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Immunological Investigations
A Journal of Molecular and Cellular Immunology
Volume 36, 2007 - Issue 5-6
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Original

Imaging Approaches to Hematopoietic Stem and Progenitor Cell Function and Engraftment

Nadir Askenasy Minimally Invasive Surgical Technologies Institute and Department of Surgery, Cedars-Sinai Medical Center, Los Angeles, California, USA; Frankel laboratory, Department of Pediatric Hematology Oncology, Schneider Children's Medical Center of Israel, Petach Tikva, IsraelCorrespondence[email protected]
,
Jerry Stein Frankel laboratory, Department of Pediatric Hematology Oncology, Schneider Children's Medical Center of Israel, Petach Tikva, Israel
&
Daniel L. Farkas Minimally Invasive Surgical Technologies Institute and Department of Surgery, Cedars-Sinai Medical Center, Los Angeles, California, USA; Department of Biomedical Engineering, Univ. of Southern California, Los Angeles, California, USA
Pages 713-738 | Published online: 07 Jul 2009

REFERENCES

  • Adamski D., Mayol J. F., Platet N., Berger F., Herodin F., Wion D. Effects of Hoechst 33342 on C2C12 and PC12 cell differentiation. FEBS Lett. 2007; 581: 3076–3080
  • Ahmed F., Ings S. J., Pizzey A. R., Blundell M. P., Thrasher A. J., Ye H. T., Fahey A., Linch D. C., Yong K. L. Impaired bone marrow homing of cytokine-activated CD34+ cells in the NOD/SCID model. Blood 2004; 103: 2079–2087
  • Allport J. R., Weissleder R. In vivo imaging of gene and cell therapies. Exp. Hematol. 2001; 29: 1237–1246
  • Anderson D. A., Wu Y., Jiang S., Zhang X., Streeter P. R., Spangrude G. J., Archer D. R., Fleming W. H. Donor marker infidelity in transgenic hematopoietic stem cells. Stem Cells 2005; 23: 638–643
  • Askenasy N. Localized bone marrow transplantation leads to skin allograft acceptance in non-myeloablated recipients: comparison of intra-bone marrow and isolated limb perfusion. Stem Cells 2002; 20: 86–93
  • Askenasy N., Farkas D. L. Optical imaging of PKH-labeled hematopoietic cells in recipient bone marrow. in vivo. Stem Cells 2002a; 20: 501–513
  • Askenasy N., Farkas D. L. Antigen barriers or available space do not restrict in situ adhesion of hemopoietic cells to bone marrow stroma. Stem Cells 2002b; 20: 80–85
  • Askenasy N., Zorina T., Farkas D. L., Shalit I. Transplanted hematopoietic cells seed in clusters in recipient bone marrow in vivo. Stem Cells 2002; 20: 301–310
  • Askenasy N., Farkas D. L. In vivo imaging studies of the effect of recipient conditioning, donor cell phenotype and antigen disparity on homing of haematopoietic cells to the bone marrow. Br. J. Haematol. 2003a; 120: 505–515
  • Askenasy N., Yolcu E. S., Shirwan H., Stein J., Yaniv I., Farkas D. L. Characterization of adhesion and viability of early seeding hematopoietic cells in the host bone marrow in vivo and in situ. Exp. Hematol. 2003b; 31: 1292–1300
  • Askenasy N., Stein J., Yaniv I., Farkas D. L. The topological and chronological patterns of hematopoietic cell seeding in host femoral bone marrow after transplantation. Biol. Blood Marrow Transplant. 2003c; 9: 496–504
  • Askenasy N., Yolcu E. S., Shirwan H., Wang Z., Farkas D. L. Cardiac allograft acceptance after localized bone marrow transplantation by isolated limb perfusion in non-myeloablated recipients. Stem Cells 2003d; 21: 200–207
  • Askenasy N. From the atom to the cell: Is the cat alive? Quantum mechanics and stem cell plasticity as deja vu. Stem Cells Dev. 2006; 15: 488–491
  • Askenasy N., Stein J., Yaniv I., Sharkis S. J. Our perception of developmental plasticity. Curr. Stem Cell Res. Ther. 2006; 1: 85–94
