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RESUMO Objetivo A escassez de pulmões viáveis ainda é um grande obstáculo para o transplante. As vítimas de trauma, que constituem potenciais doadores de pulmão, comumente apresentam choque hipovolêmico que acarreta inflamação e deterioração pulmonar e rejeição após o transplante. Buscando melhorar o enxerto pulmonar, testaram-se novas abordagens ao tratamento do doador. Este estudo foca o tratamento com células-tronco mesenquimais (CTMs) ou fatores solúveis produzidos pelas CTMs (FS-CTMs), usando um modelo com ratos para doadores de pulmão após choque hemorrágico. Métodos Quarenta e oito ratos foram divididos em quatro grupos: Controle (n=12), animais sem indução de choque hipovolêmico; Choque (n=12), animais submetidos a choque hipovolêmico (pressão arterial média de 40 mmHg); CTM (n=12), animais submetidos a choque hipovolêmico e tratados com CTMs; e FS (n=12), animais submetidos a choque hipovolêmico e tratados com FS-CTMs. Os animais foram submetidos a um procedimento de choque hipovolêmico (40 mmHg) com 50 minutos de duração. Os animais tratados foram monitorados por 115 minutos. Realizamos análise histopatológica do tecido pulmonar e quantificação dos marcadores inflamatórios (TNF-α, IL-1β, IL-6, IL-10, iCAM e vCAM) no tecido pulmonar e leucócitos no sangue periférico (LSPs). Resultados O choque hemorrágico resultou em taxas mais altas de LSPs e infiltrado de neutrófilos nos pulmões. Os animais do grupo FS apresentaram menor densidade de neutrófilos em comparação com os animais dos grupos Choque e CTM (p<0,001). Não foram observadas diferenças entre os grupos quanto aos níveis de citocinas no tecido pulmonar. Conclusão Os pulmões dos ratos submetidos a choque hemorrágico e tratados com FS-CTM apresentaram inflamação reduzida indicada por uma diminuição do infiltrado de neutrófilos nos pulmões.
ABSTRACT Objective The shortage of viable lungs is still a major obstacle for transplantation. Trauma victims who represent potential lung donors commonly present hypovolemic shock leading to pulmonary inflammation and deterioration and rejection after transplantation. Seeking to improve lung graft, new approaches to donor treatment have been tested. This study focuses on treatment with mesenchymal stem cells (MSCs) or soluble factors produced by MSCs (FS-MSC) using a rat model for lung donors after hemorrhagic shock. Methods Forty-eight rats were divided into four groups: Sham (n=12), animals without induction of hypovolemic shock; Shock (n=12), animals submitted to hypovolemic shock (mean arterial pressure 40 mmHg); MSC (n=12), animals submitted to hypovolemic shock and treated with MSCs, and FS (n=12), animals submitted to hypovolemic shock and treated with FS-MSC. The animals were subjected to a 50-minute hypovolemic shock (40 mmHg) procedure. The treated animals were monitored for 115 minutes. We performed histopathology of lung tissue and quantification of inflammatory markers (TNF-α, IL-1β, IL-6, IL-10, iCAM and vCAM) in lung tissue and peripheral blood leukocytes (PBLs). Results Hemorrhagic shock resulted in higher PBLs and neutrophil infiltrate in the lungs. FS animals had lower neutrophil density comparing with Shock and MSC animals (p<0.001). No differences in the cytokine levels in lung tissue were observed between the groups. Conclusions The lungs of rats submitted to hemorrhagic shock and treated with FS-MSC showed reduced inflammation indicated in a decrease in lung neutrophil infiltrate.
