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mouse complement c3  (MedChemExpress)


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    MedChemExpress mouse complement c3
    Schematic illustration of in vivo tumor immunotherapy enhanced by mRNA/HNPs through intravenous injection. H18 lipid, DOPE, cholesterol, DMG-PEG 2000 and mRNA were mixed to form mRNA/H 18 NPs with the special multilamellar concentric nanostructures. Following intravenous administration, mRNA/H 18 NPs demonstrated preferential adsorption of <t>complement</t> <t>C3</t> proteins to form a characteristic protein corona, resulting in specific mRNA transfection in the spleen, especially in splenic dendritic cells. When encapsulating tumor antigen-encoding mRNA, the mRNA/H 18 NPs achieved precise transfection of the antigen mRNA in splenic dendritic cells. This targeted delivery stimulated dendritic cell maturation and subsequent antigen presentation, initiating robust T cell priming. The activated antigen-specific cytotoxic T lymphocytes then infiltrated into tumor tissues, ultimately inducing tumor cell elimination.
    Mouse Complement C3, supplied by MedChemExpress, used in various techniques. Bioz Stars score: 94/100, based on 2 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
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    mouse complement c3 - by Bioz Stars, 2026-05
    94/100 stars

    Images

    1) Product Images from "Splenic dendritic cell-targeting mRNA transfection of H-type ionizable lipid-based LNPs for enhancing tumor immunotherapy"

    Article Title: Splenic dendritic cell-targeting mRNA transfection of H-type ionizable lipid-based LNPs for enhancing tumor immunotherapy

    Journal: Bioactive Materials

    doi: 10.1016/j.bioactmat.2026.02.018

    Schematic illustration of in vivo tumor immunotherapy enhanced by mRNA/HNPs through intravenous injection. H18 lipid, DOPE, cholesterol, DMG-PEG 2000 and mRNA were mixed to form mRNA/H 18 NPs with the special multilamellar concentric nanostructures. Following intravenous administration, mRNA/H 18 NPs demonstrated preferential adsorption of complement C3 proteins to form a characteristic protein corona, resulting in specific mRNA transfection in the spleen, especially in splenic dendritic cells. When encapsulating tumor antigen-encoding mRNA, the mRNA/H 18 NPs achieved precise transfection of the antigen mRNA in splenic dendritic cells. This targeted delivery stimulated dendritic cell maturation and subsequent antigen presentation, initiating robust T cell priming. The activated antigen-specific cytotoxic T lymphocytes then infiltrated into tumor tissues, ultimately inducing tumor cell elimination.
    Figure Legend Snippet: Schematic illustration of in vivo tumor immunotherapy enhanced by mRNA/HNPs through intravenous injection. H18 lipid, DOPE, cholesterol, DMG-PEG 2000 and mRNA were mixed to form mRNA/H 18 NPs with the special multilamellar concentric nanostructures. Following intravenous administration, mRNA/H 18 NPs demonstrated preferential adsorption of complement C3 proteins to form a characteristic protein corona, resulting in specific mRNA transfection in the spleen, especially in splenic dendritic cells. When encapsulating tumor antigen-encoding mRNA, the mRNA/H 18 NPs achieved precise transfection of the antigen mRNA in splenic dendritic cells. This targeted delivery stimulated dendritic cell maturation and subsequent antigen presentation, initiating robust T cell priming. The activated antigen-specific cytotoxic T lymphocytes then infiltrated into tumor tissues, ultimately inducing tumor cell elimination.

