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OBJECTIVE@#To observe the effect of wheat-grain moxibustion at "Dazhui" (GV 14), "Zusanli" (ST 36) and "Sanyinjiao" (SP 6) on Wnt/β-catenin signaling pathway in bone marrow cell in mice with bone marrow inhibition, and to explore the possible mechanism of wheat-grain moxibustion in treating bone marrow inhibition.@*METHODS@#Forty-five SPF male CD1(ICR) mice were randomly divided into a blank group, a model group and a wheat-grain moxibustion group, 15 mice in each group. The bone marrow inhibition model was established by intraperitoneal injection of 80 mg/kg of cyclophosphamide (CTX). The mice in the wheat-grain moxibustion group were treated with wheat-grain moxibustion at "Dazhui" (GV 14), "Zusanli" (ST 36) and "Sanyinjiao" (SP 6), 3 moxa cones per acupoint, 30 s per moxa cone, once a day, for 7 consecutive days. The white blood cell count (WBC) was measured before modeling, before intervention and 3, 5 d and 7 d into intervention. After intervention, the general situation of mice was observed; the number of nucleated cells in bone marrow was detected; the serum levels of interleukin-3 (IL-3), interleukin-6 (IL-6) and granulocyte macrophage colony stimulating factor (GM-CSF) were measured by ELISA; the protein and mRNA expression of β-catenin, cyclinD1 and C-Myc in bone marrow cells was measured by Western blot and real-time PCR method.@*RESULTS@#Compared with the blank group, the mice in the model group showed sluggish reaction, unstable gait, decreased body weight, and the WBC, number of nucleated cells in bone marrow as well as serum levels of IL-3, IL-6, GM-CSF were decreased (P<0.01), and the protein and mRNA expression of β-catenin, cyclinD1 and C-Myc was decreased (P<0.01). Compared with the model group, the mice in the wheat-grain moxibustion group showed better general condition, and WBC, the number of nucleated cells in bone marrow as well as serum levels of IL-3, IL-6, GM-CSF were increased (P<0.01, P<0.05), and the protein and mRNA expression of β-catenin, cyclinD1 and C-Myc was increased (P<0.05).@*CONCLUSION@#Wheat-grain moxibustion shows therapeutic effect on bone marrow inhibition, and its mechanism may be related to activating Wnt/β-catenin signaling pathway in bone marrow cells, improving bone medullary hematopoiesis microenvironment and promoting bone marrow cell proliferation.
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Animales , Masculino , Ratones , beta Catenina/metabolismo , Médula Ósea/fisiopatología , Células de la Médula Ósea/fisiología , Factor Estimulante de Colonias de Granulocitos y Macrófagos/metabolismo , Interleucina-3/metabolismo , Interleucina-6/metabolismo , Ratones Endogámicos ICR , Moxibustión/métodos , ARN Mensajero/metabolismo , Triticum , Vía de Señalización Wnt , HematopoyesisRESUMEN
Objective:To explore the diagnostic value and problems of artificial intelligence (AI) bone marrow cell recognition technology in the detection of minimal residual disease (MRD) of leukemia.Methods:A total of 65 cases with minimal residual disease of leukemia confirmed by flow cytometry from the Hematology Medical Center of Xinqiao Hospital affiliated to the Army Medical University (AMMU) from November 1 to December 31, 2020 were collected. The bone marrow Wright′s staining smears were obtained, and all bone marrow smears were scanned and classified automatically without artificial intervention by the analysis system based on Artificial Intelligence platform (morphogo). AI-MRD was defined to positive when the proportion of primary cells was more than 3%. According to the number of AI automatic recognition cells, the cases were divided into 18 cases of less than 500 (L500), 35 cases of 500 to 1900 (between 500 and 1900, B1900), and 12 cases of more than 1900 (M1900), no overlap or omission between groups. Kappa consistency test was performed on the results of artificial intelligence test and the results of flow cytometry for minimal residual disease of leukemia (MFC-MRD) in each group. The receiver operating characteristic curve (ROC) of the artificial intelligence test results of each group of patients was drawn based on the MFC-MRD results, and the sensitivity, specificity and accuracy of the area under the curve (AUC) value and AI results were calculated.Results:After grouping according to the number of cells automatically recognized by AI, the detection results of L500 group were MFC-MRD+/AI-MRD+7 cases, MFC-MRD+/AI-MFC-2 cases, MFC-MRD-/AI-MRD+6 cases, MFC-MRD-/AI-MRD-3 cases; In B1900 group, MFC-MRD+/AI-MRD+13 cases, MFC-MRD+/AI-MFC-6 cases, MFC-MRD-/AI-MRD+6 cases, MFC-MRD-/AI-MRD-10 cases; The results of M1900 group were MFC-MRD+/AI-MRD+5 cases, MFC-MRD+/AI-MFC-0 cases, MFC-MRD-/AI-MRD+1 case, MFC-MRD-/AI-MRD-6 cases. Taking MFC-MRD as the determination standard, the sensitivity of AI-MRD detection in L500 group, B1900 group and M1900 group was 53.8%, 68.4% and 83.3%, the specificity was 60%, 62.5% and 100%, the accuracy was 55.6%, 65.7% and 91.7%, and the AUC value were 0.568 P=0.654, 0.678 P=0.069,1.000 P=0.000. Conclusions:This study preliminarily explored the diagnostic value and problems of AI bone marrow cell recognition in the detection of minimal residual disease of leukemia. It was confirmed that when 3% of the proportion of blasts in AI cell classification is set>3% as the positive threshold of AI-MRD, the consistency between AI and MFC-MRD detection increases with the increase of the number of cells recognized by AI.
