Abstract
For the recovery or replacement of dysfunctional cells and tissue—the goal of stem cell research—successful engraftment of transplanted cells and tissues are essential events. The event is largely dependent on the immune rejection of the recipient; therefore, the immunogenic evaluation of candidate cells or tissues in immunodeficient animals is important. Understanding the immunodeficient system can provide insights into the generation and use of immunodeficient animal models, presenting a unique system to explore the capabilities of the innate immune system. In this review, we summarize various immunodeficient animal model systems with different target genes as valuable tools for biomedical research. There have been numerous immunodeficient models developed by different gene defects, resulting in many different features in phenotype. More important, mice, rats, and other large animals exhibit very different immunological and physiological features in tissue and organs, including genetic background and a representation of human disease conditions. Therefore, the findings from this review may guide researchers to select the most appropriate immunodeficient strain, target gene, and animal species based on the research type, mutant gene effects, and similarity to human immunological features for stem cell research.
Highlights
Replacement of dysfunctional organs through transplantation is an attractive approach for the treatment of organ failure
severe combined immunodeficient (SCID) resulting from defects in RAG1 and RAG2 is characterized by severe depletion in mature T and B cell numbers, whereas natural killer (NK) cells are present in normal numbers (T-/B+/NK+SCID) [50,51]
Humanized non-obese diabetic (NOD)/SCID/Il2rg null mice have been used as a model for the analysis of human immunodeficiency virus type 1 pathogenesis transplanted with hematopoietic stem cells (HSCs) [155]
Summary
Replacement of dysfunctional organs through transplantation is an attractive approach for the treatment of organ failure. Many kinds of animals are used for transplantation research, and this usage revealed the advantage and disadvantages of used animal models. Because of their closer phylogenetical relationship with humans, several trials involving the kidneys, hearts, and livers of nonhuman primates (NHPs) were conducted from the 1920s to 1990s [2,3]. The aforementioned advantages of pigs and NHPs revealed the necessity of the development of various genetically modified immunodeficient large animal models for preclinical xenotransplantation research, including severe combined immunodeficient (SCID), and resulted in considerable improvement of xenografts. Different types of immunodeficient models can be utilized in biomedical research on stem cell or organ xenotransplantation and humanized model creation. We provide perspectives on the various immunodeficient model systems with different target genes, highlighting the advantages of a large animal model
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