    Techniques Used: In Vivo, Injection, Adsorption, Transfection, Immunopeptidomics

    In vivo splenic DC-specific transfection of mRNA/H 18 NPs and in vitro protein corona analysis of mRNA/H 18 NPs. (A) EGFP protein expression in splenic cell subsets of C57BL/6J mice 24 h post intravenous injection of different formulations. (B) The top 5 most abundant plasma proteins adsorbed on mRNA/H 18 NPs (C3: Complement C3; Ighm: Immunoglobulin heavy constant mu; Hbat1: Alpha-globin; Itih4: Inter alpha-trypsin inhibitor, heavy chain 4; Cnn2: Calponin). (C) Heatmap plot of major proteins in the protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. PBS group was used as a negative control. (D) Quantification of major adsorbed protein categories of different formulations. (E) Complement C3 abundance in protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. (F) Bioluminescence images of major organs and (G) Quantification of total bioluminescence flux in the spleen from C57BL/6J mice 6 h after intravenous injection of mLuc/H 18 NPs (mLuc dose of 0.25 mg kg −1 ). Mice were pre-treated with cobra venom factor (CVF) or PBS. (H) Fluorescence quantification of Cy5 mRNA delivered by uncoated or complement C3-coated Cy5-mRNA/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. (I) Bioluminescence intensity of luciferase protein translated from mRNA delivered by uncoated or complement C3-coated mLuc/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. Data were shown as mean ± SD (n = 3).
    Figure Legend Snippet: In vivo splenic DC-specific transfection of mRNA/H 18 NPs and in vitro protein corona analysis of mRNA/H 18 NPs. (A) EGFP protein expression in splenic cell subsets of C57BL/6J mice 24 h post intravenous injection of different formulations. (B) The top 5 most abundant plasma proteins adsorbed on mRNA/H 18 NPs (C3: Complement C3; Ighm: Immunoglobulin heavy constant mu; Hbat1: Alpha-globin; Itih4: Inter alpha-trypsin inhibitor, heavy chain 4; Cnn2: Calponin). (C) Heatmap plot of major proteins in the protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. PBS group was used as a negative control. (D) Quantification of major adsorbed protein categories of different formulations. (E) Complement C3 abundance in protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. (F) Bioluminescence images of major organs and (G) Quantification of total bioluminescence flux in the spleen from C57BL/6J mice 6 h after intravenous injection of mLuc/H 18 NPs (mLuc dose of 0.25 mg kg −1 ). Mice were pre-treated with cobra venom factor (CVF) or PBS. (H) Fluorescence quantification of Cy5 mRNA delivered by uncoated or complement C3-coated Cy5-mRNA/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. (I) Bioluminescence intensity of luciferase protein translated from mRNA delivered by uncoated or complement C3-coated mLuc/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. Data were shown as mean ± SD (n = 3).

    Techniques Used: In Vivo, Transfection, In Vitro, Expressing, Injection, Clinical Proteomics, Negative Control, Combined Bisulfite Restriction Analysis Assay, Fluorescence, Incubation, Blocking Assay, Luciferase



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    Image Search Results


    Schematic illustration of in vivo tumor immunotherapy enhanced by mRNA/HNPs through intravenous injection. H18 lipid, DOPE, cholesterol, DMG-PEG 2000 and mRNA were mixed to form mRNA/H 18 NPs with the special multilamellar concentric nanostructures. Following intravenous administration, mRNA/H 18 NPs demonstrated preferential adsorption of complement C3 proteins to form a characteristic protein corona, resulting in specific mRNA transfection in the spleen, especially in splenic dendritic cells. When encapsulating tumor antigen-encoding mRNA, the mRNA/H 18 NPs achieved precise transfection of the antigen mRNA in splenic dendritic cells. This targeted delivery stimulated dendritic cell maturation and subsequent antigen presentation, initiating robust T cell priming. The activated antigen-specific cytotoxic T lymphocytes then infiltrated into tumor tissues, ultimately inducing tumor cell elimination.

    Journal: Bioactive Materials

    Article Title: Splenic dendritic cell-targeting mRNA transfection of H-type ionizable lipid-based LNPs for enhancing tumor immunotherapy

    doi: 10.1016/j.bioactmat.2026.02.018

    Figure Lengend Snippet: Schematic illustration of in vivo tumor immunotherapy enhanced by mRNA/HNPs through intravenous injection. H18 lipid, DOPE, cholesterol, DMG-PEG 2000 and mRNA were mixed to form mRNA/H 18 NPs with the special multilamellar concentric nanostructures. Following intravenous administration, mRNA/H 18 NPs demonstrated preferential adsorption of complement C3 proteins to form a characteristic protein corona, resulting in specific mRNA transfection in the spleen, especially in splenic dendritic cells. When encapsulating tumor antigen-encoding mRNA, the mRNA/H 18 NPs achieved precise transfection of the antigen mRNA in splenic dendritic cells. This targeted delivery stimulated dendritic cell maturation and subsequent antigen presentation, initiating robust T cell priming. The activated antigen-specific cytotoxic T lymphocytes then infiltrated into tumor tissues, ultimately inducing tumor cell elimination.

    Article Snippet: Mouse Complement C3 was purchased from MedChemExpress.