  • Bagnis C., Gravis G., Imbert A. M., Herrera D., Allario T., Galindo R., Lopez M., Pavon C., Sempere C., Mannoni P. Retroviral transfer of the nlsLacZ gene into human CD34+ cell populations and into TF-1 cells: future prospects in gene therapy. Hum. Gene Ther. 1994; 5: 1325–1333
  • Baines P., Visser J. W. Analysis and separation of murine bone marrow stem cells by H33342 fluorescence-activated cell sorting. Exp. Hematol. 1983; 11: 701–708
  • Ballou B. Quantum dot surfaces for use in vivo and in vitro. Curr. Top. Dev. Biol. 2005; 70: 103–120
  • Barbier M., Morjani H., Muirhead K. A., Ronot X., Boutonnat J. Optimization of PKH67 labeling conditions for proliferation monitoring in daunorubicin-treated leukemic cells. Oncol. Rep. 2005; 14: 553–559
  • Batard P., Monier M. N., Fortunel N., Ducos K., Sansilvestri-Morel P., Phan T., Hatzfeld A., Hatzfeld J. A. TGF-(beta)1 maintains hematopoietic immaturity by a reversible negative control of cell cycle and induces CD34 antigen up-modulation. J. Cell. Sci. 2000; 113: 383–390
  • Becker P. S., Nilsson S. K., Li Z., Berrios V. M., Dooner M. S., Cooper C. L., Hsieh C. C., Quesenberry P. J. Adhesion receptor expression by hematopoietic cell lines and murine progenitors: modulation by cytokines and cell cycle status. Exp. Hematol. 1999; 27: 533–541
  • Berardi A. C., Wang A., Levine J. D., Lopez P., Scadden D. T. Functional isolation and characterization of human hematopoietic stem cells. Science. 1995; 267: 104–108
  • Berrios V. M., Dooner G. J., Nowakowski G., Frimberger A., Valinski H., Quesenberry P. J., Becker P. S. The molecular basis for the cytokine-induced defect in homing and engraftment of hematopoietic stem cells. Exp. Hematol. 2001; 29: 1326–1235
  • Bertoncello I., Hodgson G. S., Bradley T. R. Multiparameter analysis of transplantable hemopoietic stem cells: I. The separation and enrichment of stem cells homing to marrow and spleen on the basis of rhodamine-123 fluorescence. Exp. Hematol. 1985; 13: 999–1006
  • Bertoncello I., Hodgson G. S., Bradley T. R. Multiparameter analysis of transplantable hemopoietic stem cells. II. Stem cells of long-term bone marrow-reconstituted recipients. Exp. Hematol. 1988; 16: 245–249
  • Bertoncello I., Bradley T. R., Hodgson G. S., Dunlop J. M. The resolution, enrichment, and organization of normal bone marrow high proliferative potential colony-forming cell subsets on the basis of rhodamine-123 fluorescence. Exp. Hematol. 1991; 19: 174–178
  • Biankin S. A., Collector M. I., Biankin A. V., Brown L. J., Kleeberger W., Devereux W. L., Zahnow C. A., Baylin S. B., Watkins D. N., Sharkis S. J., Leach S. D. A histological survey of green fluorescent protein expression in ‘green’ mice: implications for stem cell research. Pathology 2007; 39: 247–251
  • Biju V., Muraleedharan D., Nakayama K. I., Shinohara Y., Itoh T., Baba Y., Ishikawa M. Quantum dot-insect neuropeptide conjugates for fluorescence imaging, transfection, and nucleus targeting of living cells. Langmuir 2007, in press
  • Bonig H., Priestley G. V., Papayannopoulou T. Hierarchy of molecular-pathway usage in bone marrow homing and its shift by cytokines. Blood 2006; 107: 79–86
  • Brazelton T. R., Blau H. M. Optimizing techniques for tracking transplanted stem cells in vivo. Stem Cells 2005; 23: 1251–1265
  • Carlsen H., Moskaug J. O., Fromm S. H., Blomhoff R. In vivo imaging of NF-kappa B activity. J. Immunol. 2002; 168: 1441–1446
  • Chen I. Y., Wu J. C., Min J. J., Sundaresan G., Lewis X., Liang Q., Herschman H. R., Gambhir S. S. Micro-positron emission tomography imaging of cardiac gene expression in rats using bicistronic adenoviral vector-mediated gene delivery. Circulation 2004; 109: 1415–1420
