Yan Jiang; Linqiao Li; Qilu Pan; Xiaojing Du; Qian Han; Feixiang Ling; Rou Li; Lin Mai; Jianwei Huang; Shuyuan Chu; Libing Ma
Abstract
Background: Little is known about MBD2’s epigenetic regulation in the immune pathogenesis of CD4+T cell differentiation.Objective: This study attempted to explore the mechanism of methyl-cpg-binding domain protein 2 (MBD2) in CD4+T cell differentiation stimulated by environmental allergen ovalbumin ...
Read More
Background: Little is known about MBD2’s epigenetic regulation in the immune pathogenesis of CD4+T cell differentiation.Objective: This study attempted to explore the mechanism of methyl-cpg-binding domain protein 2 (MBD2) in CD4+T cell differentiation stimulated by environmental allergen ovalbumin (OVA).Methods: Mononuclear cells were separated from the spleen tissues of male C57BL/6 mice. The OVA interfered with the differentiation of splenic mononuclear cells and CD4+T cells. The CD4+T cells were obtained by magnetic beads and identified by CD4 labeled antibody. CD4+T cells were transfected with lentivirus to silence MBD2 gene. A methylation quantification kit was used to detect 5-mC levels.Results: The purity of CD4+T cells reached 95.99% after magnetic beads sorting. Treatment with 200 μg/mL OVA stimulated the CD4+T cells differentiation to Th17 cells and promoted the secretion of IL-17. After being induced, the Th17 cell ratio increased. 5-Aza inhibited the Th17 cell differentiation and the IL-17 level in a dose-dependent manner. Under the intervention of the Th17 induction and 5-Aza, MBD2 silencing inhibited the differentiation of Th17 cell, and decreased the IL-17 and 5-mC levels in the cell supernatants. MBD2 silencing reduced the scale of the Th17 cell and IL-17 levels in the OVA-treated CD4+T cells.Conclusion: MBD2 affected IL-17 and 5-mC levels by mediating the Th17 cell differentiation in splenic CD4+T cells that were interfered with 5-Aza. OVA induced Th17 differentiation and increased IL-17 levels, inhibited by MBD2 silencing.
Alireza Salek Moghaddam; Mohammad Shabani; Farahdokht Fateminasab; Mohammad Reza Khakzad
Volume 2, Issue 2 , June 2005, , Pages 103-110
Abstract
Background: Asthma is a chronic inflammatory disease with multifactorial and complicated mechanisms. Elevated level of exhaled Nitric Oxide (NO) in asthma and other inflammatory lung diseases has led to many studies examining NO as a potential marker of airway inflammation. Objective: This study was ...
Read More
Background: Asthma is a chronic inflammatory disease with multifactorial and complicated mechanisms. Elevated level of exhaled Nitric Oxide (NO) in asthma and other inflammatory lung diseases has led to many studies examining NO as a potential marker of airway inflammation. Objective: This study was designed to determine the level of NO in Bronchoalveolar Lavage (BAL) fluid during early and late stages of asthmatic attack in mouse model. Methods: In this study male BALB/c mice were used. The level of NO was determined in BAL fluid of asthmatic mice five minutes, six and sixteen hours after challenge with methacholine, as irritant and smoke and 5% ovalbumin as allergens, using colorimetric assay. Results: The level of NO increased upon exposure to all three irritants used in this study (52.3 μM for smoke and 49.5 μ Mfor methacholine) as compared to 22.8 μM for the baseline. Our results showed that NO levels were increased during early phase of asthmatic condition and reached to its maximum level after six hours and decreased at the late stage of asthma (16hrs) possibly by activating a feedback regulatory loop. In addition, high level of NO led to the hypertrophy of smooth muscle that can account for the pathological changes associated with asthma. Conclusion: Thus, NO is an inflammatory marker in asthma and its measurement, as a non-invasive method during asthmatic attack is suggested. A careful development of specific inhibitors for iNOS enzyme during asthmatic attack is also necessary.
