De novo donor‐specific antibodies in belatacept‐treated vs cyclosporine‐treated kidney‐transplant recipients: Post hoc analyses of the randomized phase III BENEFIT and BENEFIT‐EXT studies

Donor‐specific antibodies (DSAs) are associated with an increased risk of antibody‐mediated rejection and graft failure. In BENEFIT and BENEFIT‐EXT, kidney‐transplant recipients were randomized to receive belatacept more intense (MI)–based, belatacept less intense (LI)–based, or cyclosporine‐based immunosuppression for up to 7 years (84 months). The presence/absence of HLA‐specific antibodies was determined at baseline, at months 6, 12, 24, 36, 48, 60, and 84, and at the time of clinically suspected episodes of acute rejection, using solid‐phase flow‐cytometry screening. Samples from anti‐HLA‐positive patients were further tested with a single‐antigen bead assay to determine antibody specificities, presence/absence of DSAs, and mean fluorescence intensity (MFI) of any DSAs present. In BENEFIT, de novo DSAs developed in 1.4%, 3.5%, and 12.1% of belatacept MI‐treated, belatacept LI‐treated, and cyclosporine‐treated patients, respectively. The corresponding values in BENEFIT‐EXT were 3.8%, 1.1%, and 11.2%. Per Kaplan‐Meier analysis, de novo DSA incidence was significantly lower in belatacept‐treated vs cyclosporine‐treated patients over 7 years in both studies (P < .01). In patients who developed de novo DSAs, belatacept‐based immunosuppression was associated with numerically lower MFI vs cyclosporine‐based immunosuppression. Although derived post hoc, these data suggest that belatacept‐based immunosuppression suppresses de novo DSA development more effectively than cyclosporine‐based immunosuppression.     

Early clinical experience using donor‐derived cell‐free DNA to detect rejection in kidney transplant recipients

Donor‐derived cell‐free DNA (dd‐cfDNA) became Medicare reimbursable in the United States in October 2017 for the detection of rejection in kidney transplant recipients based on results from its pivotal validation trial, but it has not yet been externally validated. We assessed 63 adult kidney transplant recipients with suspicion of rejection with dd‐cfDNA and allograft biopsy. Of these, 27 (43%) patients had donor–specific antibodies and 34 (54%) were found to have rejection by biopsy. The percentage of dd‐cfDNA was higher among patients with antibody–mediated rejection (ABMR; median 1.35%; interquartile range [IQR]: 1.10%‐1.90%) compared to those with no rejection (median 0.38%, IQR: 0.26%‐1.10%; P < .001) and cell–mediated rejection (CMR; median: 0.27%, IQR: 0.19%‐1.30%; P = .01). The dd‐cfDNA test did not discriminate patients with CMR from those without rejection. The area under the ROC curve (AUC) for CMR was 0.42 (95% CI: 0.17‐0.66). For ABMR, the AUC was 0.82 (95% CI: 0.71‐0.93) and a dd‐cfDNA ≥0.74% yielded a sensitivity of 100%, specificity 71.8%, PPV 68.6%, and NPV 100%. The dd‐cfDNA test did not discriminate CMR from no rejection among kidney transplant recipients, although performance characteristics were stronger for the discrimination of ABMR.     

Evaluation of C1q Status and Titer of De Novo Donor‐Specific Antibodies as Predictors of Allograft Survival

De novo donor‐specific antibodies (dnDSAs) that develop after renal transplantation are independent predictors of allograft loss. However, it is unknown if dnDSA C1q status or titer at the time of first detection can independently predict allograft loss. In a consecutive cohort of 508 renal transplant recipients, 70 developed dnDSAs. Histologic and clinical outcomes were correlated with the C1q assay or dnDSA titer. C1q positivity correlated with dnDSA titer (p < 0.01) and mean fluorescence intensity (p < 0.01) and was more common in class II versus class I dnDSAs (p < 0.01). C1q status correlated with tubulitis (p = 0.02) and C4d status (p = 0.03) in biopsies at the time of dnDSA development, but not T cell–mediated rejection (TCMR) or antibody‐mediated rejection (ABMR). De novo DSA titer correlated with Banff g, i, t, ptc, C4d scores, TCMR (p < 0.01) and ABMR (p < 0.01). Post‐dnDSA graft loss was observed more frequently in recipients with C1q‐positve dnDSA (p < 0.01) or dnDSA titer ≥ 1:1024 (p ≤ 0.01). However, after adjustment for clinical phenotype and nonadherence in multivariate models, neither C1q status nor dnDSA titer were independently associated with allograft loss, questioning the utility of these assays at the time of dnDSA development.     

