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function-blocking rat monoclonal antibody dc101  (ImClone Inc)

 
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    ImClone Inc function-blocking rat monoclonal antibody dc101
    Function Blocking Rat Monoclonal Antibody Dc101, supplied by ImClone 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/function-blocking rat monoclonal antibody dc101/product/ImClone Inc
    Average 90 stars, based on 1 article reviews
    function-blocking rat monoclonal antibody dc101 - by Bioz Stars, 2026-05
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    Number and distribution of lymphatics in lung of pathogen-free mice. Lymphatics are stained for Prox1-EGFP immunoreactivity (green). Smooth muscle cells stained for αSMA (red) delineate the wall of airways and blood vessels. A: Overview of the distribution of lymphatics in the midportion of the left lung. Lymphatics encircle major bronchi and blood vessels and follow branches toward the lung perimeter. No lymphatics are present in the visceral pleura. Boxed regions in A are shown enlarged in B (A, middle box), C (A, top box), and E (A, bottom box) B: Smooth surfaced lymphatics on bronchus (Br) near the hilum. Typical of bronchi, bands of smooth muscle cells (αSMA, red) are oriented perpendicular to the airway axis. Also visible are small branches of the pulmonary artery (PA; arrows) and pulmonary vein (PV; arrowhead). C: Smooth surfaced lymphatics on a small branch of PV (arrowhead). Small branches of PA that lack lymphatics are also visible (arrows). D: Enlargement of boxed region in C showing the relationship of lymphatics (arrowhead) to smooth muscle of small PV (arrows). E: Lymphatics in distal lung on small branches of PV. F: Relative abundance of lymphatics around major bronchi, branches of PA and vein, and distal lung parenchyma in cross section (200 μm thick) of the mid region of the left lung. Dots show the mean area density of lymphatics marked by <t>VEGFR-3</t> staining in each mouse. Values for Br and pulmonary vessels are not significantly different from one another. ∗P < 0.05 between Br and pulmonary vessels (N = 13 to 15 mice per group). Scale bars: 200 μm (A–C and E); 50 μm (D).
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    Number and distribution of lymphatics in lung of pathogen-free mice. Lymphatics are stained for Prox1-EGFP immunoreactivity (green). Smooth muscle cells stained for αSMA (red) delineate the wall of airways and blood vessels. A: Overview of the distribution of lymphatics in the midportion of the left lung. Lymphatics encircle major bronchi and blood vessels and follow branches toward the lung perimeter. No lymphatics are present in the visceral pleura. Boxed regions in A are shown enlarged in B (A, middle box), C (A, top box), and E (A, bottom box) B: Smooth surfaced lymphatics on bronchus (Br) near the hilum. Typical of bronchi, bands of smooth muscle cells (αSMA, red) are oriented perpendicular to the airway axis. Also visible are small branches of the pulmonary artery (PA; arrows) and pulmonary vein (PV; arrowhead). C: Smooth surfaced lymphatics on a small branch of PV (arrowhead). Small branches of PA that lack lymphatics are also visible (arrows). D: Enlargement of boxed region in C showing the relationship of lymphatics (arrowhead) to smooth muscle of small PV (arrows). E: Lymphatics in distal lung on small branches of PV. F: Relative abundance of lymphatics around major bronchi, branches of PA and vein, and distal lung parenchyma in cross section (200 μm thick) of the mid region of the left lung. Dots show the mean area density of lymphatics marked by <t>VEGFR-3</t> staining in each mouse. Values for Br and pulmonary vessels are not significantly different from one another. ∗P < 0.05 between Br and pulmonary vessels (N = 13 to 15 mice per group). Scale bars: 200 μm (A–C and E); 50 μm (D).
    Anti Mouse Gal 3 Function Blocking Rat Monoclonal Antibody Clone M3/38, supplied by Santa Cruz Biotechnology, 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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    Number and distribution of lymphatics in lung of pathogen-free mice. Lymphatics are stained for Prox1-EGFP immunoreactivity (green). Smooth muscle cells stained for αSMA (red) delineate the wall of airways and blood vessels. A: Overview of the distribution of lymphatics in the midportion of the left lung. Lymphatics encircle major bronchi and blood vessels and follow branches toward the lung perimeter. No lymphatics are present in the visceral pleura. Boxed regions in A are shown enlarged in B (A, middle box), C (A, top box), and E (A, bottom box) B: Smooth surfaced lymphatics on bronchus (Br) near the hilum. Typical of bronchi, bands of smooth muscle cells (αSMA, red) are oriented perpendicular to the airway axis. Also visible are small branches of the pulmonary artery (PA; arrows) and pulmonary vein (PV; arrowhead). C: Smooth surfaced lymphatics on a small branch of PV (arrowhead). Small branches of PA that lack lymphatics are also visible (arrows). D: Enlargement of boxed region in C showing the relationship of lymphatics (arrowhead) to smooth muscle of small PV (arrows). E: Lymphatics in distal lung on small branches of PV. F: Relative abundance of lymphatics around major bronchi, branches of PA and vein, and distal lung parenchyma in cross section (200 μm thick) of the mid region of the left lung. Dots show the mean area density of lymphatics marked by <t>VEGFR-3</t> staining in each mouse. Values for Br and pulmonary vessels are not significantly different from one another. ∗P < 0.05 between Br and pulmonary vessels (N = 13 to 15 mice per group). Scale bars: 200 μm (A–C and E); 50 μm (D).
    Function Blocking Monoclonal Antibody Rat Icam 1, supplied by Millipore, 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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    Number and distribution of lymphatics in lung of pathogen-free mice. Lymphatics are stained for Prox1-EGFP immunoreactivity (green). Smooth muscle cells stained for αSMA (red) delineate the wall of airways and blood vessels. A: Overview of the distribution of lymphatics in the midportion of the left lung. Lymphatics encircle major bronchi and blood vessels and follow branches toward the lung perimeter. No lymphatics are present in the visceral pleura. Boxed regions in A are shown enlarged in B (A, middle box), C (A, top box), and E (A, bottom box) B: Smooth surfaced lymphatics on bronchus (Br) near the hilum. Typical of bronchi, bands of smooth muscle cells (αSMA, red) are oriented perpendicular to the airway axis. Also visible are small branches of the pulmonary artery (PA; arrows) and pulmonary vein (PV; arrowhead). C: Smooth surfaced lymphatics on a small branch of PV (arrowhead). Small branches of PA that lack lymphatics are also visible (arrows). D: Enlargement of boxed region in C showing the relationship of lymphatics (arrowhead) to smooth muscle of small PV (arrows). E: Lymphatics in distal lung on small branches of PV. F: Relative abundance of lymphatics around major bronchi, branches of PA and vein, and distal lung parenchyma in cross section (200 μm thick) of the mid region of the left lung. Dots show the mean area density of lymphatics marked by VEGFR-3 staining in each mouse. Values for Br and pulmonary vessels are not significantly different from one another. ∗P < 0.05 between Br and pulmonary vessels (N = 13 to 15 mice per group). Scale bars: 200 μm (A–C and E); 50 μm (D).

