End-stage Kidney Disease Clinical Trial
Official title:
Effects of High Cut-off Hemodialysis on Central Memory CD4+ T Cells and Regulatory T Cells in Patients With End-stage Kidney Disease
In this study, the investigators will evaluate whether CD4+ TCM producing effector cytokines
can be distinguished on the basis of their expression of the IL-7 receptor alpha-chain
(CD127). Using CD154 production as a marker of Ag-specific CD4+ T cells, the investigators
will also test the hypothesis that the phenotype and function of TCM are influenced by the
type of Ag they recognize. TCM specific for two cleared protein Ag, tetanus toxoïd (TT) and
hepatitis B surface (HBs), inducing an early stage of CD4+ T cell differentiation will be
compared to TCM specific for cytomegalovirus (CMV), a persistent virus inducing an advanced
stage of CD4+ T cell differentiation.
The primary endpoint is to demonstrate in uremic patients who will begin chronic HD and in
patients already chronically hemodialyzed any improvement in CD4+ T cell function ex vivo
and in vitro. These analyzes will focus on memory T-cell subsets (i.e. Th17 and Tregs
population) using HCO membranes or polyamide dialyzers.
The secondary endpoint is a clinical one, namely, to show any improvement in T cell response
to HB and TT vaccination (blood antibody titers).
Chronic hemodialysis (HD) has been associated with changes not only in T cell immunity but
also in lipid profile. Apart from their immune function, circulating T cells may participate
actively in atherogenesis, and treatments that aim to reduce T cell activation and apoptosis
in patients with ESRD reduce the risk for development of cardiovascular disease.
Evidence exists that HD patients are exposed to enhanced oxidative stress that is initiated
by the generation of oxygen free radicals, mainly in tissue and probably in the circulation.
The most potent O2-generating proteins are oxidatively modified lipoproteins, mainly
oxidized (oxLDL). OxLDL have been shown to trigger apoptosis of endothelial cells,
macrophages, and lymphocytes. However, the pathophysiological relevance of oxLDL-induced
CD4+ T cell apoptosis in HD patients remains uncertain.
Previous findings including ours have suggested that in chronic HD patients, a significantly
high percentage of activated CD4+ T cells ultimately do not proliferate but become
apoptotic. The induction of activated CD4+ T cell apoptosis from HD patients was dependent
on Fas/FasL expression, which leads to a cell contact form of circulating CD4+ T cell
self-injury. Furthermore, the investigators showed that activated CD4+ T cells from these
patients fail to respond adequately to exogenous IL-2. This is due to the downmodulation of
surface IL-2 receptor (IL-2R) beta and gamma subunit expression, impaired IL-2 signal
transduction in CD4+ T cells, and/or increased serum levels of soluble IL-2R (sIL-2R).
Moreover, in vivo sensitization to IL-2 or low synthesis of endogenous IL-2, themselves
potentially may lead to enhanced sensitivity to T cell apoptosis. Decreased proliferative
capacity of CD69+/CD4+ T cells that were from individuals with normal renal function and
incubated with serum from chronic HD patients and its restoration by normal serum strongly
suggest that mediators that are induced by HD affect transduction mechanisms in the
IL-2/IL-2R pathway. Finally, IL-2 seems to inhibit the apoptotic process at many stages by
interacting with various proteins. Therefore, the investigators postulated that, in HD
patients, oxidative stress that is induced by oxLDL may increase CD4+ T cell sensitivity to
Fas-mediated apoptosis, in part as a consequence of an HD patient's specific dysregulation
of IL-2 expression. To test this hypothesis, the investigators assessed the role of Fas and
IL-2 in mediating the oxLDL-induced CD4+ T cell dysfunction in patients with ESRD.
Recently, Meier et al. have shown that HD patients exhibited a reduction in the number of
peripheral Tregs, which showed a reduced suppressor function. Considering the oxLDL effects,
the relative percentage of Tregs of the total CD4 population was significantly reduced by
incubation with oxLDL compared with a nonsignificant depleting effect on CD4+/CD25- T cells.
The authors suggest that oxLDL have a specific role on Tregs. More interestingly, Tregs from
HD patients exhibited early cell-cycle arrest and became apoptotic. These phenomena were the
consequence of the oxLDL-inhibited proteasome proteolytic activity of p27Kip1 and Bax
proteins, both of which accumulated in PHA-stimulated Tregs in vitro. Thus, plasma oxLDL in
uremic patients might be the trigger of Tregs cycle arrest and apoptosis through proteasome
alteration. Furthermore, they found that both uremic serum from HD patients and oxLDL
triggered a time- and concentration-dependent down-regulatory effect on the expression of
FOXP3. This means that circulating Tregs in HD patients, in addition to being reduced in
number, also expressed low levels of FOXP3 per cell, and thus failed to suppress the
proliferation of effector cells.
In our study, the investigators want to use gene and protein expression profiling and
functional assays of human (ESKD patients on chronic HD or naive uremic patients not yet on
HD) CD4+ TCM to identify the mechanisms underlying their maintenance or dysfunction. Our
results will provide a molecular basis for the capacity of CD4+ TCM to resist apoptosis and
to persist in a stable manner in the host, thereby conferring long-term protective immunity
against reinfection. To test this hypothesis, it will be important to determine whether TCM
producing cytokines represent a distinct subset of memory cells expressing a specific
differentiation phenotype. To the other part the investigators will analyse the role played
by Tregs in uremic patients using a new membrane, namely HCO 1100.
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Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment
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