Subject(s)
Animals , Rats , Shock, Hemorrhagic/therapy , Lung Transplantation , Mesenchymal Stem Cells , Disease Models, Animal , Inflammation , LungABSTRACT
Objective @#To investigate the activation of the mammalian target of rapamycin complex 1 (mTORC1) signaling pathway molecules during the process by which kaempferol (Kae) promotes osteogenic differentiation of mouse bone marrow mesenchymal cells (BMMCs) under cyclic and uniaxial tension.@*Methods @#BMMCs isolated and cultured in vitro were subjected to uniaxial dynamic tension with a 10% shape variable. The appropriate concentration of Kae was selected by cytotoxicity testing. The endogenous mTOR signal was inhibited by pp242. Four hours after traction, alkaline phosphatase (ALP) and osteocalcin (OCN) were detected by chemical colorimetry and ELISA, and the relative concentration of intracellular calcium was detected by flow cytometry. Phosphorylation of mTOR, 4E/BP1, and ribosomal protein S6 kinases (S6K), which are the main molecules of the endogenous mTORC1 signaling pathway, and expression of osteogenic transcription factors (Runx2 and Osterix) were detected by western blotting (WB), and mRNA expression levels of the above factors were detected by qRT-PCR.@*Results @# The cytotoxicity test showed that 10 μmol/L Kae had little inhibitory effect on cell proliferation but had the strongest osteogenic ability. Four hours after stretching, Kae effectively promoted the osteogenic differentiation of BMMCs. The expression of ALP was (153.04 ± 18.72) U/mg, the expression of OCN was (1.64 ± 0.25) U. The mRNA and protein levels of Runx2 and Osterix were upregulated, and the intracellular calcium content was decreased. The mRNA and protein phosphorylation of mTOR and S6K was upregulated, and the opposite effect was observed with 4E/BP1. After pp242 was added to inhibit mTOR signaling, mTOR and S6K mRNA and protein phosphorylation were downregulated, but 4E/BP1 mRNA and protein phosphorylation was upregulated. The osteogenic differentiation of BMMCs was also significantly inhibited, mRNA and protein expression of Runx2 and Osterix were significantly downregulated, ALP and OCN expression were downregulated, and intracellular calcium content was increased. @* Conclusion@#Kae promotes osteogenic differentiation of mouse BMMCs under uniaxial dynamic tension through the mTORC1 signaling pathway.
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La terapia celular basada en células mesenquimales/estromales se aplica ampliamente en la medicina moderna, aun cuando no todos los mecanismos de supervivencia y diferenciación están identificados. Sin embargo, hace pocos años se comenzaron a encontrar elementos extracelulares que generan nuevos paradigmas. En el presente trabajo se explican las principales características y funciones atribuidas a los exosomas, nanopartículas constituidas por microvesículas secretadas por las células con efecto en la matriz extracelular, y su repercusión como alternativa hacia una medicina regenerativa libre de células. Estas estructuras participan de forma notoria y crucial en la comunicación intercelular, lo que ha supuesto un cambio en el concepto de las funciones y el papel que desempeñan estas vesículas en los organismos vivos, en particular en la restauración de tejidos dañados y la respuesta inflamatoria e inmunológica. Se comentan algunos ejemplos de la repercusión biotecnológica de los exosomas en empresas y el mercado biofarmaceútico(AU)
Mesenchymal/stromal cell ;based therapy is widely applied in modern medicine, even though not all survival and differentiation mechanisms are identified. However, a few years ago, extracellular elements began to be found that generate new paradigms. The present work explains the main characteristics and functions attributed to exosomes, nanoparticles made up of microvesicles secreted by with an effect on the extracellular matrix, and their impact as an alternative towards cell-free regenerative medicine. These structures participate, notoriously and critically, in intercellular communication, which has led to a change in the concept of the functions and role that these vesicles play within living organisms, particularly in the restoration of damaged tissues and the inflammatory and immunological response. Some examples of the exosomes' biotechnological impact on companies and the biopharmaceutical market are discussed(AU)
Subject(s)
Humans , Male , Female , Regenerative Medicine/methods , Exosomes/physiology , Mesenchymal Stem Cells/physiologyABSTRACT
Los trastornos heredados del metabolismo son enfermedades graves de la infancia que cursan con un gran deterioro cognitivo y del desarrollo psicomotor. La fisiopatología del progresivo deterioro del sistema nervioso suele estar asociada a una severa neuroinflamación y desmielinización, y como consecuencia, neurodegeneración. Por el momento no tienen cura y precisan de actitudes terapéuticas precoces y agresivas, que conllevan altas tasas de mortalidad y, muy frecuentemente, escasos grados de mejoría funcional y supervivencia. El trasplante de médula ósea y de células mesenquimales de médula ósea son terapias de elección y experimentales que consiguen mejorar el curso de estas enfermedades mediante diferentes mecanismos de acción: remplazo de enzima deficiente, intercambio de membranas y regulación del proceso inflamatorio.
Inherited metabolism disorders are serious childhood diseases that lead to significant cognitive impairment and regression of psychomotor development. The pathophysiology of the neural progressive deterioration is usually associated with severe neuroinflammation and demyelination, and as a consequence, neurodegeneration. At the moment they have no adequate treatment and require early and aggressive therapeutic approaches, which entail high mortality rates and, very frequently, low degrees of functional improvement and survival. Bone marrow transplantation and bone marrow mesenchymal cells grafts are therapeutic and experimental therapies that improve the course of these diseases through different mechanisms of action: enzyme replacement, membrane exchange and regulation of the inflammatory process.