  • Chen H., Titushkin I., Stroscio M., Cho M. Altered membrane dynamics of quantum dot-conjugated integrins during osteogenic differentiation of human bone marrow derived progenitor cells. Biophys. J. 2006; 92: 1399–1408
  • Chung A., Wachsmann-Hogiu S., Zhao T., Xiong Y., Joseph A., Farkas D. L. Advanced optical imaging requiring no contrast agents – A new armamentarium for medicine and surgery. Current Surgery 2005; 62: 365–370
  • Chung A., Lindsley E., Wachsmann-Hogiu S., Farkas D. L. In vivo cytometry— A spectrum of possibilities. Cytometry 2006; 69A: 142–146
  • Cohen B., Dafni H., Meir G., Harmelin A., Neeman M. Ferritin as an endogenous MRI reporter for noninvasive imaging of gene expression in C6 glioma tumors. Neoplasia 2005; 7: 109–117
  • Collis S. J., Neutzel S., Thompson T. L., Swartz M. J., Dillehay L. E., Collector M. I., Sharkis S. J., DeWeese T. L. Hematopoietic progenitor stem cell homing in mice lethally irradiated with ionizing radiation at differing dose rates. Radiat. Res. 2004; 162: 48–55
  • Colvin G. A., Lambert J. F., Dooner M. S., Cerny J., Quesenberry P. J. Murine allogeneic in vivo stem cell homing. J. Cell. Physiol. 2007; 211: 386–391
  • Contag P. R., Olomu I. N., Stevenson D. K., Contag C. H. Bioluminescent indicators in living mammals. Nat. Med. 1998; 4: 245–247
  • Deroose C. M., Reumers V., Gijsbers R., Bormans G., Debyser Z., Mortelmans L., Baekelandt V. Noninvasive monitoring of long-term lentiviral vector-mediated gene expression in rodent brain with bioluminescence imaging. Mol. Ther. 2006; 14: 423–431
  • Dooley D. C., Oppenlander B. K., Xiao M. Analysis of primitive CD34- and CD34+ hematopoietic cells from adults: gain and loss of CD34 antigen by undifferentiated cells are closely linked to proliferative status in culture. Stem Cells 2004; 22: 556–569
  • Dooner M., Cerny J., Colvin G., Demers D., Pimentel J., Greer D., Abedi M., McAuliffe C., Quesenberry P. Homing and conversion of murine hematopoietic stem cells to lung. Blood Cells Mol. Dis. 2004; 32: 47–51
  • Dube D. H., Prescher J. A., Quang C. N., Bertozzi C. R. Probing mucin-type O‐linked glycosylation in living animals. Proc. Natl. Acad. Sci. USA. 2006; 103: 4819–4824
  • Farkas D. L. Invention and commercialization in optical bioimaging. Nature Biotechnology 2003; 21: 1269–1271
  • Ford J. W., Welling T. H., Stanley J. C., Messina L. M. PKH26 and 125I-PKH95: characterization and efficacy as labels for in vitro and in vivo endothelial cell localization and tracking. J. Surg. Res. 1996; 62: 23–28
  • Fritzsch B., Muirhead K. A., Feng F., Gray B. D., Ohlsson-Wilhelm B. M. Diffusion and imaging properties of three new lipophilic tracers, NeuroVue Maroon, NeuroVue Red and NeuroVue Green and their use for double and triple labeling of neuronal profile. Brain Res. Bull. 2005; 66: 249–258
  • Gambhir S. S., Barrio J. R., Phelps M. E., Iyer M., Namavari M., Satyamurthy N., Wu L., Green L. A., Bauer E., MacLaren D. C., Nguyen K., Berk A. J., Cherry S. R., Herschman H. R. Imaging adenoviral-directed reporter gene expression in living animals with positron emission tomography. Proc. Natl. Acad. Sci. USA 1999; 96: 2333–1338
  • Genove G., DeMarco U., Xu H., Goins W. F., Ahrens E. T. A new transgene reporter for in vivo magnetic resonance imaging. Nat. Med. 2005; 11: 450–454
  • Gilad A. A., Winnard P. T., Jr., van Zijl P. C., Bulte J. W. Developing MR reporter genes: promises and pitfalls. NMR Biomed. 2007; 20: 275–290
