1.Effect of Matrix Metallopeptidase 13 on the Function of Mouse Bone Marrow-derived Dendritic Cells.
Xiao-Dong LI ; Xin-Rui ZHANG ; Zhi-Hao LI ; Yang YANG ; Duo ZHANG ; Heng ZHENG ; Shu-Ying DONG ; Juan CHEN ; Xian-Dong ZENG
Chinese Medical Journal 2017;130(6):717-721
BACKGROUNDDendritic cells are professional antigen-presenting cells found in an immature state in epithelia and interstitial space, where they capture antigens such as pathogens or damaged tissue. Matrix metallopeptidase 13 (MMP-13), a member of the collagenase subfamily, is involved in many different cellular processes and is expressed in murine bone marrow-derived dendritic cells (DCs). The function of MMP-13 in DCs is not well understood. Here, we investigated the effect of MMP-13 on DC maturation, apoptosis, and phagocytosis.
METHODSBone marrow-derived dendritic cells were obtained from C57BL/6 mice. One short-interfering RNA specific for MMP-13 was used to transfect DCs. MMP-13-silenced DCs and control DCs were prepared, and apoptosis was measured using real-time polymerase chain reaction and Western blotting. MMP-13-silenced DCs and control DCs were analyzed for surface expression of CD80 and CD86 and phagocytosis capability using flow cytometry.
RESULTSCompared to the control DCs, MMP-13-silenced DCs increased expression of anti-apoptosis-related genes, BAG1 (control group vs. MMP-13-silenced group: 4.08 ± 0.60 vs. 6.11 ± 0.87, P = 0.008), BCL-2 (control group vs. MMP-13-silenced group: 7.54 ± 0.76 vs. 9.54 ± 1.29, P = 0.036), and TP73 (control group vs. MMP-13-silenced group: 4.33 ± 0.29 vs. 5.60 ± 0.32, P = 0.001) and decreased apoptosis-related genes, CASP1 (control group vs. MMP-13-silenced group: 3.79 ± 0.67 vs. 2.54 ± 0.39, P = 0.019), LTBR (control group vs. MMP-13-silenced group: 9.23 ± 1.25 vs. 6.24 ± 1.15, P = 0.012), and CASP4 (control group vs. MMP-13-silenced group: 2.07 ± 0.56 vs. 0.35 ± 0.35, P = 0.002). Protein levels confirmed the same expression pattern. MMP-13-silenced groups decreased expression of CD86 on DCs; however, there was no statistical difference in CD80 surface expression. Furthermore, MMP-13-silenced groups exhibited weaker phagocytosis capability.
CONCLUSIONThese results indicate that MMP-13 inhibition dampens DC maturation, apoptosis, and phagocytosis.
Animals ; Apoptosis ; drug effects ; physiology ; Bone Marrow Cells ; cytology ; Dendritic Cells ; cytology ; drug effects ; metabolism ; Female ; Lipopolysaccharides ; pharmacology ; Matrix Metalloproteinase 13 ; metabolism ; physiology ; Mice ; Mice, Inbred C57BL ; RNA, Small Interfering
2.Effects of panaxadiol saponins component as a new Chinese patent medicine on proliferation, differentiation and corresponding gene expression profile of megakaryocytes.
Wei-Wei WEN ; Xin SUN ; Hai-Feng ZHUANG ; Xiao-Jie LIN ; Zhi-Yin ZHENG ; Rui-Lan GAO ; Li-Ming YIN
Chinese journal of integrative medicine 2016;22(1):28-35
OBJECTIVETo investigate the effects of panaxadiol saponins component (PDS-C) isolated from total saponins of panax ginseng on proliferation, differentiation and corresponding gene expression profile of megakaryocytes.
METHODSBone marrow culture of colony forming assay of megakaryocytic progenitor cells (CFU-MK) was observed for the promoting proliferation mediated by PDS-C, and differentiation of megakaryocytic blasts caused by PDS-C was analyzed with flow cytometry in CHRF-288 and Meg-01 cells, as well as proliferation, differentiation-related genes expression profile and protein expression levels were detected by human gene expression microarray and western blot.
