TY - JOUR AU - Minz Mukut AU - Jha V. AU - Nada Ritambhra AU - Mahakur Sobhana AU - Saikia Biman AU - Minz Ranjana AU - Anand Shashi AU - Sharma Ashish AU - Joshi Neha AU - Goel Lekha AU - Arora Amit AU - Joshi Kusum AB -
BACKGROUND: Ability to predict the manner in which a recipient's immune system would respond to a transplanted graft by analyzing cytokine profiles of the "allograft antigen sensitized" recipient lymphocytes in vitro might provide a means to identify patients at risk to adverse clinical endpoints.
METHODS: Cytokine/chemokine gene expression profiles of peripheral blood mononuclear cells co-cultured with allograft antigen-pulsed macrophages were studied in 49 renal transplant recipients-12 with acute cellular rejection (ACR) with or without antibody-mediated rejection (AMR), 7 with AMR (without ACR), and 30 with stable allografts (SA). An 86-gene inflammatory cytokines and receptors PCR array was used to measure fold changes in gene expression between pulsed and un-pulsed cultures.
RESULTS: On linear discriminant analysis and multivariate analysis of variance, a gene set comprising C3, CCL3, IL1B, TOLLIP, IL10, CXCL5, ABCF1, CCR3, IL10RB, CXCL1, and IL1R1 differentiated the ACR-AMR from the SA group. Similarly, a gene set comprising IL10, C3, IL37, IL1B, CCL3, CARD18, and TOLLIP differentiated the AMR from the SA group. No significant difference was found between the ACR-AMR vs AMR groups.
CONCLUSION: Distinct post in vitro stimulation cytokine profiles at the time of transplantation thus correlated with the occurrence of post-transplantation rejection episodes which indicated feasibility of this in vitro model to assess the recipient's anti-graft response at an early stage.
BT - Clin Exp Nephrol DA - 182837016111 DO - 10.1007/s10157-017-1469-7 J2 - Clin. Exp. Nephrol. LA - eng N2 -BACKGROUND: Ability to predict the manner in which a recipient's immune system would respond to a transplanted graft by analyzing cytokine profiles of the "allograft antigen sensitized" recipient lymphocytes in vitro might provide a means to identify patients at risk to adverse clinical endpoints.
METHODS: Cytokine/chemokine gene expression profiles of peripheral blood mononuclear cells co-cultured with allograft antigen-pulsed macrophages were studied in 49 renal transplant recipients-12 with acute cellular rejection (ACR) with or without antibody-mediated rejection (AMR), 7 with AMR (without ACR), and 30 with stable allografts (SA). An 86-gene inflammatory cytokines and receptors PCR array was used to measure fold changes in gene expression between pulsed and un-pulsed cultures.
RESULTS: On linear discriminant analysis and multivariate analysis of variance, a gene set comprising C3, CCL3, IL1B, TOLLIP, IL10, CXCL5, ABCF1, CCR3, IL10RB, CXCL1, and IL1R1 differentiated the ACR-AMR from the SA group. Similarly, a gene set comprising IL10, C3, IL37, IL1B, CCL3, CARD18, and TOLLIP differentiated the AMR from the SA group. No significant difference was found between the ACR-AMR vs AMR groups.
CONCLUSION: Distinct post in vitro stimulation cytokine profiles at the time of transplantation thus correlated with the occurrence of post-transplantation rejection episodes which indicated feasibility of this in vitro model to assess the recipient's anti-graft response at an early stage.
PY - 2017 T2 - Clin Exp Nephrol TI - Allo-specific immune response profiles indicative of acute rejection in kidney allografts using an in vitro lymphocyte culture-based model. SN - 1437-7799 ER -