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Objective:To explore a method to obtain more mouse bone marrow cells more quickly.Methods:Take both lower limbs of the same mouse,the bone marrow cells were obtained by either the tube-nesting EP method or the traditional syringe irrigation method,recorded the time and quantity of bone marrow cells,to analyze the proportion of viable cells by flow cytometry,and to detect the proliferation of these bone marrow cells used CCK-8 method.Results:Compared with the traditional syringe irrigation method,the time of obtaining mouse bone marrow cells by tube-nesting EP method was shorter(P<0.000 1).Compared with the traditional syringe irrigation method,the number of bone marrow cells obtained by tube-nesting EP method was more(P<0.05).The proportion of live cells and proliferation ability of bone marrow cells obtained by the two methods were identical.Conclusion:Tube-nesting EP method is a new faster method to get more mouse bone marrow cells.
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Objective:To prepare the hydrogel scaffolds with different concentrations of laponite and compare their osteogenic properties.Methods:The scaffolds of gelatin/sodium alginate hydrogel into which laponite was added according to the mass ratios of 0%, 1%, 2%, and 3% were assigned into groups T0, T1, T2, and T3. In each group, the compressive modulus was measured and the leaching solution for 24 h extracted to measure the ion release. Bone marrow mesenchymal stem cells (BMSCs) were cultured in the extract medium from each group and common medium (blank group) ( n=3) in the in vitro experiments to determine the expression of osteogenic genes Runt-related transcription factor 2 (Runx2), alkaline phosphatase (ALP) and type I collagen after 7 days of culture. In the in vivo experiments, the scaffolds were implanted into the femoral condyle defects in rats, and a blank group with no scaffolds was set. The bone repair in each group was evaluated by hematoxylin-eosin(HE) staining and immunohistochemical staining. Results:The compressive modulus in group T2 [(139.05±6.43) kPa] was significantly higher than that in groups T0, T1 and T3 [(68.83±3.76) kPa, (101.18±3.68) kPa and (125.40±3.28) kPa] ( P<0.05). The ion contents of lithium, magnesium and silicon released from the 24 h leaching solution in group T2 were (0.031±0.005) μg/mL, (3.047±0.551) μg/mL and (5.243±0.785) μg/mL, insignificantly different from those in group T3 ( P> 0.05) but significantly larger than those in group T1 ( P>0.05). The in vitro experiments showed that the expression levels of Runx2, ALP and type I collagen in group T2 were 1.59±0.11, 2.02±0.08 and 1.06±0.17, significantly higher than those in the other groups ( P<0.05). HE staining showed that the implanted hydrogel was tightly bound to the bone tissue. Immunohistochemical staining showed that the numbers of Runx2 and osteocalcin positive cells in group T2 were significantly higher than those in the other groups. Conclusions:With ideal biocompatibility, hydrogel scaffolds with different concentrations of laponite can slowly release the decomposed ions of lithium, magnesium and silicon to promote the osteogenic differentiation of BMSCs and the repair of bone defects in vivo. A 2% concentration of laponite in the hydrogel scaffolds may result in the best results.