    Techniques: In Vivo, Injection, Adsorption, Transfection, Immunopeptidomics

    In vivo splenic DC-specific transfection of mRNA/H 18 NPs and in vitro protein corona analysis of mRNA/H 18 NPs. (A) EGFP protein expression in splenic cell subsets of C57BL/6J mice 24 h post intravenous injection of different formulations. (B) The top 5 most abundant plasma proteins adsorbed on mRNA/H 18 NPs (C3: Complement C3; Ighm: Immunoglobulin heavy constant mu; Hbat1: Alpha-globin; Itih4: Inter alpha-trypsin inhibitor, heavy chain 4; Cnn2: Calponin). (C) Heatmap plot of major proteins in the protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. PBS group was used as a negative control. (D) Quantification of major adsorbed protein categories of different formulations. (E) Complement C3 abundance in protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. (F) Bioluminescence images of major organs and (G) Quantification of total bioluminescence flux in the spleen from C57BL/6J mice 6 h after intravenous injection of mLuc/H 18 NPs (mLuc dose of 0.25 mg kg −1 ). Mice were pre-treated with cobra venom factor (CVF) or PBS. (H) Fluorescence quantification of Cy5 mRNA delivered by uncoated or complement C3-coated Cy5-mRNA/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. (I) Bioluminescence intensity of luciferase protein translated from mRNA delivered by uncoated or complement C3-coated mLuc/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. Data were shown as mean ± SD (n = 3).

    Journal: Bioactive Materials

    Article Title: Splenic dendritic cell-targeting mRNA transfection of H-type ionizable lipid-based LNPs for enhancing tumor immunotherapy

    doi: 10.1016/j.bioactmat.2026.02.018

    Figure Lengend Snippet: In vivo splenic DC-specific transfection of mRNA/H 18 NPs and in vitro protein corona analysis of mRNA/H 18 NPs. (A) EGFP protein expression in splenic cell subsets of C57BL/6J mice 24 h post intravenous injection of different formulations. (B) The top 5 most abundant plasma proteins adsorbed on mRNA/H 18 NPs (C3: Complement C3; Ighm: Immunoglobulin heavy constant mu; Hbat1: Alpha-globin; Itih4: Inter alpha-trypsin inhibitor, heavy chain 4; Cnn2: Calponin). (C) Heatmap plot of major proteins in the protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. PBS group was used as a negative control. (D) Quantification of major adsorbed protein categories of different formulations. (E) Complement C3 abundance in protein corona adsorbed on mRNA/MC3-LNPs and mRNA/H 18 NPs. (F) Bioluminescence images of major organs and (G) Quantification of total bioluminescence flux in the spleen from C57BL/6J mice 6 h after intravenous injection of mLuc/H 18 NPs (mLuc dose of 0.25 mg kg −1 ). Mice were pre-treated with cobra venom factor (CVF) or PBS. (H) Fluorescence quantification of Cy5 mRNA delivered by uncoated or complement C3-coated Cy5-mRNA/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. (I) Bioluminescence intensity of luciferase protein translated from mRNA delivered by uncoated or complement C3-coated mLuc/H 18 NPs in BMDCs. BMDCs were pre-incubated with anti-CD11b (CR3) or anti-IgG blocking antibody. Data were shown as mean ± SD (n = 3).

    Article Snippet: Mouse Complement C3 was purchased from MedChemExpress.

    Techniques: In Vivo, Transfection, In Vitro, Expressing, Injection, Clinical Proteomics, Negative Control, Combined Bisulfite Restriction Analysis Assay, Fluorescence, Incubation, Blocking Assay, Luciferase

