Mechanisms and treatment options of chronic graft dysfunction Experimental and clinical studies

Abstract: Chronic graft dysfunction (CGD) is an important post-transplant complication. CGD can be considered as an impaired repair process, which ultimately leads to the loss of graft function.To study non-immunological factors contributing to the development of CGD in kidney grafts we used in vitro and in vivo models, and clinical studies.We studied the actions of hyperlipidemia in vitro. LDL induced increased expression of TGF-?1 and TGF-? receptors type I and type II. Smad2 phosphorylation could be induced by conditioned medium from mesangial cells incubated with LDL.The effects of Fluvastatin and AT1 receptor blocker Candesartan cilexetil on aortic graft arteriosclerosis in the rat were evaluated. Fluvastatin neither alone nor in combination with Cyclosporine A affected allograft remodelling, but reduced neointima formation in isografts. Candesartan cilexetil treatment reduced graft arteriosclerosis. The effect is explained by the reduction of TGF-?1 expression.We investigated the effects of Carvedilol in patients with CGD. Carvedilol failed to alter the CGD progression despite the efficient control of blood pressure, and a beneficial effect on lipid pattern and oxidation. Close control of CyA blood levels is recommended due to interaction between CyA and Carvedilol.Measurement of Ab-oxLDL in kidney graft recipients demonstrated that these patients had lower Ab-oxLDL levels as compared with the control group. Decreased Ab-oxLDL levels were associated with graft loss due to acute rejection and with ischemic heart disease.In this thesis we have addressed several important complex issues, which are interconnected: (1) development of chronic graft dysfunction (2) lipoproteins and their role in inducing pathological conditions like atherosclerosis and graft damage, (3) oxidation, (4) TGF-? and its' role in different pathological conditions, including renal and vascular damage.