Development and outcomes of de novo donor‐specific antibodies in low,moderate, and high immunological risk kidney transplant recipients

De novo donor‐specific antibodies (dnDSA) play an important role in antibody‐mediated rejection (ABMR) and graft failure, yet their development in kidney transplant recipients (KTx) of higher immunological risk has not been characterized. We prospectively determined the incidence of dnDSA at 3 and 12 months posttransplant and assessed their associations with outcomes in recipients stratified by low, moderate, and high immunological risk. Adult KTx were screened for DSA pretransplant, months 3 and 12 posttransplant, and when clinically indicated. Outcomes included incidence of dnDSA, death‐censored graft survival (DCGS), and ABMR. Of 371 recipients, 154 (42%) were transplanted across a pretransplant DSA that became undetectable by 12 months posttransplant in 78% of cases. dnDSA were detected in 16% (95% confidence interval [CI]: 12‐20%) by 3 months and 23% (95% CI: 18‐29%) by 12 months posttransplant. Incidence at 12 months was higher in the moderate (30%) and high‐risk groups (29%) compared to the low‐risk group (16%). dnDSA were associated with an increased risk of ABMR (hazard ratio [HR] 2.2; 95% CI: 1.1‐4.4; P = .04) but were not an independent risk factor for DCGS. In conclusion, dnDSA were more frequent in transplant recipients of higher immune risk and associated with an increased risk of ABMR.     

Value of monitoring circulating donor‐reactive memory B cells to characterize antibody‐mediated rejection after kidney transplantation

Antibody‐mediated rejection (ABMR) is defined by specific histopathological lesions and evidence of circulating donor‐specific antibodies (DSA). Although DSA are not always detectable, monitoring donor‐reactive memory B cells (mBC) could identify patients at risk of developing ABMR. Peripheral donor‐reactive mBC using a novel HLA B cell ELISpot assay, serum DSA, and numbers of different B cell subsets were assessed in 175 consecutive kidney transplants undergoing either for‐cause or 6‐ and 24‐month surveillance biopsies for their association with main histological lesions of ABMR and impact on allograft outcome. In 85 incident for‐cause biopsies, high frequencies of donor‐reactive mBC were detected in all 16 (100%) acute ABMR/DSA+ and most chronic ABMR, with or without DSA (24/30[80%] and 21/29[72.4%], respectively). In a longitudinal cohort of 90 nonsensitized patients, a progressively higher expansion of donor‐reactive mBC than de novo DSA was observed at 6 and 24 months (8.8% vs 7.7% and 15.5% vs 11.1%, respectively) and accurately identified patients with ongoing subclinical ABMR (area under the curve = 0.917 and area under the curve = 0.809, respectively). An unsupervised hierarchical cluster analysis revealed a strong association between donor‐reactive mBC with main fundamental allograft lesions associated with ABMR and conferred a significant deleterious impact on graft outcome. Monitoring donor‐reactive mBC may be useful to further characterize humoral rejection after kidney transplantation.     

Belatacept‐based immunosuppression with simultaneous calcineurin inhibitor avoidance and early corticosteroid withdrawal: A prospective,randomized multicenter trial