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Objective:To observe the expressions of miR-183 and retinal dehydrogenase 11 (RDH11) in exosomes derived from bone marrow mesenchymal stem cells (BMSC), and to preliminarily explore their targeting relationship and their effects on retinal pigment epithelial (RPE) cells.Methods:BMSC from C57BL/6 (C57) mice were isolated and cultured, and BMSC-derived exosomes were identified. BMSC were divided into blank group, simulation blank control group (mimic-NC group), miR-183 simulation group (miR-183-mimic group). C57 mice and retinal degeneration 10 (rd10) mouse RPE cells were cultured with reference to literature methods. RPE cells from rd10 mice were transfected with BMSC exosomes and co-cultured and divided into control group, exosome group, mimic-NC-exosome group (mimic-NC-exo group), miR-183-mimic-exosome group (miR-183-mimic-exo group). The relative expression levels of miR-183, RDH11 mRNA and protein in C57 mice, rd10 mice and RPE cells in each group were detected by real-time quantitative polymerase chain reaction and western blotting. The targeting relationship between miR-183 and RDH11 was analyzed by bioinformatics website and dual luciferase reporter. Cell counting kit 8 was used to detect the effect of miR-183 on BMSC exosomes on RPE cell proliferation; in situ labeling end labeling method was used to detect RPE cells apoptosis. One-way ANOVA was used to compare multiple groups.Results:Compared with C57 mouse RPE cells, the relative expression of miR-183 in rd10 mouse RPE cells was down-regulated, and the relative expression of RDH11 mRNA was up-regulated, and the differences were statistically significant ( t=5.230, 8.548; P=0.006, 0.001). Compared with the blank group and the mimic-NC group, the relative expression of miR-183 mRNA in the exosomes of the miR-183-mimics group was significantly increased ( F=60.130, P <0.05 ). After 24 h of co-culture, exosomes entered RPE cells. Compared with the mimic-NC-exo group, the relative expression of miR-183 mRNA in RPE cells in the miR-183-mimic-exo group was significantly increased, the proliferation ability was enhanced ( t=7.311, P=0.002), and the number of apoptotic cells was decreased ( F=10.949, P=0.012), and the differences were statistically significant ( t=4.571, P=0.002). Bioinformatics website and dual-luciferase report confirmed that miR-183 has a targeting relationship with RDH11. Compared with the mimic-NC group, the relative expression of RDH11 mRNA and protein in the exosomes of the miR-183-mimic group was decreased, and the difference was statistically significant ( t=5.361, 6.591; P=0.006, 0.003). After co-culture, compared with the control group, there was no significant difference in the relative expression of RDH11 mRNA and protein in RPE cells in the exosome group ( t=0.169, 1.134; P=0.874, 0.320); The relative expressions of RDH11 mRNA and protein in RPE cells in -183-mimic-exo group were decreased, and the difference was statistically significant ( t=5.554, 5.546; P=0.005, 0.005). Conclusion:Up-regulation of BMSC-derived exosomal miR-183 promote the proliferation of RPE cells in vitro by targeting the expression of RDH11 and reduce the number of apoptosis.
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Stem cell transplantation has great potential in the treatment of ischemic stroke, and bone marrow mesenchymal stem cells (BMSCs) are the most widely studied. Studies have shown that BMSCs mainly perform their functions in a paracrine manner, and the exosomes released by BMSCs show biological activities similar to BMSCs. As a cell-free therapy, BMSCs exosomes have made a lot of progress in the field of ischemic stroke. This article reviews the research progress of BMSCs-derived exosomes in the treatment of ischemic stroke.
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ABSTRACT Objective: To compare bone marrow aspirate concentrate (BMAC) with the standard treatment for gluteal tendinopathies. Methods: 48 patients diagnosed with gluteal tendinopathy at a university hospital were selected by a randomized clinical trial and divided into two groups: (G1) bone marrow aspirate concentrate and (G2) corticosteroid injections. Results: 40 of the 48 selected patients were monitored for six months and both groups showed better scores. Visual analog scale (VAS) scores and Lequesne index were statistically significant higher in patients submitted to BMAC treatment when compared to standard treatment. Both groups improved their quality of life, without statistically significant difference. Conclusion: BMAC constitutes an alternative to gluteal tendinopathy standard treatment, proving to be a safe technique with promising results when combined with multidisciplinary team behavioral therapy. Level of Evidence II, Randomized Clinical Trial.
RESUMO Objetivo: Estudo comparativo entre tratamento com corticóide e aspirado de medula óssea concentrado (BMAC) para o tratamento de tendinopatias glúteas. Métodos: O ensaio clínico randomizado selecionou pacientes diagnosticados com tendinopatia glútea e os dividiu em dois grupos: (G1) aspirado de medula óssea concentrada e (G2) injeção de corticosteróide. Resultados: Foram selecionados 48 pacientes, dos quais 40 foram monitorados por 6 meses, com melhora nos escores nos dois grupos. Os pacientes que foram submetidos ao tratamento com BMAC tiveram uma melhora estatisticamente significativa nos escores de EVA e nos escores de Lequesne em comparação ao tratamento padrão. Houve uma melhora na avaliação da qualidade de vida em ambos os grupos, sem diferença estatisticamente significativa. Conclusão: O aspirado de medula óssea concentrada surge como uma alternativa ao tratamento padrão da tendinopatia glútea, provando ser uma técnica segura e com resultados promissores quando combinada à terapia comportamental de equipe multidisciplinar. Nível de Evidência II, O ensaio clínico randomizado.
