骨髓增生异常综合征中CD34+细胞CXCR4的表达及其与细胞迁移的相关性

  目的  探讨不同危险度骨髓增生异常综合征（myelodysplasticsymdromes,MDS）中骨髓CD34+细胞CXCR4的表达情况及其与细胞迁移率的相关性。   方法  收集40例骨髓增生异常综合征患者的骨髓标本,根据IPSS积分系统进行危险度分组。低危组20例:IPSS积分0~1.5分;高危组20例:IPSS积分≥1.5分;同时采集10例健康者的骨髓标本作为对照。分离纯化骨髓CD34+细胞,通过流式细胞术检测CXCR4膜蛋白的表达;研究SDF-1α趋化作用下CD34+细胞的迁移率及CD34+细胞对骨髓基质细胞的迁移率。   结果  高危组MDS患者CD34+细胞CXCR4的表达率明显高于低危组和正常对照组（P < 0.000 1）;低危组和正常对照组之间CXCR4的表达率无显著性差异（P>0.05）。高危组CD34+细胞对SDF-1α及骨髓基质细胞的迁移率显著高于低危组及正常组（均P < 0.000 1）,且其对骨髓基质细胞的迁移率与CXCR4的表达呈正相关（P=0.000 1）。   结论  高危组MDS患者CD34+细胞CXCR4的表达量及其对骨髓基质细胞的迁移率均明显高于低危组患者,且其迁移率随CXCR4表达量的增加而升高,不同风险组的MDS患者存在SDF-1及其受体CXCR4表达和功能上的差异,SDF-1及其受体CXCR4在MDS发病中具有重要作用。      

CXCR4 activation maintains a stem cell population in tamoxifen-resistant breast cancer cells through AhR signalling

Background:

Tamoxifen is commonly used for breast cancer therapy. However, tamoxifen resistance is an important clinical problem. Continuous treatment with conventional therapy may contribute to cancer progression in recurring cancers through the accumulation of drug-resistant cancer progenitors.

Methods:

To investigate signalling mechanisms important for the maintenance and viability of drug-resistant cancer progenitors, we used microarray analysis, PCR array for genes involved in cancer drug resistance and metabolism, flow cytometry, soft agar colony formation assay, in vivo tumourigenicity assay and immunohistochemical analysis using tamoxifen-sensitive and tamoxifen-resistant breast cancer MCF7 cells.

Results:

Downregulation of CXCR4 signalling by small molecule antagonist AMD3100 specifically inhibits growth of progenitor cell population in MCF7(TAM-R) cells both in vitro and in vivo. Microarray analysis revealed aryl hydrocarbon receptor (AhR) signalling as one of the top networks that is differentially regulated in MCF7(TAM-R) and MCF7 xenograft tumours treated with AMD3100. Further, small molecule antagonists of AhR signalling specifically inhibit the progenitor population in MCF7(TAM-R) cells and growth of MCF7(TAM-R) xenografts in vivo.

Conclusion:

The chemokine receptor CXCR4 maintains a cancer progenitor population in tamoxifen-resistant MCF7 cells through AhR signalling and could be a putative target for the treatment of tamoxifen-resistant breast cancers.     

Early disappearance of murine plasmocytoma stem cells in long-term bone marrow culture.

Long-term bone marrow culture (LTBMC) was evaluated as a purging procedure in the murine plasmocytoma MOPC-315s system. MOPC-315s cells injected in Balb-c mice rapidly proliferate both in marrow and spleen, where macroscopic tumor colonies develop. A linear relationship between the number of injected cells and spleen colonies was observed, consistent with the presence of 1 clonogenic myeloma stem cell out of 1800 cells. In vitro, MOPC-315s cells are easily identifiable as rosette-forming cells (RFC+) with trinitrophenil acid (TNP) coated sheep red blood cells. When bone marrow (BM) cells containing 20-40% RFC+ were seeded in LTBMC, RFC+ rapidly decreased and were no longer detectable by day 14 of culture. Clonal Ig gene rearrangement was evident at time 0, but it was no more detectable later on. In addition, cells taken at days 14 and 21 of culture were no more tumorigenic when injected in vivo. The results suggest the efficacy of the LTBMC for the in vitro elimination of myeloma cells, including the neoplastic stem cells.     

