Outcomes of COVID-19 in hospitalized solid organ transplant recipients compared to a matched cohort of non-transplant patients at a national healthcare system in the United States.

Data describing outcomes of solid organ transplant (SOT) recipients with coronavirus disease 2019 (COVID-19) are variable, and the association between SOT status and mortality remains unclear. In this study, we compare clinical outcomes of SOT recipients hospitalized with COVID-19 between March 10, and September 1, 2020, to a matched cohort of non-SOT recipients at a national healthcare system in the United States (US). From a population of 43 461 hospitalized COVID-19-positive patients, we created a coarsened exact matched cohort of 4035 patients including 128 SOT recipients and 3907 weighted matched non-SOT controls.

Prevalence of frailty among kidney transplant candidates and recipients in the United States: Estimates from a National Registry and Multicenter Cohort Study.

Frailty, a measure of physiologic reserve, is associated with poor outcomes and mortality among kidney transplant (KT) candidates and recipients. There are no national estimates of frailty in this population, which may help patient counseling and resource allocation at transplant centers. We studied 4616 KT candidates and 1763 recipients in our multicenter prospective cohort of frailty from 2008-2018 with Fried frailty measurements.

Frailty and Access to Kidney Transplantation.

Background And Objectives: Frailty, a syndrome distinct from comorbidity and disability, is clinically manifested as a decreased resistance to stressors and is present in up to 35% of patient with ESKD. It is associated with falls, hospitalizations, poor cognitive function, and mortality. Also, frailty is associated with poor outcomes after kidney transplant, including delirium and mortality.

The Impact of the mKidney mHealth System on Live Donor Follow-Up Compliance: Protocol for a Randomized Controlled Trial.

Background: Every year, more than 5500 healthy people in the United States donate a kidney for the medical benefit of another person. The Organ Procurement and Transplantation Network (OPTN) requires transplant hospitals to monitor living kidney donors (LKDs) for 2 years postdonation. However, the majority (115/202, 57%) of transplant hospitals in the United States continue to fail to meet nationally mandated requirements for LKD follow-up.

Early Changes in Kidney Distribution under the New Allocation System.

The Kidney Allocation System (KAS), a major change to deceased donor kidney allocation, was implemented in December 2014. Goals of KAS included directing the highest-quality organs to younger/healthier recipients and increasing access to deceased donor kidney transplantation (DDKT) for highly sensitized patients and racial/ethnic minorities. Using national registry data, we compared kidney distribution, DDKT rates for waitlist registrants, and recipient characteristics between January 1, 2013, and December 3, 2014 (pre-KAS) with those between December 4, 2014, and August 31, 2015 (post-KAS).

Histocompatibility considerations for kidney paired donor exchange programs.

Purpose Of Review: To highlight the role of histocompatibility testing in kidney paired donor (KPD) exchange programs as well as the new technological advances that may have an effect on KPD.

Recent Findings: Technological advances in human leukocyte antigen (HLA) antibody identification using the Luminex single-antigen bead multiplexing platform have facilitated virtual cross-matching and the ability to accurately match donor/recipient pairs through KPD. A knowledge of the limitations of this assay is the key to proper interpretation of the data and maximization of this new technology.

A virtual crossmatch protocol significantly increases access of highly sensitized patients to deceased donor kidney transplantation.

Background: Patients with preexisting antihuman leukocyte antigen (HLA) antibodies (sensitized patients) are more likely to have a positive crossmatch with possible donors and have a lower likelihood of receiving a renal transplant with longer wait times. A virtual crossmatch protocol using solid-phase technology to determine the specificity of anti-HLA antibodies may improve the probability of identifying a crossmatch-negative compatible donor and increase access of sensitized patients to kidney transplantation.

Methods: A virtual crossmatch protocol was implemented on October 1, 2006 with solid-phase HLA antibody characterization for all sensitized patients on the waiting list.

Control of memory CD4 T cell recall by the CD28/B7 costimulatory pathway.

The CD28/B7 costimulatory pathway is generally considered dispensable for memory T cell responses, largely based on in vitro studies demonstrating memory T cell activation in the absence of CD28 engagement by B7 ligands. However, the susceptibility of memory CD4 T cells, including central (CD62L(high)) and effector memory (T(EM); CD62L(low)) subsets, to inhibition of CD28-derived costimulation has not been closely examined. In this study, we demonstrate that inhibition of CD28/B7 costimulation with the B7-binding fusion molecule CTLA4Ig has profound and specific effects on secondary responses mediated by memory CD4 T cells generated by priming with Ag or infection with influenza virus.

Novel phenotypes and migratory properties distinguish memory CD4 T cell subsets in lymphoid and lung tissue.

Memory T cells are heterogeneous in expression of lymph node homing receptors, delineating "central-memory" (TCM, CD62Lhi/CCR7+) and "effector-memory" (TEM, CD62Llo/CCR7-) subsets that migrate to lymphoid and non-lymphoid tissues, respectively. It is not known how these subsets arise or how homing receptor expression and tissue origin determine their functional and migratory properties. Here, we investigated the role of CD62L expression in the generation, function, distribution and migration of heterogeneous memory CD4 T cells specific for influenza hemagglutinin (HA).

Anti-CD3 priming generates heterogeneous antigen-specific memory CD4 T cells.

Anti-CD3 activation of peripheral T cells is used in adoptive immunotherapy for cancer and HIV infection, but the long-term fate of anti-CD3-primed T cells in vivo is not known. In this study, we demonstrate that anti-CD3-mediated activation of influenza hemagglutinin (HA)-specific TCR-transgenic CD4 T cells results in generation of a long-lived HA-specific memory CD4 T cell population when transferred into lymphocyte-deficient and intact mouse hosts. This anti-CD3-primed memory population is indistinguishable from HA peptide-primed memory CD4 T cells in terms of phenotype, rapid recall function, and enhanced proliferative capacity.

Long-term islet graft survival in NOD mice by abrogation of recurrent autoimmunity.

Islet transplantation has great potential for curing type 1 diabetes; however, long-term islet survival using conventional immunosuppression remains elusive. We present a novel strategy for inducing long-lasting islet graft survival in diabetic NOD mice in the absence of posttransplant immunosuppression by initial treatment with antilymphocyte serum (ALS) followed by coadministration of donor pancreatic lymph node cells (PLNCs). When treated with ALS/PLNC, diabetic NOD mice become normoglycemic and tolerated minor antigen-disparate islet grafts for >100 days and syngeneic islet grafts indefinitely.

Memory T cells in transplantation: generation, function, and potential role in rejection.

The adaptive immune system is endowed with long-lived memory to recall previous antigen encounters and respond more effectively to them. Memory immune responses are mediated by antigen-specific memory T lymphocytes that exhibit enhanced function compared with naïve T cells that have never encountered antigen. While the generation of memory T cells specific for pathogens is beneficial in providing protective immunity, memory T cells specific for alloantigens can be deleterious to the recipient of a transplanted organ.

Allogeneic parenchymal and hematopoietic tissues differ in their ability to induce deletion of donor-reactive T cells.

The establishment of immune tolerance to self antigen expressed exclusively in the periphery is a crucial yet incompletely understood feature of the immune system. A dominant concept of peripheral tolerance has been that exposure of T cells to signal one, the TCR-MHC interaction, in the absence of signal two, or costimulation, is a major mechanism of peripheral tolerance. This model suggests that any cell type that expresses MHC-peptide complexes, be they of self or foreign origin, should have the capacity to tolerize antigen-specific T cells when critical costimulatory interactions are interrupted.