    Journal: The American Journal of Pathology

    Article Title: Preferential Lymphatic Growth in Bronchus-Associated Lymphoid Tissue in Sustained Lung Inflammation

    doi: 10.1016/j.ajpath.2014.01.021

    Figure Lengend Snippet: Number and distribution of lymphatics in lung of pathogen-free mice. Lymphatics are stained for Prox1-EGFP immunoreactivity (green). Smooth muscle cells stained for αSMA (red) delineate the wall of airways and blood vessels. A: Overview of the distribution of lymphatics in the midportion of the left lung. Lymphatics encircle major bronchi and blood vessels and follow branches toward the lung perimeter. No lymphatics are present in the visceral pleura. Boxed regions in A are shown enlarged in B (A, middle box), C (A, top box), and E (A, bottom box) B: Smooth surfaced lymphatics on bronchus (Br) near the hilum. Typical of bronchi, bands of smooth muscle cells (αSMA, red) are oriented perpendicular to the airway axis. Also visible are small branches of the pulmonary artery (PA; arrows) and pulmonary vein (PV; arrowhead). C: Smooth surfaced lymphatics on a small branch of PV (arrowhead). Small branches of PA that lack lymphatics are also visible (arrows). D: Enlargement of boxed region in C showing the relationship of lymphatics (arrowhead) to smooth muscle of small PV (arrows). E: Lymphatics in distal lung on small branches of PV. F: Relative abundance of lymphatics around major bronchi, branches of PA and vein, and distal lung parenchyma in cross section (200 μm thick) of the mid region of the left lung. Dots show the mean area density of lymphatics marked by VEGFR-3 staining in each mouse. Values for Br and pulmonary vessels are not significantly different from one another. ∗P < 0.05 between Br and pulmonary vessels (N = 13 to 15 mice per group). Scale bars: 200 μm (A–C and E); 50 μm (D).

