Using the techniques of monoclonal antibody and radioactive isotope,we found that the total glueosides of paeony (TGP) could almost regain peripheral blood T cell subsets increased or decreased ,supressed cellular immune function and disordered humor immune function of the patients with endogenous uveitis(ElJ) to normal level ,but could not regain those evidently of the patients in control group. The result suggested that TGP might possess double immunomodulatory effect on the patients with EU. (Chin J Ocul Fundus Dis,1994,10:146-148)
Sepsis is a worldwide problem. Although there are many related researchs and animal experiments about sepsis, the mortality of sepsis is still high. In the early stage of sepsis, after the pathogenic bacteria invade the body, the immune response produced by the body promotes the synthesis and secretion of a series of cytokines. Among them, there are proinflammatory cytokines that promote inflammatory response and anti-inflammatory cytokines that inhibit inflammatory response. These cytokines interact with each other and maintain a dynamic balance in complex cell grid. This is to restore the steady state of the body after resisting and eliminating the invaders.Anti-inflammatory cytokines play an important role in it. They act on specific immune cells or immune regulatory receptors. Anti-inflammatory cytokines limit persistent or excessive inflammatory responses after killing invaders, and reduce or block pro-inflammatory cytokine activities. These anti-inflammatory cytokines also can heal body to restore the normal immune physiological level of the organism. This article will review the related research of anti-inflammatory cytokines in sepsis.
Dysregulation and activation of immune processes are important in age-related macular degeneration (AMD) pathogenesis. The single nucleotide polymorphism of complement factor H is widely recognized as a risk factor to AMD. Over-activation of nod-like receptor3 and polymorphism of Toll-Like Receptor 3 also associated with AMD. Except for innate immune processes, adaptive immunity also play a critical role in AMD, a growing body of evidence supports that auto-antibodies and T cells are related with AMD. Additionally A2E and lipid oxidation byproducts might also have a role in AMD pathogenesis.
ObjectiveThrough the analysis of quantitative and functional changes in peripheral blood CD4+ CD25+FOXP3+ regulatory T cells (Treg) of early HCC patients before and after operation, to discuss the operation effect on the immune function from the aspect of immune suppression. MethodsExtracted the lymphocytes of peripheral blood in HCC patients before and after operation (case group, n=15) and normal people (control group, n=5 cases), and analyze the number and function of Treg by flow cytometer after extracellular (CD4, CD25) and intracellular (FOXP3) staining. ResultsCD4+CD25+ T cells and CD25+FOXP3+ T cells in preoperative peripheral blood in case group were significantly higher than those in control group (12.43±2.57)% vs. (5.56±1.02)%, (5.14±1.4)% vs. (2.18±0.83)%, Plt;0.05). These two cells decreased at 1 week after operation. 〔(10.56±2.13)%, (4.28±1.08)%〕, but there was not statistically significant (Pgt;0.05), they decreased significantly at 2 weeks after operation 〔(7.30±0.89)%, (3.43±0.83)%, Plt;0.05〕. CD8+ T cells and CD4+CD25- T cells in preoperative peripheral blood in case group were significantly lower than those in control group 〔(23.42±1.80)% vs. (29.22±2.26)%, (36.14±1.12)% vs. (43.69±2.78)%, Plt;0.05〕, These two cells decreased significantly at 2 weeks after operation 〔(27.15±1.71)%, (40.30±2.00)%〕. The analysis on the Treg and AFP correlation found that they have low correlation (r=048, Plt;0.05 ). ConclusionsThe hepatectomy can improve the immune response of HCC patient. Treg may have a certain auxiliary significance in the diagnosis, treatment and prognosis of patients with hepatocellular carcinoma.
