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Query: UMLS:C0023418 (
leukemia
)
93,477
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Antigenic determinants of p30, the most abundant internal virion protein of C type RNA viruses, were detected on the surface of spleen cells from mice bearing Moloney
leukaemia
and on an in vitro line of Moloney sarcoma,
MSC
. On both cell types, these determinants on the p30 molecules served as cytotoxic targets in a xenogenic complement dependent antibody mediated 51Cr release assay. Two antisera were used: a rat anti MLV -M induced lymphoma serum, and an antiserum raised in goats to either disrupted FeLV. The cytotoxic target antigens of these antisera were analysed by inhibition of cytotoxicity with viral and cellular proteins.
...
PMID:Studies on mouse Moloney virus induced tumours: I. The detection of p30 as a cytotoxic target on murine Moloney leukaemic spleen cells, and on an in vitro Moloney sarcoma line by antibody mediated cytotoxicity. 5 Aug 52
A monoclonal human B-lymphoblastoid cell line (UTMB-460) arose spontaneously from the bone marrow of a normal healthy woman who was seropositive for an EB-virus infection. Chromosomally, the UTMB-460 cells are near tetraploid, with a specific translocation (8;9) (p11.2; p24), and have surface IgMk. The UTMB-460 cells are resistant to killing in vitro by spontaneous and rIFN alpha 2 and rIL-2 stimulated NK cells from the patient and other normal subjects, but are killed by lymphokine activated killer cells. The index patient has not developed
leukemia
/lymphoma during the follow-up interval of 22 months. The growth of UTMB-460 cells is supported by undefined growth factors in FCS and by BCGF in the absence of FCS. rIL-2 stimulates DNA synthesis by UTMB-460 cells. The UTMB-460 cells were adherent to the normal
MSC
in the primary culture and show specific heterotypic adherence to normal
MSC
when compared to skin fibroblasts. In addition, 6/6 normal marrow stromal cells and 4/6 normal skin fibroblasts induced growth of colonies from UTMB-460 cells. These data suggest that
MSC
interacted with the transformed cells (UTMB-460) in vitro and played a critical role in the establishment of the UTMB-460 cell line.
...
PMID:Role of marrow stromal cells in the establishment of a transformed lymphoblastic B-cell line from a normal human subject. 302 81
This paper reports the results of our studies concerning the specificity and mechanism of anemia in tumor-bearing mice. Three different types of transplanted extramedullary tumors, including a carcinoma (EAC), a sarcoma (S-180), and a
leukemia
(L-1210) produced anemia, neutrophilia, and medullary erythroblastopenia. Because the most striking effects were observed with S-180, it was selected for detailed study. Although erythroblasts were greatly decreased in the bone marrow to about 1% in the differential count, CFU-E and BFU-E were not, suggesting inhibited maturation of erythroid progenitors. Suppression of
MSC
to 1/3 of normal occurred at 21 days of tumor bearing, and qualitatively abnormal
MSC
at 35 days failed to enhance CFU-E and BFU-E in split-phase culture. We found that these
MSC
from tumor-bearing mice produced suppressive levels of PGE. PGE production and erythroid colony enhancement of
MSC
from either normal or tumor-bearing mice was abrogated by including 5 micrograms/ml indomethacin in the split-phase culture. Medium conditioned by S-180 that was capable of suppressing the growth of
MSC
colonies had no direct effect on erythroid colony formation. Our results support a hypothesis that extramedullary tumors are capable of producing a lesion in the supportive tissue of the bone marrow, leading to anemia and medullary erythroblastopenia. We believe that early, the tumor suppresses the number of
MSC
required for maturation of erythroid precursors and later induces the normal numbers of
MSC
to produce suppressive levels of PGE.
...