    Article Snippet: Inhibition of VEGF-2 and/or VEGFR-3 Signaling Function-blocking rat monoclonal antibodies were used to block VEGFR-2 (clone DC101) and/or VEGFR-3 (clone mF4-31C1) (ImClone Systems, New York, NY).

    Techniques: Staining

    Expansion of lymphatic network in mouse lung after M. pulmonis infection. A: Overview of lymphatics in the midportion of the left lung near the hilum after infection for 28 days. Abundant lymphatics (Prox1-EGFP, green) found around major bronchus (Br), pulmonary artery (PA), and pulmonary vein (PV), shown by smooth muscle (αSMA, red) in the wall, but few lymphatics in the distal lung. Boxed regions are shown enlarged in C (A, lower box) and Supplemental Figure S2A (A, upper box). Comparison of few small lymphatics (Prox1-EGFP, green) on a pulmonary vein branch in lung of pathogen-free mouse (B) with abundant larger lymphatics on a pulmonary vein after infection for 28 days (C). Comparison of smooth surfaced lymphatic in lung of pathogen-free mouse (D) and lymphatics with sprouts (arrowheads) in lung after infection for 7 days (E). Lymphatics shown by VEGFR-3 immunoreactivity (green). Comparison of few lymphatics (Prox1-EGFP, green) in the narrow space around Br and PA of lung of pathogen-free mouse (F) with abundant lymphatics in cuff of lymphoid tissue around pulmonary artery and bronchus after infection for 28 days (G). Region of lymphatics in lymphoid tissue is sharply demarcated from surrounding lung parenchyma with type 1 alveolar epithelial cells shown by aquaporin-5 immunoreactivity (red). H: Time course of expansion of lymphatic network in left lung from pathogen-free state (0) to 7, 14, and 28 days after infection. Each red dot represents the average value for lymphatics near bronchi, pulmonary arteries, and pulmonary veins in each mouse at one time point. Mean values after infection are significantly different from baseline (∗P < 0.05). Blue dots are corresponding values for lung parenchyma, which are significantly less than red values but not different from one another (N = 4 to 15 mice per group). I: Cells with VEGF-C immunoreactivity (red, arrows) near lymphatics (Prox1-EGFP, green) in BALT around PA after infection for 7 days. J: Higher-magnification view of I showing the distribution of cells in which staining for VEGF-C (red) and CD45 (green) are colocalized (orange, arrows). Scale bars: 200 μm (A, F, and G); 50 μm (B–E and I); 20 μm (J). Br, bronchi; PA, pulmonary artery.

    Journal: The American Journal of Pathology

    Article Title: Preferential Lymphatic Growth in Bronchus-Associated Lymphoid Tissue in Sustained Lung Inflammation

    doi: 10.1016/j.ajpath.2014.01.021

    Figure Lengend Snippet: Expansion of lymphatic network in mouse lung after M. pulmonis infection. A: Overview of lymphatics in the midportion of the left lung near the hilum after infection for 28 days. Abundant lymphatics (Prox1-EGFP, green) found around major bronchus (Br), pulmonary artery (PA), and pulmonary vein (PV), shown by smooth muscle (αSMA, red) in the wall, but few lymphatics in the distal lung. Boxed regions are shown enlarged in C (A, lower box) and Supplemental Figure S2A (A, upper box). Comparison of few small lymphatics (Prox1-EGFP, green) on a pulmonary vein branch in lung of pathogen-free mouse (B) with abundant larger lymphatics on a pulmonary vein after infection for 28 days (C). Comparison of smooth surfaced lymphatic in lung of pathogen-free mouse (D) and lymphatics with sprouts (arrowheads) in lung after infection for 7 days (E). Lymphatics shown by VEGFR-3 immunoreactivity (green). Comparison of few lymphatics (Prox1-EGFP, green) in the narrow space around Br and PA of lung of pathogen-free mouse (F) with abundant lymphatics in cuff of lymphoid tissue around pulmonary artery and bronchus after infection for 28 days (G). Region of lymphatics in lymphoid tissue is sharply demarcated from surrounding lung parenchyma with type 1 alveolar epithelial cells shown by aquaporin-5 immunoreactivity (red). H: Time course of expansion of lymphatic network in left lung from pathogen-free state (0) to 7, 14, and 28 days after infection. Each red dot represents the average value for lymphatics near bronchi, pulmonary arteries, and pulmonary veins in each mouse at one time point. Mean values after infection are significantly different from baseline (∗P < 0.05). Blue dots are corresponding values for lung parenchyma, which are significantly less than red values but not different from one another (N = 4 to 15 mice per group). I: Cells with VEGF-C immunoreactivity (red, arrows) near lymphatics (Prox1-EGFP, green) in BALT around PA after infection for 7 days. J: Higher-magnification view of I showing the distribution of cells in which staining for VEGF-C (red) and CD45 (green) are colocalized (orange, arrows). Scale bars: 200 μm (A, F, and G); 50 μm (B–E and I); 20 μm (J). Br, bronchi; PA, pulmonary artery.