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The osteoporotic fracture is characterized by a high disability rate,poor internal fixation strength,delayed bone healing,etc.,which greatly affects elderly health,so accelerating fracture healing is the key point of therapeutic strategies. Current researches mainly concentrate in bone formation acceleration and resorption inhibition,but the outcomes turn out to be unsatisfactory under the coupling of osteoblasts and osteoclasts. The accumulation of yellow adipose tissue in the medullary cavity is often arisen in patients with osteoporotic fractures,but its role and mechanism in bone metabolism remain unclear. Bone marrow adipocytes are differentiated from mesenchymal stromal cells and possess unique metabolic and secretory functions involving in energy metabolism,maintenance of hematopoietic microenvironment and regulation of bone metabolism balance. However,the role of bone marrow adipose tissue(BMAT)in osteoporotic fracture healing requires more elucidation. In this study,the authors discuss the key role and molecular mechanism of BMAT in the regulation of bone metabolism and homeostasis,aiming to provid new ideas and targets for the promotion of osteoporotic fracture healing.
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Objective:To investigate the effect of ionizing radiation on the N 6-methyladenine (m 6A) modification profile of circular RNA (circRNA) in mouse bone marrow cells and provide scientific basis for revealing the relationship between RNA epigenetic modification and hematopoietic radiation injury. Methods:A total of twenty four C57BL/6 J mice were randomly divided into two groups: the healthy control group ( n=12), and ionizing radiation group ( n=12) irradiated in total body with 4 Gy of 137Cs γ-rays. At 5 min after irradiation, mice were killed and bone marrow cells were collected from the femur. Total RNAs were extracted and the changes in circRNA m6A modification profiles were investigated by RNA immunoprecipitation-high-throughput sequencing (MeRIP-Seq) technology and bioinformatics analysis. The representative alterations of m 6A peaks were validated by MeRIP-PCR assay. Results:325 and 455 m 6A sites were identified on circRNAs in the healthy control group and ionizing radiation group (178 common sites, 147 specific sites in the healthy control group and 277 specific sites in ionizing radiation group), respectively. 1 275 and 1 017 deriving genes of m 6A-circRNAs were identified in the healthy control group and ionizing radiation group (767 common genes, 508 specific genes in the healthy control group and 250 specific genes in ionizing radiation group), respectively. Compared with the control healthy group, 414 (178) m 6A peaks was significantly up- (down-) regulated in the ionizing radiation group( P < 10 -10; fold-change cut-off > 5). Moreover, Gene Ontology (GO) assay revealed that the deriving genes of circRNAs with differentially methylated m 6A sites between two groups involves various functions including chromatin regulation, ciliary transition fiber and poly (A)-specific ribonuclease activity. Kyoto Encyclopedia of Genes and Genomes (KEGG) assay revealed that the deriving genes of circRNAs with differentially methylated m 6A sites between two groups included numerous pathways such as platelet activation, Fc γ R-mediated phagocytosis and B cell receptor signaling pathway. Conclusions:Ionizing radiation triggers rapid alterations in the m 6A modification profile of circRNA in mouse bone marrow cells. The deriving genes of differentially methylated circRNAs are associated with a variety of functions and signaling pathways of hematopoietic radiobiology.
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Growth plate,the developmental center of endochondral osteogenesis,can be divided morphologically and functionally into a resting zone,a proliferative zone,a prehypertrophic zone and a hypertrophic zone.Injuries to growth plate often lead to bone growth defects including limb length discrepancy and angulation deformity in children.Currently,their orthopedic corrective surgeries are invasive and limitedly effective and no effective biotherapy has been available.Previous studies on animal models of growth plate damage have investigated the related cellular and molecular events in the repair of damaged growth plates in the 4 distinct inflammatory,fibrogenic,osteogenic and remodeling phases.Related molecules involved in the regulation of the above processes,such as inflammatory cytokines tumor necrosis factor alpha,mitogenic platelet-derived growth factor and bone morphogenetic protein,are found to participate in the regulation of growth plate injury.Exploration of the mechanisms may provide new targets for biotherapy.In addition,development of cartilage tissue engineering,especially application of mesenchymal stem cells,also provides potential interventions for growth plate injury.
