Immortalized Mouse Macrophage Cells (BMA3.1A7)

SKU:BHC10900797
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    Overview
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    Immortalized Mouse Macrophage Cells (BMA3.1A7) is supplied as frozen tumor cell line with defined immortalization/background engineering derived from mouse blood with adherent, irregular “fried egg” morphology growth properties. Commonly used in immunology, hematology, and signaling under defined culture conditions.
    Species Mouse
    Cell Type Cell Lines, Immortalized Cell Lines
    Tissue Blood
    Growth Adherent, irregular “fried egg” morphology
    Format Frozen
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    Available Options

    Select the variant that best fits your experiment. Availability and lead time may vary by option.

    • Options: Pack Size: 1x106 cells / 1.0 ml
    • Lead time: varies by selected option; please contact us for current fulfillment timing.
    • Storage: Vapor phase of liquid nitrogen, or below -130°C.
    • Shipping: Ship with dry ice.
    • Upon receipt: store at the recommended temperature as soon as possible.
    • Sales terms and conditions: Please review prior to ordering.
    Options selector
    Catalog no. Pack Size
    T0673 1x106 cells / 1.0 ml
    Field Specification
    Product Format Frozen
    Product Type
    • Cells
    • Cell Lines
    • Immortalized Cell Lines
    Shipping Ship with dry ice.
    Storage Vapor phase of liquid nitrogen, or below -130°C. Visually examine the packaging containers for signs of leakage or breakage. Immediately transfer frozen cells from dry ice packaging to a temperature below -130°C, preferably in liquid nitrogen vapor phase storage, until ready for use. To ensure the highest level of viability, thaw the vial and initiate culture as soon as possible upon receipt. If continued storage is desired, the vial should only be stored below -130°C or in liquid nitrogen vapor phase. Do not store at -70°C, as it will result in loss of viability. Cryopreservation: We recommend using serum-free CryoGuard™ Freezing Media (TM078) or, if serum is preferred, Cryopreservation Medium (TM024). We recommend using serum-free CryoGuard™ Freezing Media (TM078) or, if serum is preferred, Cryopreservation Medium (TM024).

    Overview

    The Immortalized Mouse Macrophage Cells (BMA3.1A7) are derived the bone marrow of adult female C57BL/6 mice. These cells are spontaneously immortalized via over expression of raf and myc oncogenes and posses a “fried egg” morphology, characterized by a rounded appearance with a high number of vesicles.

    Key elements and design rationale

    • Model identity: Immortalized Mouse Macrophage Cells (BMA3.1A7) is supplied as a tumor cell line derived from Mouse blood.
    • Growth properties: Adherent, irregular “fried egg” morphology
    • Growth conditions: For optimal cell culture, we recommend using PriCoat™ T25 Flasks (G299) or coating your preferred vessels with Applied Cell Extracellular Matrix (G422). PriGrow II (TM002) + 10% FBS(Regular*) + 2 mM L-Glutamine (G275) + 1% Non-Essential Amino Acids (TM068) + 1% HEPES (TM058) + 55 µM B-mercaptoethanol + 1% Penicillin/Streptomycin Solution (G255), 37.0°C, 5% CO₂. *Do not heat-inactivate
    • Engineering / immortalization: Overexpressing raf and myc oncogenes
    • Product format: Frozen, BSL-2

    This cell-based model is generally used in immunology, hematology, and signaling studies. Donor/background information is available for contextual interpretation.

    Biological background

    In addition, BMA3.1A7 has been shown to possess similar surface marker expression as bone marrow-derived macrophages (BMDM) such as iNOS, Arginase-1, CD86, MHC I, MHC II and CD206, which contribute to its use as a substitute for primary cells. Their similarity to these macrophages is very useful given that the plasticity of macrophages contributes to their varied pathogen response. In addition, the polarization that BMA3.1A7 undergoes allows it to alter its susceptibility to viral infection, making it a useful model to study the effects of polarization on viruses. Characterization was conducted via flow cytometry, arginase assay, nitric oxide assay and qRT-PCR. Donor/background information provided for this product: Adult female C57BL/6 mice.

    Research relevance and current trends

    • Cell-line models continue to be used for tumor phenotype comparison, pathway perturbation studies, and assay development in controlled in vitro systems.
    • Engineered and subtype-defined tumor lines are often used to compare growth behavior, reporter output, and response patterns across matched experimental conditions.
    • When metastatic or lineage features are described, investigators commonly interpret results alongside morphology, passage history, and culture environment.

    Common research applications

    • Cancer biology studies that compare proliferation-associated behavior, morphology, and pathway responses in vitro.
    • Assay development for treatment response, reporter monitoring, or phenotype comparison under matched culture conditions.
    • Side-by-side comparison of engineered versus parental background characteristics when relevant to the study design.

    Changes in morphology, growth rate, viability, or reporter signal are typically interpreted together with passage history, culture matrix, and the specified growth conditions for the model.

    Notes for experimental interpretation

    • Morphology, doubling behavior, and reporter or marker output can shift with passage number, substrate choice, and medium composition; these variables should be recorded alongside experimental readouts.
    • Matched controls such as parental cells, untreated cultures, or parallel cultures maintained under identical conditions help distinguish background effects from biology of interest.

