Background: Long-term success of organ transplantation is limited by the inexorable loss of graft function due to rejection. Prevalent dogma defends that allograft rejection is exclusively mediated by the adaptive immune system: T cells are responsible for cellular rejections and B cells producing Donor Specific Antibodies (DSA) are responsible for humoral rejection. Recently, we demonstrated that innate NK cells could be implicated in the generation of chronic vascular rejections lesions by sensing the absence of expression of self Major Histocompatibility Complex (MHC) class I molecules ("missing self") on graft endothelial cells with their Killer cell immunoglobulin-like (KIR) receptors. Using human in vitro and murine in vivo models, we also showed that Mammalian Target Of Rapamycin (mTOR) inhibitors could efficiently prevent this new kind of rejection. Objective: The aim of our project is therefore to test in a cohort of kidney transplanted patients the efficiency of mTOR inhibitors to treat this new kind of rejection Methods: A cohort of 20 kidney transplant patients with a missing self on their graft responsible for a NK-mediated rejection will be established prospectively. An mTOR inhibitor will be introduced in these patients for 6 months in association with a calcineurin inhibitor and corticosteroids. Graft function, histological lesions and NK activability will be monitored following this modification of treatment.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
TREATMENT
Masking
NONE
Enrollment
20
Patients will received everolimus (CERTICAN), oral form, at the necessary dose to obtain trough levels between 6 and 8 ng/ml, during 6 months. Everolimus will replace the anti-proliferative drug they have before (azathioprine or mycophenolic acid). Everolimus will be associated with corticosteroids (prednisolone) and a calcineurin inhibitor (tacrolimus or cyclosporin).
Service de transplantation, néphrologie et immunologie clinique, Hôpital Edouard Herriot (HCL)
Lyon, France
RECRUITINGChange in Estimated glomerular filtration rate
Glomerular filtration rate will be estimated by Chronic Kidney Disease - Epidemiology CollaborationI (CKD-EP) equation. Outcome evaluation at 6 months after everolimus treatment introduction (at D0) compared to baseline (between 15 and 30 days before D0).
Time frame: 6 months after start of Everolimus treatment
Change in the severity of rejection lesions on allograft biopsy
Evolution of microvascular inflammation and chronic glomerular and vascular lesions graded according to Banff 2013 classification. Outcome evaluation at 6 months after everolimus treatment introduction (at D0) compared to baseline (between 15 and 30 days before D0).
Time frame: 6 months after start of Everolimus treatment
Change in NK cell activability
Nk cell activability will be measured by looking at the expression of activation markers (CD107a and MIP1B) on circulating NK cells by flow cytometry. Outcome evaluation at 6 months after everolimus treatment introduction (at D0) compared to baseline (between 15 and 30 days before D0).
Time frame: 6 months after start of Everolimus treatment
Change in proteinuria
Calculation of proteinuria/urinary creatinin index. Outcome evaluation at 6 months after everolimus treatment introduction (at D0) compared to baseline (between 15 and 30 days before D0).
Time frame: 6 months after start of Everolimus treatment
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