Subject(s)
Humans , Bone Marrow Transplantation/methods , Lysosomal Storage Diseases/therapy , Peroxisomal Disorders/therapy , Lysosomal Storage Diseases/physiopathology , Peroxisomal Disorders/physiopathology , Mesenchymal Stem Cell Transplantation/methodsABSTRACT
Objective@#To compare the in vitro biocompatibility of bone marrow mesenchymal cells on polyetheretherketone (PEEK) and titanium (Ti) surfaces.@*Methods @#PEEK and Ti foils with thicknesses of 1 mm and diameters of 10 mm were prepared. First, bone marrow mesenchymal cells were separated and purified by the whole bone marrow adherent culture method in vitro. Then, osteogenesis-induced bone marrow mesenchymal cells were cultivated on the surfaces of the PEEK and Ti foils. Scanning electron microscopy (SEM), the Alamar Blue test, an alkaline phosphatase (ALP) kit and Alizarin Red staining were used to analyze calcium nodules and compare the adhesion, proliferation and osteogenic differentiation ability of bone marrow mesenchymal cells on the surfaces of the PEEK and Ti foils.@*Results @# ① The morphology of the bone marrow mesenchymal cells cultured on the PEEK and Ti foils at 1 h, 4 h and 24 h showed no significant differences. ② In the 1 h, 3 h, 1 d and 3 d cultures of the bone marrow mesenchymal cells inoculated on the surfaces of the foils, the number of living cells in the PEEK group was greater than that in the Ti group (P < 0.05). ③ In the 7 d and 14 d osteogenesis-induced cultures of the inoculated bone marrow mesenchymal cells, the ALP activity of the PEEK group cells was significantly greater than that of the Ti group cells (P < 0.05). ④ Semiquantitative analysis after Alizarin Red staining showed that the mineralization degree of the bone marrow mesenchymal cells induced by osteoblasts was greater in the PEEK group than in the Ti group (P < 0.05). @*Conclusion@#PEEK has better in vitro biocompatibility than Ti and can better promote cell adhesion, proliferation and osteogenic differentiation compared with Ti, and so it is expected to become a new dental implant material.
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Idiopathic pulmonary fibrosis(IPF)is a progressive lung disease characterized by pulmonary interstitial fibrosis and pulmonary dysfunction.Cell microenvironment is mainly composed of cell components,extracellular matrix,extracellular regulators,and liquid substances.Changes in microenvironment components are closely related to IPF.This article elaborates the roles of cell microenvironments including cytokines,mesenchymal cells,extracellular matrix,and unfolded proteins in the pathogenesis of IPF.
Subject(s)
Humans , Cellular Microenvironment , Extracellular Matrix , Idiopathic Pulmonary Fibrosis , LungABSTRACT
Objective@# To investigate the expression of the mTORC1 signaling pathway during the osteogenic differentiation of mouse bone marrow mesenchymal cells (BMMSCs) under cyclic uniaxial tension and explore its possible role.@*Methods @# The BMMSCs of mice were affected by uniaxial dynamic tensile force. Western blot was used to detect the expression changes of major molecules (mTOR, Raptor, S6K) in the endogenous mTORC1 signaling pathway at 0, 1, 2, 4, and 8 hours after stretching. Chemical colorimetry, ELISA and PCR were used to detect alkaline phosphatase (ALP), osteocalcin (OCN) and Runx2 mRNA, respectively. Then, inhibition, activation and control groups were established by administration of the drugs PP242, MHY1485 and PBS, respectively. Two hours after the stress, the expression of S6K was detected by western blot, and the expression of the osteogenic signal was continuously detected by the above methods.@*Results @#Western blot analysis showed that the main molecules of the mTORC1 signaling pathway were all expressed within 8 hours after traction, and the highest expression was 2 hours after the stress. Compared with those in the control group, the ALP activity and OCN expression decreased and the Runx2 mRNA levels increased after the mTORC1 signal pathway was inhibited (P < 0.001); ALP activity and OCN expression increased after the mTORC1 signal pathway was activated, while the Runx2 mRNA levels decreased (P < 0.001). @*Conclusion @#The mTORC1 signaling pathway participates in the osteogenic differentiation of mouse BMMSCs under tension. The osteogenesis of BMMSCs under cyclic uniaxial tension would be enhanced if the mTORC1 signaling pathway was activated.