    Article Snippet: Inhibition of VEGF-2 and/or VEGFR-3 Signaling Function-blocking rat monoclonal antibodies were used to block VEGFR-2 (clone DC101) and/or VEGFR-3 (clone mF4-31C1) (ImClone Systems, New York, NY).

    Techniques: Infection, Staining

    Effect of treatment of mice with control IgG or function-blocking antibodies to VEGFR-2 (DC101) and/or VEGFR-3 (mF4-31C1) on lymphangiogenesis and angiogenesis in lung during M. pulmonis infection for 14 days. Pathogen-free controls had no treatment. A–E: Lymphatics around bronchus (Br), pulmonary artery (PA), or pulmonary vein (PV) near hilum. Lung sections stained for VEGFR-3 (red) and αSMA (green). A: Sparse lymphatics in pathogen-free mouse. B: Abundant lymphatics in infected mouse treated with control IgG. C: Abundant lymphatics in infected mouse treated with anti–VEGFR-2. D: Sparse lymphatics in infected mouse treated with anti–VEGFR-3. E: Sparse lymphatics in infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3. F: Relative abundance of lymphatics in lung of pathogen-free mice and infected mice treated with VEGFR blocking antibodies. Red dots represent average value for lymphatics around bronchus, pulmonary artery, and pulmonary vein in each mouse. Blue dots represent corresponding values for lung parenchyma. ∗P < 0.05 compared to baseline; †P < 0.05 compared to infected mice treated with control IgG. No significant differences among lung parenchyma groups (N = 5 to 11 mice per group). G: H&E-stained section of left lung of infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3 showing BALT with lymphoid follicle (arrow) around Br and PA. H: Amount of BALT, expressed as percentage of total lung area, measured in H&E-stained lung sections of pathogen-free mice and infected mice treated with VEGFR blocking antibodies. BALT was not present in lungs of pathogen-free mice. Significantly different from pathogen-free group (∗P < 0.05), but no significant difference was found among the treatment groups (N = 5 to 8 mice per group). I: Bronchial lymph node wet weight in pathogen-free mice and infected mice treated with VEGFR blocking antibodies. Significantly different from pathogen-free group (∗P < 0.05) or other groups of infected mice (†P < 0.05) (N = 5 to 11 mice per group). J and K: Blood vessels (PECAM-1, green) and leukocytes (CD45, red) in BALT near bronchus. Infected mouse treated with control IgG. J: BALT contains abundant leukocytes, blood capillaries (arrowheads), and HEVs (arrow). Infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3. K: BALT has fewer blood capillaries (arrowhead), but larger blood vessels (HEVs, arrow) are still present.

    Journal: The American Journal of Pathology

    Article Title: Preferential Lymphatic Growth in Bronchus-Associated Lymphoid Tissue in Sustained Lung Inflammation

    doi: 10.1016/j.ajpath.2014.01.021

    Figure Lengend Snippet: Effect of treatment of mice with control IgG or function-blocking antibodies to VEGFR-2 (DC101) and/or VEGFR-3 (mF4-31C1) on lymphangiogenesis and angiogenesis in lung during M. pulmonis infection for 14 days. Pathogen-free controls had no treatment. A–E: Lymphatics around bronchus (Br), pulmonary artery (PA), or pulmonary vein (PV) near hilum. Lung sections stained for VEGFR-3 (red) and αSMA (green). A: Sparse lymphatics in pathogen-free mouse. B: Abundant lymphatics in infected mouse treated with control IgG. C: Abundant lymphatics in infected mouse treated with anti–VEGFR-2. D: Sparse lymphatics in infected mouse treated with anti–VEGFR-3. E: Sparse lymphatics in infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3. F: Relative abundance of lymphatics in lung of pathogen-free mice and infected mice treated with VEGFR blocking antibodies. Red dots represent average value for lymphatics around bronchus, pulmonary artery, and pulmonary vein in each mouse. Blue dots represent corresponding values for lung parenchyma. ∗P < 0.05 compared to baseline; †P < 0.05 compared to infected mice treated with control IgG. No significant differences among lung parenchyma groups (N = 5 to 11 mice per group). G: H&E-stained section of left lung of infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3 showing BALT with lymphoid follicle (arrow) around Br and PA. H: Amount of BALT, expressed as percentage of total lung area, measured in H&E-stained lung sections of pathogen-free mice and infected mice treated with VEGFR blocking antibodies. BALT was not present in lungs of pathogen-free mice. Significantly different from pathogen-free group (∗P < 0.05), but no significant difference was found among the treatment groups (N = 5 to 8 mice per group). I: Bronchial lymph node wet weight in pathogen-free mice and infected mice treated with VEGFR blocking antibodies. Significantly different from pathogen-free group (∗P < 0.05) or other groups of infected mice (†P < 0.05) (N = 5 to 11 mice per group). J and K: Blood vessels (PECAM-1, green) and leukocytes (CD45, red) in BALT near bronchus. Infected mouse treated with control IgG. J: BALT contains abundant leukocytes, blood capillaries (arrowheads), and HEVs (arrow). Infected mouse treated with anti–VEGFR-2 and anti–VEGFR-3. K: BALT has fewer blood capillaries (arrowhead), but larger blood vessels (HEVs, arrow) are still present.