RESULTSIn response to PDS-C 10, 20 and 50 mg/L, CFU-MK from 10 human bone marrow samples was increased by 28.9%±2.7%, 41.0%±3.2% and 40.5%±2.6% over untreated control, respectively (P <0.01, each). Flow cytometry analysis showed that PDS-C treated CHRF-288 cells and Meg-01 cells significantly increased in CD42b, CD41, TSP and CD36 positive ratio, respectively. PDS-C induced 29 genes up-regulated more than two-fold commonly in both cells detected by human expression microarray representing 4000 known genes. The protein expression levels of ZNF91, c-Fos, BTF3a, GATA-1, RGS2, NDRG2 and RUNX1 were increased with western blot in correspond to microarray results.
CONCLUSIONPDS-C as an effective component for hematopoiesis, play the role to enhance proliferation and differentiation of megakaryocytes, also up-regulated expression of proliferation, differentiation-related genes and proteins in vitro.
Blotting, Western ; Bone Marrow Cells ; cytology ; Cell Differentiation ; drug effects ; Cell Proliferation ; drug effects ; Cells, Cultured ; Colony-Forming Units Assay ; Drugs, Chinese Herbal ; pharmacology ; Flow Cytometry ; Gene Expression Profiling ; Ginsenosides ; pharmacology ; Humans ; Megakaryocytes ; cytology ; drug effects ; metabolism ; Patents as Topic ; Saponins ; pharmacology ; Stem Cells ; cytology ; drug effects ; Transcription Factors ; metabolism ; Up-Regulation ; drug effects ; genetics
3.Transforming growth factor-β1 induces bone marrow-derived mesenchymal stem cells to differentiate into cancer-associated fibroblasts.
Lei SHANGGUAN ; Email: SHANGGUANLEI@126.COM. ; Xiaojie LI ; Zhe WANG ; Zhuojing LUO
Chinese Journal of Oncology 2015;37(11):804-809
OBJECTIVETo investigate the effect of transforming growth factor-β1 (TGF-β1) on the differentiation of bone marrow-derived mesenchymal stem cells (MSCs) into cancer-associated fibroblasts(CAFs).
METHODSMSCs were cultured in α-MEM with recombinant human TGF-β1 or in tumor-conditioned medium.The expression of CAFs markers were detected by immunofluorescence and quantitative RT-PCR.
RESULTSThe qRT-PCR assay showed that the expression of CAFs markers FAP, ACTA, CAV, CCL5, CXCR4, FSP1, SDF-1 and vimentin were 9.92±2.16, 7.76±1.28, 3.04±0.95, 3.28±2.16, 2.13±0.71, 1.41±0.66, 2.25±0.86 and 1.38±0.56, respectively, significantly upregulated in the MSCs co-cultured with TGF-β1 or TCM. The relative levels of FAP, ACTA, CAV, CCL5, CXCR4, FSP1, SDF-1 and vimentin mRNA in the TCM group were 7.52±1.76, 5.02±1.18, 1.98±1.19, 1.82±1.19, 2.95±0.86, 1.44±0.67, 2.08±0.74 and 1.47±0.55, respectively, indicating that MSCs can express CAFs phenotype.TGF beta signaling pathway inhibitor SB-431542 could inhibit the differentiation. Both immunofluorescence and Western blot confirmed the above results.
CONCLUSIONSTGF-β1 induces differentiation of local MSCs to CAFs by upregulating the expression of pSmad3, so as to further promote the growth of cancer cells.
Benzamides ; pharmacology ; Bone Marrow Cells ; cytology ; Cell Differentiation ; drug effects ; Cell Line, Tumor ; Chemokine CXCL12 ; metabolism ; Coculture Techniques ; Culture Media, Conditioned ; Dioxoles ; pharmacology ; Fibroblasts ; cytology ; Humans ; Mesenchymal Stromal Cells ; cytology ; drug effects ; Organic Chemicals ; Receptors, CXCR4 ; metabolism ; Recombinant Proteins ; pharmacology ; Smad3 Protein ; metabolism ; Transforming Growth Factor beta1 ; antagonists & inhibitors ; pharmacology ; Vimentin ; metabolism
4.Basic fibroblast growth factor promotes the differentiation of rat bone marrow mesenchymal stem cells into Leydig cells.
