Esmail D. Zanjani scite author profile

Here a new, intrinsically pluripotent, CD45-negative population from human cord blood, termed unrestricted somatic stem cells (USSCs) is described. This rare population grows adherently and can be expanded to 1015 cells without losing pluripotency. In vitro USSCs showed homogeneous differentiation into osteoblasts, chondroblasts, adipocytes, and hematopoietic and neural cells including astrocytes and neurons that express neurofilament, sodium channel protein, and various neurotransmitter phenotypes. Stereotactic implantation of USSCs into intact adult rat brain revealed that human Tau-positive cells persisted for up to 3 mo and showed migratory activity and a typical neuron-like morphology. In vivo differentiation of USSCs along mesodermal and endodermal pathways was demonstrated in animal models. Bony reconstitution was observed after transplantation of USSC-loaded calcium phosphate cylinders in nude rat femurs. Chondrogenesis occurred after transplanting cell-loaded gelfoam sponges into nude mice. Transplantation of USSCs in a noninjury model, the preimmune fetal sheep, resulted in up to 5% human hematopoietic engraftment. More than 20% albumin-producing human parenchymal hepatic cells with absence of cell fusion and substantial numbers of human cardiomyocytes in both atria and ventricles of the sheep heart were detected many months after USSC transplantation. No tumor formation was observed in any of these animals.

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AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

Yin

et al. 1997

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AC133 is one of a new panel of murine hybridoma lines producing monoclonal IgG antibodies (mAbs) to a novel stem cell glycoprotein antigen with a molecular weight of 120 kD. AC133 antigen is selectively expressed on CD34bright hematopoietic stem and progenitor cells (progenitors) derived from human fetal liver and bone marrow, and blood. It is not detectable on other blood cells, cultured human umbilical vein endothelial cells (HUVECs), fibroblast cell lines, or the myeloid leukemia cell line KG1a by standard flow cytometric procedures. All of the noncommitted CD34+ cell population, as well as the majority of CD34+ cells committed to the granulocytic/monocytic pathway, are stained with AC133 antibody. In vitro clonogenicity assays have demonstrated that the CD34+AC133+ double-positive population from adult bone marrow contains the majority of the CFU-GM, a proportion of the CFU-Mix, and a minor population of BFU-E. The CD34dim and AC133− population has been shown to contain the remaining progenitor cells. AC133-selected cells engraft successfully in a fetal sheep transplantation model, and human cells harvested from chimeric fetal sheep bone marrow have been shown to successfully engraft secondary recipients, providing evidence for the long-term repopulating potential of AC133+ cells. A cDNA coding for AC133 antigen has been isolated, which codes for a polypeptide consisting of 865 amino acids (aa) with a predicted size of 97 kD. This antigen is modeled as a 5-transmembrane molecule, a structure that is novel among known cell surface structures. AC133 antibody provides an alternative to CD34 for the selection and characterization of cells necessary for both short- and long-term engraftment, in transplant situations, for studies of ex vivo expansion strategies, and for gene therapy.

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KDR Receptor: A Key Marker Defining Hematopoietic Stem Cells

Ziegler

Valtieri

Porada

et al. 1999

Science

433

293

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Studies on pluripotent hematopoietic stem cells (HSCs) have been hindered by lack of a positive marker, comparable to the CD34 marker of hematopoietic progenitor cells (HPCs). In human postnatal hematopoietic tissues, 0.1 to 0.5% of CD34(+) cells expressed vascular endothelial growth factor receptor 2 (VEGFR2, also known as KDR). Pluripotent HSCs were restricted to the CD34+KDR+ cell fraction. Conversely, lineage-committed HPCs were in the CD34+KDR- subset. On the basis of limiting dilution analysis, the HSC frequency in the CD34+KDR+ fraction was 20 percent in bone marrow (BM) by mouse xenograft assay and 25 to 42 percent in BM, peripheral blood, and cord blood by 12-week long-term culture (LTC) assay. The latter values rose to 53 to 63 percent in LTC supplemented with VEGF and to greater than 95 percent for the cell subfraction resistant to growth factor starvation. Thus, KDR is a positive functional marker defining stem cells and distinguishing them from progenitors.

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Treatment of X-Linked Severe Combined Immunodeficiency by in Utero Transplantation of Paternal Bone Marrow

Flake¹,

Roncarolo²,

et al. 1996

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AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

et al. 1997

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Engraftment and long-term expression of human fetal hemopoietic stem cells in sheep following transplantation in utero.

