Unveiling systemic responses in kidney transplantation: interplay between the allograft transcriptome and serum proteins.

Immunity, as defined by systems biology, encompasses a holistic response throughout the body, characterized by intricate connections with various tissues and compartments. However, this concept has been rarely explored in kidney transplantation. In this proof-of-concept study, we investigated a direct association between the allograft phenotype and serum protein signatures.

Plasma protein signatures reflect systemic immunity and allograft function in kidney transplantation.

Kidney transplantation causes large perturbations of the immune system. While many studies focus on the allograft, insights into systemic effects are largely missing. Here, we analyzed the systemic immune response in 3 cohorts of kidney transplanted patients.

Data-Driven Kidney Transplant Phenotyping as a Histology-Independent Framework for Biomarker Discovery.

Background: In transplant medicine, clinical decision making largely relies on histology of biopsy specimens. However, histology suffers from low specificity, sensitivity, and reproducibility, leading to suboptimal stratification of patients. We developed a histology-independent immune framework of kidney graft homeostasis and rejection.

Quantification of Hv1-induced proton translocation by a lipid-coupled Oregon Green 488-based assay.

Passive proton translocation across membranes through proton channels is generally measured with assays that allow a qualitative detection of the H-transfer. However, if a quantitative and time-resolved analysis is required, new methods have to be developed. Here, we report on the quantification of pH changes induced by the voltage-dependent proton channel Hv1 using the commercially available pH-sensitive fluorophore Oregon Green 488-DHPE (OG488-DHPE).