Simultaneous calcineurin inhibitor avoidance (CNIA) and early corticosteroid withdrawal (ESW) have not been achieved primarily due to excessive acute rejection. This trial compared 2 belatacept‐based CNIA/ESW regimens with a tacrolimus‐based ESW regimen. Kidney transplant recipients were randomized to receive alemtuzumab/belatacept, rabbit anti‐thymocyte globulin (rATG)/belatacept, or rATG/tacrolimus. The combinatorial primary endpoint consisted of patient death, renal allograft loss, or a Modification of Diet in Renal Disease–calculated eGFR of <45 mL/min/1.73 m² at 12 months. Results are reported by treatment group (alemtuzumab/belatacept, rATG/belatacept, and rATG/tacrolimus). Superiority was not observed at 1 year for the primary endpoint (9/107 [8.4%], 15/104 [14.4%], and 14/105 [13.3%], respectively; P = NS) for either belatacept‐based regimen. Differences were not observed for secondary endpoints (death, death‐censored graft loss, or estimated glomerular filtration rates < 45 mL/min/1.73 m²). Differences were observed in biopsy‐proved acute cellular rejection (10.3%, 18.3%, and 1.9%, respectively) (P < .001), but not in antibody‐mediated rejection, mixed acute rejection, or de novo donor‐specific anti‐HLA antibodies. Neurologic and electrolyte abnormality adverse events were less frequent under belatacept. Belatacept‐based CNIA/ESW regimens did not prove to be superior for the primary or secondary endpoints. Belatacept‐treated patients demonstrated an increase in biopsy‐proved acute cellular rejection and reduced neurologic and metabolic adverse events. These results demonstrate that simultaneous CNIA/ESW is feasible without excessive acute rejection.     

Posttransplant reduction in preexisting donor‐specific antibody levels after belatacept‐ versus cyclosporine‐based immunosuppression: Post hoc analyses of BENEFIT and BENEFIT‐EXT

BENEFIT and BENEFIT‐EXT were phase III studies of cytotoxic T‐cell crossmatch–negative kidney transplant recipients randomized to belatacept more intense (MI)‐based, belatacept less intense (LI)‐based, or cyclosporine‐based immunosuppression. Following study completion, presence/absence of HLA‐specific antibodies was determined centrally via solid‐phase flow cytometry screening. Stored sera from anti‐HLA–positive patients were further tested with a single‐antigen bead assay to determine antibody specificities, presence/absence of donor‐specific antibodies (DSAs), and mean fluorescent intensity (MFI) of any DSAs present. The effect of belatacept‐based and cyclosporine‐based immunosuppression on MFI was explored post hoc in patients with preexisting DSAs enrolled to BENEFIT and BENEFIT‐EXT. In BENEFIT, preexisting DSAs were detected in 4.6%, 4.9%, and 6.3% of belatacept MI‐treated, belatacept LI‐treated, and cyclosporine‐treated patients, respectively. The corresponding values in BENEFIT‐EXT were 6.0%, 5.7%, and 9.2%. In both studies, most preexisting DSAs were of class I specificity. Over the first 24 months posttransplant, a greater proportion of preexisting DSAs in belatacept‐treated versus cyclosporine‐treated patients exhibited decreases or no change in MFI. MFI decline was more apparent with belatacept MI‐based versus belatacept LI‐based immunosuppression in both studies and more pronounced in BENEFIT‐EXT versus BENEFIT. Although derived post hoc, these data suggest that belatacept‐based immunosuppression decreases preexisting DSAs more effectively than cyclosporine‐based immunosuppression.     

Antibody‐mediated rejection in pediatric small bowel transplantation: Capillaritis is a major determinant of C4d positivity in intestinal transplant biopsies

The diagnostic criteria for antibody‐mediated rejection (ABMR) after small bowel transplantation (SBT) are not clearly defined, although the presence of donor‐specific antibodies (DSAs) has been reported to be deleterious for graft survival. We aimed to determine the incidence and prognostic value of DSAs and C4d in pediatric SBT and to identify the histopathologic features associated with C4d positivity. We studied all intestinal biopsies (IBx) obtained in the first year posttransplantation (N = 345) in a prospective cohort of 23 children. DSAs and their capacity to fix C1q were identified by using Luminex technology. Eighteen patients (78%) had DSAs, and 9 had the capacity to fix C1q. Seventy‐eight IBx (22.6%) were C4d positive. The independent determinants of C4d positivity were capillaritis grades 2 and 3 (odds ratio [OR] 4.02, P = .047 and OR 5.17, P = .003, respectively), mucosal erosion/ulceration (OR 2.8, P = .019), lamina propria inflammation grades 1 and 2/3 (OR 1.95, P = .043 and OR 3.1, P = .016, respectively), and chorion edema (OR 2.16, P = .028). Complement‐fixing DSAs and repeated C4d‐positive IBx were associated with poor outcome (P = .021 and P = .001, respectively). Our results support that capillaritis should be considered as a feature of ABMR in SBT and identify C1q‐fixing DSAs and repeated C4d positivity as potential markers of poor outcome.     

