This divergence probably results from the different infectious disease challenges associated with the respective ecological niches that learn more these two species inhabit. Unfortunately, these differences between the mouse and human immune systems also result in dissimilar inflammatory responses to burns, trauma, and endotoxemia at the gene expression level, such as integrin, ICOS-ICOSL, CD28, and PKCΘ signaling [3]. Therefore, alternatives to classical mouse models, which more closely model human immune system behavior during infection
in vivo, would be of significant benefit for the development of immunomodulatory treatments. The category of new models, which comes closest to achieving this goal, is mice with reconstituted human immune system components. These mice are mainly generated by neonatal injection of human hematopoietic progenitor cells in mice that lack murine innate and adaptive lymphocytes, namely NOD-scid γc−/− (NSG), NOD-scid γctm1sug, NOD Rag1−/− γc−/−, or BALB/c Rag2−/− γc−/− (BRG) mice [4] (Fig. 1). For some studies, a fetal organoid of liver and thymic tissue is implanted under the kidney capsule, which together with the i.v. injection of human hematopoietic progenitor cells generates BM liver thymic mice [5]. In
all of these models, cellular components of the human immune system develop over several months, selleck chemicals llc including human T cells, B cells, natural killer (NK) cells, monocytes, macrophages, and dendritic cells (DCs) [6-8]. However, the degree of human immune system component reconstitution differs significantly between these mouse strains, with 60% of mononuclear cells being of human origin in the spleen and blood of NSG, NOD-scid γctm1sug, and NOD Rag1−/− γc−/− mice 3 months after
human hematopoietic progenitor cell transfer, while in BRG mice only 20% are of human origin at this time point [9, 10]. This difference in the proportion of mononuclear MTMR9 cells of human origin among the various mouse models results at least in part from the polymorphism among mouse strains in signal regulatory protein-α (SIRP-α), an inhibitory receptor on mouse myeloid cells. This receptor recognizes human CD47 in the NOD mouse background and thereby prevents phagocytosis of human cells by the mouse myeloid compartments, which are still intact in all these mouse backgrounds [11]. Indeed, when human or NOD-mouse signal regulatory protein-α is transgenically introduced into BRG mice, or when BRG mice are reconstitute with human hematopoietic progenitor cells that are transduced to express mouse CD47, human immune system reconstitution is similar to that in NSG mice [12, 13]. In particular, human T-cell and NK-cell reconstitution is very sensitive to optimal reconstitution of the other human immune compartments, such as dendritic cells, but comprise up to 60 and 5% of human CD45-positive cells, respectively [9, 14, 15].