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@#Amniotic fluid (AF) holds many important roles in the development of the fetus such as supporting fetal growth as well as protecting it from distress or infection. The fluid can also function as a vital source of fetal cells to be used in prenatal assessment of the fetus. Should it not be used or requested to be used by the patient, it will be discarded. There are numerous reports in the literature on the various cells present in amniotic fluid; as the population of cells is heterogeneous with a diverse range of cells, to include differentiated and undifferentiated cells. </br> Although AF cells were reported to have limited proliferative capacity and are terminally differentiated cells, telomerase activity was detected in both cultured and uncultured human AF cells from 14 weeks’ gestation, suggesting that cells with high proliferative capacity exist in AF. Populations of stem cells in AF are based on their potency, either multipotent or pluripotent. There are 2 types of multipotent AF cells discovered; the amniotic fluid c-Kit+, Lin- (AFKL) cells and amniotic fluid mesenchymal stem cells (AF-MSCs). AFKL are multipotent AF cells having multilineage hematopoetic potential in vitro and express CD4. Furthermore, expression of Oct4 (critical marker for pluripotency) was also discovered, indicating the presence of a pluripotent subpopulation of cells in AF-stem cells. Most importantly, the discovery of stem cells in AF, specifically Amniotic Fluid Stem Cells (AFSC), has elevated the potential of AF as AFSC signify a novel class of pluripotent stem cells with intermediate characteristics of ES cells and adult stem cells. </br> AFSC are easy to maintain in the laboratory, the proliferation and differentiation of AFSC is both safer and more ethical to use in clinical applications as they are non-tumorigenic and relatively accessible, being acquired using a minimally invasive procedure. Furthermore, AFSC would be an ideal candidate for autologous transplantation as they lack the MHC Class II antigen and are therefore non-immunogenic. These advantages present an interesting application for AFSC in future in vitro and in vivo studies. </br> In this review, we have summarized some of the important aspects of AF and AFSC and provided an update on those cells present in AF, together with its future potential for prenatal assessment. Consequently, amniotic fluid represents a very valuable tool that has the potential to save lives and reduce human suffering, particularly through regenerative medicine.
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Objective: To investigate the correlation between down-regulation of miR-381-3p and inhibition of osteogenic differentiation of mouse embryonic palatal mesenchymal (MEPM) cells in 2, 3, 7, 8-tetrachlorodibenzo-p-dioxin (TCDD)-induced cleft palate of fetal mice. Methods: Thirty-two pregnant mice were randomly divided into TCDD group and control group, 16 in each group. On embryonic day 10.5 (E10.5), the pregnant mice in TCDD group were orally administrated with TCDD at dosage of 28 μg/kg, while the pregnant mice in control group received equivalent corn oil. The pregnant mice in each group were sacrificed on E13.5 and E14.5, fetal palates were collected for analysis. The expression of miR-381-3p was detected by real-time fluorescent quantitative PCR and the protein expressions of runt- related transcription factor 2 (RUNX2) and osteopontin (OPN) were detected by Western blot. MEPM cells were extracted from fetal palates on E14.5 in control group and passaged. The 3rd passage cells were cultured with TCDD at dosage of 10 nmol/L for 0, 0.5, 1, 2, and 3 days. The expression of miR-381-3p was detected after 0, 0.5, 1, 2, and 3 days and the protein expressions of RUNX2 and OPN were detected after 0, 1, 2, and 3 days. Then, the 3rd passage cells were divided into 4 groups. The MEPM cells were transfected with miR-381-3p inhibitor (inhibitor group), NC inhibitor (NC inhibitor group) and miR-381-3p mimics (mimics group), NC mimics (NC mimics group) for 48 hours, respectively. And the expressions of miR-381-3p and the protein expressions of RUNX2 and OPN were detected. Results: On E13.5 and E14.5, 96 fetal mice in control group and 92 in TCDD group were obtained. The bilateral palates contacted in control group on E14.5, and a gap between the bilateral palates existed in TCDD group. On E13.5 and E14.5, the relative expressions of miR-381-3p and RUNX2 and OPN proteins were significant lower in TCDD group than in control group ( P0.05). The relative expressions of RUNX2 and OPN proteins at 1, 2, and 3 days were significantly lower than that at 0 day ( P<0.05). The relative expressions of miR-381-3p and RUNX2 and OPN proteins significantly lower in inhibitor group than in NC inhibitor group ( P<0.05) and higher in mimics group than in NC mimics group ( P<0.05). Conclusion: Down-regulation of miR-381-3p expression may be associated with inhibition of osteogenic differentiation of MEPM cells in TCDD-induced cleft palate of fetal mice.
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ABSTRACT A cytotoxicity study is performed on a poly(methyl methacrylate) polymer (PMMA) to be used for the fabrication of bone tissue by Rapid Prototyping (RP). The solution polymerization is conducted in a pilot plant reactor using more appropriated reagents in consideration of the medical application. Moreover, the polymer is efficiently handled to avoid the side effect of the monomer, reducing the concentration of this specie to 287,731 µg MMA/kg PMMA. The cytotoxicity of the polymer is determined through growth monitoring, adherence and morphology of L-929 cells. Additionally, MTT and LIVE/DEAD tests are performed. The results showed continuous and progressive growth of the cells on the surface of the specimens. Moreover, the material did not influence on the viability of mesenchymal cells and inverted fluorescence microscopy images showed a polyanionic dye calcein well retained in the cells in contact with the PMMA as well as the negative control after 72 hours. Thus, the polymer was efficiently synthesized and handled for the expected demands.
