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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The disks of vertebrate photoreceptors are produced by outgrowths of the plasma membrane. Hence genes that encode retinal proteins targeted to plasma membrane protrusions represent candidates for inherited retinal degenerations. One such candidate is the gene encoding human prominin (mouse)-like 1 (PROML1, previously known as AC133 antigen) which belongs to the prominin family of 5-transmembrane domain proteins. Murine prominin (prom) shows a strong preference for plasma membrane protrusions in a variety of epithelial cells whereas PROML1 is expressed in retinoblastoma cell lines and adult retina. In the present study, molecular genetic analyses of a pedigree segregating for autosomal recessive retinal degeneration indicated that the affected individuals were homozygous for a nucleotide 1878 deletion in PROML1. This alteration is predicted to result in a frameshift at codon 614 with premature termination of translation. Expression of a similar prom deletion mutant in CHO cells indicated that the truncated protein does not reach the cell surface. Immunocytochemistry revealed that prom is concentrated in the plasma membrane evaginations at the base of the outer segments of rod photoreceptors. These findings suggest that loss of prominin causes retinal degeneration, possibly because of impaired generation of the evaginations and/or impaired conversion of the evaginations to disks.
Hum Mol Genet 2000 Jan 01
PMID:A frameshift mutation in prominin (mouse)-like 1 causes human retinal degeneration. 1058 75

Efficient retroviral gene transfer into primary cells is a prerequisite for various gene therapeutic strategies. We have developed a transduction protocol based on the preloading of tissue culture vessels with retroviral particles by low-speed (1000g) centrifugation. We show that vector-preloaded tissue culture vessels allow highly efficient gene transfer into various target cells. We obtained transduction rates of up to 85% for primary T lymphocytes after just a single round of transduction. Under clinically relevant conditions using a vector developed for suicide gene therapy and produced under good manufacturing practice (GMP) conditions, the described method allowed generation of large numbers (>2x10(9)) of gene-modified T cells. The preloading concept ensures transduction of target cells in their optimal growth medium regardless of the medium used for vector production. This facilitated highly efficient gene transfer into quite different target cells such as CD34(+) and AC133(+) bone marrow progenitor as well as mesenchymal stem cells. The presented method combines high gene-transfer rates with a great potential for standardization in accordance with GMP guidelines and is consequently well suited for both research and clinical applications. (c)2002 Elsevier Science (USA).
Mol Ther 2002 Apr
PMID:Highly efficient retroviral gene transfer based on centrifugation-mediated vector preloading of tissue culture vessels. 1194 75

Primitive human hematopoietic cells have recently been identified within a rare subfraction of CD34(-) lineage-depleted (Lin(-)) cells and further characterized by their restriction to a rarer subset expressing AC133. Here we show that CD34(-)AC133(+)Lin(-) cells can be transduced by retrovirus at a comparatively higher efficiency than either CD34(-)AC133(-)Lin(-) or CD34(+)CD38(-)Lin(-) cells. Subpopulations were transduced by enhanced green fluorescent protein (eGFP)-containing retrovirus in serum-free conditions. During the culture period, both CD34(-)AC133(+)Lin(-) and CD34(+)CD38(-)Lin(-) subfractions expanded, whereas CD34(-)AC133(-)Lin(-) cells could not be sustained. Fluorescent microscopic examination of progenitors assayed by colony-forming units (CFU) derived from CD34(-)AC133(+)Lin(-) cells revealed expression of eGFP, with the presence of provirus confirmed by clonal PCR analysis. Flow cytometry detecting eGFP revealed that cultures seeded with CD34(-)AC133(+)Lin(-) cells had a greater than threefold higher frequency of eGFP(+) cells compared with transduced cultures of CD34(+)CD38(-)Lin(-) cells. Our results demonstrate that retroviral transduction efficiency and level of transgene expression into CD34(-)AC133(+)Lin(-) cells is distinct to either CD34(-)AC133(-)Lin(-) or CD34(+)CD38(-)Lin(-) cells. This study represents the first evaluation of retroviral transduction into this population of primitive CD34(-) cells, and therefore provides the basis for optimization of gene transfer protocols to examine the role of gene-marked CD34(-) stem cells in a clinical setting.
Mol Ther 2002 May
PMID:Characterization of retroviral gene transfer into highly purified human CD34(-) cells with primitive hematopoietic capacity. 1199 55