Bone marrow-derived lin(-)c-kit(+)Sca-1+ stem cells do not contribute to vasculogenesis in Lewis lung carcinoma

The development of tumor vasculature is thought to occur through two complementary processes: sprouting angiogenesis from preexisting blood vessels of the host, and vasculogenesis, which involves the spontaneous development of vessels through specific recruitment, differentiation, and vascular incorporation of circulating endothelial cells (EC), endothelial progenitor cells (EPC), or potentially bone marrow-derived cells. Recent reports, however, have challenged the belief that bone marrow-derived cells contribute to tumor neovascularization, claiming an exclusive role for sprouting angiogenesis in tumor blood vessel development.In the present study, we explored the recruitment behavior of bone marrow-derived lin(-)c-kit(+)Sca-1+ stem cells to subcutaneously implanted Lewis lung carcinoma in a syngeneic bone marrow transplantation model. We observed that although lin(-)c-kit(+)Sca-1+ and their derived cells demonstrate significant recruitment to carcinomas in vivo, they do not appear to functionally contribute to tumor neovascularization. Furthermore, our results support the hypothesis that new vessel formation in carcinomas occurs primarily through endothelialization from adjacent and preexisting vasculature.     

Behaviour of heat-treated bone marrow cells in long-term bone marrow cultures.

The effect of prior heat treatment on the ability of bone marrow cells to form long-term bone marrow culture has been studied. Bone marrow cells were heated for various times in the temperature range of 39-43 degrees C and then cultured in the modified Dexter type suspension culture. At weekly intervals, the behaviour of the cultures in terms of stroma formation and confluency, cellular viability, and myelopoiesis were evaluated. The results show that there was a dose-dependent decrease in the number of viable cells in the non-adherent fraction of the cultures. Cytological analysis of these cells showed a strong shift towards macrophage population in the successive weeks of the cultures and also as a function of heat dose delivered to these cultures. The stroma formation was delayed or inhibited as a function of the heat dose. The number of granulocyte-macrophage colony forming cells (CFU-GM) in both adherent and non-adherent fraction of the cultures were decreased substantially after hyperthermia treatment. At 41 degrees C and higher temperatures, the CFU-GM were severely diminished in both fractions. The dose response experiments showed that the decrease in the number of CFU-GM was dependent on the heat dose. The results suggest that CFU-GM is an extremely sensitive target in the hyperthermia treatment of bone marrow cells and heat-treated bone marrow cells lose their ability to maintain long-term cultures.     

Inhibition of CXCR4 in CML cells disrupts their interaction with the bone marrow microenvironment and sensitizes them to nilotinib

Drug resistance is a growing area of concern. It has been shown that a small, residual pool of leukemic CD34+ progenitor cells can survive in the marrow microenvironment of chronic myeloid leukemia (CML) patients after years of kinase inhibitor treatment. Bone marrow (BM) stroma has been implicated in the long-term survival of leukemic cells, and contributes to the expansion and proliferation of both transformed and normal hematopoietic cells. Mechanistically, we found that CML cells expressed CXCR4, and that plerixafor diminished BCR-ABL-positive cell migration and reduced adhesion of these cells to extra cellular-matrix components and to BM stromal cells in vitro. Moreover, plerixafor decreased the drug resistance of CML cells induced by co-culture with BM stromal cells in vitro. Using a functional mouse model of progressive and residual disease, we demonstrated the ability of the CXCR4 inhibitor, plerixafor, to mobilize leukemic cells in vivo, such that a plerixafor-nilotinib combination reduced the leukemia burden in mice significantly below the baseline level suppression exhibited by a moderate-to-high dose of nilotinib as single agent. These results support the idea of using CXCR4 inhibition in conjunction with targeted tyrosine kinase inhibition to override drug resistance in CML and suppress or eradicate residual disease.     

多药耐药基因转染人骨髓间充质干细胞对其化疗保护作用的研究

目的:慢病毒介导的多药耐药基因(mdr1)转染人骨髓间充质干细胞(hBMSCs),探讨其对化疗药物的耐受性。方法:采用percoll密度离心法自骨髓中分离MSCs并进行纯化和扩增,流式细胞仪鉴定。克隆mdr1基因,构建慢病毒载体,命名为TG-005-mdr1/tap。脂质体转染法转染携带mdr1基因的逆转录病毒载体导入293T包装细胞,获得的病毒上清感染hMSCs,GTP荧光技术和western-blot检测mdr1基因的表达,MTT法检测hMSCs对化疗药物的耐受性。结果:成功构建携带mdr1基因的慢病毒载体,采用GTP荧光技术检测慢病毒转染率达83.44%,western-blot检测mdr1编码产物P-pg蛋白高表达,转染后hMSCs对化疗药物的耐受性明显高于对照组。结论:转染mdr1基因后的hMSCs具有化疗耐受性,可为化疗骨髓防护提供新思路。     

Stem cell plasticity revisited: CXCR4-positive cells expressing mRNA for early muscle, liver and neural cells 'hide out' in the bone marrow.

