Abstract

GVHD (graft-vs-host disease) is one of the major complications after allogeneic hematopoietic stem cell transplantation leading to substantial morbidity and mortality. Several murine models are used to investigate this systemic inflammatory disease in vivo and to identify possible targets for clinical treatment. However, current well-established murine GVHD models have their clinical limitations as they are based on major histocompatibility mismatches and only lethal irradiation as conditioning. Development of new treatment options would be forwarded by the availability of a more clinically relevant murine model.To reflect the clinical situation of transplantation and GVHD, we established a new murine GVHD model which is based on Chemotherapy conditioning and MHC-matched bone marrow transplantation (BMT). In LP/J -> C57BL/6 mouse model, our chemotherapy transplantation protocol resulted in stable full donor chimerism and development of acute GVHD.C57BL/6 recipients were conditioned with a 7-day busulfan-cyclophosphamide Chemotherapy protocol. Mice received for 5 days 20 mg/kg/day busulfan intraperitoneally (i.p.) and the last three days additionally 100 mg/kg/day cyclophosphamide. After a two-day resting phase, recipients were transplanted with 1.5 x 107 bone marrow and 2 x 106 splenic T cells from LP/J donors. Recipients showed good engraftment with already 80 % engraftment in peripheral blood at day 15 after BMT. 90 % donor chimerism in peripheral blood and bone marrow could be shown already at day 30 after BMT.LP/J and C75BL/6 mice share the same haplotype (H2b) with only mismatches at different minor histocompatibility loci. As in clinical BMT, GVHD still arises after MHC-matched transplantation because of multiple minor mismatches. We could show in our LP -> C57BL/6 model typical features of acute GVHD. Allogeneic transplanted animals showed significant decreased survival compared to syngeneic transplanted animals (Figure 1A). GVHD animals exhibited GVHD-typical weight loss (Figure 1B) and a significant increased clinical GVHD index consisting of five clinical parameters: weight loss, posture, activity, fur and skin (Figure 1C). Our model showed a strong skin phenotype, especially between day 15 and 25 after BMT extensive scurf spread over the whole body combined with fur loss. Pronounced weight loss and highest clinical GVHD index were monitored between day 15 and 25, implicating this period as acute phase of GVHD. Histopathologic analysis of GVHD organs (large bowel, liver and skin) confirmed acute GVHD symptoms in our model as histopathological scores after Lerner (1974,Transplant Proc 6:367-371) were significantly increased in GVHD animals compared to BMT recipients without GVHD (Figure 1D). [Display omitted] We next characterized systemic inflammation in our model by determining the number of circulating inflammatory cells in peripheral blood at different time points by flow cytometry. CD8+ T cells were significantly increased in GVHD animals in acute phase (day 15 after BMT), whereas CD4+ T cells were elevated in late phase (day 50-60 after BMT). These data suggests, that in our model two inflammatory phases occur, an early acute CD8-driven and a late CD4-driven phase.Finally, we could demonstrate GVHD-typical T cell infiltration in GHVD target organs in acute phase (Figure 2). In large and small bowel, liver and skin CD4 and CD8 infiltration was significantly elevated in GVHD animals, however, CD8 infiltration was more prominent. We conclude that CD8 T cells play a prominent role in acute phase of GVHD in our model. [Display omitted] In summary, we could establish a novel chemotherapy based minor mismatch GVHD model which shows good engraftment, typical features of acute GVHD and systemic and target organ specific inflammation. Our murine GVHD model closely resembles the clinical situation of MHC-matched stem cell transplantation and may help to better understand pathogenic mechanisms in GVHD and develop new treatment options. Disclosures:No relevant conflicts of interest to declare.

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.