The Use of Erythropoietin in the Treatment of Post-bone Marrow Transplatation Anemia

1993 ◽  
Vol 16 (5_suppl) ◽  
pp. 8-12 ◽  
Author(s):  
A.M. Vannucchi ◽  
A. Bosi ◽  
A. Grossi ◽  
S. Guidi ◽  
R. Saccardi ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Clinical Trials ◽  
Bone Marrow Transplantation ◽  
Blood Transfusion ◽  
In Vitro Models ◽  
Immunosuppressive Drug ◽  
Number Of Patients

The issue of the role of erythropoietin (Epo) in the erythroid reconstitution after bone marrow transplantation (BMT) has been addressed in several recent studies. A defective Epo production in response to anemia has been shown to occur in patients undergoing allogeneic BMT unlike in most of those subjected to an autologous rescue. The factors involved in the inadeguate Epo production in BMT are discussed, with particular attention to the role of the immunosuppressive drug cyclosporin-A, which has been shown to inhibit Epo production in both in vivo and in vitro models. The observation of defective Epo production eventually led to the development of clinical trials of recombinant human Epo (rhEpo) administration in BMT patients; the aims of these studies were to stimulate erythroid engraftment, hence reducing blood transfusion exposure. Although the number of patients studied up to now is relatively small, a benefit from rhEpo administration in terms of accelerated erythroid engraftment seems very likely, and it may also be associated with decreased transfusional needs in most treated patients. However, further studies are needed to better define indications, dosages and schedules of rhEpo in BMT patients.

Modulation of Matrix Metalloproteinases by Plant-Derived Products

2020 ◽  
Vol 20 ◽  
Author(s):  
Nur Najmi Mohamad Anuar ◽  
Nurul Iman Natasya Zulkafali ◽  
Azizah Ugusman
Keyword(s):  
Clinical Trials ◽  
Natural Products ◽  
Matrix Metalloproteinases ◽  
Animal Studies ◽  
Current Knowledge ◽  
In Vitro Models ◽  
In Vivo Studies ◽  
Extracellular Matrix Components

: Matrix metalloproteinases (MMPs) are a group of zinc-dependent metallo-endopeptidase that are responsible towards the degradation, repair and remodelling of extracellular matrix components. MMPs play an important role in maintaining a normal physiological function and preventing diseases such as cancer and cardiovascular diseases. Natural products derived from plants have been used as traditional medicine for centuries. Its active compounds, such as catechin, resveratrol and quercetin, are suggested to play an important role as MMPs inhibitors, thereby opening new insights into their applications in many fields, such as pharmaceutical, cosmetic and food industries. This review summarises the current knowledge on plant-derived natural products with MMP-modulating activities. Most of the reviewed plant-derived products exhibit an inhibitory activity on MMPs. Amongst MMPs, MMP-2 and MMP-9 are the most studied. The expression of MMPs is inhibited through respective signalling pathways, such as MAPK, NF-κB and PI3 kinase pathways, which contribute to the reduction in cancer cell behaviours, such as proliferation and migration. Most studies have employed in vitro models, but a limited number of animal studies and clinical trials have been conducted. Even though plant-derived products show promising results in modulating MMPs, more in vivo studies and clinical trials are needed to support their therapeutic applications in the future.

scholarly journals The Role of Biomimetic Hypoxia on Cancer Cell Behaviour in 3D Models: A Systematic Review

Cancers ◽  
2021 ◽  
Vol 13 (6) ◽  
pp. 1334
Author(s):  
Ye Liu ◽  
Zahra Mohri ◽  
Wissal Alsheikh ◽  
Umber Cheema
Keyword(s):  
Systematic Review ◽  
Cellular Response ◽  
3D Culture ◽  
3D Models ◽  
In Vitro Models ◽  
Research Findings ◽  
Tissue Models

The development of biomimetic, human tissue models is recognized as being an important step for transitioning in vitro research findings to the native in vivo response. Oftentimes, 2D models lack the necessary complexity to truly recapitulate cellular responses. The introduction of physiological features into 3D models informs us of how each component feature alters specific cellular response. We conducted a systematic review of research papers where the focus was the introduction of key biomimetic features into in vitro models of cancer, including 3D culture and hypoxia. We analysed outcomes from these and compiled our findings into distinct groupings to ascertain which biomimetic parameters correlated with specific responses. We found a number of biomimetic features which primed cancer cells to respond in a manner which matched in vivo response.

