23 research outputs found
Resposta taquicĂĄrdica e controle autonĂŽmico no exercĂcio fĂsico em modelo genĂ©tico de insuficiĂȘncia cardĂaca
Induction immunosuppressive therapy in cardiac transplantation: a systematic review and meta-analysis
Cardiac transplantation and other therapeutic options in the treatment of end-stage heart disease
Current experience with left ventricular assist devices in patients with congestive heart failure
Activation-induced T cell death, and aberrant T cell activation via TNFR1 and CD95-CD95 ligand pathway in stable cardiac transplant recipients
Specific blockade by antibodies (Abs) utilized in induction therapy may cause activation-induced cell death (AICD) in lymphocytes of transplant recipients, preactivated via CD95 and tumour necrosis factor-α receptor type 1 (TNFR1), and reduce allograft rejection frequency. Amongst 618 heart transplant (HTX) patients receiving antithymocytes globulin (ATG) therapy, 14 recipients with IVUS-verified freedom of transplant vasculopathy were studied. The control group contained 14 patients awaiting transplantation, classified by the New York Hearth Association heart failure as class IV. From 618 HTX patients 89% were free of rejection grade ISHLT â„2â3 within 3-month post transplantation and 86% after one year. The death inducing receptors (DIR) such as CD95, CD95L and soluble TNFR1 were significantly increased in HTX recipients versus controls, as demonstrated by FACS, immunoblotting or ELISA (P < 0·001). The presence of increased DIR and in vivo apoptosis in HTX recipients, indicated by annexin-V binding, was further confirmed by the presence of high concentration of histones in the sera of patients. ATG, anti-IL-2R and OKT-3 Abs inhibited cell proliferation in a dose-dependent manner. The induction of apoptosis and/or necrosis was demonstrated in cells cultured with these Abs by annexin-V and 7-aminoactinomycin staining, respectively. Our findings demonstrate that T cells from HTX recipients express high level of CD95, CD95L and soluble TNFR1, and undergo apoptosis and AICD. These cells recognizing donor alloantigens may be selectively eliminated in vivo, and should be responsible for the observed immunological unresponsiveness, indicated by low rejection rates in our patient cohort treated by conventional triple therapy