ObjectiveTo investigate the pan-cancer expression profile, prognostic value, co-expression networks, immune regulatory roles of BRF1, and its biological functions and molecular mechanisms in esophageal squamous cell carcinoma (ESCC). MethodsIntegrated analysis of TCGA pan-cancer datasets was performed to evaluate BRF1 expression differences between tumor/normal tissues, survival correlations, co-expressed gene-enriched pathways, and immune features (immune checkpoints, cytokines, immune cell infiltration). GEO datasets were used to validate BRF1 expression in ESCC. BRF1 was knocked down using siRNA in ESCC cells, with MTT and Transwell assays assessing proliferation/migration, and Western blot analyzing proliferation- (PCNA) and migration-related proteins (Vimentin, MMP, E-Cadherin). TCGA data were analyzed to explore BRF1-ferroptosis correlations. ResultsBRF1 was significantly upregulated in over 20 cancer types. High BRF1 expression predicted poor prognosis in adrenocortical carcinoma (ACC) and prostate adenocarcinoma (PRAD). BRF1 positively regulated T cell-mediated cell death pathways in ESCA and circadian rhythm pathways in PAAD. BRF1 exhibited cancer-type-specific correlations with immune checkpoints, cytokine networks, and immune cell infiltration. In vitro, BRF1 knockdown suppressed ESCC proliferation (PCNA downregulation) and migration (Vimentin/MMP downregulation, E-Cadherin upregulation). BRF1 expression positively correlated with ferroptosis antagonists (GPX4, HSPA5, SLC7A11). ConclusionBRF1 demonstrates complex pan-cancer expression and functional heterogeneity, modulating tumor progression and immune infiltration. BRF1 promotes ESCC proliferation and migration, potentially via ferroptosis resistance regulation, highlighting its potential as a therapeutic target in ESCC.
ObjectiveTo introduce the research status of the immunoregulation function of cancer-associated fibroblasts (CAFs) in tumor microenvironment.MethodThe literatures in recent years on the studies of role of CAFs in the regulation of immune response in the tumor microenvironment were collected and summarized.ResultsThe CAFs played a critical role as the components of the tumor microenvironment. The CAFs could product various growth factors and cytokines that were contributed to the immunoregulation including the polarization of the immune cells and the regulation of the function of immune cells in the tumor microenvironment and eventually resulted in the carcinogenesis, tumor progression, invasion, metastasis and therapy resistance.ConclusionCAFs play a significant role in the immunoregulation in tumor microenvironment, but as a potential target for breast cancer, more studies are still needed to discover the specific markers, heterogeneity, and key signaling pathways.
Objective To summarize research progress of the mechanism of natural killer cells (NK cells) acted in regulating the T cell immunity in chronic infectious disease. Method Literatures about recent studies concerning how NK cells act as a regulator for T cells in chronic infectious disease were reviewed according to the results obtained from PubMed, Embase, CNKI, CBM, and Wanfang databases. Results NK cells that acted as regulators of T cell immunity could affect T cell immune responses through influencing antigen presentation, secreting cytokine, and presenting lytic activities, thus playing an important role in the immunological therapy of chronic infectious diseases. Conclusion NK cells are critical for T cell immune regulation, which could provide noval strategies for immunological therapy of chronic infectious disease, transplantation-related immune rejection, and autoimmune disease.
Objective To review the research progress in the construction strategy and application of bone/cartilage immunomodulating hydrogels. Methods The literature related to bone/cartilage immunomodulating hydrogels at home and abroad in recent years was reviewed and summarized from the immune response mechanism of different immune cells, the construction strategy of immunomodulating hydrogels, and their practical applications. Results According to the immune response mechanism of different immune cells, the biological materials with immunoregulatory effect is designed, which can regulate the immune response of the body and thus promote the regeneration of bone/cartilage tissue. Immunomodulating hydrogels have good biocompatibility, adjustability, and multifunctionality. By regulating the physical and chemical properties of hydrogel and loading factors or cells, the immune system of the body can be purposively regulated, thus forming an immune microenvironment conducive to osteochondral regeneration. ConclusionImmunomodulating hydrogels can promote osteochondral repair by affecting the immunomodulation process of host organs or cells. It has shown a wide application prospect in the repair of osteochondral defects. However, more data support from basic and clinical experiments is needed for this material to further advance its clinical translation process.