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1.
Journal of Experimental Hematology ; (6): 2017-2021, 2020.
Artigo em Chinês | WPRIM | ID: wpr-880008

RESUMO

OBJECTIVE@#To investigate the types and proportion of gene mutations of thalassemia in Hakka people in Gannan Area of Jiangxi, and to provide some references for prevention and treatment of thalassemia major, genetic counseling and epidemiological studies.@*METHODS@#81 cases Hakka patients with severe thalassemia admitted treated in First Affiliated Hospital of Gannan Medical College from January 2009 to June 2019 were enrolled. The deletion type of α-thalassemia was detected by Gap-PCR. The point mutations of α-thalassemia and β-thalassemia were detected by PCR-RDB. The thalassemia gene was detected and analyzed in the patients with anemia, and the frequency of gene mutation was calculated.@*RESULTS@#Among 81 Hakka patients with thalassemia major, 4 β-thalassemia (homozygote) genotypes were detected out, including: CD41-42(TTCT)(19 cases), β-IVS-II-654 (C→T) (9 cases), -28M (A→G) (1 case), CD17 (A→T) (1 case); 12 β-thalassemithalassemia (heterozygote) genotypes were detected out, including: CD41-42(-TTCT)/β-IVS-II-654(C→T) (15 cases, 29.41%), β-IVS-II-654(C→T)/β-28M(A→G) (13 cases,25.49%) ; CD41-42(-TTCT)/β-28M(A→G) (9 cases,17.65%); β-IVS-II-654(C→T) /CD27/28(+C) (3 cases, 5.88%) ; CD41-42(-TTCT)/CD27/28(+C)(3 case,5.88%);β-28M(A→G)/CD17(A→T) (2 cases,3.92%);CD41-42(-TTCT)/CD17(A→T), CD41-42(-TTCT)/Βe, β-IVS-II-654(C→T)/β-29、βCD17(A→T)/CD71-72(+a), βCD71-72/β-28M(A→G), β-28M(A→G) /β-IVS-II-654(C→T)(1 cases,1.96%). There were 3 cases of β homozygous thalassemia with α-thalassemia gene and 5 cases of β heterozygotes thalassemia with α-thalassemia gene.@*CONCLUSION@#The incidence rate of thalassemia in Hakka people in Gannan Area of Jiangxi is relatively high. The distribution of gene mutation types is as follows: the genotype of CD41-42 (-TTCT) is the main genotype of β-thalassemia (homozygous); the major genotypes of β- thalassemia (heterozygotes) are CD41-42 (-TTCT)/β-IVS-II-654 (C→T) and β-IVS-II-654 (C→T) /β-28M (A→G); CD41-42 (-TTCT) gene is dominant in β-complex α-thalassemia.


Assuntos
Humanos , China , Genótipo , Heterozigoto , Mutação , Talassemia alfa/genética , Talassemia beta/genética
2.
Tissue Engineering and Regenerative Medicine ; (6): 191-200, 2019.
Artigo em Inglês | WPRIM | ID: wpr-761892

RESUMO

BACKGROUND: Containing a certain proportion of mesenchymal stem cells, inflammatory dental tissue showed great tissue regeneration potential in recent years. However, whether it is applicable to promote tissue regeneration in vivo remains to be elucidated. Therefore, we evaluated the feasibility of stem cells from inflammatory dental pulp tissues (DPSCs-IPs) to reconstruct periodontal defects in miniature pigs. METHODS: The autologous pig DPSCs-IPs were first cultured, appraised and loaded onto β-tricalcium phosphate (β-TCP). The compounds were then engrafted into an artificially-created periodontal defect. Three months later, the extent of periodontal regeneration was evaluated. Clinical examination, radiological examination and immunohistochemical staining were used to assess periodontal regeneration. RESULTS: The data collectively showed that DPSCs-IPs from miniature pigs expressed moderate to high levels of STRO-1 and CD146 as well as low levels of CD34 and CD45. DPSCs-IPs have osteogentic, adipogenic and chondrogenic differentiation abilities. DPSCs-IPs were engrafted onto β-TCP and regenerated bone to repair periodontal defects by 3 months' post-surgical reconstruction. CONCLUSION: Autologous DPSCs-IPs may be a feasible means of periodontal regeneration in miniature pigs.