  • Hall K. M., Horvath T. L., Abonour R., Cornetta K., Srour E. F. Decreased homing of retrovirally transduced human bone marrow CD34+ cells in the NOD/SCID mouse model. Exp. Hematol. 2006; 34: 433–442
  • Hara M., Dizon R. F., Glick B. S., Lee C. S., Kaestner K. H., Piston D. W., Bindokas V. P. Imaging pancreatic beta-cells in the intact pancreas. Am. J. Physiol. Endocrinol. Metab. 2006; 290: E1041–E407
  • Haylock D. N., Williams B., Johnston H. M., Liu M. C. P., Rutherford K. E., Whitty G. A., Simmons P. J., Bertoncello I., Nilsson S. K. Hemopoietic stem cells with higher hemopoietic potential reside at the bone marrow endosteum. Stem Cells 2007; 25: 1062–1069
  • Hendrikx P. J., Martens A. C. M., Hagenbeek A., Keij J. F., Visser J. W. M. Homing of fluorescently labeled murine hematopoietic stem cells. Exp. Hematol. 1996; 24: 129–140
  • Hinds K. A., Hill J. M., Shapiro E. M., Laukkanen M. O., Silva A. C., Combs C. A., Varney T. R., Balaban R. S., Koretsky A. P., Dunbar C. E. Highly efficient endosomal labeling of progenitor and stem cells with large magnetic particles allows magnetic resonance imaging of single cells. Blood 2003; 102: 867–872
  • Hoehn M., Kustermann E., Blunk J., Wiedermann D., Trapp T., Wecker S., Focking M., Arnold H., Hescheler J., Fleischmann B.K., Schwindt W., Buhrle C. Monitoring of implanted stem cell migration in vivo: a highly resolved in vivo magnetic resonance imaging investigation of experimental stroke in rat. Proc. Natl. Acad. Sci. USA 2002; 99: 16267–16272
  • Honigman A., Zeira E., Ohana P., Abramovitz R., Tavor E., Bar I., Zilberman Y., Rabinovsky R., Gazit D., Joseph A., Panet A., Shai E., Palmon A., Laster M., Galun E. Imaging transgene expression in live animals. Mol. Ther. 2001; 4: 239–249
  • Jaiswal J. K., Mattoussi H., Mauro J. M., Simon S. M. Long-term multiple color imaging of live cells using quantum dot bioconjugates. Nat. Biotechnol. 2003; 21: 47
  • Jang Y. Y., Collector M. I., Baylin S. B., Diehl A. M., Sharkis S. J. Hematopoietic stem cells convert into liver cells within days without fusion. Nat. Cell. Biol. 2004; 6: 532–539
  • Jeong J., Frykman P. K., Gaon M., Chung A. P., Lindsley E. H., Hwang J. Y., Farkas D.L. Intelligent spectral signature bio-imaging in vivo for surgical applications. Prog. Biomed. Optics Imaging 2007; 8: 64411N1
  • Jetmore A., Plett P. A., Tong X., Wolber F. M., Breese R., Abonour R., Orschell-Traycoff C. M., Srour E. F. Homing efficiency, cell cycle kinetics, and survival of quiescent and cycling human CD34(+) cells transplanted into conditioned NOD/SCID recipients. Blood 2002; 99: 1585–1593
  • Jones T. R., Shirasugi N., Adams A. B., Pearson T. C., Larsen C. P. Intravital microscopy identifies selectins that regulate T cell traffic into allografts. J. Clin. Invest. 2003; 112: 1714–1723
  • Kimura T., Koya R. C., Anselmi L., Sternini C., Wang H. J., Comin-Anduix B., Prins R. M., Faure-Kumar E., Rozengurt N., Cui Y., Kasahara N., Stripecke R. Lentiviral vectors with CMV or MHCII promoters administered in vivo: immune reactivity versus persistence of expression. Mol. Ther. 2007; 15: 1390–1399
  • Krause D. S., Theise N. D., Collector M. I., Henegariu O., Hwang S., Gardner R., Neutzel S., Sharkis S. J. Multi-organ, multi-lineage engraftment by a single bone marrow-derived stem cell. Cell 2001; 105: 369–377
  • Lanzkron S. M., Collector M. I., Sharkis S. J. Hematopoietic stem cell tracking In vivo: a comparison of short-term and long-term repopulating cells. Blood 1999; 93: 1916–1921
  • Leemhuis T., Yoder M. C., Grigsby S., Aguero B., Eder P., Srour E. F. Isolation of primitive human bone marrow hematopoietic progenitor cells using Hoechst 33342 and Rhodamine 123. Exp. Hematol. 1996; 24: 1215–1224
