Pharmacology, Exploratory, Toxicology

Support your preclinical studies with advanced cell models for toxicity testing from ATCC. Explore our resource below to get started.

Preclinical Toxicology PK Metabolism

Need a functional model to explore the ADME of a new chemical entity? Discover how neurological and renal cell models can support your metabolic stability, metabolite identification, and drug-drug interaction assays.

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Modeling, Screening, Characterizing

Are you in the preliminary stages of toxicity testing? Start on the path to success with our complete solution of cell lines, media, and reagents.

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Cell Lines for Toxicology

Authenticated ATCC cells ensure your toxicology results are accurate. Explore our complete set of solutions today!

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Cell models that reflect true physiology

The FDA requires confirmation of preliminary screening and characterization studies for new drug applications with experiments performed in more physiologically relevant models. To help the success of your preclinical studies, ATCC provides advanced cell models for toxicity testing, such as differentiated iPSCs and primary and hTERT-immortalized primary cells.

Differentiated iPSCs – These cells fulfill the need for a consistent source of cells with physiological relevance; they provide large numbers of cells that can be differentiated into a variety of functional cell types, affording the necessary biological relevance with minimal lot-to-lot variability.
Primary Cells – These cells are the most physiologically relevant model available. To ensure the success of your primary cultures, we offer a complete solution of cells, media, and supplements.
hTERT-immortalized Primary Cells – These modified primary cells provide physiological relevance, but without the limitation of proliferation. ATCC offers hTERT-immortalized cells derived from kidney, skin, airway, and vasculature.

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Fluorescent red, brown and green human telomerase reverse transcriptase, skin cells.

hTERT-immortalized and Primary Keratinocytes

Explore our data confirming that an immortalized keratinocyte cell line is able to differentiate into organotypic skin equivalents in a 3D culture model.

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Spherical, fluorescent pink and purple bronchial epithelial cells.

Human Bronchial/Tracheal Epithelial Cells

This study examines the ability of primary human bronchial/tracheal epithelial cells to differentiate into mature airway tissue using an air-liquid culture interface model.

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Explore our products for pharmacology, exploratory, and toxicology research

Purple and green induced pluripotent stem cells.

Differentiated iPSCs

Toxicologists struggle to find cell models with high physiological relevance and the ability to be run in an assay over and over again without introducing variability. To fulfill this need, ATCC scientists have differentiated induced pluripotent stem cells (iPSCs) into widely used cells such as mesenchymal stem cells, CD34+ cells, and monocytes. These differentiated cells can be used to build physiologically relevant cell-based assays for drug development in fields such as regenerative medicine, hematology, oncology, and toxicology.

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Red and blue phalloidin human umbilical vein endothelial cells.

Human Primary Cells

Isolated directly from tissue and untransformed, primary cells are the most physiologically relevant models available. ATCC offers a wide variety of human primary cells from normal or diseased donors that can be used as physiologically relevant models for drug screening and toxicity studies. In addition, we provide a complete solution for primary cell growth, including tissue-specific media, supplements, and other reagents specially formulated to ensure the robust growth of your primary cells.

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Green hTER renal proximal tubular epithelial cells.

hTERT-immortalized Primary Cells

There is a lack of in vitro models that durably and correctly recapitulate in vivo physiology. hTERT-immortalized primary cells solve the problem of limited biological relevancy in cell-based assays: this versatile cell type displays the growth characteristics of continuous cell lines without the loss of normal physiologies. They conveniently allow for large-scale screening of toxicology compounds while avoiding lot to lot variability.

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Watch our webinar to learn how hTERT-immortalized cells can improve your toxicity assays

Featured products

Fluorescent blue and green spheres of leukemic cells.

iPSC-derived Monocytes

These cells can be differentiated into functionally active macrophages and dendritic cells or used out of the vial in MAT assay, drug development, toxicity screening, and cancer immunology experiments.

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Cluster of blue, porous mesenchymal stem cells.

iPSC-derived Mesenchymal Stem Cells

Ideal for applications such as bone cell lineage differentiation, regenerative medicine, cell therapy, exosome research, and cancer immunology.

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Floating, fluorescent pink and lime green spheres.

iPSC-derived CD34+ Cells

This cell line is easily incorporated into drug development, toxicity screening, and cancer immunology experiments due to its reduced lot-to-lot variability.

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Fluorescent purple renal proximal tubular epithelial cells.

RPTEC/TERT1 OCT2

Cell line stably expressing SLC transporter hOCT2 for use in transport studies and kidney drug toxicity screening and research.

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Red renal proximal tubular epithelial cells.

Models with Stable OCT2

RPTEC/TERT1 cell line stably expressing SLC transporter hOCT2 is valuable in transport studies.

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Primary Coronary Artery Endothelial

Normal cells for angiogenesis, arteriolosclerosis, hypertension, oncology, drug screening, inflammation, and vasodilator function.

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Fluorescent burnt-orange and gold, web-like cardiomyocyte cells.

Primary Dermal Microvascular Endothelial Cells

Adherent neonatal cells for drug screening, angiogenesis, oncology, inflammation, and intercellular communication.

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Small, rod-shaped, fluorscent blue and yellow human umbilical vein endothelial cells.

Primary Umbilical Vein Endothelial Cells

Essential for immune response, cellular response to viral or bacterial infection, oxidative stress, tubule formation, and more.

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Small, round, purple and green uterine smooth muscle cells.

Human Primary Cervical Epithelial Cells

Cervical epithelial cells provide an ideal in vitro model for studying the pathophysiology of cervical polyps, HPV, and cervical cancer.

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Mammary Epithelial Cells-Normal

Optimal serum-free culture model for many research areas including breast cancer development, three-dimensional culture, and carcinogen screening.

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Small, spherical, fluorescent green prostate cells.

Prostate Epithelial Cells-Normal

Model for studying hormonal regulation of the prostate, regulation and control of the secretory function of prostate cells, and prostate cancer.