It has been suggested that bone marrow (BM)-derived hematopoietic stem cells transdifferentiate into tissue-specific stem cells (the so-called phenomenon of stem cell plasticity), but the possibility of committed tissue-specific stem cells pre-existing in BM has not been given sufficient consideration. We hypothesized that (i) tissue-committed stem cells circulate at a low level in the peripheral blood (PB) under normal steady-state conditions, maintaining a pool of stem cells in peripheral tissues, and their levels increase in PB during stress/tissue injury, and (ii) they could be chemoattracted to the BM where they find a supportive environment and that the SDF-1-CXCR4 axis plays a prominent role in the homing/retention of these cells to BM niches. We performed all experiments using freshly isolated cells to exclude the potential for 'transdifferentiation' of hematopoietic stem or mesenchymal cells associated with in vitro culture systems. We detected mRNA for various early markers for muscle (Myf-5, Myo-D), neural (GFAP, nestin) and liver (CK19, fetoprotein) cells in circulating (adherent cell-depleted) PB mononuclear cells (MNC) and increased levels of expression of these markers in PB after mobilization by G-CSF (as measured using real-time RT-PCR). Furthermore, SDF-1 chemotaxis combined with real-time RT-PCR analysis revealed that (i) these early tissue-specific cells reside in normal murine BM, (ii) express CXCR4 on their surface and (iii) can be enriched (up to 60 x) after chemotaxis to an SDF-1 gradient. These cells were also highly enriched within purified populations of murine Sca-1(+) BM MNC as well as of human CD34(+)-, AC133(+)- and CXCR4-positive cells. We also found that the expression of mRNA for SDF-1 is upregulated in damaged heart, kidney and liver. Hence our data provide a new perspective on BM not only as a home for hematopoietic stem cells but also a 'hideout' for already differentiated CXCR4-positive tissue-committed stem/progenitor cells that follow an SDF-1 gradient, could be mobilized into PB, and subsequently take part in organ/tissue regeneration.     

The pivotal role of CXCL12 (SDF-1)/CXCR4 axis in bone metastasis

Tumor cells are known to adapt to and utilize existing physiological mechanisms to promote survival and metastasis. The role of the microenvironment in the establishment of a metastatic lesion has become increasingly important as several factors secreted by stromal cells regulate metastatic pattern in a variety of tumor types. Tumor cells interact with osteoblasts, osteoclasts and bone matrix to form a vicious cycle that is essential for successful metastases. Here we review the current concepts regarding the role of an important chemokine/chemokine receptor (SDF-1 or CXCL12/CXCR4) pathway in tumor development and metastasis. CXCL12 secretion by stromal cells is known to attract cancer cells via stimulation of the CXCR4 receptor that is up regulated by tumor cells. CXCL12/CXCR4 activation regulates the pattern of metastatic spread with organs expressing high levels of CXCL12 developing secondary tumors (i.e., the bone marrow compartment). CXCL12 has a wide range of effects in regards to tumor development but the primary role of CXCL12 appears to be the mobilization of hematopoietic stem cells and the establishment of the cancer stem-like cell niche where high levels of CXCL12 recruit a highly tumorigenic population of tumor cells and promotes cell survival, proliferation, angiogenesis, and metastasis.     

Effects of human mesenchymal stem cells on ER-positive human breast carcinoma cells mediated through ER-SDF-1/CXCR4 crosstalk

Background  

Adult human mesenchymal stem cells (hMSC) have been shown to home to sites of carcinoma and affect biological processes, including tumour growth and metastasis. Previous findings have been conflicting and a clear understanding of the effects of hMSCs on cancer remains to be established. Therefore, we set out to investigate the impact of hMSCs on the oestrogen receptor positive, hormone-dependent breast carcinoma cell line MCF-7.     