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Introduction: Ionizing radiations produce free radicals which are often responsible for DNA damage or cell death. Grape seed extract (GSE) is a natural compound having an antioxidant that protects DNA, lipids, and proteins from free radical damages. In this study, radioprotective effect of the GSE has been investigated in mouse bone marrow cells using micronucleus test. Materials and Methods: Four groups of mice were investigated in this study: Mice in Group 1 were subjected to injection of distilled water with no irradiation. Mice in Group 2 were exposed to 3 Gy gamma radiation after the injection of distillated water. Mice in Group 3 were injected with 200 mg/kg of the GSE without any irradiation. In another group, mice were exposed to three gray gamma irradiation after the injection of GSE. Animals were killed, and slides were prepared from the bone marrow cells 24 h after irradiation. The slides were stained with May Grunwald–Giemsa method and analyzed microscopically. The frequency of the micronucleated polychromatic erythrocytes (MnPCEs), micronucleated normochromatic erythrocyte (MnNCEs), and polychromatic erythrocyte/polychromatic erythrocyte + normochromatic erythrocyte (PCE/PCE + NCE) ratios was calculated. Results: Injection of GSE significantly decreased the frequency of MnPCEs (P < 0.0001) and MnNCEs (P < 0.05) and increased the ratio of PCE/PCE + NCE (P < 0.0001) compared to the irradiated control group. Discussion and Conclusions: GSE could reduce clastogenic and cytotoxic effects of gamma irradiation in mice bone marrow cells; therefore, it can be concluded that the GSE is a herbal compound with radioprotective effects against gamma irradiation. Free radical scavenging and the antioxidant effects of the GSE probably are responsible mechanisms for the GSE radioprotective effects
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Objective To investigate the effect of magnetic-induced cell targeted transplantation (MagIC-TT) on repair of bone defects in mice using therapeutic fluorescent gene labeled cells into bone tissue and its mechanism.Methods The proliferation,apoptosis and targeted migration ability were compared between magnetized and unmagnetized murine bone marrow stromal cells labeled with green fluorescent protein (GFP-BMSCs) (n =3).GFP-BMSCs were loaded into tissue engineering bone (TEB) by MagIC-TT in the experimental group (n =5) before the TEB was transplanted into the large femur defects in the model of red fluorescent protein (RFP) transgenic mice.In the control group (n =5) TEB was not loaded with GFP-BMSCs while in the blank group (n =3) the large femur defects were only fixated with intramedullary nails.The effects and mechanism of bone repair were explored 3 months after surgery using X-ray,micro-CT,semi-solid decalcification (SSD) and histology,respectively Results There were no significant differences between magnetized and non-magnetized GFP-BMSCs in proliferation (0.760 ±0.029 versus 0.733 ±0.033) or in survival rate (87.9% ±1.0% versus 87.4% ±2.0%) (P> 0.05),but the mobility of magnetized GFP-BMSCs was significantly higher than that of non-magnetized GFP-BMSCs (P < 0.05).The X-ray 3 months after surgery showed that the scaffolds in the experimental group were degraded and that the proximal and distal ends of the femoral defects were connected by new bone tissue.No new bone formation was found in the blank group while a small amount of bone formation was observed in the control group.The Micro-CT showed that stable new bone tissue formed in the femur defects after removal of intramedullary nails in the experimental group.The SSD showed that GFP-MSCs were densely distributed in the scaffolds with red fluorescent protein (RFP) recipient cells penetrating them,indicating involvement of both donor and recipient cells in the formation of new bone.Conclusions MagIC-TT can be used to promote introduction of therapeutic cells into bone tissue to achieve a fine effect on repairing bone defects.Dual fluorescence gene marking combined with SSD shows that both donor and recipient cells may take part in the bone repairing.
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Objective To study the effect of growth differentiation factor (GDF) 11-silenced bone marrow stromal cells (BMSCs) on bone regeneration in early steroid-induced osteonecrosis of the femoral head in rats.Methods After GDF11 expression in BMSCs was inhibited by siRNA,the knockdown efficiency and transfection cytotoxicity were detected.The further experiments both in vitro (n =3) and in vivo (n =8)were divided into 4 groups respectively:blank control group (without any intervention),model group (glucocorticoid treatment),experimental group (siRNA transfection and glucocorticoid treatment) and negative control group (negative control transfection and glucocorticoid treatment).The BMSCs were induced into osteogenic differentiation.Alkaline phosphatase (ALP) staining and alizarin red staining were applied to evaluate the osteogenic differentiation ability of the cells while reverse transcription polymerase chain reaction (qRT-PCR) was employed to detect the relative expression levels of osteogenic markers.The osteogenesis in the necrotic femoral head was evaluated by microCT,H& E staining,immunohistochemistry staining and biomechanical test.Results No transfection cytotoxicity was found (P > 0.05).The ALP staining and alizarin red staining showed that the osteogenic differentiation of BMSCs in the experimental group was better than that in the model group.At the level of mRNA,the relative expression of ALP,runt-related transcription factor (Runx) 2,osteocalcin (OCN) and type Ⅰ collagen (α1) (COL1A1) in the blank control group (1.00 ± 0.09,1.02 ± 0.23,1.03 ± 0.30 and 1.02 ± 0.25,respectively) were significantly higher than those in the model group (0.46±0.11,0.50±0.11,0.35±0.01 and0.57±0.02,respectively) but significantly lower than those in the experimental group (1.97±0.30,0.94±0.19,1.50±0.18 and 1.28 ±0.37) (all P < 0.05).MicroCT images and quantitative analysis showed that the bone mass in the experimental group was significantly increased compared with the model group (P < 0.05).Histological examination showed better bone regeneration and higher expression of Runx2 and COL1 in the necrotic femoral head in the experimental group than in the model group.Improved biomechanical properties were shown in the experimental group compared with the model group (P < 0.05).Conclusions Silence of GDF11 expression may alleviate the inhibitory effect of glucocorticoid on osteogenic differentiation of BMSCs.Early transplantation of GDF11-silenced BMSCs may promote osteogenesis in the necrotic femoral head in rats.