  • Lewin M., Carlesso N., Tung C. H., Tang X. W., Cory D., Scadden D. T., Weissleder R. Tat peptide-derivatized magnetic nanoparticles allow In vivo tracking and recovery of progenitor cells. Nat. Biotechnol. 2000; 18: 410–414
  • Loening A. M., Wu A. M., Gambhir S. S. Red-shifted Renilla reniformis luciferase variants for imaging in living subjects. Nat. Methods. 2007; 4: 641–643
  • Lord B. I., Testa N. G., Hendry J. H. The relative spatial distribution of CFU-S and CFU-C in the normal mouse femur. Blood 1975; 46: 65–72
  • Louie A. Y., Huber M. M., Ahrens E. T., Rothbacher U., Moats R., Jacobs R. E., Fraser S. E., Meade T. J. In vivo visualization of gene expression using magnetic resonance imaging. Nat. Biotechnol. 2000; 18: 321–325
  • Luo J., Lin A. H., Masliah E., Wyss-Coray T. Bioluminescence imaging of Smad signaling in living mice shows correlation with excitotoxic neurodegeneration. Proc. Natl. Acad. Sci. USA 2006; 103: 18326–18331
  • Lyons A. B., Parish C. R. Determination of lymphocyte division by flow cytometry. J. Immunol. Methods. 1994; 171: 131–137
  • McAlister I., Wolf N. S., Pietrzyk M. E., Rabinovitch P. S., Priestley G., Jaeger B. Transplantation of hematopoietic stem cells obtained by a combined dye method fractionation of murine bone marrow. Blood 1990; 75: 1240–1246
  • Morita Y., Ema H., Yamazaki S., Nakauchi H. Non-side-population hematopoietic stem cells in mouse bone marrow. Blood 2006; 108: 2850–2856
  • Mulder A. H., Visser J. W. Separation and functional analysis of bone marrow cells separated by rhodamine-123 fluorescence. Exp. Hematol. 1987; 15: 99–104
  • Neben S., Redfearn W. J., Parra M., Brecher G., Pallavicini M. G. Short- and long-term repopulation of lethally irradiated mice by bone marrow stem cells enriched on the basis of light scatter and Hoechst 33342 fluorescence. Exp. Hematol. 1991; 19: 958–967
  • Nilsson S. K., Hulspas R., Weier H. U., Quesenberry P. J. In situ detection of individual transplanted bone marrow cells using FISH on sections of paraffin-embedded whole murine femurs. J. Histochem. Cytochem. 1996; 44: 1069–1074
  • Nilsson S. K., Dooner M. S., Tiarks C. Y., Weier H. U., Quesenberry P. J. Potential and distribution of transplanted hematopoietic stem cells in a nonablated mouse model. Blood 1997a; 89: 4013–4020
  • Nilsson S. K., Dooner M. S., Quesenberry P. J. Synchronized cell-cycle induction of engrafting long-term repopulating stem cells. Blood 1997b; 90: 4646–4650
  • Nilsson S. K., Debatis M. E., Dooner M. S., Madri J. A., Quesenberry P. J., Becker P. S. Immunofluorescence characterization of key extracellular matrix proteins in murine bone marrow in situ. J Histochem Cytochem. 1998; 46: 371–377
  • Nilsson S. K., Johnston H. M., Coverdale J. A. Spatial localization of transplanted hemopoietic stem cells: inferences for the localization of stem cell niches. Blood 2001; 97: 2293
  • Nilsson S. K., Simmons P. J. Transplantable stem cells: home to specific niches. Curr. Opin. Hematol. 2004; 11: 102–106
  • Ohtani S., Kagawa S., Tango Y., Umeoka T., Tokunaga N., Tsunemitsu Y., Roth J. A., Taya Y., Tanaka N., Fujiwara T. Quantitative analysis of p53-targeted gene expression and visualization of p53 transcriptional activity following intratumoral administration of adenoviral p53 in vivo. Mol. Cancer Ther. 2004; 3: 93–100
  • Okada S., Ishii K., Yamane J., Iwanami A., Ikegami T., Katoh H., Iwamoto Y., Nakamura M., Miyoshi H., Okano H. J., Contag C. H., Toyama Y., Okano H. In vivo imaging of engrafted neural stem cells: its application in evaluating the optimal timing of transplantation for spinal cord injury. FASEB J. 2005; 19: 1839–1841