G-banded chromosome analysis of bone marrow and peripheral blood cells from small cell lung cancer (SCLC) patients

Detailed G-banded chromosome analysis was carried out on the bone marrow and/or PHA-stimulated peripheral blood cells from 17 SCLC patients (14 males and 3 females), who were diagnosed cytologically or pathologically or both. Twelve of them had no prior treatment and 16 had a heavy smoking history. High chromosome aberration rates were found in the bone marrow (31% for average structural aberration rate and 63% for numerical aberration rate) and peripheral blood cells (37% for average structural aberration rate and 49% for numerical aberration rate). The smoking index, as a whole, was positively correlated to the structural chromosome aberration rate, indicating that smoking is one of the most important environmental factors in causing chromosome aberrations. But some patients gave a high aberration rate dis-proportional to their smoking index, suggesting that genetically determined susceptibility to smoking or even other factors also play an important role. The structural chromosome aberrations in the bone marrow and peripheral blood cells were mainly clustered on chromosome 3 and chromosomes 1, 9 and 11, respectively. The aberration types were manifold and complicated. No consistent or specific aberration as del 3p14-23 for SCLC was found in this study.     

Nuclear receptor 4A1 (NR4A1) antagonists target paraspeckle component 1 (PSPC1) in cancer cells

Paraspeckles compound 1 (PSPC1) is a multifunctional protein that plays an important role in cancer cells, where PSPC1 is a master regulator of pro-oncogenic responses that includes activation of TGFβ (TGFβ1), TGFβ-dependent EMT, and metastasis. The pro-oncogenic activities of PSPC1 closely resembled those observed for the orphan nuclear receptor 4A1 (NR4A1, Nur77) and knockdown of NR4A1 decreased expression of PSPC1 in MDA-MB-231 breast, H1299 lung, and SNU449 liver cancer cells. Similar results were observed in these same cell lines after treatment with bisindole–derived (CDIMs) NR4A1 antagonists. Moreover, PSPC1-dependent regulation of TGFβ, genes associated with cancer stem cells and epithelial to mesenchymal transition (EMT) were also downregulated after NR4A1 silencing or treatment of breast, lung, and liver cancer cells with CDIM/NR4A1 antagonists. Results of chromatin immunoprecipitation (ChIP) assays suggest that NR4A1 regulates PSPC1 through interaction with an NBRE sequence in the PSPC1 gene promoter. These results coupled with in vivo studies showing that NR4A1 antagonists inhibit breast tumor growth and downregulate PSPC1 in tumors indicate that the pro-oncogenic nuclear PSPC1 factor can be targeted by CDIM/NR4A1 antagonists.     

Proliferative activity of bone marrow cells in primary dysmyelopoietic (preleukemic) syndromes

The proliferative activity of bone marrow cells was studied in 24 patients with primary dysmyelopoiesis by means of flow cytometry and 3H-TdR autoradiography. Abnormal DNA content was found in two cases with aneuploid karyotypes. DNA content typical of a diploid population was observed in all patients with normal karyotype and in three patients with chromosomal aberrations. The fraction of bone marrow cells in S- and G2-phase was higher in primary acquired sideroblastic anemia and refractory anemia (without excess of blasts) than in refractory anemia with excess of blasts and chronic myelomonocytic leukemia. Regardless to the diagnosis, the patients with low fraction of cells in S- and G2-phase had short survival time and showed high rate of evolution into acute nonlymphoblastic leukemia. The labeling (LI) and mitotic (MI) indexes of both erythroblasts and granulocytic cells were decreased in nearly all patients. The lowest values of LI and MI of the granulocytic compartment were found in the patients who subsequently developed acute leukemia. These data suggest that cytokinetic analysis allows investigators to achieve useful information on the stage of disease in the dysmyelopoietic syndromes.     

同种骨髓间充质干细胞静脉输注对大鼠CD4+、CD8+T淋巴细胞和IL-10、IL-2、TNF-a的影响

目的 探讨骨髓间充质干细胞静脉输注对大鼠免疫功能的影响.方法 实验组和对照组大鼠尾静脉分别注射骨髓间充质干细胞和生理盐水3次,观察大鼠一般情况,第10天处死,流式细胞仪检测CD4+和CD8+T淋巴细胞亚群,ELISA法检测血清IL-10、IL-2、TNF-a含量.结果 两组大鼠一般情况无统计学差异;实验组大鼠血清CD4+计数降低,CD8+计数升高,CD4+/CD8+比值下降,与对照组相比有统计学差异(P<0.05):实验组大鼠血清IL-10升高,IL-2降低,与对照组相比有统计学差异(P<0.05);两组TNF-a无统计学差异.结论 骨髓间充质干细胞静脉输注能负性调节大鼠免疫功能.     