Zanjani

Pallavicini²,

Ascensāo³

et al. 1992

J. Clin. Invest.

227

153

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Hemopoietic stem cells from human fetal liver were transplanted in utero into preimmune fetal sheep (48-54 days of gestation). The fate ofdonor cells was followed using karyotype analysis, by immunofluorescence labelingwith anti-CD antibodies, and by fluorescent in situ hybridization using human-specific DNA probes. Engrftment occurred in 13 of 33 recipients. Of five live born sheep that exhibited chimerism, all expressed human cells in the marrow, whereas three expressed them in blood as well.Engraftment was multilineage (erythroid, myeloid, and lymphoid) and human hemopoietic progenitors (multipotent colony-forming units, colony-forming units-granulocyte, macrophage, and erythroid burst-forming units) capable of forming colonies in vitro were detected in all five lambs for > 2 yr. These progenitors responded to human-specific growth-factors both in vitro and in vivo. Thus the administration of recombinanthumanIL-3andgranulocytemacrophage-colony-stimulating factor to chimeric sheep resulted in a 2.1-3.4-fold increase in the relative expression of donor (human) cells. These results demonstrate that the permissive environment ofthe preimmune fetal sheep provides suitable conditions for the engraftment and long-term multilineage expression of human hemopoietic stem cells in a large animal model. In this model, donor human cells appear to retain certain phenotypic and functional characteristics that can be used to manipulate the size of donor cell pool.

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In Utero Hematopoietic Stem Cell Transplantation: Ontogenic Opportunities and Biologic Barriers

1999

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In UteroGene Therapy: Transfer and Long-Term Expression of the Bacterialneo^rGene in Sheep after Direct Injection of Retroviral Vectors into Preimmune Fetuses

Porada¹,

Tran²,

Eglitis³

et al. 1998

Human Gene Therapy

131

129

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We investigated whether directly injecting retroviral vectors into preimmune fetuses could result in the transfer and long-term expression of exogenous genes. Twenty-nine preimmune sheep fetuses were injected with helper-free retroviral vector preparations. Twenty-two fetuses survived to term, 4 of which were sacrificed at birth. Of the remaining 18 animals, 3 were controls and 15 had received vector preparations. Twelve of these 15 animals demonstrated transduction of hematopoietic cells when blood and marrow were analyzed by neo(r)-specific PCR. Eight experimental sheep have been followed for 5 years, during which time we have consistently observed proviral DNA and G418-resistant hematopoetic progenitors. The G418-resistant colonies were positive when analyzed by neo(r)-specific PCR. neo(r) gene expression was also demonstrated using several immunological and biochemical methods. The transduction of hematopoietic stem cells was confirmed when lambs transplanted with bone marrow from in utero-transduced sheep exhibited neo(r) activity in marrow and blood. Vector distribution was widespread in primary animals without pathology. PCR analysis indicates that the germ line was not altered. These studies demonstrate that direct injection of an engineered retrovirus is a feasible means of safely delivering a foreign gene to a developing fetus and achieving long-term expression without modifying the germ line of the recipient.

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Esmail D. Zanjani

A New Human Somatic Stem Cell from Placental Cord Blood with Intrinsic Pluripotent Differentiation Potential

AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

KDR Receptor: A Key Marker Defining Hematopoietic Stem Cells

Treatment of X-Linked Severe Combined Immunodeficiency by in Utero Transplantation of Paternal Bone Marrow

AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

Engraftment and long-term expression of human fetal hemopoietic stem cells in sheep following transplantation in utero.

In Utero Hematopoietic Stem Cell Transplantation: Ontogenic Opportunities and Biologic Barriers

In UteroGene Therapy: Transfer and Long-Term Expression of the Bacterialneo^rGene in Sheep after Direct Injection of Retroviral Vectors into Preimmune Fetuses

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Esmail D. Zanjani

A New Human Somatic Stem Cell from Placental Cord Blood with Intrinsic Pluripotent Differentiation Potential

AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

KDR Receptor: A Key Marker Defining Hematopoietic Stem Cells

Treatment of X-Linked Severe Combined Immunodeficiency by in Utero Transplantation of Paternal Bone Marrow

AC133, a Novel Marker for Human Hematopoietic Stem and Progenitor Cells

Engraftment and long-term expression of human fetal hemopoietic stem cells in sheep following transplantation in utero.

In Utero Hematopoietic Stem Cell Transplantation: Ontogenic Opportunities and Biologic Barriers

In UteroGene Therapy: Transfer and Long-Term Expression of the BacterialneorGene in Sheep after Direct Injection of Retroviral Vectors into Preimmune Fetuses

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Product

Resources

About

In UteroGene Therapy: Transfer and Long-Term Expression of the Bacterialneo^rGene in Sheep after Direct Injection of Retroviral Vectors into Preimmune Fetuses