  • Oostendorp R. A., Ghaffari S., Eaves C. J. Kinetics of In vivo homing and recruitment into cycle of hematopoietic cells are organ-specific but CD44-independent. Bone Marrow Transplant. 2000a; 26: 559–566
  • Oostendorp R. A., Audet J., Eaves C. J. High-resolution tracking of cell division suggests similar cell cycle kinetics of hematopoietic stem cells stimulated in vitro and in vivo. Blood 2000b; 95: 855–862
  • Pahl H. L., Burn T. C., Tenen D. G. Optimization of transient transfection into human myeloid cell lines using a luciferase reporter gene. Exp. Hematol. 1991; 19: 1038–1041
  • Pallavicini M. G., Summers L. J., Dean P. N., Gray J. W. Enrichment of murine hemopoietic clonogenic cells by multivariate analyses and sorting. Exp. Hematol. 1985; 13: 1173–1181
  • Pearl-Yafe M., Yolcu E. S., Stein J., Kaplan O., Shirwan H., Yaniv I., Askenasy N. Expression of Fas and Fas-ligand in donor hematopoietic stem and progenitor cells is dissociated from the sensitivity to apoptosis. Exp. Hematol. 2007a; 35: 1601–1612
  • Pearl-Yafe M., Yolcu E. S., Stein J., Kaplan O., Yaniv I., Shirwan H., Askenasy N. Fas ligand enhances hematopoietic cell engraftment through abrogation of alloimmune responses and nonimmunogenic interactions. Stem Cells 2007b; 25: 1448–1455
  • Petrovsky A., Schellenberger E., Josephson L., Weissleder R., Bogdanov A., Jr. Near-infrared fluorescent imaging of tumor Apoptosis. Cancer Res. 2003; 63: 1936–1942
  • Plett A., Frankovitz S. M., Orschell-Traycoff C. M. In vivo trafficking, cell cycle activity, and engraftment potential of phenotypically defined primitive hematopoietic cells after transplantation into irradiated or nonirradiated recipients. Blood 2002; 100: 3545–3552
  • Ploemacher R. E., Brons N. H. Cells with marrow and spleen repopulating ability and forming spleen colonies on day 16, 12, and 8 are sequentially ordered on the basis of increasing rhodamine 123 retention. J. Cell. Physiol. 1988; 136: 531–536
  • Prescher J. A., Dube D. H., Bertozzi C. R. Chemical remodelling of cell surfaces in living animals. Nature 2004; 430: 873–877
  • Quesenberry P. J., Colvin G., Abedi M. Perspective: Fundamental and clinical concepts on stem cell homing and engraftment: A journey to niches and beyond. Exp. Hematol. 2005; 33: 9–19
  • Rhee J. M., Pirity M. K., Lackan C.S., Long J. Z., Kondoh G., Takeda J., Hadjantonakis A. K. In vivo imaging and differential localization of lipid-modified GFP-variant fusions in embryonic stem cells and mice. Genesis 2006; 44: 202–218
  • Rosen A. B., Kelly D. J., Schuldt A. J., Lu J., Potapova I. A., Doronin S. V., Robichaud K. J., Robinson R. B., Rosen M. R., Brink P. R., Gaudette G. R., Cohen I. S. Finding fluorescent needles in the cardiac haystack: tracking human mesenchymal stem cells labeled with quantum dots for quantitative In vivo3-D fluorescence analysis. Stem Cells 2007; 25: 2128–2138
  • Rosenzweig M., Connole M., Glickman R., Yue S. P., Noren B., DeMaria M., Johnson R. P. Induction of cytotoxic T lymphocyte and antibody responses to enhanced green fluorescent protein following transplantation of transduced CD34(+) hematopoietic cells. Blood 2001; 97: 1951–1959
  • Sadikot R. T., Han W., Everhart M. B., Zoia O., Peebles R. S., Jansen E. D., Yull F. E., Christman J. W., Blackwell T. S. Selective I kappa B kinase expression in airway epithelium generates neutrophilic lung inflammation. J. Immunol. 2003; 170: 1091–1098
  • Shah K., Tang Y., Breakefield X., Weissleder R. Real-time imaging of TRAIL-induced apoptosis of glioma tumors. in vivo. Oncogene 2003; 22: 6865–6872
