Charles River offers two GvHD mouse study models that can be used to evaluate novel treatments, or as a screening platform to test mechanisms of immunoregulation.
Hematopoetic stem cell transplantation (HSCT) is a potentially curative procedure for haematological malignancies of the blood and bone marrow. It can replenish the immune compartment and may induce beneficial anticancer effects referred to as graft-versus-tumor (GVT) activity.
Unfortunately, Graft versus Host Disease is a serious complication in patients receiving HSCT. The disease is triggered by the reactivity of donor-derived immune cells against allogeneic recipient tissues and is a major unmet medical need with limited treatment options. Responsible for 15-30% of deaths that occur following HSCT, it is the main cause of morbidity in up to 50% of recipients.
Selecting the appropriate model for your program
Charles River offers two types of preclinical Graft vs Host Disease model: allogeneic and xenogeneic. Our models mimic the clinical disease associated with the HSCT and can also be used as a pharmacodynamic screening model.
Graft Versus Host Disease (GvHD) Model
Figure 1: Diagram of Graft versus Host Disease (GvHD) models
The xenograft and allograft GvHD models can be used:
- To Identify new drugs for the treatment of Graft vs Host Disease
- As a pharmacodynamic (PD) screening platform to evaluate the ability of immunoregulatory drugs to modulate the disease progression
- As an in vivo screening platform to assess the MOA of drugs that mediate either immunosuppression or immune activation/potentiation
Xenograft GvHD mouse model: Human T cell-mediated acute GVHD model
Patients commonly receive bone marrow transplantation following myeloablation (with radiation or other means). To increase the translational relevance of our xenogeneic model, we engraft immunodeficient mice (NSG/NCG) with human PBMCs. We offer custom-designed models with or without radiation to meet client-specific objectives.
Disease progression in this model can be further exacerbated by hyperimmune activating drugs. Drugs with immunoenhancing mechanisms of action may have a therapeutic application in cancer treatment, making this a useful PD screening tool.
Allograft GvHD mouse model: MHC mismatched model of T cell-mediated acute GVHD
Charles River’s allograft GvHD model is based on the established model where Balb/c host mice are lethally irradiated and engrafted with MHC mismatched T cells from donor C57BL/6 donor mice.
Standard Model Endpoints*:
- Body weight
- Kaplan-Meier survival analysis
- Disease scoring
- Engraftment and phenotypic analysis
- Cytokine analysis
- Flow cytometry
*Bespoke model systems and readouts can be designed upon request.
Have more questions?
Frequently Asked Questions (FAQs) for Graft vs Host Disease
What is a Graft vs Host Disease (GvHD) mouse model?
GvHD mouse models can be used to test the effects resulting from bone marrow transplants and other cancer treatments. However, they can also be used to screen immunostimulatory drugs to demonstrate proof-of-concept for immune activating drugs seen in cancer models. Charles River runs multiple screening models for cancer treatments.
Which GvHD model should I choose to test my cancer therapy?
If the test agent is mouse-specific, the allogeneic model is most suitable; if the test agent is human-specific, the xenogeneic model is more appropriate. Graft vs Host Disease studies may be required by the FDA for certain types of allogeneic human cell therapy products. Ask us more about our capabilities supporting IND-enabling programs in cell and gene therapy.
What is the source of PBMCs for my xenogeneic GvHD study?
We can work with client-provided PBMCs or commercially available PBMCs. We have worked out the engraftment and disease kinetics for a small cohort of donors and are happy to share available data with you.
What is the typical GvHD study duration?
The typical endpoint in both xenograft and allograft models is 42 days, however, this can be reduced or extended as needed.
Why choose Charles River for my Graft vs Host Disease studies?
We have large scale capabilities and extensive experience running complex Graft vs Host Disease models with multiple endpoints. We can perform the in-life as well as the ex vivo analysis; our extensive immunology capabilities (flow, ELISA, Luminex®) can be used as readouts to help you further characterize the model and learn about changes happening at the cellular level. We have the flexibility and capabilities to custom-design models to meet the your specific needs, in addition to a wide range of oncology models and supporting in vitro assays.