Noninvasive detection of graft injury after heart transplant using donor‐derived cell‐free DNA: A prospective multicenter study

Standardized donor‐derived cell‐free DNA (dd‐cfDNA) testing has been introduced into clinical use to monitor kidney transplant recipients for rejection. This report describes the performance of this dd‐cfDNA assay to detect allograft rejection in samples from heart transplant (HT) recipients undergoing surveillance monitoring across the United States. Venous blood was longitudinally sampled from 740 HT recipients from 26 centers and in a single‐center cohort of 33 patients at high risk for antibody‐mediated rejection (AMR). Plasma dd‐cfDNA was quantified by using targeted amplification and sequencing of a single nucleotide polymorphism panel. The dd‐cfDNA levels were correlated to paired events of biopsy‐based diagnosis of rejection. The median dd‐cfDNA was 0.07% in reference HT recipients (2164 samples) and 0.17% in samples classified as acute rejection (35 samples; P = .005). At a 0.2% threshold, dd‐cfDNA had a 44% sensitivity to detect rejection and a 97% negative predictive value. In the cohort at risk for AMR (11 samples), dd‐cfDNA levels were elevated 3‐fold in AMR compared with patients without AMR (99 samples, P = .004). The standardized dd‐cfDNA test identified acute rejection in samples from a broad population of HT recipients. The reported test performance characteristics will guide the next stage of clinical utility studies of the dd‐cfDNA assay.     

Comparison of de novo IgM and IgG anti‐HLA DSAs between belatacept‐ and calcineurin‐treated patients: An analysis of the BENEFIT and BENEFIT‐EXT trial cohorts

Preventing conversion of donor‐specific anti‐HLA antibodies (DSAs) from an IgM‐to‐IgG could a way to prevent chronic rejection. We evaluated whether belatacept‐treated patients (belatacept less‐intensive [LI] or more‐intensive [MI] regimens) have a lower rate of conversion than do cyclosporine A (CsA)–treated patients. We included 330 HLA‐mismatched patients from 2 phase 3 trials with either (a) complete donor/recipient HLA‐A, ‐B, ‐DR, and ‐DQ loci typing or (b) incomplete HLA typing with IgG DSAs detected pretransplant or posttransplant. IgM and IgG DSAs were tested with single antigen beads at 0, 6, 12, 24, and 36 months posttransplant. The overall (preexisting or de novo) rates of IgM‐ and IgG‐positive DSAs were 29% and 34%, respectively. The pretransplant IgM and IgG DSA‐positive frequencies were similar between treatment groups. The IgG‐positive dnDSA rate was significantly higher in the CsA‐treated group (34%) compared with the belatacept‐LI (8%) and belatacept‐MI (11%) (P < .001) groups. In IgM‐positive dnDSA patients, the IgG‐positive dnDSA rate of conversion was 2.8 times higher in the CsA group than in the combined belatacept groups (P = .006). However, the observed association between belatacept treatment and more limited conversion of IgM‐to‐IgG dnDSAs was based on a limited number of patients and requires further validation.     

Response to treatment and long‐term outcomes in kidney transplant recipients with acute T cell–mediated rejection

The recent recognition of complex and chronic phenotypes of T cell–mediated rejection (TCMR) has fostered the need to better evaluate the response of acute TCMR—a condition previously considered to lack relevant consequences for allograft survival—to the standard of care. In a prospective cohort of kidney recipients (n = 256) with biopsy‐proven acute TCMR receiving corticosteroids, we investigated clinical, histological, and immunological phenotypes at the time of acute TCMR diagnosis and 3 months posttreatment. Independent posttreatment determinants of allograft loss included the glomerular filtration rate (GFR) (HR = 0.94; 95% CI = 0.92‐0.96; P < .001), proteinuria (HR = 1.40; 95% CI = 1.10‐1.79; P = .007), time since transplantation (HR = 1.02; 95% CI = 1.00‐1.03; P = .016), peritubular capillaritis (HR = 2.27; 95% CI = 1.13‐4.55; P = .022), interstitial inflammation in sclerotic cortical parenchyma (i‐IF/TA) (HR = 1.87; 95% CI = 1.08‐3.25; P = .025), and donor‐specific anti‐HLA antibodies (DSAs) (HR = 2.67; 95% CI = 1.46‐4.88; P = .001). Prognostic value was improved using a composite evaluation of response to treatment versus clinical parameters only (cNRI = 0.68; 95% CI = 0.41‐0.95; P < .001). A classification tree for allograft loss identified five patterns of response to treatment based on the posttreatment GFR, i‐IF/TA, and anti‐HLA DSAs (cross‐validated accuracy = 0.80). Compared with responders (n = 155, 60.5%), nonresponders (n = 101, 39.5%) had a higher incidence of de novo DSAs, antibody‐mediated rejection, and allograft loss at 10 years (P < .001 for all comparisons). Thus, clinical, histological, and immunological assessment of response to treatment of acute TCMR revealed different profiles of the response to treatment with distinct outcomes.     