    (A) The impact of OMVs on germicidal activity of serum against YeO3‐c bacteria. The influence of OMVs‐associated with: LPS polysaccharide chain length (a) and pYV‐coded factors (b). Data from one of at least two experiments with the use of separately prepared culture supernatants with similar results are presented. 1 sterile cell culture supernatants (secreted by bacteria grown to OD 600 = 0.6) were used as a source of OMVs; 2 expression at 37°C only; 3 NHS inactivated 30 min at 56°C. (B) Y. enterocolitica O:3 OMV‐induced complement activation in the presence of calcium and magnesium chelators. ELISA plates were coated with 10 8 of OMVs secreted by YeS‐c bacteria grown at 4°C, 22°C and 37°C and with OMVs of YeRa‐c, YeRd1‐c and YeRe‐c variants propagated at 37°C. After incubation with/without EDTA, EGTA or EGTA/Mg 2+ (EGTA supplemented with Mg 2+ ions), products of C3 activation were detected with specific antibodies. Data from one of two experiments with similar results are presented. (C) Comparison of complement activation and MBL binding by Yersinia enterocolitica O:3 bacterial cells, LPS and OMVs. ELISA plates were coated with 50 ng/well of bacteria, LPS or OMVs. The deposition of C3 (a, possible AP, CP and LP involvement), C4 (b, possible CP and LP involvement) or C4 LP‐dependent (d) activation products, TCC formation (c, possible AP, CP and LP involvement) and MBL‐binding (e) was analyzed after preincubation with normal human serum (filled columns) or with EDTA‐treated NHS (stripped columns) or without serum (open columns, negative control). Data from one of two experiments with similar results are presented. Dots represent individual OD values for each well. (D) Recognition of Y. enterocolitica O:3 OMVs by human mannose‐binding lectin. YeS‐c_37°C bacteria (1), OMVs (2) and LPS (3) were separated in SDS‐PAGE. After transfer to nitrocellulose and incubation with NHS, the bound MBL was detected with specific mAb (a). The experiment was performed at least 5 times. To control the loading of bacteria, LPS or OMVs the presence of OPS in separated samples was confirmed with anti‐6‐deoxy‐L‐altropyranose mAbs (b).

    Journal: Journal of Extracellular Vesicles

    Article Title: Yersinia enterocolitica O:3 Outer Membrane Vesicles as a Platform for Complement Activation

    doi: 10.1002/jev2.70270

    Figure Lengend Snippet: (A) The impact of OMVs on germicidal activity of serum against YeO3‐c bacteria. The influence of OMVs‐associated with: LPS polysaccharide chain length (a) and pYV‐coded factors (b). Data from one of at least two experiments with the use of separately prepared culture supernatants with similar results are presented. 1 sterile cell culture supernatants (secreted by bacteria grown to OD 600 = 0.6) were used as a source of OMVs; 2 expression at 37°C only; 3 NHS inactivated 30 min at 56°C. (B) Y. enterocolitica O:3 OMV‐induced complement activation in the presence of calcium and magnesium chelators. ELISA plates were coated with 10 8 of OMVs secreted by YeS‐c bacteria grown at 4°C, 22°C and 37°C and with OMVs of YeRa‐c, YeRd1‐c and YeRe‐c variants propagated at 37°C. After incubation with/without EDTA, EGTA or EGTA/Mg 2+ (EGTA supplemented with Mg 2+ ions), products of C3 activation were detected with specific antibodies. Data from one of two experiments with similar results are presented. (C) Comparison of complement activation and MBL binding by Yersinia enterocolitica O:3 bacterial cells, LPS and OMVs. ELISA plates were coated with 50 ng/well of bacteria, LPS or OMVs. The deposition of C3 (a, possible AP, CP and LP involvement), C4 (b, possible CP and LP involvement) or C4 LP‐dependent (d) activation products, TCC formation (c, possible AP, CP and LP involvement) and MBL‐binding (e) was analyzed after preincubation with normal human serum (filled columns) or with EDTA‐treated NHS (stripped columns) or without serum (open columns, negative control). Data from one of two experiments with similar results are presented. Dots represent individual OD values for each well. (D) Recognition of Y. enterocolitica O:3 OMVs by human mannose‐binding lectin. YeS‐c_37°C bacteria (1), OMVs (2) and LPS (3) were separated in SDS‐PAGE. After transfer to nitrocellulose and incubation with NHS, the bound MBL was detected with specific mAb (a). The experiment was performed at least 5 times. To control the loading of bacteria, LPS or OMVs the presence of OPS in separated samples was confirmed with anti‐6‐deoxy‐L‐altropyranose mAbs (b).

    Article Snippet: Depletion of functional C3 from serum was verified in Western blot [acc. to Younger et al. ( )], using goat antibodies against mouse C3 (MP Biomedicals, USA), HRP‐conjugated anti‐goat Ig (Dako) for detection of intact C3 α‐chain and ECL detection system.