PMID:Prostaglandin E and the erythropoietic and stromal insufficiency induced by extramedullary tumor. 719 21
Recent studies describe beneficial effects of bone marrow-derived mesenchymal stem cell infusion in animal models as well as in patients. However, data on the homing abilities of primary and culture-expanded
MSC
are lacking. In order to systematically investigate
MSC
homing we compared the fate of both primary and cultured
MSC
in a syngeneic mouse model. Twenty-four hours after transplantation of uncultured EGFP-transgenic
MSC
into sublethally irradiated mice, as many as 55-65% of injected CFU-F were recovered from the BM and 3.5-7% from the spleen. In the subsequent 4 weeks these donor CFU-F expanded 100-fold, which resulted in a normalization of femoral and splenic CFU-F numbers. This highly efficient homing of primary CFU-F contrasted with the defective homing of
MSC
following culture. Following their infusion immortalized multipotent syngeneic stromal cells were undetectable in BM, spleen, lymph nodes or thymus. Remarkably, following transplantation of primary
MSC
that had been cultured for only 24 h the seeding fraction in the BM was reduced to 10%, while after transplantation of 48 h cultured primary
MSC
no CFU-F were detected in the lymphohematopoietic organs. These data suggest that in vitro propagation of BM-derived
MSC
dramatically decreases their homing to BM and spleen.
Leukemia
2003 Jan
PMID:Primary murine MSC show highly efficient homing to the bone marrow but lose homing ability following culture. 1252 74
To study the biological role of human cultured bone marrow mesenchymal stem cell (BM-MSC) in hematopoiesis by investigation of its expression of multiple hematopoietic growth factors, RT-PCR was used to analyze the expression of SCF, Flt3-ligand, TPO, LIF, G-CSF, GM-CSF, IL-3, IL-6 and IL-11 at mRNA level for human BM-
MSC
from healthy donors and patients with
leukemia
and lymphoma. BM-
MSC
were incubated with or without hydrocortison (HC). The results clearly showed that the cultured BM-
MSC
expressed mRNA of SCF, Flt3-ligand, TPO, LIF, IL-6 and IL-11 at passages 3 up to 15, but did not express G-CSF, GM-CSF and IL-3. The same expression pattern of above cytokines was seen also for the patient's BM-
MSC
. HC was able to induce BM-
MSC
to express G-CSF but not to express GM-CSF. BM-
MSC
seemed not to change morphologically after incubation with HC for up to 21 days. In conclusion, both normal and patient BM-
MSC
should be potential to promote hematopoiesis according to their expression of multiple hematopoietic cytokines, and HC is able to induce hematopoietic growth factor expression.
...
PMID:[Human bone marrow mesenchymal stem cells express multiple hematopoietic growth factors]. 1274 29
Se-methylselenocysteine (Se-MSC) has been shown to possess potent chemopreventive and anti-tumor properties. However, its exact mechanism of action is still not well understood. The present study investigated the mechanism of Se-
MSC
on the induction of apoptosis using U937 human
leukemia
cells. Se-
MSC
induced dose- and time-dependent apoptosis of U937 cells as assessed by flow cytometry analysis, DNA fragmentation, and proteolytic cleavage of poly-(ADP-ribose) polymerase (PARP). Se-
MSC
increased time- and dose-dependent cytochrome c accumulation in the cytosol, which was greatly inhibited by overexpression of Bcl-2, suggesting that the apoptotic effect by Se-
MSC
in U937 cells is mitochondrial-dependent. Se-
MSC
also induced activation of caspases, followed by proteolytic cleavage of PKC-delta. The Se-
MSC
-induced apoptosis required activities of caspases since pretreatment of a pan-caspase inhibitor z-VAD-fmk greatly suppressed the Se-
MSC
-induced apoptosis as well as proteolytic cleavage of PKC-delta, suggesting activation of caspases is critical for the Se-
MSC
-induced apoptosis, and caspases lie upstream of PKC-delta. The Se-
MSC
-induced apoptosis of U937 cells also required activity of PKC-delta because pretreatment of rottlerin, a specific PKC-delta inhibitor greatly blocked the Se-
MSC
-induced apoptosis as well as processing and activities of caspases, suggesting activation of PKC-delta is also important for the Se-
MSC
-induced apoptosis of U937 cells, and PKC-delta lies upstream of caspases. Together, our data suggest the apoptotic mechanism by Se-
MSC
in U937 cells may be related to cytochrome c release from the mitochondria, and mutual activation between caspases and PKC-delta via a positive feedback mechanism, which may potentiate the apoptotic action by Se-
MSC
in U937 cells.