Abatacept as rescue immunosuppression after calcineurin inhibitor treatment failure in renal transplantation

A majority of kidney transplant recipients receive calcineurin inhibitor‐based immunosuppression. However, some do not tolerate calcineurin inhibitors and require other immunosuppressive strategies. Until recently, alternative approaches have been associated with inferior outcomes, but recent methods have effectively utilized belatacept in calcineurin inhibitor‐intolerant patients. Though promising, belatacept uptake has been limited by higher acute rejection rates, unavailability due to production shortages, and logistical challenges as a result of intravenous infusion requirements. Interestingly, its predecessor abatacept is clinically available in subcutaneous formulation to treat autoimmune disorders but has not been used in clinical transplantation. Here we report on a series of 9 calcineurin inhibitor‐intolerant transplant recipients converted to abatacept early after transplant as rescue immunosuppression during periods of belatacept unavailability. Retrospective review revealed successful allograft salvage and 100% patient and graft survival (median 115 months) after conversion to abatacept. Patients received abatacept for a median duration of 82 months with stable, long‐term renal allograft function, a single cellular rejection episode, and no clinically apparent protective immunity concerns. Hence our findings suggest that future clinical studies utilizing abatacept either de novo or as conversion therapy in transplant recipients should be considered.     

De novo donor‐specific anti‐HLA antibodies mediated rejection in liver‐transplant patients

The incidence and consequences of de novo donor‐specific anti‐HLA antibodies (DSAs) after liver transplantation (LT) are not well known. We investigated the incidence, risk factors, and complications associated with de novo DSAs in this setting. A total of 152 de novo liver‐transplant patients, without preformed anti‐HLA DSAs, were tested for anti‐HLA antibodies, with single‐antigen bead technology, before, at transplantation, at 1, 3, 6 and 12 months after transplantation, and thereafter annually and at each time they presented with increased liver‐enzyme levels until the last follow‐up, that is, 34 (1.5–77) months. Twenty‐one patients (14%) developed de novo DSAs. Of these, five patients had C1q‐binding DSAs (24%). Younger age, low exposure to calcineurin inhibitors, and noncompliance were predictive factors for de novo DSA formation. Nine of the 21 patients (43%) with de novo DSAs experienced an acute antibody‐mediated rejection (AMR). Positive C4d staining was more frequently observed in liver biopsies of patients with AMR (9/9 vs. 1/12, P < 0.0001). Eight patients received a B‐cell targeting therapy, and one patient received polyclonal antibodies. Only one patient required retransplantation. Patient‐ and graft‐survival rates did not differ between patients with and without DSAs. In conclusion, liver‐transplant patients with liver abnormalities should be screened for DSAs and AMR.     