Xiu-wen YAN ; Chun LIU ; Fei TIAN
National Journal of Andrology 2015;21(6):494-499
OBJECTIVETo explore the role of the basic fibroblast growth factor (bFGF) in the directional differentiation of bone marrow mesenchymal stem cells (BMSCs) into Leydig cells.
METHODSAfter purification and identification, we inoculated the third-generation BMSCs of SD rats onto a six-orifice board and then randomly divided them into groups A (normal saline control), B (human chorionic gonadotropin [hCG] + platelet-derived growth factor [PDGF] induction), C (hCG + PDGF + 5.0 ng/ml bFGF induction), D (hCG + PDGF + 10.0 ng/ml bFGF induction), and E (hCG + PDGF + 20.0 ng/ml bFGF induction). On the 7th, 14th and 21st day of induction, we observed the morphological changes of the cells and measured the level of testosterone (T) and expression of 3 beta hydroxy steroid dehydrogenase (3β-HSD) in the supernatant by immunofluorescence staining.
RESULTSAfter induction, the BMSCs of groups B, C, D, and E exhibited microscopic features of enlarged size, inter-connection, long-shuttle or irregular shape, adherent growth, and large round nuclei, all characteristic of Leydig cells. With the prolonging of time and enhanced concentration of bFGF, gradual increases were observed in the T level and the count of 3β-HSD-positive BMSCs in the four induction groups, with statistically significant differences between group B and groups C, D, and E (P < 0.05), as well as between group C and groups D and E (P < 0.05), but not between D and E (P > 0.05).
CONCLUSIONThe bFGF has an obvious promoting effect in the in vitro induced differentiation of rat BMSCs into Leydig cells.
Animals ; Bone Marrow Cells ; cytology ; drug effects ; metabolism ; Cell Differentiation ; Cells, Cultured ; Chorionic Gonadotropin ; metabolism ; Fibroblast Growth Factor 2 ; pharmacology ; Humans ; Leydig Cells ; cytology ; Male ; Mesenchymal Stromal Cells ; cytology ; drug effects ; metabolism ; Random Allocation ; Rats ; Rats, Sprague-Dawley ; Testosterone ; metabolism
5.Observing the effect of high glucose on proliferation of bone marrow stromal stem cells through Wnt/Β-catenin pathway.
Bo ZHANG ; Na LIU ; Bin GU ; Hao WU ; Yu-xuan GAO ; Dong-sheng WANG ; Hong-chen LIU
Acta Academiae Medicinae Sinicae 2014;36(4):389-393
OBJECTIVETo explore the effect of high glucose on proliferation of bone marrow stromal stem cells through Wnt/Β-catenin pathway.
METHODSBone marrow stormal cells were obtained from the mandible of Wistar rats and stimulated with different concentrations of glucose (5.5 and 16.5 mmol/L). Cell proliferation was evaluated with methyl thiazolyl tetrazolium assay (1, 3, 5, and 7 d)and cell cycle analysis by flow cytometry (5 d). Β-catenin and cyclin D1 protein levels were determined by Western blot. The mRNA expression of lymphoid enhancer binding factor-1 (LEF-1) and cyclin D1 were tested by real-time polymerase chain reaction.
RESULTSThe results of methyl thiazolyl tetrazolium assay indicated that the optical density values of two different concentrations of the glucose had no statistical difference on day 1 (P=0.700). On days 3, 5, and 7, the optical density values of the 16.5 mmol/L group were significantly lower than those in the 5.5 mmol/L group (P=0.006, P=0.002, and P=0.003). Cell cycle analysis indicated that high glucose concentration could reduced the progression from phase G1 to S, and the proliferation index values of the 16.5 mmol/L group were significantly lower than those of the 5.5 mmol/L group (P=0.014). The Β-catenin and cyclin D1 levels were lower in the 16.5 mmol/L group when compared with the 5.5 mmol/L group. High glucose condition also reduced the mRNA expressions of LEF-1 and cyclin D1.
CONCLUSIONHigh glucose can inhibit the proliferation of bone marrow stormal cells by suppressing the expressions of Β-catenin, LEF-1, and cyclin D1 in the Wnt/Β-catenin pathway.