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Introducción : Existe un creciente interés científico en el potencial terapéutico de las células madre mesenquimales derivadas de tejido adiposo ( ADSCs, en inglés). Estas células son abundantes en el tejido adiposo, son de fácil obtención y con un alto potencial de diferenciación hacia linajes celulares especializados incluyendo adipocitos, osteocitos, condrocitos, miocitos, cardiomiocitos, tenocitos, vasos sanguíneos y neuronas. Este trabajo se desarrolló con el objetivo de implementar en el laboratorio un procedimiento para aislar y cultivar ADSCs, con características que corresponden a las informadas para este linaje celular. Método: los precursores de células adiposas humanas se obtuvieron de tejido subcutáneo abdominal. Las células se separaron enzimáticamente del tejido y se decantaron por centrifugación, luego de cultivadas, se caracterizaron en su capacidad de diferenciación y por su marcadores fenotípicos. Resultados: Las ADSCs aisladas se replicaron en estas condiciones de cultivo y mantuvieron un fenotipo estable durante todo el período de estudio. Se comprobó su potencial adipogénico y osteogénico in vitro, como corresponde a las células madre mesenquimales. El estudio por citometría de flujo mostró que estas células expresan CD73, CD90 y CD105 y son negativas para los marcadores de linaje hematopoyético CD34 y CD45.En los ensayos de inhibición in vitro, las ADSCs demostraron su capacidad para inhibir la proliferación de células T humanas. Conclusiones : La caracterización fenotípica y funcional de las ADSCs obtenidas a partir del tejido adiposo abdominal demuestra que es posible la obtención mediante cultivo in vitro de células mesenquimales humanas sin inducir diferenciación espontánea, manteniendo su integridad funcional y altos niveles de proliferación, lo que sienta las bases para el inicio de ensayos preclínicos y su uso futuro en la terapia celular en nuestro país(AU)
Introduction : There is growing scientific interest in the therapeutic potential of stem cells derived from adipose tissue (ADSCs). These cells are abundant in adipose tissue, are readily available and have a high potential fordifferentiation into specialized cell lineages including adipocytes, osteocytes, chondrocytes, myocytes, cardiomyocytes, tenocyte, endothelial cells and neurons. The aim of this work was to isolate, cultivate andcharacterize ADSCs. Methods : human adipose precursor cells were obtained from abdominal subcutaneous tissue. Cells were enzymatically separated from the tissue and decanted by centrifugation, cultured and finally analyzed. Results : The ADSCs were able to replicate in our culture conditions. The cells maintained their phenotype in different passages throughout the study period, confirming its feasibility for in vitro culture. Also the ADSCs were induced to adipogenic and osteogenic differentiation, verifying its potential as mesenchymal stem cells in vitro. The flow cytometric study showed that these cells expressed CD73, CD90 and CD105 (markers of mesenchymal cells) and they were negative for CD34 and CD45 (hematopoieticcell markers). The ADSCs were able to inhibit in vitro the proliferation of T cells. Conclusions : It is possible to obtain ADSCs by in vitro cultivation without adipogenic induction, maintaining its functional integrity and high proliferation; this cell could be an important tool for the cellular therapy in our country(AU)
Subject(s)
Humans , Female , Abdominal Fat/transplantation , Mesenchymal Stem Cell Transplantation/methods , Stem Cell Transplantation/methods , Flow Cytometry/methodsABSTRACT
O crescente interesse do uso de células-tronco (CTs) na medicina regenerativa, estão baseadas na sua capacidade de autorrenovação, reparação tecidual e imunomodulação. A terapia utilizando células-tronco é uma ciência em formação considerada uma alternativa terapêutica promissora no tratamento de diversas patologias degenerativas, hereditárias e inflamatórias. A busca por fontes alternativas de CTs que possuam características como fácil obtenção e isolamento, tem levado ao estudo dos mais variados tecidos, onde se inclui os anexos embrionários como a membrana amniótica. Porém, para sua efetiva aplicação terapêutica são necessários estudos de suas características "in vitro", além de testes pré-clínicos e clínicos. Com isso, o objetivo deste trabalho é realizar uma revisão bibliográfica sobre a caracterização e aplicação clínica das células-tronco da membrana amniótica em diversas espécies de animais domésticos.(AU)
The increasing interest for the use of stem cells in regenerative medicine, is based on their self-renewal capacity, tissue repair and immunomodulation. The therapy with stem cells is a science in formation considered a promising therapeutic alternative for the treatment of various degenerative, hereditary and inflammatory disorders. The search for alternative sources of stem cells of easy obtention and isolation has led to the study of various tissues, includng embryonic attachments such as the amniotic membrane. However for effective therapeutic application are needed studies of the characteristics in vitro and preclinical and clinical trials. Thus, the aim of this study was a literature review regarding the characterization and clinical application of stem cells from the amniotic membrane in several domestic animal species.(AU)