Tailored use of belatacept in adolescent kidney transplantation

Adolescent transplant recipients are at risk for nonadherence, development of de novo donor‐specific antibody (dnDSA), and allograft loss. Belatacept, a selective T cell costimulatory blocker, is associated with reduced dnDSA, improved renal function, and prolonged allograft survival when compared to calcineurin inhibitor‐based regimens in adults; however, its use in children is scant. Three adolescents were initiated on belatacept between August 2017 and September 2018 at the time of kidney transplantation. Selection criteria included age ≥ 14 and EBV IgG + serostatus. Intraoperative alemtuzumab and methylprednisolone were given as induction therapy. Tailored maintenance therapy included steroid‐free belatacept and sirolimus for two patients. One patient was initially maintained steroid‐free on belatacept and belimumab, an inhibitor of B cell activating factor to treat concurrent systemic lupus erythematous; steroids were added subsequently. Renal function, biopsy‐proven rejection, dnDSA, allograft survival, infection, nonadherence, and proteinuria were monitored. Renal function was 86, 73, 52 mL/min/1.73 m² at 20, 20, and 8 months, respectively. There was 100% adherence to therapy and no development of dnDSA. All patients had treatable infections. One developed steroid‐responsive acute cellular rejection. Belatacept‐based regimens can be tailored for adolescent recipients with good short‐term clinical outcomes.     

Donor‐specific antibodies detected by single antigen beads alone can help risk stratify patients undergoing retransplantation across a repeat HLA mismatch

Whether reexposure to mismatched HLA antigens (RMM) in the setting of a negative crossmatch is associated with increased immunological risk remains an area of uncertainty. This is due to evidence derived predominantly from registry data, which lacks comprehensive information on alloantibody and rejection. In this study, we analyze the impact of low‐level preformed donor‐specific antibodies (DSA) against an RMM on transplant outcomes. From 1988 consecutive renal transplant recipients, we analyzed 179 patients undergoing retransplantation, of whom 55 had a RMM. All patients were crossmatch negative and preformed DSA were detected by single antigen beads alone. Multivariate analysis revealed that patients with preformed DSA against an RMM were independently at risk of antibody‐mediated rejection (HR 8.70 [3.42‐22.10], P < .0001) and death‐censored allograft loss (HR 3.08 [1.17‐8.14], P = .023). In addition, prior transplant nephrectomy (HR 2.04 [1.00‐4.17], P = .0495) was also associated with allograft failure, whereas receiving a retransplant that was matched at HLA class II was associated with a favorable outcome (HR 0.37 [0.14‐0.99], P = .047). In the absence of preformed DSA, an RMM was not associated with de novo DSA development, rejection, or allograft loss. In conclusion, an RMM portends increased immunological risk only in the presence of a preformed DSA in patients undergoing retransplantation.     

Histological picture of antibody‐mediated rejection without donor‐specific anti‐HLA antibodies: Clinical presentation and implications for outcome

In this cohort study (n = 935 transplantations), we investigated the phenotype and risk of graft failure in patients with histological criteria for antibody‐mediated rejection (ABMR) in the absence of circulating donor‐specific anti‐human leukocyte antigen (HLA) antibodies (DSA), and compared this to patients with definite ABMR and HLA‐DSA‐positivity. The histological picture did not differ between HLA‐DSA‐positive (n = 85) and HLA‐DSA‐negative (n = 123) cases of ABMR histology, apart from increased complement split product 4d (C4d) deposition in the peritubular capillaries in HLA‐DSA‐positive cases. Histology of ABMR without HLA‐DSA was more transient than DSA‐positive ABMR, and patients with ABMR histology without HLA‐DSA had graft survival superior to that of HLA‐DSA‐positive patients, independent of concomitant T cell–mediated rejection (38.2%) or borderline changes (17.9%). Multivariate analysis showed that the risk of graft failure was not higher in patients with histological picture of ABMR (ABMR_h) in the absence of HLA‐DSA, compared to patients without ABMR_h. Despite an association between C4d deposition and HLA‐DSA‐positivity, using C4d deposition as alternative for the DSA criterion in the diagnosis of ABMR, as proposed in Banff 2017, did not contribute to the prognosis of graft function and graft failure. We concluded that biopsies with ABMR_h but without detectable HLA‐DSA represent a distinct, often transient phenotype with superior allograft survival.     

