epithelium medium Search Results


prebm prostate epithelium basal medium  (Lonza)
90
Lonza prebm prostate epithelium basal medium
Prebm Prostate Epithelium Basal Medium, supplied by Lonza, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/prebm prostate epithelium basal medium/product/Lonza
Average 90 stars, based on 1 article reviews
prebm prostate epithelium basal medium - by Bioz Stars, 2026-02
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sabm small airway epithelial cell growth basal medium cc-3119  (Lonza)
90
Lonza sabm small airway epithelial cell growth basal medium cc-3119
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Sabm Small Airway Epithelial Cell Growth Basal Medium Cc 3119, supplied by Lonza, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/sabm small airway epithelial cell growth basal medium cc-3119/product/Lonza
Average 90 stars, based on 1 article reviews
sabm small airway epithelial cell growth basal medium cc-3119 - by Bioz Stars, 2026-02
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mammary epithelium asal medium  (Lonza)
90
Lonza mammary epithelium asal medium
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Mammary Epithelium Asal Medium, supplied by Lonza, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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entero-stim intestinal epithelium differentiation medium  (Corning Life Sciences)
90
Corning Life Sciences entero-stim intestinal epithelium differentiation medium
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Entero Stim Intestinal Epithelium Differentiation Medium, supplied by Corning Life Sciences, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Average 90 stars, based on 1 article reviews
entero-stim intestinal epithelium differentiation medium - by Bioz Stars, 2026-02
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neal epithelium maintenance medium (cem) gent  (CEM Corporation)
90
CEM Corporation neal epithelium maintenance medium (cem) gent
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Neal Epithelium Maintenance Medium (Cem) Gent, supplied by CEM Corporation, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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phenol red-free medium mammary epithelium basal medium  (BioWhittaker Molecular Applications)
90
BioWhittaker Molecular Applications phenol red-free medium mammary epithelium basal medium
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Phenol Red Free Medium Mammary Epithelium Basal Medium, supplied by BioWhittaker Molecular Applications, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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mammary epithelium basal medium (mebm)  (iCell Bioscience Inc)
90
iCell Bioscience Inc mammary epithelium basal medium (mebm)
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Mammary Epithelium Basal Medium (Mebm), supplied by iCell Bioscience Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/mammary epithelium basal medium (mebm)/product/iCell Bioscience Inc
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mammary epithelium basal medium (mebm) - by Bioz Stars, 2026-02
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oral epithelium medium and supplements a, b and c  (CELLnTEC Advanced Cell Systems AG)
90
CELLnTEC Advanced Cell Systems AG oral epithelium medium and supplements a, b and c
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Oral Epithelium Medium And Supplements A, B And C, supplied by CELLnTEC Advanced Cell Systems AG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/oral epithelium medium and supplements a, b and c/product/CELLnTEC Advanced Cell Systems AG
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airway epithelium maintenance medium sagm  (STEMCELL Technologies Inc)
90
STEMCELL Technologies Inc airway epithelium maintenance medium sagm
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Airway Epithelium Maintenance Medium Sagm, supplied by STEMCELL Technologies Inc, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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airway epithelium maintenance medium sagm - by Bioz Stars, 2026-02
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mammary epithelium basal medium megm singlequots  (Lonza)
90
Lonza mammary epithelium basal medium megm singlequots
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Mammary Epithelium Basal Medium Megm Singlequots, supplied by Lonza, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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cloneticstm bronchial epithelium cell growth medium begm  (Lonza)
90
Lonza cloneticstm bronchial epithelium cell growth medium begm
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Cloneticstm Bronchial Epithelium Cell Growth Medium Begm, supplied by Lonza, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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corning® intestinal epithelium differentiation medium  (Corning Life Sciences)
90
Corning Life Sciences corning® intestinal epithelium differentiation medium
A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with <t>mouse</t> <t>lung</t> fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + <t>organoids,</t> showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.
Corning® Intestinal Epithelium Differentiation Medium, supplied by Corning Life Sciences, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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Image Search Results


A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with mouse lung fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + organoids, showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.