Animals ; Bone Marrow Cells ; cytology ; Cell Proliferation ; drug effects ; Cyclin D1 ; metabolism ; Glucose ; pharmacology ; Lymphoid Enhancer-Binding Factor 1 ; metabolism ; Male ; Mandible ; cytology ; Mesenchymal Stromal Cells ; cytology ; Rats ; Rats, Wistar ; Wnt Signaling Pathway ; beta Catenin ; metabolism
6.Promoting effect of thrombin on proliferation of bone marrow-derived mesenchymal stem cells and its mechanisms.
Jin CHEN ; Yu-Jie MA ; Zi WANG ; Shan-Shan LIN ; Feng-Jun XIAO ; Hua WANG ; Li-Sheng WANG ; Zi-Kuan GUO
Journal of Experimental Hematology 2014;22(2):485-490
This study was aimed to investigate the growth-promoting activity of thrombin on mesenchymal stem cells (MSC) and its mechanisms. Human bone marrow MSC were cultured in serum-free medium supplemented with graded concentrations of thrombin, and the proliferation status of MSC was detected by MTT test. The expression levels of protease-activated receptors (PAR) and c-MYC gene were detected by PCR. Activated Akt signaling pathway was revealed by Western blot, and specific inhibitors of the signaling pathways were used to confirm the effects. The results showed that thrombin stimulated MSC proliferation in a dose-dependent manner; the minimal concentration of thrombin for stimulating MSC growth was 0.5 U/ml, and the promoting effect reached its maximum when thrombin at a dose of 8 U/ml was employed. PCR results showed that MSC expressed the two types of PAR1 and PAR2. After PAR1 was blocked with a specific inhibitor SCH79797, the growth-promoting effect of thrombin was inhibited, while this phenomenon was not observed when MSC were exposed to FSLLRY-NH2, a specific inhibitor for PAR2. Further experiments showed that after exposure to thrombin, the AKT signaling pathway in MSC was promptly activated, and c-MYC expression was greatly up-regulated. Meanwhile, when LY294002, a specific AKT inhibitor, was added into the culture medium, the up-regulation of c-MYC expression was reduced, accompanied by the low rate of MSC growth. It is concluded that thrombin can stimulate MSC proliferation by eliciting PAR1-mediated AKT activation and subsequent up-regulation of c-MYC expression.
Bone Marrow Cells
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cytology
;
Cell Proliferation
;
drug effects
;
Cells, Cultured
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Humans
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Mesenchymal Stromal Cells
;
cytology
;
Receptors, Thrombin
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metabolism
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Signal Transduction
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drug effects
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Thrombin
;
pharmacology
7.Effect of Hydroxy Safflower Yellow A on glucocorticoid-induced bone marrow mesenchymal stem cells osteogenic differentiation.
Tian WAN ; Min-Rui WU ; Zhen-Xi QI
China Journal of Orthopaedics and Traumatology 2014;27(3):224-228
OBJECTIVETo observe the effect of Hydroxy Safflower Yellow A (HSYA) on the expression of osteogenic markers, such as alkaline phosphatase, Cbf(alpha)l and type I collagen, and explore the mechanism of HSYA in the prevention and treatment of glucocorticoid-induced ischemic necrosis of femoral head.
METHODSFifteen healthy and adult New Zealand white rabbits were collected and weighted 0.9 to 1.3 kg. The rabbits were injected abdominally with anesthetic drugs, then received marrow cavity puncture of tibia and anterior superior iliac spine to get bone marrow blood. Rabbits bone marrow mesenchymal stem cells (BMSCs) were separated from the bone marrow blood, cultured in vitro and passaged. The 3rd generation of BMSCs which had good growth condition were randomly divided into blank group, model group and HSYA groups with different doses. The BMSCs in model group were treated with high dose of dexamethasone to induce adipogenic differentiation of cells cultured in vitro, and inhibit osteogenic differentiation. The BMSCs in HSYA groups received high dose of dexamethasone and different concentrations of HSYA simultaneously. The blank group received not any special handling. After a week,the expressions of alkaline phosphatase, Cbf(alpha)l and type I collagen mRNA were detected.