scholarly journals Persistence of myeloid progenitor cells expressing BCR-ABL mRNA after allogeneic bone marrow transplantation for chronic myelogenous leukemia

Blood ◽  
1994 ◽  
Vol 84 (7) ◽  
pp. 2109-2114
Author(s):  
G Pichert ◽  
EP Alyea ◽  
RJ Soiffer ◽  
DC Roy ◽  
J Ritz
Keyword(s):  
Bone Marrow ◽  
Bone Marrow Transplantation ◽  
Marrow Transplantation ◽  
Progenitor Cell ◽  
Allogeneic Bone Marrow Transplantation ◽  
Allogeneic Bone Marrow ◽  
Myeloid Differentiation ◽  
Allogeneic Bone

Previous studies have shown that tumor-specific bcr-abl mRNA can often be detected by polymerase chain reaction. (PCR) for months to years after allogeneic bone marrow transplantation (BMT) for chronic myelocytic leukemia (CML). Nevertheless, the presence of bcr-abl mRNA by itself does not invariably predict for clinical relapse post-BMT. This has led to the hypothesis that bcr-abl mRNA might be expressed in cells that have lost either proliferative or myeloid differentiation potential. To directly characterize the cells detected by PCR in patients with CML after allogeneic BMT, we first identified five individuals in whom PCR-positive cells could be detected at multiple times post-BMT. Bone marrow samples from these individuals were cultured in vitro and single erythroid, granulocytic, and macrophage colonies, each containing 50 to 100 cells, were examined for the presence of bcr-abl mRNA by PCR. PCR-positive myeloid colonies could be detected in four of five individuals in marrow samples obtained 5 to 56 months post-BMT. Overall, 7 of 135 progenitor cell colonies (5.2%) were found to be PCR-positive. The expression of bcr-abl mRNA appeared to be equally distributed among committed erythroid, macrophage, and granulocyte progenitors. These patients have now been followed-up for an additional 20 to 33 months from the time of progenitor cell PCR analysis but only one of these individuals has been found to have cytogenetic evidence of recurrent Ph+ cells. These results show that long-term persistence of PCR-detectable bcr-abl mRNA after allogeneic BMT can be caused by the persistence of CML-derived clonogenic myeloid precursors that have survived the BMT preparative regimen. These cells continue to have both proliferative and myeloid differentiation capacity in vitro. Nevertheless, these PCR-positive cells do not appear to either expand or differentiate in vivo for prolonged periods, suggesting the presence of mechanisms for suppression of residual clonogenic leukemia cells in vivo.

scholarly journals Gamma-interferon and tumor necrosis factor production after bone marrow transplantation is augmented by exposure to marrow fibroblasts infected with cytomegalovirus

Blood ◽  
1990 ◽  
Vol 76 (5) ◽  
pp. 1046-1053 ◽  
Author(s):  
AS Duncombe ◽  
A Meager ◽  
HG Prentice ◽  
JE Grundy ◽  
HE Heslop ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Bone Marrow Transplantation ◽  
Tumor Necrosis Factor ◽  
Marrow Transplantation ◽  
Tumor Necrosis ◽  
Gamma Interferon ◽  
Cmv Infection ◽  
Necrosis Factor

Abstract After bone marrow transplantation (BMT), mortality from viral infections such as cytomegalovirus (CMV) remains high. Gamma-Interferon (gamma IFN) and tumor necrosis factor (TNF) are produced constitutively after BMT and have anti-viral properties. To study the effects of these cytokines on CMV interaction with host cells, we have used patient marrow fibroblasts since marrow stroma is a target for CMV infection correlating with myelosuppression in vivo. Both gamma IFN and TNF are constitutively produced by recipient CD3+ and CD16+ lymphocytes, but not by their marrow fibroblasts. Secretion by peripheral blood mononuclear cells is increased if they are cultured with host fibroblasts infected with CMV in vitro and the levels of gamma IFN and TNF produced are within the range that protects fresh fibroblasts from CMV infection. Constitutive secretion of cytokines by lymphocytes declines by 8 weeks after BMT, a time when the risk of CMV disease increases sharply. The in vitro phenomenon that we have described needs to be evaluated in correlative studies on individual BMT recipients to determine whether such a cytokine-mediated defense mechanism against CMV may operate in vivo.