Subject(s)
Animals , Amnion , Embryonic Stem Cells , Cats , Cattle , Cell- and Tissue-Based Therapy/methods , Dogs , Horses , Pluripotent Stem Cells , Sheep , SwineABSTRACT
The expression of dentin sialophosphoprotein (DSPP) is the marker for cells differentiated into odontoblasts. This study attempted to analyze the DSPP promoter and build the reporter LacZ expression system driven by this promoter, which allows convenient and quick detection of odontoblast cells. First, we separated the human dental mesenchymal cells in which the expression of DSPP can be effectively induced by dexamethasone. Second, four 5' flanking regions of human DSPP gene (- 4 000-+54, -2 500-+54, -1 447-+54 and -1 027-+54) were analyzed, the results showed that the highest promoter activity lied in the -2 500-+54 region. The promoter activity is reduced when the 5' flanking region was extended from -2 500 to -4 000 bp upstream from the transcription start site; The promoter activity are also decreased when the 5' flanking regions were shorted from -2 500 to -1 447 bp and from -1 447 to -1 027 bp, indicating that potential suppresser elements are lied in the region between -4 000 and -2 500 bp and potential activator elements are lied in the region between -2 500 and -1 027 bp. Then we constructed the lentiviral report vector phDSPP-LacZ containing the -2 500-+ 54 promoter region in front of the LacZ gene. The expression of LacZ was detected using X-Gal staining in both human dental mesenchymal cells and immortalized human dental mesenchymal cells infected with phDSPP-LacZ. The phDSPP-LacZ lentiviral vector may provide a more convenient method to detect the expression of DSPP in human odontogenic differentiation, tooth development and tooth regeneration studies.
Subject(s)
Humans , Cell Differentiation , Extracellular Matrix Proteins , Genetics , Genes, Reporter , Lac Operon , Odontoblasts , Cell Biology , Phosphoproteins , Genetics , Promoter Regions, Genetic , Sialoglycoproteins , GeneticsABSTRACT
Objective:To investigate the expression of AEG-1 gene in NSCLC and its clinical significance. Methods:Selected our hospital cardiothoracic surgical resection of 83 cases of postoperative cancer tissues of NSCLC patients and 20 paracancer to study, immunohistochemical staining was used to detect the expression level of AEG-1 protein in two groups,the clinical and pathological of AEG-1 protein in patients with NSCLC was analyzed. Results:NSCLC tissues AEG-1 protein expression 46 cases ( 55. 42%) was sig-nificantly higher than 2 cases ( 10. 00%) of paracancer ( P0. 05 ) . AEG-1 high expression of NSCLC in patients with a median survival time of 15. 0 months was significantly lower than that of 19. 0 months (log-rankχ2=4. 119 P<0. 05,) in patients with low expression of AEG-1. Conclusion:AEG-1 gene expression has been up-regulated in NSCLC tissue,which was related to the clinical stage and distant metastasis of the patients.
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Objective:To study the differentiation capacity of the fibroblast-like cells isolated from human skin dermis into mesenchymal stem cells, and to explore the feasibility to use these cells as alternative cell source of autologus bone marrow mesenchymal stem cells (BMSCs ) for regeneration of tissue inj uries and defects. Methods:Full thickness skin samples were obtained from the abdomen of surgical patients, then digested with dispase and collagenase Ⅰ subsequently. Thereafter, the digested cells were collected and cultured, followed by suspension with serum free medium containing N2,B27,basic fibroblast growth factor (bFGF),and epidermal growth factor (EGF).The skin dermis derived spheroids (SDDSs)were collected and monolayer cultured in serum-containing medium.Finally,the cells were characterized by immunofluorescence staining and differentiation assays.Results:The dermis derived cells proliferated and formed SDDSs in the suspension of serum-free medium. After monolayer cultivation in serum-containing medium, the cells from spheroids were successfully expanded to large number. The cells expressed mesenchymal stem cells markers CD90, CD105 and vimentin. Under osteogenic,chondrogenic and adipogenic differentiation conditions,these cells were differentiated into the alizarin red,safranin O, and oil red O staining positive cells, displayed similar differentiation traits with BMSCs. However,safranin O staining was weaker in the dermis derived cells than BMSCs. Conclusion:A kind of fibroblast-like cells exist in human skin dermis, and have osteocytic, chondrogenic and adipogenic differentiation potentials,demonstrating that these cells will be utilized as a novel cell source for repairing the tissue injury and defect in clinic.