    Culture and product details

    • Growth Conditions: For optimal cell culture, we recommend using PriCoat™ T25 Flasks (G299) or coating your preferred vessels with Applied Cell Extracellular Matrix (G422). PriGrow II (TM002) + 10% FBS(Regular*) + 2 mM L-Glutamine (G275) + 1% Non-Essential Amino Acids (TM068) + 1% HEPES (TM058) + 55 µM B-mercaptoethanol + 1% Penicillin/Streptomycin Solution (G255), 37.0°C, 5% CO₂. *Do not heat-inactivate
    • Immortalization Method: Overexpressing raf and myc oncogenes
    🧊 Thawing Protocol
    1. Thaw cells quickly in a 37°C water bath while agitating gently (maximum 2 minutes). The vial cap should be kept above the water level to minimize the risk of contamination.
    2. Decontaminate the vial by spraying and wiping the exterior of the vial with 70% ethanol. From this point onwards, all operations should be strictly carried out inside a biological safety cabinet using aseptic conditions.
    3. Transfer the cell suspension into a 15ml sterile conical tube containing 5ml of pre-warmed, complete growth media. Centrifuge cells at 125xg for 5-7 minutes.
    4. Aspirate the supernatant without disturbing the cell pellet. Re-suspend the cell pellet in the recommended pre-warmed, complete growth media and dispense into a T25 culture flask.
    5. Incubate the cells at the recommended conditions.
    🔬 Subculture Protocol
    Volumes given below are for a T75 flask; proportionally increase or decrease the volume as required per culture vessel size. Subculture cells once the culture vessel is 80% confluent.
    1. Aspirate the culture media, and add 2-3ml of pre-warmed 0.25% Trypsin-EDTA to the culture vessel.
    2. Observe the cells under a microscope to confirm detachment (typically within 2-10 minutes). Cells that are difficult to detach can be put in 37°C, for several minutes to facilitate detachment.
    3. Neutralize Trypsin-EDTA by adding an equal volume of the complete growth media into the culture vessel.
    4. Transfer the culture suspension into a sterile centrifuge tube, and centrifuge at 125xg for 5 minutes. The actual centrifuge duration and speed may vary depending on the cell type.
    5. Aspirate the supernatant, and re-suspend the pellet with pre-warmed fresh complete growth media. Add appropriate aliquots of the cell suspension to new culture vessels, as desired.
    6. Incubate the cells at the recommended conditions.
    How should I handle live cells once I receive them?
    Please refer to our Cell Handling and Thawing Guidelines for detailed instructions on receiving, thawing, and culturing live cells:
    https://www.abmgood.com/immortalized-cells-documents.html
    Following these guidelines will help ensure optimal cell viability and performance.
    Why are these cells classified as biosafety level II?
    We follow the CDC-NIH recommendations that all mammalian sourced products should be handled at the Biological Safety Level 2 to minimize exposure of potentially infectious products. This information can be found in 'Biosafety in Microbiological and Biomedical Laboratories' (1999). Your institution's Safety Officer or Technical Services will be able to make the call as to whether BioSafety Level I is possible with these cells at your site, if desired.
    What is your warranty or return policy?
    Our warranty and return policy is outlined in abm’s Terms and Conditions, including details on product quality, limitations, and claims.
    Please refer to the following link for full information:
    https://www.abmgood.com/terms
    For additional questions, our Order team is happy to assist and can be reached at order@abmgood.com.
    How many times can cells divide?
    The number of times cells can divide depends on the cell type:

    Primary cells have a limited lifespan and will undergo a finite number of population doublings before entering senescence. The exact number varies by cell type and culture conditions.
    Immortalized cell lines are capable of extended or indefinite proliferation under proper culture conditions, although growth characteristics may vary between lines.
    Do I need Applied Cell Extracellular Matrix (G422) if I am using PriCoat™ flasks?
    Please refer to the Growth Conditions section of your specific product page. This section will indicate whether Applied Cell Extracellular Matrix (G422), PriCoat™ flasks, or both are recommended for optimal cell attachment and growth, as requirements may vary by cell type.

    Cell line sourcing and selection (species, tissue, and disease model matching) · Stable cell line engineering (overexpression, knockdown, knockout via CRISPR/Cas9, shRNA, sgRNA) · Reporter gene integration (GFP, RFP, luciferase, fluorescent/bioluminescent constructs) · Genome editing and knockin (point mutations, tagged endogenous proteins, conditional alleles) · Inducible expression systems (Tet-On/Off and regulatable constructs) · Drug resistance marker selection (puromycin, G418, hygromycin, and others) · Custom growth and media optimisation for specific assay requirements · Scale-up production for high-throughput screening campaigns · Authentication and QC services (STR profiling, mycoplasma testing, viability assessment). Talk to a Scientist or contact support@biohippo.com.

    Banete, A., Achita, P., Harding, K., Mulder, R., & Basta, S. (2015). Immortalized murine macrophage cell line as a model for macrophage polarization into classically activated M (IFNgamma+ LPS) or alternatively activated M (IL-4) macrophages. J Clin Cell Immunol, 6(318.10), 4172.

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    Do I need Applied Cell Extracellular Matrix (G422) if I am using PriCoat™ flasks?
    Please refer to the Growth Conditions section of your specific product page. This section will indicate whether Applied Cell Extracellular Matrix (G422), PriCoat™ flasks, or both are recommended for optimal cell attachment and growth, as requirements may vary by cell type.
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