CD4+CD28null T cells are expanded in moderately active systemic lupus erythematosus and secrete pro-inflammatory interferon gamma, depending on the Disease Activity Index.

BACKGROUND: Pathogenic CD4+CD28null cells are characterized by inflammatory cytokine synthesis and tropism to the inflamed tissues. Recent studies showed the involvement of CD28null T cells in a severe clinical outcome of lupus. However, their role in moderately active disease is still unresolved. METHODS: We examined the levels of circulating CD4+CD28null cells and CD8+CD28null suppressor T cells. We also compared the CD4+CD28null and CD4+CD28+ T-cell functional properties, including the expression of interferon gamma (IFN-γ) and Ki67 among systemic lupus erythematosus (SLE) patients (n = 20) and healthy controls (n = 20). All the patients were under immunosuppressive treatment and exhibited moderate SLE activity (median SLE Disease Activity Index (SLEDAI) = 6). RESULTS: In patients, we found elevated CD4+CD28null and unchanged levels of suppressor CD8+CD28null T cells. There was no difference between patients and controls in IFN-γ and Ki67-expressing CD4+, CD4+CD28+, and CD4+CD28null T cells, except for higher IFN-γ levels in CD4+CD28+ T cells in SLE. In each studied group, we observed a higher preponderance of IFN-γ- and Ki67-expressing cells among CD4+CD28null T cells and lower levels of IFN-γ in CD4+CD28null T cells compared to the CD28+ subset. Similarly, Ki67 intensity was decreased in healthy CD4+CD28null cells, whereas in patients, comparably high expression was observed in both subsets. IFN-γ intensity in CD4+CD28null T cells correlated with SLEDAI. CONCLUSION: SLE with a moderately active clinical course is characterized by peripheral blood expansion of CD4+CD28null T cells and a normal abundance of suppressor CD8+CD28null T cells. The demonstration that these pathogenic CD4+ T cells, despite the lack of CD28, maintain the ability to produce pro-inflammatory IFN-γ positively correlated with disease activity as well as relatively high proliferative capacity may suggest their potentially predictive role in SLE flares.

The significance of neonatal thymectomy for shaping the immune system in children with congenital heart defects.

The thymus plays an important role in the development of the immune cell pool; it serves as the primary location for T-lymphocyte maturation. Early cardiac surgical interventions for congenital heart defects are necessarily associated with thymectomy, i.e. the partial or complete removal of the thymus. A newborn infant already has a functioning thymus and developed cells of the immune system. However, thymectomy eliminates the primary location where T cells differentiate and mature. This study summarizes the current knowledge of the cellular disturbances and potential clinical consequences associated with performing thymectomy in children treated surgically for congenital heart defects.

Genetic background of aberrant thermogenin expression (UCP1) in obesity leading to metabolic syndrome.

Cardiovascular and metabolic disturbances individually and interdependently lead to chronic pathological conditions observed in cardio-metabolic diseases (CMDs). In Europe, the morbidity and mortality caused by cardiovascular disease are the highest among all diseases. Therefore, it seems important to search for new and alternative therapies for obesity, which is the main cause of type 2 diabetes (T2D) and cardiovascular disease (CD). Great attention has been paid to the role of brown adipose tissue in fat burning and the possibility of transformation of the white adipose tissue to cells with brown adipose tissue function as a potential form of treatment of obesity. The best-characterized marker of brown adipose tissue is uncoupling protein 1 (UCP1), which has the ability to dissipate energy as heat in the process called non-shivering thermogenesis. Numerous studies have shown that altered expression of this protein can lead to disturbances in fat metabolism. One possible reason for the aberrant expression of UCP1 may be inherited variations in the gene encoding that protein. Therefore, several studies investigating the role of polymorphisms in the gene encoding UCP1 in susceptibility to obesity or metabolic syndrome have been performed. Here we summarize the results of studies describing the associations between the UCP1 gene polymorphisms A-3826G, A-1766G, Met229Leu and Ala64Thr and polymorphism Trp64Arg in the ß3-AR gene, their correlations and their associations with the occurrence of metabolic syndrome.