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Objective@#To investigate the antioxidant mechanism of diallyl sulfide (DAS) in antagonizing the reduction in peripheral blood white blood cells (WBC) induced by benzene in rats.@*Methods@#A total of 60 specific pathogen-free adult male Sprague-Dawley rats, with a body weight of 180-220 g, were selected, and after 5 days of adaptive feeding, they were randomly divided into blank control group, DAS control group, benzene model group, benzene+low-dose DAS group, benzene+middle-dose DAS group, and benzene+high-dose DAS group, with 10 rats in each group. The rats in the benzene+low-dose DAS group, the benzene+middle-dose DAS group, the benzene+high-dose DAS group, and the DAS control group were given DAS by gavage at a dose of 40, 80, 160, and 160 mg/kg·bw, respectively, and those in the blank control group and the benzene model group were given an equal volume of corn oil; 2 hours later, the rats in the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group were given a mixture of benzene (1.3 g/kg·bw) and corn oil (with a volume fraction of 50%), and those in the blank control group and the DAS control group were given an equal volume of corn oil. The above treatment was given once a day for 4 consecutive weeks. At 1 day before treatment, anticoagulated blood was collected from the jugular vein for peripheral blood cell counting. After anesthesia with intraperitoneally injected pentobarbital (50 mg/kg·bw), blood samples were collected from the abdominal aorta, serum was isolated, and the thymus, the spleen, and the femur were freed at a low temperature to measure oxidative and antioxidant indices. The femur at one side was freed for WBC counting in bone marrow.@*Results@#Compared with the blank control group, the benzene model group had significant reductions in the volume, weight, and organ coefficient of the spleen and the thymus (P<0.05) ; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had significant increases in the volume of the spleen and the thymus and the weight and organ coefficient of the spleen (P<0.05), and the benzene+middle-dose DAS group and the benzene+high-dose DAS group had significant increases in the weight and organ coefficient of the thymus (P<0.05). Compared with the blank control group, the benzene model group had a significant reduction in WBC count in peripheral blood and bone marrow (P<0.05), and compared with the benzene model group, the benzene+middle-dose DAS group and the benzene+high-dose DAS group had a significant increase in WBC count in peripheral blood and bone marrow (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the serum level of malondialdehyde (MDA) (P<0.05) and significant reductions in total superoxide dismutase (T-SOD) activity, reduced glutathione (GSH) level, GSH/oxidized glutathione (GSSG) ratio, total antioxidant capacity (T-AOC) (P<0.05) ; compared with the benzene model group, the benzene+high-dose DAS group had a significant reduction in the serum level of MDA and significant increases in T-SOD activity, GSH level, GSH/GSSG ratio, and T-AOC (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the level of MDA (P<0.05) and significant reductions in GSH level, GSH/GSSG ratio, and T-AOC (P<0.05) in the spleen; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had a significant reduction in MDA level (P<0.05) and significant increases in GSH level and T-AOC (P<0.05), and the benzene+high-dose DAS group had significant increases in T-SOD activity and GSH/GSSG ratio (P<0.05). Compared with the blank control group, the benzene model group had a significant increase in the level of MDA in bone marrow cells (BMCs) and peripheral blood mononucleated cells (PBMCs) (P<0.05) and a significant reduction in T-AOC in PBMCs (P<0.05) ; compared with the benzene model group, the benzene+low-dose DAS group, the benzene+middle-dose DAS group, and the benzene+high-dose DAS group had a significant reduction in the level of MDA in BMCs and PBMCs (P<0.05), and the benzene+high-dose DAS group had significant increases in GSH level and GSH/GSSG ratio (P<0.05) .@*Conclusion@#DAS can antagonize the benzene-induced reduction in peripheral blood WBC, possibly by exerting an anti-oxidative stress effect.
