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OBJECTIVE@#To investigate the mechanism of hematopoietic reconstruction in mice treated with Danggui Buxue Decoction (DBD) combined with the muscle-derived stem cell transplantation (MDSCT).@*METHODS@#Female Kunming mice were randomly divided into the 6 groups: irradiation model, the bone marrow transplantation, the MDSC transplantation, the DBD 1 (4.5 g/kg), 2 (13.5 g/kg), and 3 (22.5 g/kg) + MDSC transplantation. After a week of oral administration of normal saline or different doses of DBD, The mice were exposied to 8 Gy Cs γ ray and were followed by bone marrow or MDSC transplantation. The expression levels of Notch1, Jagged1 and Hes1 in bone marrow, thymus and spleen were measured at 3 and 8 weeks after irradiation and transplantation.@*RESULTS@#In the bone marrow, 3 weeks after above-mentioned treatment, the expression of Notch1 mRNA increased obviously and the expression of Jagged1, Hes1 mRNA decreased obviously in each intervention group, compared with the irradiation model group. 8th week after treatment, the expression of Notch1 mRNA decreased obviously in each intervention group, the Jagged1 mRNA expression decreased obviously except the bone marrow group, and Hes1 mRNA expression increased (P<0.05) in each intervention group. 3 weeks after treatment, compared with the irradiation model group, the expression of Notch1 mRNA in the thymocytes increased only in DBD1+MDSC group, Jagged1, Hes1 mRNA was increased in the MDSC transplantation group and the DBD1、2+MDSC group. 8th week after treatment, the expression of Notch1, Jagged1 mRNA expression decreased in each intervention group, the expression of Hes1 mRNA increased obviously in the MDSC transplantation group and the DBD1、2+MDSC group (P<0.05). In the spleen, 3 weeks after treatment, the expression of Notch1, Jagged1 mRNA in the spleen of each intervention group decreased obviously, compared with the irradiation model group. The expression of Jagged1, Hes1 mRNA in each intervention group were increased obviously 8th week after treatment (P<0.05).@*CONCLUSION@#MDSC transplantation after pretreatment of DBD can improve the hematopoietic reconstitution in mice with lethal dose radiation damage. Notch1、Jagged1 and Hes1 play different roles in this process, but the concrete mechanism needs to be further studied.
Assuntos
Animais , Feminino , Camundongos , Medicamentos de Ervas Chinesas , Transplante de Células-Tronco Hematopoéticas , Sistema Hematopoético , BaçoRESUMO
<p><b>OBJECTIVE</b>To examine the association of genetic variants with characteristic symptoms of type 2 diabetes mellitus (T2DM).</p><p><b>METHODS</b>A matched case-control study was performed to investigate the association between common variants in four genes (CDKAL1, GLIS3, GRK5, and TCF7L2) and symptoms of T2DM. Symptoms were examined with questionnaire for 710 subjects. Genomic DNA was extracted from peripheral blood mononuclear cell by salting-out procedure. Genotyping was carried out by direct sequencing of the unpurified polymerase chain reaction products.</p><p><b>RESULT</b>Most of the T2DM patients pressented characteristic symptoms, such as feeling weak in limbs (P =0.0057), hand tremor (P =0.0208), bradymasesis (P =0.0234), and polyuria (P =0.0051). Some of the T2DM patients shared characteristic symptoms, such as desire for cold drinks (P =0.0304), polyphagia (P =0.0051), and furred tongue (P =0.028). The impaired glucose regulation (IGR) cases took only one characteristic symptom of frequent micturition (P =0.0422). GLIS3 rs7034200 and GRK5 rs10886471 were significantly associated with increased T2DM risk (GLIS3 rs7034200 under dominant model: P=0.0307; GRK5 rs10886471 under recessive model: P=0.0092). However, only the rs10886471 polymorphism in GRK5 showed a significant effect on both differentiated symptoms and T2DM risk. The C-allele was involved in both dampness-heat encumbering Pi (Spleen) syndrome (P =0.047) and qi-yin deficiency syndrome (P =0.002) via increased GRK5 expression.</p><p><b>CONCLUSIONS</b>Both T2DM and IGR exhibited its corresponding characteristic symptoms. The variants of GRK5 were involved with both qi-yin deficiency syndrome and dampness-heat encumbering Pi syndrome.</p>
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Muscle-derived stem cells (MDSC) are a population of multipotent stem cells in the muscular tissue. It provide an excellent prospect of hemopathy treatment due to their superiorities, such as rich sources, convenient material resource and a high survival rate after transplantation and so on. However, there are great differences in sampling, separation, purification, and proliferation when MDSC were cultured in vitro. In addition, the proliferation conditions of the MDSC in vitro are yet unclear. The related regulatory mechanisms, which MDSC transformed into haematopoietic cells, need to be investigated. In this article, the experimental researches on the differentiation of MDSC into haematopoietic lineages are reviewed, the concrete problems discussed in this review are culture of MDSC in vitro, identification of MDSC, proleferation of MDSC, differention of MDSC in to hematopoietic lineages and so on.
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Muscle-derived stem cells (MDSC) are defined as myogenic stem cells endowed with their ability to self-renew and differentiate into multiple cell types of their derivative tissue, and are proved to be over 10 times more efficient in hematopoiesis than hematopoietic stem cells (HSC). Although the mechanism which MDSC differentiate into blood cells is still unclear, MDSC were considered to replace HSC to treat the patients suffering from bone marrow diseases such as aplastic anemia and tumor. MDSC are different from HSC in a variety aspects like biological characteristics, protein expression and cell proliferation. On the other hand, MDSC contain multiple distinct stem cell populations. Among these, there is only a small part with the ability to repopulate hematopoietic cells, and it is still uncertain whether their origin is same as HSC. This review summarizes the difference between MDSC and HSC, the ability of MDSC to repopulate hematopoietic cells, and the prospect of MDSCs' transplantation.