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Find the Right Syngeneic Model

Accelerate immunotherapy research with reliable, preclinical data

Find the perfect syngeneic model to accelerate your immunotherapy discoveries. Explore a reliable source for preclinical data.

Preclinical research of new immunotherapies requires in vivo models with fully functional immunity. Syngeneic tumor models are homografts derived from immortalized mouse cancer cell lines which originated from the same inbred strain of mice. This provides simple models with fully competent immunity for assessing your new single agent and combination immunotherapies.

Well Validated Models

Chart demonstrating well-validated models.Evaluation of Anti-PD-1 Efficacy

Our syngeneic models are well-characterized, making them the ideal models to evaluate your novel immuno-oncology agents as well as combination therapies.

The extensive characterization data found within our searchable database MuBase® includes immune checkpoint inhibitor benchmarking (including model response to anti-PD-1, PD-L1, and CTLA-4) and tumor RNAseq. Baseline tumor immunoprofiling and post-ICI treatment tumor immunoprofiling is also available for a subset of our models with further characterization ongoing.

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Explore our collection:

We provide a large collection of syngeneic models covering a variety of cancer types and immune phenotypes, available now for your efficacy and PD studies.

Subcutaneous Models

Bladder Cancer - Syngeneic Models Bladder: MBT-2
Glioma Cancer - Syngeneic Models Glioma: GL261-luc
Leukemia - Syngeneic Models Leukemia: C1498
Neuroblastoma: N1E-115, Neuro-2a
Plasmacytoma: J558
Breast Cancer - Syngeneic Models Breast: 4T1, EMT6, JC
Fibrosarcoma - Syngeneic Models Fibrosarcoma: WEHI-164
Kidney Cancer - Syngeneic Models Kidney: Renca
Liver: H22, Hepa 1-6
Myeloma: MPC-11, P3X63Ag8U.1
Pancreatic: Pan02
Prostate: RM-1

Orthotopic Models

Breast: 4T1, EMT6
Liver: Hepa 1-6
Glioma: GL261-luc
Pancreatic: Pan02

Systemic Models

Leukemia: C1498
Myeloma: MPC-11

Specialty Models

Breast: 4T1 (metastatic/bioluminescent)
Glioma: GL261-luc (bioluminescent)
Melanoma: B16-F-10 (metastatic), B16-BL6 (metastatic)
Liver: H22 (bioluminescent) Hepa 1-6 (bioluminescent)
Lung: LL/2 (LLC1) (metastatic)
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Advanced Models for Metastatic Modeling and Optical Imaging 


We provide syngeneic models of metastasis as well as orthotopic and bioluminescent models. This allows you to study clinically relevant metastatic invasion, metastatic lesions in secondary organs, and to evaluate your agents which target metastasis.

Our orthotopic models provide a tumor microenvironment more comparable to the patient. The tumors form at organ-specific sites, facilitating metastatic spread, and supporting immune and stromal component interactions.

Our bioluminescent imaging (BLI) capabilities enable non-invasive longitudinal monitoring of orthotopic tumor burden. This provides you with optimal randomization, reduction of false positives, and continuous feedback, supporting the most appropriate treatment regimens mid-study.

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Discover Large Scale In Vivo Screening for Immunotherapeutics 


Fast-track the screening of your novel immunotherapeutics with MuScreen™, our large-scale, in vivo screening platform for cancer immunotherapeutics.

MuScreen can improve efficiency and save you study time by helping you to rapidly identify the right markers and models for your preclinical programs. Evaluate your agent's TGI and PD effects with either the Syngeneic Efficacy or PD Screening Panel of 6 or 12 models.

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