RESULTSThe alkaline phosphatase activity was significantly decreased in BMSCs of the model group as compared with the blank group (P < 0.01), and the expression of Cbf(alpha)l and type I collagen mRNA were also decreased significantly (P<0.01). The alkaline phosphatase activity was significantly increased in BMSCs of each HSYA group as compared with the model group (P < 0.05 or P < 0.01), and the expression of Cbf(alpha)l and type I collagen mRNA were also increased significantly (P < 0.05 or P < 0.01).
CONCLUSIONThe mechanism of HSYA may be related to the effect of antagonism to the reduced osteogenic differentiation induced by glucocorticoid.
Alkaline Phosphatase ; genetics ; metabolism ; Animals ; Bone Marrow Cells ; cytology ; drug effects ; metabolism ; Cell Differentiation ; drug effects ; Cells, Cultured ; Chalcone ; analogs & derivatives ; chemistry ; pharmacology ; Collagen Type I ; genetics ; metabolism ; Core Binding Factor alpha Subunits ; genetics ; metabolism ; Drugs, Chinese Herbal ; chemistry ; pharmacology ; Female ; Glucocorticoids ; pharmacology ; Male ; Mesenchymal Stromal Cells ; cytology ; drug effects ; metabolism ; Osteogenesis ; drug effects ; Rabbits
8.Effects of rapamycin on biological characteristics of bone marrow mesenchymal stem cells from patients with aplastic anemia.
Xin WANG ; Feng-Xia MA ; Shi-Hong LU ; Ying CHI ; Fang CHEN ; Xue LI ; Juan-Juan LI ; Wen-Jing DU ; Ying FENG ; Jun-Jie CUI ; Bao-Quan SONG ; Zhong-Chao HAN
Journal of Experimental Hematology 2014;22(3):762-766
This study was aimed to investigate the effects of rapamycin on biological function and autophagy of bone marrow mesenchymal stem cells (BM-MSC) from patients with aplastic anemia so as to provide experimental basis for the clinical treatment of aplastic anemia (AA) with rapamycin. BM-MSC were treated with different concentrations of rapamycin (0, 10, 50, 100 nmol/L) for 48 h, the expression of LC3B protein was detected by Western blot to observe the effect of rapamycin on cell autophagy; cell apoptosis and cell cycles were detected by flow cytometry; the proliferation of BM-MSC of AA patients was measured by cell counting kit-8; the adipogenic differentiation of BM-MSC were tested by oil red O staining after adipogenic induction for 2 weeks; the adipogenic related genes (LPL, CFD, PPARγ) were detected by real-time PCR. The results showed that the proliferation and adipogenesis of BM-MSC of AA patients were inhibited by rapamycin. Moreover, the autophagy and apoptosis of BM-MSC were increased by rapamycin in a dose-dependent way.Rapamycin arrested the BM-MSC in G0/G1 phase and prevented them into S phase (P < 0.05). It is concluded that rapamycin plays an critical role in inhibiting cell proliferation, cell cycles, and adipogenesis, these effects may be related with the autophagy activation and mTOR inhibition resulting from rapamycin.
Anemia, Aplastic
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metabolism
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Apoptosis
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drug effects
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Autophagy
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Bone Marrow Cells
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cytology
;
drug effects
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Cell Cycle
;
drug effects
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Cell Proliferation
;
drug effects
;
Cells, Cultured
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Humans
;
Mesenchymal Stromal Cells
;
cytology
;
drug effects
;
Signal Transduction
;
Sirolimus
;
pharmacology
9.Xuefu zhuyu decoction containing serum in vitro induced expressions of desmin and alpha-actin: an experimental research.
Yue-Xiang MA ; Li-Qing LIU ; Li-Mei QIN ; Guang-Min ZUO ; Yuan WANG
Chinese Journal of Integrated Traditional and Western Medicine 2013;33(9):1252-1255
OBJECTIVETo observe whether Xuefu Zhuyu Decoction (XZD) could induce the differentiation of mesenchymal stem cells (MSCs) into cardiac myoid cells, thus seeking for safe and effective inducers.
METHODSThe serum pharmacological method was used to induce. XZD containing serum was prepared. MSCs were isolated and cultured. The serum cytotoxicity was detected by MTT. The third generation of favorably grown cells was selected in this experiment. Cells were divided into three groups, i.e., the vehicle control group, the XZD containing serum induced group, and the 5-azacytidine induced group. Expressions of Desmin and alpha-actin were detected by immunocytochemical staining method.