  • Shapiro E. M., Sharer K., Skrtic S., Koretsky A. P. In vivo detection of single cells by MRI. Magn. Reson. Med. 2006; 55: 242–249
  • Shatry A. M., Jones M., Levy R. B. The effect of the spleen on compartmental levels and distribution of donor progenitor cells after syngeneic and allogeneic bone marrow transplants. Stem Cells Dev. 2004; 13: 51–62
  • Slezak S. E., Muirhead K. A. Radioactive cell membrane labelling. Nature 1991; 352: 261–262
  • Slotkin J. R., Chakrabarti L., Dai H. N., Carney R. S., Hirata T., Bregman B. S., Gallicano G. I., Corbin J. G., Haydar T. F. In vivo quantum dot labeling of mammalian stem and progenitor cells. Dev. Dyn. 2007, in press
  • Stein J., Yaniv I., Askenasy N. Critical early events in hematopoietic cell seeding and engraftment. Folia Histochem. et Cytobiol. 2005; 43: 191–195
  • Szilvassy S. J., Bass M. J., Van Zant G., Grimes B. Organ-selective homing defines engraftment kinetics of murine hematopoietic stem cells and is compromised by ex vivo expansion. Blood 1999; 93: 1557–1566
  • Szilvassy S. J., Meyerrose T. E., Ragland P. L., Grimes B. Differential homing and engraftment properties of hematopoietic progenitor cells from murine bone marrow, mobilized peripheral blood, and fetal liver. Blood 2001a; 98: 2108–2115
  • Szilvassy S. J., Meyerrose T. E., Ragland P. L., Grimes B. Homing and engraftment defects in ex vivo expanded murine hematopoietic cells are associated with downregulation of beta1 integrin. Exp. Hematol. 2001b; 29: 1494–1502
  • Tjuvajev J. G., Stockhammer G., Desai R., Uehara H., Watanabe K., Gansbacher B., Blasberg R. G. Imaging the expression of transfected genes. in vivo. Cancer Res. 1995; 55: 6126–6132
  • Tjuvajev J. G., Finn R., Watanabe K., Joshi R., Oku T., Kennedy J., Beattie B., Koutcher J., Larson S., Blasberg R. G. Noninvasive imaging of herpes virus thymidine kinase gene transfer and expression: a potential method for monitoring clinical gene therapy. Cancer Res. 1996; 56: 4087–4095
  • Tran-Dinh A., Kubis N., Tomit Y., Karaszewski B., Calando Y., Oudina K., Petite H., Seylaz J., Pinard E. In vivo imaging with cellular resolution of bone marrow cells transplanted into the ischemic brain of a mouse. Neuroimage 2006; 31: 958–967
  • Uchida N., Combs J., Chen S., Zanjani E., Hoffman R., Tsukamoto A. Primitive human hematopoietic cells displaying differential efflux of the rhodamine 123 dye have distinct biological activities. Blood 1996; 88: 1297–1305
  • Umeoka T., Kawashima T., Kagawa S., Teraishi F., Taki M., Nishizaki M., Kyo S., Nagai K., Urata Y., Tanaka N., Fujiwara T. Visualization of intrathoracically disseminated solid tumors in mice with optical imaging by telomerase-specific amplification of a transferred green fluorescent protein gene. Cancer Res. 2004; 64: 6259–6265
  • Van Zant G., Fry C. G. Hoechst 33342 staining of mouse bone marrow: effects on colony-forming cells. Cytometry 1983; 4: 40–46
  • Wallace P. K., Palmer L. D., Perry-Lalley D., Bolton E. S., Alexander R. B., Horan P. K., Yang J. C., Muirhead K. A. Mechanisms of adoptive immunotherapy: improved methods for In vivo tracking of tumor-infiltrating lymphocytes and lymphokine-activated killer cells. Cancer Res. 1993; 53: 2358–2367
  • Wang Y., Wang G., O'Kane D. J., Szalay A. A. A study of protein-protein interactions in living cells using luminescence resonance energy transfer (LRET) from Renilla luciferase to Aequorea GFP. Mol. Gen. Genet. 2001; 264: 578–587
  • Weissleder R., Tung C. H., Mahmood U., Jr., Bogdanov A. In vivo imaging of tumors with protease-activated near-infrared fluorescent probes. Nat. Biotechnol. 1999; 17: 375–378