scholarly journals Intestinal miRNAs regulated in response to dietary lipids

2020 ◽  
Vol 10 (1) ◽  
Author(s):  
Judit Gil-Zamorano ◽  
João Tomé-Carneiro ◽  
María-Carmen Lopez de las Hazas ◽  
Lorena del Pozo-Acebo ◽  
M. Carmen Crespo ◽  
...  
Keyword(s):  
Small Intestine ◽  
Lipid Metabolism ◽  
Chronic Exposure ◽  
Potential Role ◽  
In Vitro Models ◽  
Dietary Lipids ◽  
Metabolism Regulation

Abstract The role of miRNAs in intestinal lipid metabolism is poorly described. The small intestine is constantly exposed to high amounts of dietary lipids, and it is under conditions of stress that the functions of miRNAs become especially pronounced. Approaches consisting in either a chronic exposure to cholesterol and triglyceride rich diets (for several days or weeks) or an acute lipid challenge were employed in the search for intestinal miRNAs with a potential role in lipid metabolism regulation. According to our results, changes in miRNA expression in response to fat ingestion are dependent on factors such as time upon exposure, gender and small intestine section. Classic and recent intestinal in vitro models (i.e. differentiated Caco-2 cells and murine organoids) partially mirror miRNA modulation in response to lipid challenges in vivo. Moreover, intestinal miRNAs might play a role in triglyceride absorption and produce changes in lipid accumulation in intestinal tissues as seen in a generated intestinal Dicer1-deletion murine model. Overall, despite some variability between the different experimental cohorts and in vitro models, results show that some miRNAs analysed here are modulated in response to dietary lipids, hence likely to participate in the regulation of lipid metabolism, and call for further research.

scholarly journals Activation of heme oxygenase-1 by Ginkgo biloba extract differentially modulates endothelial and smooth muscle-like progenitor cells for vascular repair

2019 ◽  
Vol 9 (1) ◽  
Author(s):  
Tao-Cheng Wu ◽  
Jia-Shiong Chen ◽  
Chao-Hung Wang ◽  
Po-Hsun Huang ◽  
Feng-Yen Lin ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Smooth Muscle ◽  
Progenitor Cells ◽  
Heme Oxygenase ◽  
Neointimal Hyperplasia ◽  
Vascular Repair ◽  
Vascular Progenitor Cells

AbstractVascular progenitors such as endothelial progenitor cells (EPCs) and smooth muscle-like progenitor cells (SMPCs) may play different roles in vascular repair. Ginkgo biloba extract (GBE) is an exogenous activator of heme oxygenase (HO)-1, which has been suggested to improve vascular repair; however, the detailed mechanisms have yet to be elucidated. This study aimed to investigate whether GBE can modulate different vascular progenitor cells by activating HO-1 for vascular repair. A bone marrow transplantation mouse model was used to evaluate the in vivo effects of GBE treatment on wire-injury induced neointimal hyperplasia, which is representative of impaired vascular repair. On day 14 of GBE treatment, the mice were subjected to wire injury of the femoral artery to identify vascular reendothelialization. Compared to the mice without treatment, neointimal hyperplasia was reduced in the mice that received GBE treatment for 28 days in a dose-dependent manner. Furthermore, GBE treatment increased bone marrow-derived EPCs, accelerated endothelial recovery, and reduced the number of SMPCs attached to vascular injury sites. The effects of GBE treatment on neointimal hyperplasia could be abolished by co-treatment with zinc protoporphyrin IX, an HO-1 inhibitor, suggesting the in vivo role of HO-1. In this in vitro study, treatment with GBE activated human early and late EPCs and suppressed SMPC migration. These effects were abolished by HO-1 siRNA and an HO-1 inhibitor. Furthermore, GBE induced the expression of HO-1 by activating PI3K/Akt/eNOS signaling in human late EPCs and via p38 pathways in SMPCs, suggesting that GBE can induce HO-1 in vitro through different molecular mechanisms in different vascular progenitor cells. Accordingly, GBE could activate early and late EPCs, suppress the migration of SMPCs, and improve in vivo vascular repair after mechanical injury by activating HO-1, suggesting the potential role of pharmacological HO-1 activators, such as GBE, for vascular protection in atherosclerotic diseases.