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Objective@#To investigate the effect of magnetic-induced cell targeted transplantation (MagIC-TT) on repair of bone defects in mice using therapeutic fluorescent gene labeled cells into bone tissue and its mechanism.@*Methods@#The proliferation, apoptosis and targeted migration ability were compared between magnetized and unmagnetized murine bone marrow stromal cells labeled with green fluorescent protein (GFP-BMSCs) (n=3). GFP-BMSCs were loaded into tissue engineering bone (TEB) by MagIC-TT in the experimental group (n=5) before the TEB was transplanted into the large femur defects in the model of red fluorescent protein (RFP) transgenic mice. In the control group (n=5) TEB was not loaded with GFP-BMSCs while in the blank group (n=3) the large femur defects were only fixated with intramedullary nails. The effects and mechanism of bone repair were explored 3 months after surgery using X-ray, micro-CT, semi-solid decalcification (SSD) and histology, respectively@*Results@#There were no significant differences between magnetized and non-magnetized GFP-BMSCs in proliferation (0.760±0.029 versus 0.733±0.033) or in survival rate (87.9%±1.0% versus 87.4%±2.0%) (P>0.05), but the mobility of magnetized GFP-BMSCs was significantly higher than that of non-magnetized GFP-BMSCs (P<0.05). The X-ray 3 months after surgery showed that the scaffolds in the experimental group were degraded and that the proximal and distal ends of the femoral defects were connected by new bone tissue. No new bone formation was found in the blank group while a small amount of bone formation was observed in the control group. The Micro-CT showed that stable new bone tissue formed in the femur defects after removal of intramedullary nails in the experimental group. The SSD showed that GFP-MSCs were densely distributed in the scaffolds with red fluorescent protein (RFP) recipient cells penetrating them, indicating involvement of both donor and recipient cells in the formation of new bone.@*Conclusions@#MagIC-TT can be used to promote introduction of therapeutic cells into bone tissue to achieve a fine effect on repairing bone defects. Dual fluorescence gene marking combined with SSD shows that both donor and recipient cells may take part in the bone repairing.
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Objective@#To study the effect of growth differentiation factor (GDF) 11-silenced bone marrow stromal cells (BMSCs) on bone regeneration in early steroid-induced osteonecrosis of the femoral head in rats.@*Methods@#After GDF11 expression in BMSCs was inhibited by siRNA, the knockdown efficiency and transfection cytotoxicity were detected. The further experiments both in vitro (n=3) and in vivo (n=8) were divided into 4 groups respectively: blank control group (without any intervention), model group (glucocorticoid treatment), experimental group (siRNA transfection and glucocorticoid treatment) and negative control group (negative control transfection and glucocorticoid treatment). The BMSCs were induced into osteogenic differentiation. Alkaline phosphatase (ALP) staining and alizarin red staining were applied to evaluate the osteogenic differentiation ability of the cells while reverse transcription polymerase chain reaction (qRT-PCR) was employed to detect the relative expression levels of osteogenic markers. The osteogenesis in the necrotic femoral head was evaluated by microCT, H&E staining, immunohistochemistry staining and biomechanical test.@*Results@#No transfection cytotoxicity was found (P>0.05). The ALP staining and alizarin red staining showed that the osteogenic differentiation of BMSCs in the experimental group was better than that in the model group. At the level of mRNA, the relative expression of ALP, runt-related transcription factor (Runx) 2, osteocalcin (OCN) and type Ⅰ collagen (α1) (COL1A1) in the blank control group (1.00±0.09, 1.02±0.23, 1.03±0.30 and 1.02±0.25, respectively) were significantly higher than those in the model group (0.46±0.11, 0.50±0.11, 0.35±0.01 and 0.57±0.02, respectively) but significantly lower than those in the experimental group (1.97±0.30, 0.94±0.19, 1.50±0.18 and 1.28±0.37) (all P<0.05). MicroCT images and quantitative analysis showed that the bone mass in the experimental group was significantly increased compared with the model group (P<0.05). Histological examination showed better bone regeneration and higher expression of Runx2 and COL1 in the necrotic femoral head in the experimental group than in the model group. Improved biomechanical properties were shown in the experimental group compared with the model group (P<0.05).@*Conclusions@#Silence of GDF11 expression may alleviate the inhibitory effect of glucocorticoid on osteogenic differentiation of BMSCs. Early transplantation of GDF11-silenced BMSCs may promote osteogenesis in the necrotic femoral head in rats.
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Studies have shown that bone marrow mesenchymal stem cells (BMSCs) transplantation can restore the sensory and motor function of patients with ischemic stroke. BMSCs transplantation is a promising therapeutic strategy because of its ability to differentiate into neuron-like cells. This article reviews the inducers that promote BMSCs to differentiate into neuron-like cells in vitro.
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Myeloid-derived suppressor cells (MDSCs) that are able to suppress T cell function are a heterogeneous cell population frequently observed in cancer, infection, and autoimmune disease. Immune checkpoint molecules, such as programmed death 1 (PD-1) expressed on T cells and its ligand (PD-L1) expressed on tumor cells or antigen-presenting cells, have received extensive attention in the past decade due to the dramatic effects of their inhibitors in patients with various types of cancer. In the present study, we investigated the expression of PD-1 on MDSCs in bone marrow, spleen, and tumor tissue derived from breast tumor-bearing mice. Our studies demonstrate that PD-1 expression is markedly increased in tumor-infiltrating MDSCs compared to expression in bone marrow and spleens and that it can be induced by LPS that is able to mediate NF-κB signaling. Moreover, expression of PD-L1 and CD80 on PD-1+ MDSCs was higher than on PD-1− MDSCs and proliferation of MDSCs in a tumor microenvironment was more strongly induced in PD-1+ MDSCs than in PD-1− MDSCs. Although we could not characterize the inducer of PD-1 expression derived from cancer cells, our findings indicate that the study on the mechanism of PD-1 induction in MDSCs is important and necessary for the control of MDSC activity; our results suggest that PD-1+ MDSCs in a tumor microenvironment may induce tumor development and relapse through the modulation of their proliferation and suppressive molecules.
