Leonard D. Shultz scite author profile

Ethical considerations constrain the in vivo study of human hemopoietic stem cells (HSC). To overcome this limitation, small animal models of human HSC engraftment have been used. We report the development and characterization of a new genetic stock of IL-2R common γ-chain deficient NOD/LtSz-scid (NOD-scid IL2Rγnull) mice and document their ability to support human mobilized blood HSC engraftment and multilineage differentiation. NOD-scid IL2Rγnull mice are deficient in mature lymphocytes and NK cells, survive beyond 16 mo of age, and even after sublethal irradiation resist lymphoma development. Engraftment of NOD-scid IL2Rγnull mice with human HSC generate 6-fold higher percentages of human CD45+ cells in host bone marrow than with similarly treated NOD-scid mice. These human cells include B cells, NK cells, myeloid cells, plasmacytoid dendritic cells, and HSC. Spleens from engrafted NOD-scid IL2Rγnull mice contain human Ig+ B cells and lower numbers of human CD3+ T cells. Coadministration of human Fc-IL7 fusion protein results in high percentages of human CD4+CD8+ thymocytes as well human CD4+CD8− and CD4−CD8+ peripheral blood and splenic T cells. De novo human T cell development in NOD-scid IL2Rγnull mice was validated by 1) high levels of TCR excision circles, 2) complex TCRβ repertoire diversity, and 3) proliferative responses to PHA and streptococcal superantigen, streptococcal pyrogenic exotoxin. Thus, NOD-scid IL2Rγnull mice engrafted with human mobilized blood stem cells provide a new in vivo long-lived model of robust multilineage human HSC engraftment.

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Dependence of Human Stem Cell Engraftment and Repopulation of NOD/SCID Mice on CXCR4

Peled¹,

Petit²,

Kollet³

et al. 1999

Science

1,561

1,264

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Stem cell homing and repopulation are not well understood. The chemokine stromal cell-derived factor-1 (SDF-1) and its receptor CXCR4 were found to be critical for murine bone marrow engraftment by human severe combined immunodeficient (SCID) repopulating stem cells. Treatment of human cells with antibodies to CXCR4 prevented engraftment. In vitro CXCR4-dependent migration to SDF-1 of CD34+CD38-/low cells correlated with in vivo engraftment and stem cell function. Stem cell factor and interleukin-6 induced CXCR4 expression on CD34+ cells, which potentiated migration to SDF-1 and engraftment in primary and secondary transplanted mice. Thus, up-regulation of CXCR4 expression may be useful for improving engraftment of repopulating stem cells in clinical transplantation.

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The murine mutation osteopetrosis is in the coding region of the macrophage colony stimulating factor gene

Yoshida

Hayashi²,

Kunisada³

et al. 1990

Nature

1,645

924

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Mice homozygous for the recessive mutation osteopetrosis (op) on chromosome 3 have a restricted capacity for bone remodelling, and are severely deficient in mature macrophages and osteoclasts. Both cell populations originate from a common haemopoietic progenitor. As op/op mice are not cured by transplants of normal bone marrow cells, the defects in op/op mice may be associated with an abnormal haematopoietic microenvironment rather than with an intrinsic defect in haematopoietic progenitors. To investigate the molecular and biochemical basis of the defects caused by the op mutation, we established primary fibroblast cell lines from op/op mice and tested the ability of these cell lines to support the proliferation of macrophage progenitors. We show that op/op fibroblasts are defective in production of functional macrophage colony-stimulating factor (M-CSF), although its messenger RNA (Csfm mRNA) is present at normal levels. This defect in M-CSF production and the recent mapping of the Csfm structural gene near op on chromosome 3 suggest that op is a mutation within the Csfm gene itself. We have sequenced Csfm complementary DNA prepared from op/op fibroblasts and found a single base pair insertion in the coding region of the Csfm gene that generates a stop codon 21 base pairs downstream. Thus, the op mutation is within the Csfm coding region and we conclude that the pathological changes in this mutant result from the absence of M-CSF.

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Humanized mice for immune system investigation: progress, promise and challenges

et al. 2012

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Preface Significant advances in our understanding of the in vivo functions of human cells, tissues and immune systems have resulted from the development of mouse strains that are based on severely immunodeficient mice expressing mutations in the interleukin-2 (IL-2) receptor common γ-chain locus. These mouse strains support the engraftment of a functional human immune system and permit detailed analysis of human immune biology, development and functions. In this Review, we discuss recent advances in the development of humanized mice, the lessons learned, the remaining challenges and the promise of using humanized mice for the in vivo study of human immunology.

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Development of functional human blood and immune systems in NOD/SCID/IL2 receptor γ chainnull mice

et al. 2005

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Leonard D. Shultz

Human Lymphoid and Myeloid Cell Development in NOD/LtSz-scid IL2Rγnull Mice Engrafted with Mobilized Human Hemopoietic Stem Cells

Dependence of Human Stem Cell Engraftment and Repopulation of NOD/SCID Mice on CXCR4

The murine mutation osteopetrosis is in the coding region of the macrophage colony stimulating factor gene

Humanized mice for immune system investigation: progress, promise and challenges

Development of functional human blood and immune systems in NOD/SCID/IL2 receptor γ chainnull mice

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