Bora Akoglu

Rejection quantity in kidney transplant recipients is associated with increasing intracellular interleukin-2 in CD8+ T-cells.

BACKGROUND CD8+ T-cells and interleukin-2 play an important role during organ rejection in kidney transplant recipients. Numerous studies showed increased interleukin-2 levels during acute rejection. The aim of our study is to show an association between intracellular interleukin-2 in CD8+ T-cells and the incidence of those who underwent organ rejection in kidney transplant recipients. METHODS 407 transplant recipients were included into this study. The rejection incidence was investigated from the patient records. White blood cells from recipients were separated using a ficoll gradient. The cells were double-gated (CD3+ and CD8+) for the analysis of cellular percentage for intracellular interleukin-2 with a flow cytometer. RESULTS The percentage of CD8+ cells with detectable intracellular interleukin-2 was significantly higher in renal transplant recipients with a documented rejection compared to recipients without any history of rejection (9.06±0.50, N=133 vs. 4.28±0.24, N=274, p<0.0001, t-test). Further, there was a significant increase in patients with one (8.02±0.54, N=80, p<0.0001, t-test), two (10.40±1.17, N=33, p<0.0001, t-test) or three (11.82±1.58, N=18, p<0.0001, t-test) rejection events. CONCLUSIONS Past studies showed, that during acute organ rejection intracellular interleukin-2 is increased in cytotoxic T-cells, supposed to be a marker for this event. We were able to show, that intracellular interleukin-2 in CD8+ T-cells is also increased after organ rejection. Furthermore it seems to depend on the quantity of rejection events. Further studies in recipients with increased intracellular interleukin-2 in cytotoxic CD8+ T-cells and documented history of organ rejection are needed to identify this as a possible risk factor for further rejection events.

Anti-inflammatory drugs modulate C1q secretion in human peritoneal macrophages in vitro

The complement system plays an important role in the humoral immune response. Activation of the classical complement pathway is mediated by its subcomponent, C1q, which is involved in the pathogenesis of several autoimmune disorders. Among the main C1q-synthesising tissues, macrophages have been attributed as the main source. We investigated the effects of anti-inflammatory drugs (methylprednisolone and acetylsalicylic acid (ASA)) on C1q secretion in human peritoneal macrophages in vitro. The macrophages were isolated from peritoneal lavage fluid of patients with end-stage renal disease undergoing continuous ambulatory peritoneal dialysis, and were maintained in culture for up to 6 days. ASA decreased while methylprednisolone increased C1q secretion from human peritoneal macrophages in vitro, which correlated well with the percentage of CD14 positive cells after treatment. We conclude that different response of the macrophages to treatment with methylprednisolone and ASA may point out to the importance of macrophage activation after treatment, as well as an increased abundance of membrane C1q accompanied by increased phagocytosis.

Human peritoneal macrophages in culture: a model for studying inflammatory disorders in vitro

Abstract. In this study we characterized a model of human peritoneal macrophages maintained in culture for up to 48 h that can be used to study different functions of this cell population in vitro. The cells remained viable and functionally active over time, with well-preserved phagocytic properties. They expressed a macrophage marker, CD14. Once in culture, human peritoneal macrophages secreted C1q and nitric oxide in a pattern described in murine, guinea pig, and rat peritoneal macrophages . The described model can be used to study physiology and pathophysiology of peritoneal macrophages in vitro, offering all the advantages of the use of a human cell population.