...
PMID:Induction of apoptosis by Se-MSC in U937 human leukemia cells through release of cytochrome c and activation of caspases and PKC-delta: mutual regulation between caspases and PKC-delta via a positive feedback mechanism. 1453 2
Evidence is presented that bone marrow (BM) in addition to CD45(positive) hematopoietic stem cells contains a rare population of heterogenous CD45(negative) nonhematopoietic tissue committed stem cells (TCSC). These nonhematopoietic TCSC (i) are enriched in population of CXCR4(+) CD34(+) AC133(+) lin(-) CD45(-) and CXCR4(+) Sca-1(+) lin(-) CD45(-) in humans and mice, respectively, (ii) display several markers of pluripotent stem cells (PSC) and (iii) as we envision are deposited in BM early in development. Thus, since BM contains versatile nonhematopoietic stem cells, previous studies on plasticity trans-dedifferentiation of BM-derived hematopoietic stem cells (HSC) that did not include proper controls to exclude this possibility could lead to wrong interpretations. Therefore, in this spotlight review we present this alternative explanation of 'plasticity' of BM-derived stem cells based on the assumption that BM stem cells are heterogenous. We also discuss a potential relationship of TCSC/PSC identified by us with other BM-derived CD45(negative) nonhematopoietic stem cells that were recently identified by other investigators (eg
MSC
, MAPC, USSC and MIAMI cells). Finally, we discuss perspectives and pitfalls in potential application of these cells in regenerative medicine.
Leukemia
2005 Jul
PMID:Bone marrow as a home of heterogenous populations of nonhematopoietic stem cells. 1590 88
Safe, effective approaches for bone regeneration are needed to reverse bone loss caused by trauma, disease, and tumor resection. Unfortunately, the science of bone regeneration is still in its infancy, with all current or emerging therapies having serious limitations. Unlike current regenerative therapies that use single regenerative factors, the natural processes of bone formation and repair require the coordinated expression of many molecules, including growth factors, bone morphogenetic proteins, and specific transcription factors. As will be developed in this article, future advances in bone regeneration will likely incorporate therapies that mimic critical aspects of these natural biological processes, using the tools of gene therapy and tissue engineering. This review will summarize current knowledge related to normal bone development and fracture repair, and will describe how gene therapy, in combination with tissue engineering, may mimic critical aspects of these natural processes. Current gene therapy approaches for bone regeneration will then be summarized, including recent work where combinatorial gene therapy was used to express groups of molecules that synergistically interacted to stimulate bone regeneration. Last, proposed future directions for this field will be discussed, where regulated gene expression systems will be combined with cells seeded in precise three-dimensional configurations on synthetic scaffolds to control both temporal and spatial distribution of regenerative factors. It is the premise of this article that such approaches will eventually allow us to achieve the ultimate goal of bone tissue engineering: to reconstruct entire bones with associated joints, ligaments, or sutures. Abbreviations used: BMP, bone morphogenetic protein; FGF, fibroblast growth factor; AER, apical ectodermal ridge; ZPA, zone of polarizing activity; PZ, progress zone; SHH, sonic hedgehog; OSX, osterix transcription factor; FGFR, fibroblast growth factor receptor; PMN, polymorphonuclear neutrophil; PDGF, platelet-derived growth factor; IGF, insulin-like growth factor; TGF-beta, tumor-derived growth factor beta; CAR, coxsackievirus and adenovirus receptor; MLV, murine
leukemia
virus; HIV, human immunodeficiency virus; AAV, adeno-associated virus; CAT, computer-aided tomography; CMV, cytomegalovirus; GAM, gene-activated matrix;
MSC
, marrow stromal cell; MDSC, muscle-derived stem cell; VEGF, vascular endothelial growth factor.
...