Assuntos
Polpa Dentária , Células-Tronco Mesenquimais , Periodontite , Regeneração , Células-Tronco , Suínos , Porco Miniatura
3.
Journal of Southern Medical University ; (12): 1517-1520, 2009.
Artigo em Chinês | WPRIM | ID: wpr-282663

RESUMO

<p><b>OBJECTIVE</b>To examine the synergistic effect of recombinant human high mobility group box 1 (HMGB1) protein and lipopolysaccharides (LPS) on the release of interleukin-8 (IL-8) and monocyte chemotactic protein 1 (MCP-1) in human umbilic vein endothelial cells (HUVECs), and explore the role of mitogen-activated protein kinases (MAPK) signal transduction in cytokine release.</p><p><b>METHODS</b>HUVECs were incubated with recombinant HMGB1 (0-75 ng/ml) for 24 h and the culture medium supernatant was harvested for detection of IL-8 and MCP-1 with LiquiChip system. At 0, 1, 3, 6, 12 and 24 h after stimulation with 15 ng/ml HMGB1 or 15 ng/ml HMGB1 plus 10 ng/ml LPS, the levels of IL-8 and MCP-1 in the HUVECs were examined. To test the effect of MAPK inhibitors, HUVCs were pretreated with the inhibitors SB203580 (20 mol/L), PD98059 (20 mol/L), and JNK inhibitor II (50 nmol/L) 1 h before HMGB1 and LPS stimulation.</p><p><b>RESULTS</b>The levels of IL-8 and MCP-1 were significantly increased in the HUVECs stimulated with HMGB1 protein at the concentrations of 3, 15 and 75 ng/ml in comparison with the control levels (P<0.01). Since 3-6 h after the stimulation with HMGB1, the levels of IL-8 and MCP-1 began to increase gradually, and steadily increased at 12 and 24 h, all significantly higher than those of the control group (P<0.01). Stimulation of the HUVECs with LPS (10 ng<ml) or HMGB1 (15 ng/ml) alone resulted in significantly increased levels of IL-8 and MCP-1 (P<0.01), which were further increased after costimulation with LPS and HMGB1, suggesting a synergistic effect between HMGB1 and LPS (P<0.01). This synergistic effect was significantly inhibited by pretreatment with MAPK signaling kinases inhibitors, especially the p38 MAP kinase inhibitor SB203580, and the cocktail of MAP kinase inhibitors almost totally blocked the expression of these chemokines in HUVECs treated with HMGB1 and LPS.</p><p><b>CONCLUSION</b>HMGB1 protein can activate HUVECs to produce the chemokines IL-8 and MCP-1 in a dose- and time-dependent manner. HMGB1 also acts synergistically with LPS to induce IL-8 and MCP-1 release, which might play an important role in the development of sepsis. MAPK signal transduction plays an important role in HMGB1 and LPS-induced IL-8 and MCP-1 release.</p>


Assuntos
Humanos , Linhagem Celular , Quimiocina CCL2 , Sangue , Metabolismo , Relação Dose-Resposta a Droga , Células Endoteliais , Metabolismo , Proteína HMGB1 , Farmacologia , Interleucina-8 , Sangue , Metabolismo , Proteínas Quinases Ativadas por Mitógeno , Metabolismo , Inibidores de Proteínas Quinases , Farmacologia , Fatores de Tempo
4.
Journal of Southern Medical University ; (12): 1101-1105, 2006.
Artigo em Chinês | WPRIM | ID: wpr-334986

RESUMO

<p><b>OBJECTIVE</b>To study the interaction between Toll-like receptor (TLR) 4 and myeloid differentiation protein-2 (MD-2) in living cells using fluorescence resonance energy transfer (FRET) technology.</p><p><b>METHODS</b>The coding sequences of TLR4 and MD-2 (without the signal peptide sequence) were amplified by PCR and cloned into enhanced cyan fluorescence protein (CFP) and enhanced yellow fluorescence protein (YFP) expression vectors carrying TLR4 signal peptides (pECFP-C1-SP and pEYFP-C1-SP). HEK293 cells were transfected respectively or together with the reconstructed plasmids verified by enzyme digestion and sequence analysis, and the expression and sublocalization of these fluorescence proteins in the cells were observed using fluorescence microscope. FRET in the cells coexpressing CFP-TLR4 and YFP-MD-2 was detected using routine and acceptor photobleaching method.</p><p><b>RESULTS</b>The reconstructed plasmids were expressed in HEK293 cells. The cyan or yellow fluorescence was located in the cytoplasm, mainly around the nucleus in the cells transfected with pECFP/TLR4 or pEYFP/MD-2, and both the cyan and yellow fluorescence located mainly in the membrane and occasional in the cytoplasm of cells cotransfected with pECFP/TLR4 and pEYFP/MD-2. Routine or acceptor photobleaching detected FRET phenomena in cells coexpressing CFP-TLR4 and YFP-MD-2, suggesting direct interaction between TLR4 and MD-2.</p><p><b>CONCLUSION</b>This study provides direct evidence of the interaction between TLR4 and MD-2 in living cells.</p>


Assuntos
Humanos , Linhagem Celular , Transferência Ressonante de Energia de Fluorescência , Métodos , Proteínas Luminescentes , Genética , Metabolismo , Antígeno 96 de Linfócito , Genética , Metabolismo , Plasmídeos , Genética , Ligação Proteica , Proteínas Recombinantes de Fusão , Genética , Metabolismo , Receptor 4 Toll-Like , Genética , Metabolismo , Transfecção
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