Journal: Nature Communications

Article Title: Alveolar epithelial progenitor cells require Nkx2-1 to maintain progenitor-specific epigenomic state during lung homeostasis and regeneration

doi: 10.1038/s41467-023-44184-0

Figure Lengend Snippet: A Schematic of experimental design and overview. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) were mixed with mouse lung fibroblasts from P28 mice and cultured for up to 35 days, followed by analysis via high content imaging. B H&E of 5 µm sections of FFPE day 35 Axin2 + organoids, showing cellular morphologies typical of both AT1 and AT2 cells. C – G Whole-mount immunofluorescence time course of Axin2 + organoids showing expansion of SFTPC + AT2 cells (red), increased differentiation into RAGE + AT1 cells (green) and increased structural complexity. H Imaris 3D reconstruction of day 35 Axin2 + organoid (z-depth = 174.13 µm) showing cellular arrangement/organization within mature organoids. I Click-iT EdU (green) whole-mount day 25 Axin2 + organoids, with proliferating cells primarily on outer edges or ‘buds’ growing outward from the organoid. J , K Electron microscopy of day 28 organoids. J Image of properly polarized AT2 cell with apical microvilli (black arrowhead) secreting surfactant (blue arrowhead) into a lumen. K Image of AT2 cell with lamellar bodies (black arrowhead) adjacent to an AT1 cell (green arrowhead, right). L , M Comparison of in vivo mouse lung (9-month C57BL/6J mouse) and in vitro day 25 Axin2 + organoids. Data throughout the figure represents at least 5 biological replicates with 3 technical replicates per experiment. [Scale bars = 50 µm, except for electron microscopy ( J , K ) scale bars = 2.5 µm]. (RAGE Receptor for Advanced Glycation End-products [AT1 cell marker], SFTPC Surfactant Protein C [AT2 cell marker], EdU 5-ethynyl-2’-deoxyuridine, FFPE formalin-fixed, paraffin-embedded). Schematics created with Biorender.com.

Article Snippet: To generate ‘spiked’ SAGM medium for mouse lung alveolar organoids, SABM Small Airway Epithelial Cell Growth Basal Medium (Lonza, CC-3119) was combined with the following additives: SAGM Small Airway Epithelial Cell Growth Medium SingleQuots Supplements and Growth Factors (using only the BPE [2 mL], Insulin [0.5 mL], Retinoic Acid [0.5 mL], Transferrin [0.5 mL], and hEGF [0.5 mL] aliquots) (Lonza, CC-4124), Heat Inactivated Fetal Bovine Serum (Corning, 35-011-CV, final concentration 5%), Antibiotic-Antimycotic (Gibco, 15240-062, final concentration 1x), Cholera Toxin from Vibrio cholerae (Sigma, C8052, final concentration 25 ng/mL).

Techniques: Cell Culture, Imaging, Immunofluorescence, Electron Microscopy, Comparison, In Vivo, In Vitro, Marker, Formalin-fixed Paraffin-Embedded

A AAV6.2FF-Cre experimental set-up. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) sorted from Axin2 creERT2-tdT ; R26R EYFP mice and Axin2 creERT2-tdT ; R26R EYFP ; Nkx2-1 fl/fl mice were treated with AAV6.2FF-Cre and plated with wild-type fibroblasts. B Comparison of brightfield and GFP whole-well images of organoids grown from control (AAV6.2FF-Cre-treated sorted R26R EYFP AEPs) and Nkx2-1 KO AEPs (AAV6.2FF-Cre-treated sorted R26R EYFP ; Nkx2-1 fl/fl AEPs) at day 28 of culture. Control (non-GFP) organoids with normal morphology are marked with a white asterisk. C – J H&E and immunofluorescence images of R26R EYFP ; Nkx2-1 fl/fl AEP-derived organoids that did ( F – J ) or did not ( C – E ) undergo recombination via AAV6.2FF-Cre. C – E Non-recombined organoids ( D ) express SPC (red) and Nkx2-1 (white) but do not express the YFP lineage label (green), whereas G recombined organoids do not express SPC or Nkx2-1 but do express the YFP lineage label. Non-recombined ( E ) and recombined ( H ) organoids maintain epithelial identity expressing CDH1. Nkx2-1 KO organoids express KRT8 and many proliferate and express Ki67 as late as day 40 of culture ( J - J ”). Data ( C – J ) represents 4 biological replicates with 3 technical replicates per experiment. K – R Integrated scRNAseq comparing epithelial cells from day 28 control organoids (Uninfected), AAV6.2FF-Cre-treated control organoids (AAV control), and AAV6.2FF-Cre-treated Nkx2-1 KO organoids (Nkx KO ). Nkx KO cells cluster separately from Uninfected and AAV control cells near Krt8 + cells ( K , L ), which make up a majority of cells in the Nkx KO condition ( M ). Marker genes for normal alveolar epithelium are lost and different markers gained ( N ) in Nkx KO . O – R Module scoring using published gene sets for AEPs ( O ), Krt8/PATS/DATP/ADI cells ( P ), lung cancer cells ( Q ), and foregut endoderm ( R ). Compare to Supplementary Fig. for marker gene analysis. [Scale bars = 50 µm]. Schematics created with Biorender.com.