RESULTSBefore induction protein expressions of Desmin and alpha-actin were negative, and few was weakly positive. There was no statistical difference in the weak positive expression rate among the 3 groups (P > 0.05). After induction protein expressions of Desmin and alpha-actin were negative, and few was weakly positive in the vehicle control group. Protein expressions of Desmin and alpha-actin were positive in the XZC containing serum induced group and the 5-azacytidine induced group. There was statistical difference in the positive expression rate when compared with the vehicle control group (P > 0.05).
CONCLUSIONSXZD played a role in in vitro inducing differentiation MSCs to cardiac myoid cells. It might participate in expressions of Desmin and alpha-actin.
Actins ; metabolism ; Animals ; Bone Marrow Cells ; cytology ; drug effects ; metabolism ; Cells, Cultured ; Desmin ; metabolism ; Drugs, Chinese Herbal ; pharmacology ; Male ; Mesenchymal Stromal Cells ; cytology ; drug effects ; metabolism ; Rats ; Rats, Wistar ; Serum
10.Effects of sodium copper chlorophyllin on mesenchymal stem cell function in aplastic anemia mice.
Li-Ming YIN ; Hui-Fang JIANG ; Xiao WANG ; Xu-Dai QIAN ; Rui-Lan GAO ; Xiao-Jie LIN ; Xiao-Hong CHEN ; Ling-Cong WANG
Chinese journal of integrative medicine 2013;19(5):360-366
OBJECTIVETo investigate the effects of sodium copper chlorophyllin (SCC) on the proliferation, differentiation and immunomodulatory function of mesenchymal stem cells (MSCs) from mice with aplastic anemia.
METHODSA mouse model of aplastic anemia was established by exposure of BALB/c mice to sublethal doses of 5.0 Gy Co60 γ radiation, followed by transplantation of 2×10(6) lymph node cells from DBA/2 donor mice within 4 h after radiation. Aplastic anemic BALB/c mice were randomly divided into six groups: the treated groups, which received 25, 50, or 100 mg/kg/day SCC, respectively; a positive control group treated with cyclosporine A (CsA); and an untreated model control group (model group); while, the non-irradiated mice as the normal control group. SCC or CsA were administered by gastrogavage for 20 days, starting on day 4 after irradiation. Peripheral blood cells were counted and colony-forming fibroblasts (CFU-F) in the bone marrow were assayed. The ability of MSCs to form calcium nodes after culture in osteoinductive medium was also observed. The immunosuppressive effect of MSCs on T lymphocytes was analyzed by enzyme-linked immunosorbent assay and flow cytometry, to evaluate the efficacy of SCC in mice with aplastic anemia.
RESULTSPeripheral blood white cell and platelet counts were increased by medium and high SCC doses, compared with the untreated control. CFU-Fs were also increased compared with the untreated control, and the numbers of calcium nodes in MSCs in osteoinductive medium were elevated in response to SCC treatment. The percentage of Forkhead box protein 3 (FOXP3(+)) T cells was increased in T cell-MSC cocultures, and the cytokine transforming growth factor β1 was up-regulated in SCC-treated groups.
CONCLUSIONThe results of this study suggest that SCC not only promotes the proliferation and differentiation of MSCs, but also improves their immunoregulatory capacity in mice with aplastic anemia.
Anemia, Aplastic ; blood ; pathology ; therapy ; Animals ; Anthraquinones ; metabolism ; Biomarkers ; metabolism ; Bone Marrow Cells ; drug effects ; pathology ; Calcium ; metabolism ; Cell Differentiation ; drug effects ; Cell Proliferation ; drug effects ; Chlorophyllides ; pharmacology ; Colony-Forming Units Assay ; Female ; Immunosuppression ; Leukocyte Count ; Male ; Mesenchymal Stem Cell Transplantation ; Mesenchymal Stromal Cells ; cytology ; drug effects ; metabolism ; Mice ; Mice, Inbred BALB C ; Mice, Inbred DBA ; Osteoblasts ; drug effects ; pathology ; Platelet Count ; T-Lymphocytes ; drug effects

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