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Combined Human Myeloid and Lymphoid Engraftment in MISTRG Mice for Transplantation Research

$251,250R21FY2018AINIH

Yale University, New Haven CT

Investigators

Abstract

7. Project Summary/Abstract Rodent models of organ transplantation may deviate from transplantation in the clinic both because there are species differences in basic properties of the immune system and because of extensive changes in the state of the immune system induced by encounters with microbes that do not occur in typical laboratory mice. Furthermore, the graft plays a major role in shaping the immune response and human tissue cells, especially endothelial cells (ECs), differ significantly in their immunological properties. As an important example, human CD4+ effector memory T cells are particularly effective at recognition of alloantigens displayed by human graft ECs, an interaction lacking in mice. Consequently, therapeutic strategies and reagents developed using mouse models often fail in the clinic. ?Humanized mice,? i.e. immunodeficient mice that are provided with a human immune system and then transplanted with human tissues, can address these issues and complement conventional mouse models. Humanized mice also allow testing of biologic therapeutics that often do not cross species. The principal limitation of humanized mice is that their human immune systems are incomplete, often lacking either functional T cells or functional myeloid accessory cells, cell types that must collaborate for an effective immune system. This proposal outlines an approach to improve an existing bioengineered humanized mouse model, known as MISTRG mice, that form a well differentiated myeloid compartment when inoculated as neonates with human hematopoietic stem cells (HSCs). However, MISTRG mice lack well functioning T cell responses. We propose, to remedy this by combining HSC engraftment with adoptive transfer of mature naive and/or memory T cells from the same donor as the HSCs when the mice reach adulthood. We hypothesize and will test if our approach creates a more complete human immune response without causing graft-versus-host disease (specific aim 1) and then analyze the functions of engrafted myeloid cells both on different pathways of T cell recognition of alloantigen and on T cell-mediated rejection of human skin grafts, artery grafts or synthetic tissue grafts (specific aim 2). Successful completion of these aims will provide transplantation scientists and tissue engineers with a better model to develop and test new anti-rejection strategies that can be more readily transferred to humans.

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