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Aims: Allogeneic bone marrow (BM) has been shown to support human islet survival and function in long-term culture by initiating human islet vascularization and β-cell regeneration. Various BM subpopulations may play different roles in human islet functions and survival. In this paper we investigated the effects of BM and its subpopulations, endothelial progenitor cells (E) and mesenchymal (M) cells on human islet’s β-cell function and regeneration. Study Design: Isolation and identification of subpopulations from human bone marrow and culture with allogeneic human islet to investigate effects of different cell population on human islet function and regeneration. Place and Duration of Study: Department of Medicine, Center for Stem Cell & Diabetes Research, RWMC, Providence, RI, USA, between 2010 - 2014. Methodology: Human islets were distributed from Integrated Islet Distribution Program (IIDP) and human bone marrow (BM) was harvested by Bone marrow transplantation center at Roger Williams Hospital. BM subpopulation was identified cell surface markers through Fluorescenceactivated cell sorting, applied in flow cytometry (FACS), islet function was evaluated by human ELISA kit and β cell regeneration was evaluated by three methods of Cre-Loxp cell tracing, β cell sorting and RT-PCR for gene expression. Results: Four different BM and seven different islet donates contributed human tissues. We observed islet β-cell having self regeneration capability in short term culture (3~5 days) using a Cre-Loxp cell tracing. BM and its subtype E, M have similar benefits on β cell function during coculture with human islet comparison to islet only. However, only whole BM enables to sustain the capability of islet β-cell self regeneration resulting in increasing β cell population while single E and M individual do not significantly affect on that. Mechanism approach to explore β-cell self regeneration by evaluating transcription factor expressions, we found that BM significantly increases the activations of β-cell regeneration relative transcription factors, the LIM homeodomain protein (Isl1), homologue to zebrafish somite MAF1 (MAFa), the NK-homeodomain factor 6.1 (NKX6.1), the paired box family factors 6 (PAX6), insulin promoter factor 1 (IPF1) and kinesin family member 4A (KIF4a). Conclusion: These results suggest that BM and its derived M and E cells enable to support human islet β-cell function. However, only BM can sustain the capability of β-cell self regeneration through initiating β-cell transcriptional factors but not individual E and M cells suggesting pure E and M cells less supportive for islet long-term survival in vitro.
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BACKGROUND: Human amnion mesenchymal cells (hAMCs), isolated from the amniotic membrane of human placenta, are a unique population of mesenchymal stem cells. Recent studies demonstrated that hAMCs could inhibit the activities and functions of several immune cells. However, their effect on inflammatory macrophages is largely unknown. This study investigated the effect of hAMCs on expression of inflammatory cytokines and mitogen-activated protein kinases (MAPKs)/NF-kB pathway in human THP-1 macrophages induced by lipopolysaccharide (LPS). RESULTS: The levels of TNF-α and IL-1ß secreted by LPS- stimulated THP-1 cells were increased significantly compared with those in the control group. After co-culture with different numbers of hAMCs, the levels of TNF-α and IL-1ß in LPS-stimulated THP-1 cells were significantly reduced compared with the LPS group. The mRNA expression of TNF-α and IL-1ß were also markedly inhibited. Moreover, treating LPS-stimulated THP-1 cells with hAMCs supernatants could also suppress TNF-α and IL-1ß production in THP-1 cells. Important signaling pathways involved in the production of TNF-α and IL-1ß were affected by hAMCs co-culture: hAMCs remarkably suppressed NF-kB activation and down-regulated the phosphorylation of ERK and JNK in LPS- stimulated THP-1 cells. CONCLUSIONS: Human amnion mesenchymal cells inhibited the production of TNF-α and IL-1ß secreted by LPS-stimulated THP-1 cells, partly through the suppression of NF-kB activation and ERK and JNK phosphorylation.