We present an update of our results with transplantation of highly purified stem cells from one to three loci mismatched parental donors. Sixty-three pediatric patients with acute lymphoblastic leukemias (n = 32), acute myeloid, chronic myeloid and myelomonocytic leukemias (n = 13), myelodysplastic syndromes (n = 4), lymphomas (n = 4), and various nonmalignant diseases (n = 10) underwent transplantation. Mobilized peripheral-blood stem cells were selected with either anti-CD34- or anti-CD133-coated microbeads. Patients received a median of 19.5 x 10(6) purified cells and <25,000 CD3+ T lymphocytes per kilogram, with no regular posttransplant pharmacological immunosuppression. Engraftment occurred in 98% of patients (primary sustained engraftment, 83%; engraftment after reconditioning/stem cell boosts, 15%). Moreover, all survivors but one had a stable three-lineage engraftment with a median follow up of 4.1 years (range 0.6-8 years). Primary acute graft-versus-host disease (GvHD) grade II was seen in only 7% of patients. No severe primary acute GvHD grades III-IV occurred. Thirteen percent of the patients developed transient chronic GvHD. Probability of disease-free survival (DFS) at 3 years was 60% for patients with nonmalignant diseases and 48% for patients with acute lymphatic leukemia (ALL)/non-Hodgkin lymphoma (NHL) in complete remission (CR)1-3. None of the ALL/NHL patients with active disease survived. Children with acute and chronic myeloid leukemias had a poorer outcome (3-year DFS = 18%), whereas two of four patients with myelodysplastic syndrome (MDS) are alive. Relapse probability of the whole group was not significantly increased when compared to a historical control group. The incidence of lethal viral infections was 18% between 1995 and 2002 and has since been reduced to 8% by the introduction of new therapeutic strategies. In summary, the use of stem cells from haploidentical parental donors should be strongly considered in all children who need transplantation but lack an identical donor.
Blood Cells Mol Dis
PMID:Long-term outcome after haploidentical stem cell transplantation in children. 1552 45

Bone marrow and peripheral blood of adults contain a special sub-type of progenitor cells which are able to differentiate into mature endothelial cells, thus contributing to re-endothelialization and neo-vascularization. These angiogenic cells have properties of embryonal angioblasts and were termed endothelial progenitor cells (EPCs). In general, three surface markers (CD133, CD34 and the vascular endothelial growth factor receptor-2) characterize the early functional angioblast, located predominantly in the bone marrow. Later, when migrating to the systemic circulation EPCs gradually lose their progenitor properties and start to express endothelial marker like VE-cadherin, endothelial nitric oxide synthase and von Willebrand factor. The number of circulating EPCs in healthy subjects is rather low and a variety of conditions or factors may further influence this number. In the context of possible therapeutic application of EPCs recent clinical studies employing these cells for neo-vascularization of ischemic organs have just been published. However, the specificity of the observed positive clinical effects, the mechanisms regulating the differentiation of EPCs and their homing to sites of injured tissue remain partially unknown at present.
J Cell Mol Med
PMID:Endothelial progenitor cells: characterization, pathophysiology, and possible clinical relevance. 1560 78

Progenitor cells of bone marrow origin migrate to injured vessels, where they may contribute to endothelial maintenance and vessel remodeling through vascular endothelial growth factor (VEGF)-related signals. To what extent progenitor cells may play a role in vascular changes occurring in patients with chronic obstructive pulmonary disease (COPD) remains undetermined. In this study we sought to identify vascular progenitor cells in pulmonary arteries of patients with COPD and to investigate whether the presence of these cells could be related to changes in endothelial function or the expression of VEGF. Pulmonary arteries of nine patients with COPD and six control subjects were studied. Scanning electron microscopy demonstrated areas of denuded endothelium in the arteries of patients with COPD. Vascular progenitor cells were identified by immunohistochemistry and immunogold using antibodies against AC133, CD34, and CD45. AC133+ cells were localized in the endothelial surface, close to denuded areas. The number of AC133+ and CD45+ cells in pulmonary arteries was greater in patients with COPD than in control subjects. The number of AC133+ cells correlated with the response of pulmonary artery rings to hypoxic stimulus. AC133+ and CD45+ cells were also identified in the intimal layer. The wall thickness correlated with the number of progenitor cells in the intima and with VEGF and VEGF receptor-2 mRNA expression. We conclude that patients with COPD show an increased number of bone marrow-derived progenitor cells in pulmonary arteries. These cells seem to contribute to ongoing endothelial repair, but they might also be involved in the pathogenesis of pulmonary vascular remodeling.
Am J Respir Cell Mol Biol 2006 Mar
PMID:Identification of vascular progenitor cells in pulmonary arteries of patients with chronic obstructive pulmonary disease. 1623 42

Circulating endothelial progenitor cells (EPCs) play an important role in post natal neovascularization. High density lipoproteins (HDL) protect the vascular wall from atherosclerosis. The role exerted by HDL on EPCs physiology is unknown. In this study we investigated whether the levels of plasma HDL can modulate the number of EPCs. The number of EPCs was evaluated in 24 subjects as the number of endothelial colony-forming unit (e-CFU) growth in culture. The number of AC133 positive progenitor cells present in the gate of the CD34 bright positive lymphocytes was also evaluated. Plasma levels of HDL, triglycerides and total cholesterol/HDL cholesterol ratio correlated with the number of e-CFU (r=0.62, P=0.006; r=-0.54, P=0.019, and r=-0.61, P=0.007 respectively), but not with the number of CD34/AC133 positive progenitor cells. In vitro, the incubation of the mononuclear cellular fraction with HDL did not increase the number of e-CFU in culture, whereas LDL and VLDL reduced the number of e-CFU. Our results indicate that human HDL plasma levels directly relate to the number of circulating endothelial progenitor cells that can be isolated in vitro, as determined by the number of e-CFU.
Int J Mol Med 2006 Feb
PMID:In vitro isolation of circulating endothelial progenitor cells is related to the high density lipoprotein plasma levels. 1639 16

