Abstract: Aspects of the invention are drawn to compositions and methods for modulating CD8 Treg mobilization in the treatment of autoimmune disorders, rejection of transplanted organs and cancer.

Abstract: Disclosed are compositions and methods of promoting transplantation tolerance, treating an immune disorder associated with graft transplantation, and promoting organ survival in an organ transplanted into a subject. The methods include administering anti-CD74 antibodies or CD74-deficient Treg cells.

Abstract: The invention relates generally to the use of microvesicle biomarkers such as nucleic acids, including nucleic acid signatures, and/or proteins for assessing a kidney transplant rejection in a patient. The invention further relates to assessing, and/or to monitoring kidney transplant rejection in patients who have received a renal transplant.

Abstract: The present disclosure relates to methods of identifying and treating kidney rejection in a subject comprising analyzing microvesicular RNA, cell-free DNA or the combination of microvesicular and cell-free DNA.

Abstract: The invention relates generally to the use of microvesicle RNA signatures for diagnosis, predicting, and/or to monitor treatment efficacy, including patients who are candidates for renal transplant and/or who have received a renal transplant.

Abstract: The invention relates generally to the use of microvesicle RNA signatures for diagnosis, predicting, and/or to monitor treatment efficacy, including patients who are candidates for renal transplant and/or who have received a renal transplant.

Abstract: Target analyte detection devices include a housing having a potentiostat and a microcontroller coupled to the potentiostat. The device also includes a substrate having a plurality of electrodes on a first surface of the substrate. A first set of electrodes of the plurality of electrodes defines a first sample detection region. The substrate is removably attachable to the housing such that the first set of electrodes is coupled to the potentiostat upon attaching the substrate to the housing. The device also includes a magnet assembly couplable to a second surface of the substrate. The magnet assembly includes a magnet positioned in the magnet assembly such that a magnetic field from the magnet extends through the substrate and the first set of electrodes into an area above the first sample detection region upon coupling the magnet assembly to the substrate.

Abstract: The invention relates generally to the use of microvesicle biomarkers such as nucleic acids, including nucleic acid signatures, and/or proteins for assessing a kidney transplant rejection in a patient. The invention further relates to assessing, and/or to monitoring kidney transplant rejection in patients who have received a renal transplant.

Abstract: Target analyte detection devices include a housing having a potentiostat and a microcontroller coupled to the potentiostat. The device also includes a substrate having a plurality of electrodes on a first surface of the substrate. A first set of electrodes of the plurality of electrodes defines a first sample detection region. The substrate is removably attachable to the housing such that the first set of electrodes is coupled to the potentiostat upon attaching the substrate to the housing. The device also includes a magnet assembly couplable to a second surface of the substrate. The magnet assembly includes a magnet positioned in the magnet assembly such that a magnetic field from the magnet extends through the substrate and the first set of electrodes into an area above the first sample detection region upon coupling the magnet assembly to the substrate.

Abstract: The invention relates generally to the use of microvesicle RNA signatures for diagnosis, predicting, and/or to monitor treatment efficacy, including patients who are candidates for renal transplant and/or who have received a renal transplant.