A549 Cells

Overview

A549 cells are a human lung adenocarcinoma epithelial cell line widely used in respiratory and cancer research. They provide a robust in vitro model for studying lung cancer biology, viral infections, inflammation, and drug responses, making them a versatile tool for both basic and preclinical research.

Key elements and design rationale

• Model identity: A549 Cells is supplied as a tumor cell line derived from Human lung.
• Growth properties: Adherent, epithelial
• Growth conditions: For optimal cell culture, we recommend using PriCoat™ T25 Flasks (G299) or coating your preferred vessels with Applied Cell Extracellular Matrix (G422). DMEM, High Glucose Medium (TM500) + 10% FBS (*Regular) + 1% Penicillin/Streptomycin Solution (G255), 37.0°C, 5% CO₂. *Do not heat-inactivate
• Product format: Frozen, BSL-2

This cell-based model is generally used in cancer biology, phenotype comparison, and response profiling studies. Donor/background information is available for contextual interpretation.

Biological background

This model supports studies in cancer biology, phenotype comparison, and response profiling. It can be used to examine morphology, growth behavior, and experimental responses in cultured cells. Donor/background information provided for this product: Male, 58 , Caucasian, Carcinoma.

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). DMEM, High Glucose Medium (TM500) + 10% FBS (*Regular) + 1% Penicillin/Streptomycin Solution (G255), 37.0°C, 5% CO₂. *Do not heat-inactivate
• Split Ratio: 1:3-1:4

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.