PMID:Biological approaches to bone regeneration by gene therapy. 1630 38
This study was aimed to compare K562 cell proliferation, chemo-sensitivity and alteration of MDR1 before and after adhesive culture with
MSC
, so as to evaluate the relationship between chemodrug-resistance of
leukemia
cells and hemopoietic microenvironment. K562 cell cultivated in suspension and adhesively cultivated with
MSC
were collected respectively and cell proliferation curves were drawn; the cell cycle was determined by flow cytometry; the effect of chemotherapy on cellular viability and apoptosis of K562 cell was investigated, the MDR1 gene expression was determined by RT-PCR. The results showed that K562 cells adhesively cultivated with
MSC
were inhibited and cells in G0/G1 increased (P < 0.05), cells in S phase decreased (P < 0.05) and those in G0/G1 increased (P < 0.01), compared with that cultivated in suspension. In process of daunomycin-inducing apoptosis, K562 cell apoptosis in the adhesive culture with
MSC
was inhibited (P < 0.05). MDR1 gene expression in K562 cells was not induced or altered by adhesive co-cultivation. It is concluded that by co-culture of cell-cell contact with
MSC
, growth suppression and induction of chemo-resistance of K562 cells take place. The mechanism, however, seems not relevant with MDR1.
...
PMID:[Influence of human mesenchymal stem cells on cell proliferation and chemo-sensitivity of K562 cells]. 1663 4
Natural killer (NK) cell-mediated cytotoxicity can control
leukemia
relapse while protecting patients from graft-versus-host disease (GVHD) after allogeneic stem cell transplant. Cord blood (CB) is rich in NK cell progenitors with similar properties of proliferation and cytotoxicity as adult blood NK cells. Hence, it is attractive to expand and potentially utilize these cells for adoptive immunotherapy. In this study, CB mononuclear cells were CD3-depleted by immunomagnetic microbead selection to remove T cells. This CD3(dep) CB-MNC fraction was then plated for ex vivo expansion, with or without a feeder layer of irradiated umbilical cord mesenchymal stem cells (UC-MSC), with or without cytokines that have been shown to be critical for NK expansion: IL-2, IL-15, IL-3, and FLT-3L. At an average of 2 weeks of culture, there was significantly higher expansion (64.7 +/- 8.4-fold) of CD56(+)/CD3(-) NK cells in the presence of the UC-
MSC
feeder layer and cytokines compared to controls (no increase with feeder layer only and 6.4 +/- 1.5-fold increase with cytokines only, P < .05). Contact between CD3(dep) CB-MNC cells and UC-
MSC
augmented NK expansion. The combination of all 4 cytokines was superior to IL-2 alone or 2 cytokines combinations: mean 64.7 +/- 8.4-fold expansion with 4 cytokines combination versus IL-2 alone, IL-2 + FLT-3L, IL-2 + IL-15 or IL-2 + IL-3 (12.2 +/- 2.0, 14.4 +/- 2.4, 10.4 +/- 4.1, 25.2 +/- 8.1 respectively). We also observed that only fresh CD3(dep) CB-MNC preparations could be expanded reliably, whereas frozen and thawed CD3(dep) CB-MNC cells did not expand consistently (mean fold increase 6.5 +/- 3.2). Cytotoxicity of expanded NK cells was compared with NK cells from fresh and overnight IL-2 activated CD3(dep) CB-MNC. Whereas fresh cells displayed no discernible killing, strong cytotoxicity against K562, Raji, REH, and SUP-B15 cells lines was noted after overnight activation in IL-2. Cytotoxicity of expanded NK cells against Raji, REH, and SUP-B15 was lower, which, however, correlated with a predominant expansion of CD56(+)/CD16(-) cells known to have less cytolytic activity than CD56(+)/CD16(+). To test the transfection efficiency in NK cells, fresh or expanded CD3(dep) CB-MNC cells were electroporated with either DNA or mRNA constructs for GFP. DNA had a low transfection efficiency (<10%), whereas the one for mRNA reached 52%, but at the cost of significant cell death. Our results suggest that CB NK cell progenitors can be expanded to obtain large numbers by using an irradiated feeder of UC-
MSC
. They maintain an elevated cytotoxic profile, and may be genetically manipulated-all characteristics that make them suitable for cellular therapies.
...
PMID:Umbilical cord mesenchymal stem cells increase expansion of cord blood natural killer cells. 1872 66
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