CXCR4 chemokine receptor and integrin signaling co-operate in mediating adhesion and chemoresistance in small cell lung cancer (SCLC) cells

Small cell lung cancer (SCLC) is an aggressive, rapidly metastazising neoplasm with a high propensity for marrow involvement. SCLC cells express high levels of functional CXCR4 receptors for the chemokine stromal-cell-derived factor-1 (SDF-1/CXCL12). Adhesion of SCLC cells to extracellular matrix or accessory cells within the tumor microenvironment confers resistance to chemotherapy via integrin signaling and thus may be responsible for residual disease and relapses commonly seen in SCLC. We examined the signaling mechanisms that regulate CXCL12-induced adhesion of SCLC cells to fibronectin, collagen, and stromal cells and the effects on SCLC cell chemoresistance. We found that CXCL12-induced integrin activation which resulted in an increased adhesion of SCLC cells to fibronectin and collagen. This was mediated by alpha2, alpha4, alpha5, and beta1 integrins along with CXCR4 activation, which could be inhibited by CXCR4 antagonists. Stromal cells protected SCLC cells from chemotherapy-induced apoptosis, and this protection could also be antagonized by CXCR4 inhibitors. We conclude that activation of integrins and CXCR4 chemokine receptors co-operate in mediating adhesion and survival signals from the tumor microenvironment to SCLC cells. Therefore, CXCR4 antagonists in combination with cytotoxic drugs should be explored in SCLC to overcome CXCL12-mediated adhesion and survival signals in the tumor microenvironment.     

Expression of inducible nitric oxide synthase (NOS) in bone marrow cells of myelodysplastic syndromes.

Nitric oxide (NO) is a biological mediator which is synthesized from L-arginine by a family of nitric oxide synthases (NOS). We have studied the expression of the inducible NOS (iNOS) by bone marrow cells from the patients with myelodysplastic syndromes (MDS) at the mRNA level by RT-PCR assay and at the protein level by immunohistochemical staining using a specific anti-iNOS monoclonal antibody. The iNOS message was present in 92% of bone marrow tissues from MDS patients (11 out of 12) by an examination using RT-PCR. Basically, iNOS message was negative or very weak in control (1/9) and AML (0/7) cases. This was supported by immunohistochemical findings that the iNOS was positive in most of the bone marrow samples from MDS patients (9 out of 12), while bone marrow cells of control (O out of 12) and AML (O out of 5) cases were basically negative. Double immunostaining for CD68 antigen, which is a marker for macrophage lineage cells, and iNOS was performed on MDS bone marrow sections. iNOS was dominantly localized to bone marrow macrophages, although a part of myeloid cells were also positively stained with anti-iNOS antibody in a part of cases. These results indicated that there is some in vivo induction of iNOS expression for local NO production that might be involved in the dysregulation of hematopoiesis in bone marrow of MDS.     

A small subgroup of operable breast cancer patients with poor prognosis identified by quantitative real-time RT-PCR detection of mammaglobin A and trefoil factor 1 mRNA expression in bone marrow

Purpose The utility of three different epithelial mRNA markers to detect clinically significant, disseminated tumour cells in bone marrow (BM) was explored. Methods Mammaglobin A (hMAM), trefoil factor 1 (TFF-1) and prostate derived Ets factor (PDEF) mRNA were quantitated by real-time RT-PCR in BM samples from 192 breast cancer patients undergoing surgery (control group: 26 healthy women). Results During a median follow-up of 72 months, four of the five hMAM BM-positive and three of the seven TFF-1 BM-positive patients experienced a systemic relapse. Kaplan-Meier survival analyses demonstrated significantly shorter recurrence-free-, breast-cancer-specific- and overall survival for both hMAM and TFF-1 BM-positive patients. In contrast, PDEF mRNA quantitation did not reveal any significant differences in the survival analyses. Multivariate Cox regression demonstrated hMAM mRNA BM expression to be an independent predictor of both overall- (hazard ratio = 5.896), breast-cancer-specific- (hazard ratio = 10.208) and systemic-recurrence-free survival (hazard ratio = 14.304). TFF-1 status was related to hMAM status (P < 0.001). Conclusion Breast cancer patients with pre-operative elevated BM levels of hMAM and/or TFF-1 mRNA seem to constitute a small group of patients with a very poor prognosis. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.