before and after its administration. H) Summary of the activated and inhibited cell responses for GFP- and POMC neurons. Non-responsive neurons are not shown.

    Journal: bioRxiv

    Article Title: GLP1R agonists activate human POMC neurons

    doi: 10.1101/2024.04.02.587825

    Figure Lengend Snippet: A) Photomicrographs from a POMC-GFP reporter cell line showing (from left to right) neuronal morphology in brightfield, baseline fluorescence from the Cal-590 AM calcium sensitive dye, endogenous GFP fluorescence from the reporter, and a merge of these images. B-D) Representative traces from single neurons in response to administration of 200 nM GLP-1 for two minutes showing no response (B), decreased fluorescence (C), a prolonged increase in fluorescence (D), where the Y axis represents ΔF/F 0 . E) Representative trace showing how GLP1R responsive cells were classified by calculating whether values for ΔF/F 0 taken in a baseline period were significantly different from those taken after GLP1R agonist administration. F) Plot of the significance of response probability (Y axis) versus the magnitude of response (ΔF/F 0 ), where GFP+ POMC neurons are plotted in green, and a cutoff of P<0.01 was used to assign cells into inhibited (blue), activated (red), and non-responsive (gray) categories. Significance was calculated by multiple paired t-test from 18 pre-stimulus and 18 post-stimulus fluorescence intensity values. G) Representative trace showing how the magnitude of response to GLP1R was calculated by taking the area under the curve (AUC) in three-minute time intervals before and after its administration. H) Summary of the activated and inhibited cell responses for GFP- and POMC neurons. Non-responsive neurons are not shown.

    Article Snippet: To test for the transcriptional consequences of longer-term exposure to GLP1R agonists, HUES9-POMC-GFP hypothalamic cultures at 40 ± 2 days post-differentiation were cultured in N2B27 medium for 72 hours prior to treatment with vehicle (DMSO) or Semaglutide (2 µM, MedChem Express) in N2B27 medium for 20 hours.

    Techniques: Fluorescence

    A) Normalized expression levels (low to high = yellow to dark green) of candidate genes from scRNAseq data of hPSC-derived hypothalamic POMC neurons (top row), or non-POMC neurons (bottom row), where dot size indicates the fraction of cells in each population in which the candidate gene was detected (UMI ≥ 1). POMC , GLP1R , and CACNA1D are significantly enriched in POMC neurons. B) Table of voltage-gated calcium channel (VGCC) gene names, channel type, and the identity of drugs that selectively inhibit them. C) In a Semaglutide-activated cell, a cocktail of VGCC blockers abolishes agonist-induced fluorescence of the calcium indicator. D,E) Administration of the P/Q-type VGCC blocker ω-Agatoxin does not significantly decrease Semaglutide-induced calcium indicator fluorescence, as seen in a representative trace (D) and in a summary of all Semaglutide-activated cells (E). F,G) Panels as in D,E but with the T-type VGCC blocker TTA-P2. H,I) Panels as in D-G, but with the L-type VGCC blocker Benidipine, which abolished Semaglutide-induced calcium dye fluorescence, as observed with the drug cocktail in (C). J,K) Panels as in D-I, showing that the results from Benidipine (H,I) are replicated with Nifedipine, a second L-type calcium channel blocker. *p<0.05, **p<0.01, ***p<0.001 ****p<0.0001 by one-way ANOVA with repeated measures in E, G, I, K.

    Journal: bioRxiv

    Article Title: GLP1R agonists activate human POMC neurons

    doi: 10.1101/2024.04.02.587825

    Figure Lengend Snippet: A) Normalized expression levels (low to high = yellow to dark green) of candidate genes from scRNAseq data of hPSC-derived hypothalamic POMC neurons (top row), or non-POMC neurons (bottom row), where dot size indicates the fraction of cells in each population in which the candidate gene was detected (UMI ≥ 1). POMC , GLP1R , and CACNA1D are significantly enriched in POMC neurons. B) Table of voltage-gated calcium channel (VGCC) gene names, channel type, and the identity of drugs that selectively inhibit them. C) In a Semaglutide-activated cell, a cocktail of VGCC blockers abolishes agonist-induced fluorescence of the calcium indicator. D,E) Administration of the P/Q-type VGCC blocker ω-Agatoxin does not significantly decrease Semaglutide-induced calcium indicator fluorescence, as seen in a representative trace (D) and in a summary of all Semaglutide-activated cells (E). F,G) Panels as in D,E but with the T-type VGCC blocker TTA-P2. H,I) Panels as in D-G, but with the L-type VGCC blocker Benidipine, which abolished Semaglutide-induced calcium dye fluorescence, as observed with the drug cocktail in (C). J,K) Panels as in D-I, showing that the results from Benidipine (H,I) are replicated with Nifedipine, a second L-type calcium channel blocker. *p<0.05, **p<0.01, ***p<0.001 ****p<0.0001 by one-way ANOVA with repeated measures in E, G, I, K.

    Article Snippet: To test for the transcriptional consequences of longer-term exposure to GLP1R agonists, HUES9-POMC-GFP hypothalamic cultures at 40 ± 2 days post-differentiation were cultured in N2B27 medium for 72 hours prior to treatment with vehicle (DMSO) or Semaglutide (2 µM, MedChem Express) in N2B27 medium for 20 hours.

    Techniques: Expressing, Derivative Assay, Fluorescence

    GLP1R/GCGR in clinical development

    Journal: Indian Journal of Endocrinology and Metabolism

    Article Title: Approved and Emerging Hormone-Based Anti-Obesity Medications: A Review Article

    doi: 10.4103/ijem.ijem_442_23

    Figure Lengend Snippet: GLP1R/GCGR in clinical development

    Article Snippet: Cotadutide (MEDI0382) , AstraZeneca/Medimmune , GLP1R/GCGR dual agonist , Phase II (T2DM/Obesity) Phase II (T2DM) Phase II (T2DM) , • The daily injectable GLP1R/GCGR dual agonist, Cotadutide (MEDI0382), was being developed by AstraZeneca to treat T2DM, obesity, NAFLD, and NASH. Cotadutide exhibited a balanced agonist effect on the GLP1R and GCGR with a ratio of approximately 5:1 GLP1R to GCGR activity.[ ] .

    Techniques: Activity Assay, Clinical Proteomics, Control, Drug discovery, Expressing, Gene Expression

    GLP1R/GIPR dual agonists in clinical development

    Journal: Indian Journal of Endocrinology and Metabolism

    Article Title: Approved and Emerging Hormone-Based Anti-Obesity Medications: A Review Article

    doi: 10.4103/ijem.ijem_442_23

    Figure Lengend Snippet: GLP1R/GIPR dual agonists in clinical development

    Article Snippet: , , GLP1R/GIPR dual agonist , FDA/EMA approved (T2DM) Phase III (HF, SAS) Phase II (NASH) , • It is FDA/EMA approved for T2DM based on SURPASS trials.[ ] .

    Techniques: Drug discovery