    Techniques: Activity Assay, Bacteria, Sterility, Cell Culture, Expressing, Activation Assay, Enzyme-linked Immunosorbent Assay, Incubation, Comparison, Binding Assay, Negative Control, SDS Page, Control

    The requirement of the complement system for Ficolin-A-based immunity. A. The contribution of C3 to hepatic clearance of Spn-19F . Bacteria in the blood (left) and liver/spleen (right) of C3 -/- mice were quantified post i.v. infection with 10 6 (left) or 10 7 CFU (right). n = 3. B. The role of C3 receptors to hepatic clearance of Spn-19F . CRIg -/- , CR3 -/- and CRIg / CR3 -/- mice were infected with 10 6 (left) or 10 7 CFU (right) to quantify bacteria as in (A). n = 3. C. The role of the lectin pathway in hepatic clearance of Spn-19F . Masp1 -/- and Masp2 -/- mice were infected with 10 6 (left) or 10 7 CFU (right) to quantify bacteria as in (A). n = 3. D. Visualization of bacterial capture by KCs of complement-deficient mice. The liver sinusoids of C3 -/- , CRIg / CR3 -/- and Masp2 -/- mice were imaged by intravital microscopy as in 2D. n = 2. E. Complement-dependent bacterial capture by KCs in vitro . Primary mouse KCs were incubated with Spn- 19F in the presence of 10% serum for 30 min. Spn- 14 was used as a negative control. KC-bound bacteria are presented as the percentage of total bacteria. MOI = 1; n = 3-6. F. The importance of the complement system in the protection against Spn- 19F. Various complement-deficient mice were i.v. infected with 10 6 CFU of Spn- 19F and the survival is presented. n = 5. G. The model for the FCN-A-triggered complement-dependent and -independent pathways for bacterial capture by liver macrophages. FCN-A activates C3 on bacterial surface upon binding to the capsule through the lectin pathway. The representative data are presented as mean ± SD, and the statistical differences were determined by Two-way ANOVA with Tukey’s multiple comparisons test (A-C), multiple t tests (D and E) and log-rank test (F). **, P < 0.01; ****, P < 0.0001; ns, no significant difference.

    Journal: bioRxiv

    Article Title: Plasma Ficolins Enable Liver Macrophages to Capture Blood-Borne Bacteria by Recognizing Capsular Polysaccharides

    doi: 10.64898/2025.12.22.696098

    Figure Lengend Snippet: The requirement of the complement system for Ficolin-A-based immunity. A. The contribution of C3 to hepatic clearance of Spn-19F . Bacteria in the blood (left) and liver/spleen (right) of C3 -/- mice were quantified post i.v. infection with 10 6 (left) or 10 7 CFU (right). n = 3. B. The role of C3 receptors to hepatic clearance of Spn-19F . CRIg -/- , CR3 -/- and CRIg / CR3 -/- mice were infected with 10 6 (left) or 10 7 CFU (right) to quantify bacteria as in (A). n = 3. C. The role of the lectin pathway in hepatic clearance of Spn-19F . Masp1 -/- and Masp2 -/- mice were infected with 10 6 (left) or 10 7 CFU (right) to quantify bacteria as in (A). n = 3. D. Visualization of bacterial capture by KCs of complement-deficient mice. The liver sinusoids of C3 -/- , CRIg / CR3 -/- and Masp2 -/- mice were imaged by intravital microscopy as in 2D. n = 2. E. Complement-dependent bacterial capture by KCs in vitro . Primary mouse KCs were incubated with Spn- 19F in the presence of 10% serum for 30 min. Spn- 14 was used as a negative control. KC-bound bacteria are presented as the percentage of total bacteria. MOI = 1; n = 3-6. F. The importance of the complement system in the protection against Spn- 19F. Various complement-deficient mice were i.v. infected with 10 6 CFU of Spn- 19F and the survival is presented. n = 5. G. The model for the FCN-A-triggered complement-dependent and -independent pathways for bacterial capture by liver macrophages. FCN-A activates C3 on bacterial surface upon binding to the capsule through the lectin pathway. The representative data are presented as mean ± SD, and the statistical differences were determined by Two-way ANOVA with Tukey’s multiple comparisons test (A-C), multiple t tests (D and E) and log-rank test (F). **, P < 0.01; ****, P < 0.0001; ns, no significant difference.

    Article Snippet: The C3 deposition on CPSs was detected using a 1:2000 dilution of HRP-conjugated goat IgG antibody against mouse complement C3 (MP Biomedicals) after incubation at 37°C for various durations.

    Techniques: Bacteria, Infection, Intravital Microscopy, In Vitro, Incubation, Negative Control, Binding Assay