Subject(s)
Humans , Lipopolysaccharides/pharmacology , Tumor Necrosis Factor-alpha/biosynthesis , Interleukin-1beta/biosynthesis , Mesenchymal Stem Cells/physiology , Amnion/cytology , Macrophages/metabolism , Tumor Necrosis Factor-alpha/drug effects , MAP Kinase Signaling System/drug effects , Interleukin-1beta/drug effectsABSTRACT
Objective To evaluate the impact of hydrogen sulfide signal system during the process of rat bone marrow-derived mesenchymal cells osteogenesis under tensile stress. Methods After the H2S signal system of cell rooms regulated by tool drugs (Group A with propargylglycine;Goup B with PBS;Group C with GYY3147), 4 000 μ strain tensile stress were applied on rat BMMCs by four-point bending apparatus for 60 minutes. Four hours later, the H2S signal system and cystathionine-γ-lyase were detected. Meanwhile, the change of the alkaline phosphate, osteocalcin, procollagen typeⅠN-terminal propeptide, and runt-related transcription factor 2 mRNA level were also examined to evaluate the osteogenic ability. Results With the increase of H2S expression, the osteogenic capacity gradually increased, while the osteogenic capacity was compromised after the endogenous cystathionine-γ-lyase was inhibited. Conclusion The H2S signal system plays an important role during BMMCs osteogensis under tensile stress. The up-regulation expression of H2S may promote osteogenesis during distraction osteogenesis.
ABSTRACT
BACKGROUND AND OBJECTIVES: Spinal cord injury is a common neurological problem secondary to car accidents, war injuries and other causes, it may lead to varying degrees of neurological disablement, and apart from physiotherapy there is no available treatment to regain neurological function loss. Our aim is to find a new method using autologous hematopoietic stem cells to gain some of the neurologic functions lost after spinal cord injury. METHODS AND RESULTS: 277 patients suffering from spinal cord injury were submitted to an intrathecally treatment with peripheral stem cells. The cells were harvested from the peripheral blood after a treatment with G-CSF and then concentrated to 4~6 ml. 43% of the patients improved; ASIA score shifted from A to B in 88 and from A to C in 32. The best results were achieved in patients treated within one year from the injury. CONCLUSIONS: Since mesenchymal cells increase in the peripheral blood after G-CSF stimulation, a peripheral blood harvest seems easier and cheaper than mesenchymal cell cultivation prior to injection. It seems reasonable treatment for spinal cord injury.
Subject(s)
Humans , Asia , Granulocyte Colony-Stimulating Factor , Hematopoietic Stem Cells , Iraq , Spinal Cord , Spinal Cord Injuries , Stem Cells , Stress, PsychologicalABSTRACT
La Medicina Regenerativa es una novedosa terapéutica de amplio potencial en diferentes enfermedades para la cual se utilizan células madre procedentes de la médula ósea (MO), cuya caracterización fenotípica es limitada. En nuestro trabajo se estudió la expresión de diferentes marcadores de la membrana celular en células mononucleares (CMN) de la MO de 14 pacientes a quienes se les realizó terapia celular autóloga, obtenidas por punción medular y movilización a la sangre periférica, con el objetivo de caracterizar los diferentes tipos de células presentes en esta población celular heterogénea e identificar las moléculas de adhesión implicadas en su adhesión. Se observó mayor presencia de células madre adherentes del estroma medular en las CMN obtenidas directamente de la MO; una mayor población de células CD90+ en las CMN procedentes de sangre periférica CD34-/CD45- con una elevada expresión de las moléculas CD44 y CD62L, lo que sugiere mayor presencia de células madre mesenquimales (CMM) en las células movilizadas del estroma medular. Los valores más elevados de células CD34+ en las células madre procedentes de sangre periférica con baja expresión de las moléculas CD117- y DR- sugiere la presencia de células madre hematopoyéticas, hemangioblastos y células progenitoras endoteliales movilizadas a la circulación periférica. Se demostró que tanto las CMN procedentes de MO como de sangre periférica, muestran una elevada expresión de células madre con expresión de la molécula de adhesión CD44 (marcador de CMM), probablemente implicadas en su migración, asentamiento y diferenciación
Regenerative medicine is a novel therapeutic method with broad potential for the treatment of various illnesses, based on the use of bone marrow (BM) stem cells, whose phenotypic characterization is limited. The paper deals with the expression of different cell membrane markers in mononuclear BM cells from 14 patients who underwent autologous cell therapy, obtained by medullary puncture and mobilization to peripheral blood, with the purpose of characterizing the different types of cells present in that heterogeneous cellular population and identifying the adhesion molecules involved in their adhesion. A greater presence was observed of adherent stem cells from the marrow stroma in mononuclear cells obtained directly from the BM; a larger population of CD90+ cells in mononuclear cells from CD34-/CD45- peripheral blood with a high expression of molecules CD44 and CD62L, which suggests a greater presence of mesenchymal stem cells (MSC) in mobilized cells from the marrow stroma. The higher levels of CD34+ cells in peripheral blood stem cells with a low expression of molecules CD117- and DR- suggests the presence of hematopoietic stem cells, hemangioblasts and progenitor endothelial cells mobilized to peripheral circulation. It was found that mononuclear cells from both the BM and peripheral blood show a high presence of stem cells with expression of adhesion molecule CD44 (MMC marker), probably involved in their migration, settling and differentiation