    Article Snippet: Inhibition of VEGF-2 and/or VEGFR-3 Signaling Function-blocking rat monoclonal antibodies were used to block VEGFR-2 (clone DC101) and/or VEGFR-3 (clone mF4-31C1) (ImClone Systems, New York, NY).

    Techniques: Blocking Assay, Infection, Staining

    Reversibility of BALT formation, but not lymphangiogenesis, after M. pulmonis infection. H&E-stained sections of mouse left lung comparing pathogen-free state (A), infection for 14 days (B), infection for 28 days with vehicle treatment during final 14 days (C), and infection for 28 days with antibiotic (oxytetracycline) during final 14 days (D). BALT is abundant around bronchus (Br) and pulmonary artery (PA) in infected mice, except in antibiotic-treated group. Confocal microscopic images of lungs under same conditions as in A to D comparing the sparse lymphatics (VEGFR-3, red) around major Br and PA in pathogen-free lung (E) with the abundant lymphatics after infection, where lymphatics are similarly numerous in all infected groups (F–H). I: Percentage of lung sectional area occupied by BALT under same conditions as in A to D. J: Area density of lung lymphatics shown by VEGFR-3 immunoreactivity around major bronchi and pulmonary vessels under same conditions as in A to D. Values are greater after infection and not reduced by antibiotic (Oxy) during final 14 days of 28-day infection. K: Bronchial lymph node weight under same conditions as in A to D. N = 4 to 5 mice per group. ∗P < 0.05 from pathogen-free group, †P < 0.05 from 28-day infection with vehicle (Veh) treatment.

    Journal: The American Journal of Pathology

    Article Title: Preferential Lymphatic Growth in Bronchus-Associated Lymphoid Tissue in Sustained Lung Inflammation

    doi: 10.1016/j.ajpath.2014.01.021

    Figure Lengend Snippet: Reversibility of BALT formation, but not lymphangiogenesis, after M. pulmonis infection. H&E-stained sections of mouse left lung comparing pathogen-free state (A), infection for 14 days (B), infection for 28 days with vehicle treatment during final 14 days (C), and infection for 28 days with antibiotic (oxytetracycline) during final 14 days (D). BALT is abundant around bronchus (Br) and pulmonary artery (PA) in infected mice, except in antibiotic-treated group. Confocal microscopic images of lungs under same conditions as in A to D comparing the sparse lymphatics (VEGFR-3, red) around major Br and PA in pathogen-free lung (E) with the abundant lymphatics after infection, where lymphatics are similarly numerous in all infected groups (F–H). I: Percentage of lung sectional area occupied by BALT under same conditions as in A to D. J: Area density of lung lymphatics shown by VEGFR-3 immunoreactivity around major bronchi and pulmonary vessels under same conditions as in A to D. Values are greater after infection and not reduced by antibiotic (Oxy) during final 14 days of 28-day infection. K: Bronchial lymph node weight under same conditions as in A to D. N = 4 to 5 mice per group. ∗P < 0.05 from pathogen-free group, †P < 0.05 from 28-day infection with vehicle (Veh) treatment.

    Article Snippet: Inhibition of VEGF-2 and/or VEGFR-3 Signaling Function-blocking rat monoclonal antibodies were used to block VEGFR-2 (clone DC101) and/or VEGFR-3 (clone mF4-31C1) (ImClone Systems, New York, NY).

    Techniques: Infection, Staining