Role of Il-2, Il-7, and IL-15 in T Cell Mediated Graft-vs-Leukemia Against Human Acute Lymphoblastic Leukemia in a NOD/scid Chimeric Mouse Model.

Blood ◽  
2005 ◽  
Vol 106 (11) ◽  
pp. 5256-5256
Author(s):  
Doug Cipkala ◽  
Kelly McQuown ◽  
Lindsay Hendey ◽  
Michael Boyer
Keyword(s):  
Bone Marrow ◽  
Flow Cytometry ◽  
T Cells ◽  
Mouse Model ◽  
Scid Mouse ◽  
In Vitro Cytotoxicity ◽  
Scid Mouse Model

Abstract The use of cytotoxic T-lymphocytes (CTL) has been attempted experimentally with various tumors to achieve disease control. Factors that may influence GVT include CTL cytotoxicity, ability to home to disease sites, and survival of T cells in the host. The objective of our study is to evaluate the GVL effects of human alloreactive CTL against ALL in a chimeric NOD/scid mouse model. CTL were generated from random blood donor PBMCs stimulated with the 697 human ALL cell line and supplemented with IL-2, -7, or -15. CTL were analyzed for in vitro cytotoxicity against 697 cells, phenotype, and in vitro migration on day 14. NOD/scid mice were injected with 107 697 ALL cells followed by 5x106 CTL. Mice were sacrificed seven days following CTL injection and residual leukemia was measured in the bone marrow and spleen via flow cytometry. The ratios of CD8/CD4 positive T cells at the time of injection were 46/21% for IL-2, 52/31% for IL-7, and 45/14% for IL-15 cultured CTL (n=13). Control mice not receiving CTL had a baseline leukemia burden of 2.01% and 0.15% in the bone marrow and spleen, respectively (n=15). Mice treated with IL-15 cultured CTL had a reduction in tumor burden to 0.2% (n=13, p=0.01) and 0.05% (n=13, p=0.01) in bone marrow and spleen, respectively. Those treated with IL-2 or IL-7 cultured CTL showed no significant difference in leukemia burden in either the bone marrow (IL-2 1.28%, Il-7 5.97%) or spleen (IL-2 0.4%, IL-7 0.33%). No residual CTL could be identified in the bone marrow or spleen at the time of sacrifice in any CTL group. CTL grown in each cytokine resulted in similar in vitro cytotoxicity at an effector:target ratio of 10:1 (IL-2 41.3%, IL-7 37.7%, IL-15 45.3%, n=12–15, p>0.05 for all groups) and had statistically similar intracellular perforin and granzyme-B expression. In vitro CTL migration to a human mesenchymal stem cell line was greatest with IL-15 CTL (30.5%, n=4), followed by IL-7 CTL (18.9%, n=4), and least in IL-2 CTL (17.9%, n=4), though the differences were not significant. In vitro CTL migration was analyzed to an SDF-1α gradient as CXCR4/SDF-1α interactions are necessary for hematopoietic progenitor cell homing to the bone marrow. IL-15 cultured CTL showed the highest migration (48.8%, n=8) as compared to IL-2 (21.7%, n=6, p=0.048) or IL-7 CTL (35.9%, n=8, p>0.05). However, surface expression of CXCR4 measured by flow cytometry was significantly higher in IL-7 CTL (89.4%, n=9) compared to IL-2 CTL (52.2%, n=9, p<0.001) and IL-15 CTL (65.4%, n=10, p=0.002). Experiments are currently underway to further evaluate the role of CXCR4/SDF-1α in GVL. Preliminary in vivo experiments do not suggest any significant differences in CTL engraftment when evaluated at 24 hours post injection. Expression of the anti-apoptotic bcl-2 protein was greatest on IL-7 (MFI=5295, n=13) and IL-15 (MFI=4865, n=14) when compared to IL-2 CTL (MFI=3530, n=13, p=0.02 vs. IL-7, p=0.05 vs. IL-15), suggesting an increased in vivo survival ability. We hypothesize that IL-15 cultured CTL have greater GVL effects due to either higher in vivo survival, greater bone marrow homing efficiency, or both. Future experiments are planned to evaluate in vivo administration of IL-2 to enhance CTL survival in the host. In conclusion, IL-15 cultured CTL had significantly greater in vivo GVL effects compared to IL-2 and IL-7 CTL in the NOD/scid mouse model. This model can be utilized to evaluate the mechanism of T cell mediated GVL against ALL and potentially other human malignancies.