Within the phenotypically and functionally heterogeneous group of circulating progenitor cells (CPC), a subclass of cells with vascular repair potential have been identified. These CPC are detected and isolated based on single or combined expression of CD34, CD133 and VEGFR-2, and referred to as endothelial progenitor cells. Here we asked whether CPC subsets defined by single expression of these markers exhibit functional heterogeneity. As functional parameters, we chose the capacity of CPC to differentiate into endothelial cells. Moreover, we studied their role in remodeling by recruitment of inflammatory cells, an aspect that has been little explored. We established an in vivo model in which the intrinsic functional capacity of these human CPC subsets was studied. Human CD34+ CPC, but not CD133+ or VEGFR-2+ CPC, seeded in Matrigel pellets and transplanted subcutaneously in a nude mouse host, contributed little to donor-derived neovascularization. However, host angiogenesis in the Matrigel implant, as demonstrated by the presence of capillaries containing erythrocytes and expressing mouse CD31, was strong in response to implantation of human CD34+ CPC and significantly lower in response to the other two CPC subsets. Moreover, the CD34+ CPC subset was significantly superior to CD133+ CPC and VEGFR-2+ CPC in the recruitment of host monocytes/macrophages. These three CPC populations were further dissected into seven discrete subsets, based on three-parameter flow cytometry analysis of combined expression patterns of CD34, CD133 and VEGFR-2. In conclusion, in our system, CD34+ CPC contribute marginally to neovascularization by differentiation but are potent regulators of the host angiogenic and pro-inflammatory response, suggesting a possible role for these cells in the remodeling of vascular lesions.
J Mol Cell Cardiol 2006 Jul
PMID:Circulating CD34+ progenitor cells modulate host angiogenesis and inflammation in vivo. 1678 Aug 69

Stem cells are characterized by self-renewal and multipotency to produce multiple lineages of progenitor and differentiated cells. PROM1 gene encodes CD133 protein, which is a cell surface marker of hematopoietic stem cells, prostatic epithelial stem cells, pancreatic stem cells, leukemic stem cells, liver cancer stem cells, and colorectal cancer stem cells. Here, comparative integromics analyses on PROM1 orthologs were performed. Human PROM1 RefSeq NM_006017.1 was a truncated transcript, while AK027422.1 was the representative human PROM1 cDNA. Chimpanzee PROM1 gene, consisting of 27 exons, was identified within NW_001234057.1 genome sequence. Chimpanzee 5-transmembrane protein CD133 showed 99.2% and 60.9% total-amino-acid identity with human and mouse CD133 orthologs, respectively. Only 2 of 8 Asn-linked glycosylation sites in primate CD133 orthologs were conserved in rodent CD133 orthologs. Comparative proteomics revealed that CD133 orthologs were relatively divergent between primates and rodents. PROM1 mRNA was expressed in human embryonic stem (ES) cells, trachea, small intestine, NT2 cells, diffuse-type gastric cancer, and colorectal cancer. Human PROM1 mRNA transcribed from exon 1A was the major transcript. Comparative genomics revealed that the region around exon 1A corresponding to 5'-UTR of human PROM1 mRNA was not conserved in mouse and rat. Intron 2 of PROM1 orthologs was relatively well conserved among mammals. Tandem TCF/LEF-binding sites with 7-bp spacing within intron 2 were conserved among human, chimpanzee, mouse, and rat PROM1 orthologs. Together these facts indicate that canonical WNT signaling activation is implicated in CD133 expression in ES cells, adult stem cells, and cancer stem cells.
Int J Mol Med 2007 Jun
PMID:Comparative genomics on PROM1 gene encoding stem cell marker CD133. 1748 31

Human neural precursor proliferation and potency is limited by senescence and loss of oligodendrocyte potential. We found that in vitro expansion of human postnatal brain CD133(+) nestin(+) precursors is enhanced at 5% oxygen, while raising oxygen tension to 20% depletes precursors and promotes astrocyte differentiation even in the presence of mitogens. Higher cell densities yielded more astrocytes regardless of oxygen tension. This was reversed by noggin at 5%, but not 20%, oxygen due to a novel repressive effect of low oxygen on bone morphogenetic protein (BMP) signaling. When induced to differentiate by mitogen withdrawal, 5% oxygen-expanded precursors generated 17-fold more oligodendrocytes than cells expanded in 20% oxygen. When precursors were expanded at 5% oxygen and then differentiated at 20% oxygen, oligodendrocyte maturation was further enhanced 2.5-fold. These results indicate that dynamic control of oxygen tension regulates different steps in fate and maturation and may be crucial for treating neurodegenerative diseases.
Mol Cell Neurosci 2007 Jul
PMID:Oxygen tension controls the expansion of human CNS precursors and the generation of astrocytes and oligodendrocytes. 1749 68


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