Journal: Nature Communications

Article Title: Alveolar epithelial progenitor cells require Nkx2-1 to maintain progenitor-specific epigenomic state during lung homeostasis and regeneration

doi: 10.1038/s41467-023-44184-0

Figure Lengend Snippet: A AAV6.2FF-Cre experimental set-up. Live/CD31 − /CD45 − /CD326 + (EpCAM + )/TdTomato + (Axin2 + ) cells (AEPs) sorted from Axin2 creERT2-tdT ; R26R EYFP mice and Axin2 creERT2-tdT ; R26R EYFP ; Nkx2-1 fl/fl mice were treated with AAV6.2FF-Cre and plated with wild-type fibroblasts. B Comparison of brightfield and GFP whole-well images of organoids grown from control (AAV6.2FF-Cre-treated sorted R26R EYFP AEPs) and Nkx2-1 KO AEPs (AAV6.2FF-Cre-treated sorted R26R EYFP ; Nkx2-1 fl/fl AEPs) at day 28 of culture. Control (non-GFP) organoids with normal morphology are marked with a white asterisk. C – J H&E and immunofluorescence images of R26R EYFP ; Nkx2-1 fl/fl AEP-derived organoids that did ( F – J ) or did not ( C – E ) undergo recombination via AAV6.2FF-Cre. C – E Non-recombined organoids ( D ) express SPC (red) and Nkx2-1 (white) but do not express the YFP lineage label (green), whereas G recombined organoids do not express SPC or Nkx2-1 but do express the YFP lineage label. Non-recombined ( E ) and recombined ( H ) organoids maintain epithelial identity expressing CDH1. Nkx2-1 KO organoids express KRT8 and many proliferate and express Ki67 as late as day 40 of culture ( J - J ”). Data ( C – J ) represents 4 biological replicates with 3 technical replicates per experiment. K – R Integrated scRNAseq comparing epithelial cells from day 28 control organoids (Uninfected), AAV6.2FF-Cre-treated control organoids (AAV control), and AAV6.2FF-Cre-treated Nkx2-1 KO organoids (Nkx KO ). Nkx KO cells cluster separately from Uninfected and AAV control cells near Krt8 + cells ( K , L ), which make up a majority of cells in the Nkx KO condition ( M ). Marker genes for normal alveolar epithelium are lost and different markers gained ( N ) in Nkx KO . O – R Module scoring using published gene sets for AEPs ( O ), Krt8/PATS/DATP/ADI cells ( P ), lung cancer cells ( Q ), and foregut endoderm ( R ). Compare to Supplementary Fig. for marker gene analysis. [Scale bars = 50 µm]. Schematics created with Biorender.com.

Article Snippet: To generate ‘spiked’ SAGM medium for mouse lung alveolar organoids, SABM Small Airway Epithelial Cell Growth Basal Medium (Lonza, CC-3119) was combined with the following additives: SAGM Small Airway Epithelial Cell Growth Medium SingleQuots Supplements and Growth Factors (using only the BPE [2 mL], Insulin [0.5 mL], Retinoic Acid [0.5 mL], Transferrin [0.5 mL], and hEGF [0.5 mL] aliquots) (Lonza, CC-4124), Heat Inactivated Fetal Bovine Serum (Corning, 35-011-CV, final concentration 5%), Antibiotic-Antimycotic (Gibco, 15240-062, final concentration 1x), Cholera Toxin from Vibrio cholerae (Sigma, C8052, final concentration 25 ng/mL).

Techniques: Comparison, Control, Immunofluorescence, Derivative Assay, Expressing, Marker