FIP1L1/PDGFRa Synergizes with SCF/c-Kit Signaling To Induce Systemic Mastocytosis in a Chronic Eosinophilic Leukemia Murine Model

Blood ◽  
2007 ◽  
Vol 110 (11) ◽  
pp. 1540-1540
Author(s):  
Yoshiyuki Yamada ◽  
Jose A. Cancelas ◽  
Eric B. Brandt ◽  
Abel Sanchez-Aguilera ◽  
Melissa McBride ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Small Intestine ◽  
Murine Model ◽  
Fusion Gene ◽  
Systemic Mastocytosis ◽  
Wild Type ◽  
Chronic Eosinophilic Leukemia

Abstract Systemic mastocytosis (SM) associated with chronic eosinophilic leukemia (CEL)/hypereosinophilic syndrome (HES) is a result of expression of the Fip1-like1 (FIP1L1)/platelet-derived growth factor receptor alpha (PDGFRa) (F/P) fusion gene. We have previously described a murine CEL/HES model (CEL-like mice) induced by F/P fusion gene transduction and T-cell overexpression of IL-5 (Yamada Y et al., Blood 2006). We have now validated a preclinical murine model of F/P-induced SM/CEL and analyzed the pathogenesis of SM in this model. F/P+ mast cells (MC, defined as EGFP+/c-kit+/FceRI+) were significantly increased in the small intestine, bone marrow (BM) and spleen of CEL-like mice compared to wild-type mice (Table). CEL-like mice also developed cutaneous MC infiltration. In addition, mMCP-1 serum levels, which correlate well with MC expansion and activation in vivo, were significantly higher in CEL-like mice than in wild-type mice (64,000 ± 23,800 and 38 ± 41.4 pg/ml, respectively). F/P induces increased expansion of BM-derived MC in vitro (∼2,000-fold) and F/P+ BM-derived MC survive longer than wild-type MC in cytokine-deprived medium (28.0 ± 2.3% vs. 8.7 ± 3.1% 7AAD−/Annexin V− cells after 48 hours). This correlated with increased Akt phosphorylation in the F/P+ MC. Since c-kit mutations are the most frequent cause of SM, we analyzed the possible synergistic role of SCF and F/P signaling. F/P and SCF/c-kit signaling indeed synergize in the development of BM-derived MC (16-fold greater expansion than in the absence of SCF) and F/P+ BM-derived MC showed a 3.7-fold greater migratory response to SCF than wild-type BM-derived MC. In order to determine the role of SCF/c-kit signaling in F/P+ MC development, activation and tissue infiltration in vivo,these responses were evaluated in mice that were treated with a blocking anti-c-kit blocking antibody, ACK-2, or an isotype-matched control antibody. ACK-2 treatment suppressed intestinal MC infiltration and elevated plasma levels of mMCP-1 induced by F/P expression by 95 ± 6.0% and 98 ± 0.76%, respectively, whereas MC and plasma mMCP-1 were completely undetectable in wild-type mice treated with ACK2. This suggests that SCF/c-kit interactions may synergize with F/P to induce SM. In summary, mice with CEL-like disease also develop SM. F/P-induced SM is a result of increased in vivo MC proliferation, survival, activation and tissue infiltration. SCF/c-kit signaling synergizes with F/P in vivo and in vitro to promote mast cell development, activation and survival. EGFP+/c-kit+/FcεRI+ cell frequency in tissues of control and CEL-like mice (%) Control mice CEL-like mice Small intestine 1.0±0.95 47±21.4* Bone marrow 0.2±0.14 3±1.9* Spleen 0.05±0.01 3±0.8*

G-CSF Mediated Decrease in Bone-Marrow SDF-1 Level Is Neutrophil Dependent but CD26 Independent

Blood ◽  
2008 ◽  
Vol 112 (11) ◽  
pp. 3469-3469
Author(s):  
Pratibha Singh ◽  
Seiji Fukuda ◽  
Janardhan Sampath ◽  
Louis M. Pelus
Keyword(s):  
Bone Marrow ◽  
Magnetic Beads ◽  
Critical Role ◽  
Alternative Mechanism ◽  
Wild Type ◽  
Hematopoietic Stem ◽  
Osteoblast Activity