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Animales , Humanos , Ratones , Células Presentadoras de Antígenos , Enfermedades Autoinmunes , Médula Ósea , Células de la Médula Ósea , Mama , Recurrencia , Bazo , Linfocitos T , Microambiente TumoralRESUMEN
Objective To investigate the effect of gefitinib, an inhibitor of epidermal growth factor receptor ( EGFR ) , on the proliferation and osteogenic differentiation of endosteum-derived stem cells ( EDSCs ) in rats. Methods Femoral fracture models were established in healthy male 4-week old SD rats. They were randomly divided into 2 groups. The experimental group was subjected to intragastric lavage with gefitinib, an EGFR signaling inhibitor ( 100 mg/kg·d ) while the control group to intragastric lavage with an isodose of methyl cellulose. Bilateral femurs and tibias were harvested one week after lavage for separation of EDSCs and bone marrow mesenchymal stem cells ( BMSCs ) respectively using density gradient centrifuga-tion. After proliferative cloning in vitro, expression of the cell surface antigens ( CD29, CD34, CD44 and CD45) of the third passage cells was detected by flow cytometry (FCM). Proliferation of the cells was detected by BrdU, cell cycle was measured by FCM, and expression of the genes related to cell cycle inhibitory factors (p15, p16, p21 and p27) was determined by PCR. ALP staining was performed 14 days after osteogenesis induction. After 21 days of chondrogenic induction, von Kossa staining was conducted. qRT-PCR of the mRNA obtained was used to detect expression of osteogenic differentiation of related genes ( osteocalcin, bsp, runx2 and osterix ). Results CD29 and CD44 were positively expressed while CD34 and CD45 negatively expressed in EDSCs and BMSCs. After the EGFR signaling pathway was blocked by gefitinib, BrdU detection found that gefitinib inhibited BMSCs ( 11.15%) much more than EDSCs ( 0.25%). Cell cycle detection showed that the volume of EDSCs was increased in phases G0/G1 and S but decreased significantly in phase G2-M. ALP staining showed that the increase of EDSCs ALP+ cells (53.31% ) was significantly higher than that of BMSCs (25.04% ) . The increased expression percentages of the genes related to cell cycle inhibitors in EDSCs (103.9%, 58.0%, 117.3% and 105.1%, respectively) were significantly higher than those in BMSCs (39.3%, 38.4%, 24.5% and 83.4%, respectively) ( P <0.05). The increased expression percentages of the genes related to osteogenic differentiation in EDSCs (247.0%, 289.9%, 66.1% and 233.2%, respectively) were significantly higher than those in BMSCs (106.5%, 186.4%, 41.7% and 190.8%, respectively). All the above differences were statistically significant ( P <0.05) . Conclusions Gefitinib, an EGFR inhibitor, can inhibit proliferation of EDSCs and BMSCs but promote their osteogenic differentiation. It inhibits proliferation of BMSCs more significantly as it promotes osteogenic differentiation of EDSCs.
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Dapsone, an antibiotic, has been used to cure leprosy. It has been reported that dapsone has anti-inflammatory activity in hosts; however, the anti-inflammatory mechanism of dapsone has not been fully elucidated. The present study investigated the anti-inflammatory effects of dapsone on bone marrow cells (BMs), especially upon exposure to lipopolysaccharide (LPS). We treated BMs with LPS and dapsone, and the treated cells underwent cellular activity assay, flow cytometry analysis, cytokine production assessment, and reactive oxygen species assay. LPS distinctly activated BMs with several characteristics including high cellular activity, granulocyte changes, and tumor necrosis factor alpha (TNF-α) production increases. Interestingly, dapsone modulated the inflammatory cells, including granulocytes in LPS-treated BMs, by inducing cell death. While the percentage of Gr-1 positive cells was 57% in control cells, LPS increased that to 75%, and LPS plus dapsone decreased it to 64%. Furthermore, dapsone decreased the mitochondrial membrane potential of LPS-treated BMs. At a low concentration (25 µg/mL), dapsone significantly decreased the production of TNF-α in LPS-treated BMs by 54%. This study confirmed that dapsone has anti-inflammatory effects on LPS-mediated inflammation via modulation of the number and function of inflammatory cells, providing new and useful information for clinicians and researchers.