  • Weissleder R., Moore A., Mahmood U., Bhorade R., Benveniste H., Chiocca E.A., Basilion J.P. In vivo magnetic resonance imaging of transgene expression. Nat. Med. 2000; 6: 351–355
  • Weissleder R., Ntziachristos V. Shedding light onto live molecular targets. Nat. Med. 2003; 9: 123–128
  • Wolf N. S., Koné A., Priestley G. V., Bartelmez S. H. In vivo and in vitro characterization of long-term repopulating primitive hematopoietic cells isolated by sequential Hoechst 33342-rhodamine 123 FACS selection. Exp. Hematol. 1993; 21: 614–622
  • Worsham D. N., Schuesler T., von Kalle C., Pan D. In vivo gene transfer into adult stem cells in unconditioned mice by in situ delivery of a lentiviral vector. Mol. Ther. 2006; 14: 514–524
  • Wu J. C., Sundaresan G., Iyer M., Gambhir S. S. Noninvasive optical imaging of firefly luciferase reporter gene expression in skeletal muscles of living mice. Mol. Ther. 2001; 4: 297–306
  • Wu J. C., Inubushi M., Sundaresan G., Schelbert H. R., Gambhir S. S. Optical imaging of cardiac reporter gene expression in living rats. Circulation 2002; 105: 1631–1634
  • Yan F., Collector M. I., Tyszko S., Sharkis S. J. Using divisional history to measure hematopoietic stem cell self-renewal and differentiation. Exp. Hematol. 2003; 31: 56–64
  • Yang M., Baranov E., Moossa A. R., Penman S., Hoffman R. M. Visualizing gene expression by whole-body fluorescence imaging. Proc. Natl. Acad. Sci. USA 2000a; 97: 12278–12282
  • Yang M., Baranov E., Jiang P., Sun F. X., Li X. M., Li L., Hasegawa S., Bouvet M., Al-Tuwaijri M., Chishima T., Shimada H., Moossa A.R., Penman S., Hoffman R. M. Whole-body optical imaging of green fluorescent protein-expressing tumors and metastases. Proc. Natl. Acad. Sci. USA 2000b; 97: 1206–1211
  • Yaniv I., Stein J., Faskas D. L., Askenasy N. The tale of early hematopoietic cell seeding in the bone marrow niche. Stem Cells & Dev. 2006; 15: 4–16
  • Yano S., Kuroda S., Shichinohe H., Hida K., Iwasaki Y. Do bone marrow stromal cells proliferate after transplantation into mice cerebral infarct?—a double labeling study. Brain Res. 2005; 1065: 60–67
  • Yano S., Kuroda S., Lee J.B., Shichinohe H., Seki T., Ikeda J., Nishimura G., Hida K., Tamura M., Iwasaki Y. In vivo fluorescence tracking of bone marrow stromal cells transplanted into a pneumatic injury model of rat spinal cord. J. Neurotrauma 2005; 22: 907–918
  • Yoshimoto M., Shinohara T., Heike T., Shiota M., Kanatsu-Shinohara M., Nakahata T. Direct visualization of transplanted hematopoietic cell reconstitution in intact mouse organs indicates the presence of a niche. Exp. Hematol. 2003; 31: 733–740
  • Yu X., Zhan X., D'Costa J., Tanavde V.M., Ye Z., Peng T., Malehorn M.T., Yang X., Civin C.I., Cheng L. Lentiviral vectors with two independent internal promoters transfer high-level expression of multiple transgenes to human hematopoietic stem-progenitor cells. Mol. Ther. 2003; 7: 827–838
  • Yuan X., Curtin J., Xiong Y., Liu G., Wachsmann-Hogiu S., Farkas D. L., Black K. L., Yu J. S. Isolation of cancer stem cells from adult glioblastoma multiforme. Oncogene 2004; 23: 9392–9400
  • Zheng J., Ghazani A.A., Song Q., Mardyani S., Chan W. C., Wang C. Cellular imaging and surface marker labeling of hematopoietic cells using quantum dot bioconjugates. Lab. Hematol. 2006; 12: 94–98
  • Zheng X., Shen G., Yang X., Liu W. Most C6 cells are cancer stem cells: evidence from clonal and population analyses. Cancer Res. 2007; 67: 3691–3697
  • Zhu L., Ramboz S., Hewitt D., Boring L., Grass D. S., Purchio A.F. Non-invasive imaging of GFAP expression after neuronal damage in mice. Neurosci. Lett. 2004; 367: 210–212

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