Abstract Interaction of CXCR4 expressed on hematopoietic stem and progenitor cells (HSPC) with bone-marrow stromal SDF-1 is believed to play a central role in retention or mobilization of HSPC. Recently, a mobilization regimen of G-CSF was shown to decrease osteoblast number resulting in reduced levels of bone-marrow SDF-1, however the detailed mechanism leading to this reduction is currently unknown. It is unlikely that G-CSF directly regulates osteoblast SDF-1 production since osteoblasts do not express G-CSF receptor. Proteolytic cleavage of SDF-1 by peptidase CD26 in the bone-marrow may be an alternative mechanism responsible for reduction of SDF-1 level. Although CD26 can cleave SDF-1 in vitro, direct evidence of SDF-1 cleavage by CD26 in vivo during G-CSF induced HSPC mobilization has not been demonstrated. We previously demonstrated that neutrophils are required for G-CSF induced HSPC mobilization and that CD26 expression on neutrophils, rather than HSPC, is critical for mobilization. To more fully understand the role of CD26 in altering SDF-1 protein/activity during G-CSF induced HSPC mobilization, we quantitated bone-marrow SDF-1 levels in CD26−/− and wild-type CD26+/+ mice by ELISA during G-CSF administration. A standard 4 day G-CSF mobilization regimen (100 μg/kg bid, sc × 4 days) decreased bone-marrow total SDF-1 from 4.55±0.3 to 0.52±0.06 ng/femur in wild-type CD26+/+ mice (8.7-fold) and from 4.51±0.3 to 0.53±0.05 ng/femur (8.5-fold) in CD26−/− mice. However, despite an equivalent decrease in SDF-1, total CFU mobilization and the absolute number of mobilized SKL cells were decreased (3.1 and 2.0 fold lower, respectively) in CD26−/− mice compared to wild-type CD26+/+ controls. These results suggest that the decrease in total SDF-1 level in marrow seen following G-CSF treatment is independent of CD26. Cytological examination of bone-marrow smears showed that the reduction in SDF-1 levels in bone-marrow of both wild-type CD26+/+ and CD26−/− mice following G-CSF administration correlated with an increase in total absolute bone-marrow neutrophil cell number, suggesting a role for neutrophils in modulation of SDF-1 protein. To determine if neutrophils affect osteoblast SDF-1 production, bone marrow Gr-1+ neutrophils from wild-type CD26+/+ and CD26−/− mice were purified using anti-Ly6G magnetic beads and co-cultured with MC3T3-E1 preosteoblasts in vitro. Gr-1+ neutrophils from both wild-type and CD26−/− mice decreased pre-osteoblast SDF-1 production by similar amounts (15.4-fold vs 14.8-fold respectively), while Gr-1 neg cells from both wild-type CD26+/+ or CD26−/− were without effect on SDF-1 levels. Similarly, Gr-1+ neutrophils from both wild-type and CD26−/− mice decreased SDF-1 produced by MC3T3-E1-derived osteoblasts from 1.85±0.3 to 0.52±0.06 ng/ml (3.5 fold) and 0.56±0.07 ng/ml (3.3 fold) respectively, with Gr-1neg cells having no effect. Gr-1+ neutrophils either from wild-type or CD26−/− mice, but not Gr-1neg cells, significantly induced apoptosis of MC3T3-E1 cells as measured by Annexin-V staining (70.5%±10.2 vs 71.2%±12.5 for wild-type CD26+/+ and CD26−/− neutrophils respectively) and significantly inhibited osteoblast activity (20-fold vs 20.6-fold for CD26+/+ and CD26−/− neutrophils respectively) as measured by osteocalcin expression. Furthermore, irrespective of G-CSF treatment, an inverse correlation between absolute neutrophil number and SDF-1 protein levels was observed, suggesting that G-CSF induces neutrophil expansion but does not directly affect SDF-1 production. Collectively, these results provide additional support for the critical role of neutrophils in G-CSF induced mobilization and strongly suggested that neutrophils directly regulate bone-marrow SDF-1 levels independent of CD26 activity.

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