Safety and efficacy of eculizumab for the prevention of antibody‐mediated rejection after deceased‐donor kidney transplantation in patients with preformed donor‐specific antibodies

The presence of preformed donor‐specific antibodies in transplant recipients increases the risk of acute antibody‐mediated rejection (AMR). Results of an open‐label single‐arm trial to evaluate the safety and efficacy of eculizumab in preventing acute AMR in recipients of deceased‐donor kidney transplants with preformed donor‐specific antibodies are reported. Participants received eculizumab as follows: 1200 mg immediately before reperfusion; 900 mg on posttransplant days 1, 7, 14, 21, and 28; and 1200 mg at weeks 5, 7, and 9. All patients received thymoglobulin induction therapy and standard maintenance immunosuppression including steroids. The primary end point was treatment failure rate, a composite of biopsy‐proved grade II/III AMR (Banff 2007 criteria), graft loss, death, or loss to follow‐up, within 9 weeks posttransplant. Eighty patients received transplants (48 women); the median age was 52 years (range 24‐70 years). Observed treatment failure rate (8.8%) was significantly lower than expected for standard care (40%; P < .001). By 9 weeks, 3 of 80 patients had experienced AMR, and 4 of 80 had experienced graft loss. At 36 months, graft and patient survival rates were 83.4% and 91.5%, respectively. Eculizumab was well tolerated and no new safety concerns were identified. Eculizumab has the potential to provide prophylaxis against injury caused by acute AMR in such patients (EudraCT 2010‐019631‐35).     

The clinical and pathological significance of borderline T cell–mediated rejection

The pathological diagnosis of borderline rejection (BL‐R) denotes possible T cell–mediated rejection (TCMR), but its clinical significance is uncertain. This single‐center, cross‐sectional cohort study compared the functional and histological outcomes of consecutive BL‐R diagnoses (n = 146) against normal controls (n = 826) and acute TCMR (n = 55) from 551 renal transplant recipients. BL‐R was associated with the following: contemporaneous renal dysfunction, acute tubular necrosis, and chronic tubular atrophy (P < .001); progressive tubular injury with fibrosis by longitudinal sequential histology (45.3% at 1 year); increased subsequent acute rejection (39.4%), allograft failure (P < .001), and patient mortality (P = .007). BL‐R detected by biopsy indicated for impaired function was followed by suboptimal functional recovery (46.3%), persistent inflammation (27.2%), and acute rejection episodes (50.0%) despite antirejection treatment in 83.3%. By 1 year after BL‐R, the incidence of new‐onset microvascular inflammation (9.3%), C4d staining (22.3%), transplant glomerulopathy (13.3%), and de novo donor‐specific antibodies (31.5%) exceeded normal controls (P < .05‐.001). BL‐R inflammation in protocol biopsy persisted in 28.0% and progressed to acute rejection in 32.6%; however, it resolved in 61.6% of the untreated cases. In summary, BL‐R is a heterogeneous diagnostic grouping, ranging from mild inconsequential inflammation to clinically significant TCMR, which is capable of immune‐mediated tubular injury resulting in inferior functional, immunological, and histological consequences.     

Ten‐year outcomes in a randomized phase II study of kidney transplant recipients administered belatacept 4‐weekly or 8‐weekly

In the phase II IM103‐100 study, kidney transplant recipients were first randomized to belatacept more‐intensive‐based (n = 74), belatacept less‐intensive‐based (n = 71), or cyclosporine‐based (n = 73) immunosuppression. At 3‐6 months posttransplant, belatacept‐treated patients were re‐randomized to receive belatacept every 4 weeks (4‐weekly, n = 62) or every 8 weeks (8‐weekly, n = 60). Patients initially randomized to cyclosporine continued to receive cyclosporine‐based immunosuppression. Cumulative rates of biopsy‐proven acute rejection (BPAR) from first randomization to year 10 were 22.8%, 37.0%, and 25.8% for belatacept more‐intensive, belatacept less‐intensive, and cyclosporine, respectively (belatacept more‐intensive vs cyclosporine: hazard ratio [HR] = 0.95; 95% confidence interval [CI] 0.47‐1.92; P = .89; belatacept less‐intensive vs cyclosporine: HR = 1.61; 95% CI 0.85‐3.05; P = .15). Cumulative BPAR rates from second randomization to year 10 for belatacept 4‐weekly, belatacept 8‐weekly, and cyclosporine were 11.1%, 21.9%, and 13.9%, respectively (belatacept 4‐weekly vs cyclosporine: HR = 1.06, 95% CI 0.35‐3.17, P = .92; belatacept 8‐weekly vs cyclosporine: HR = 2.00, 95% CI 0.75‐5.35, P = .17). Renal function trends were estimated using a repeated‐measures model. Estimated mean GFR values at year 10 for belatacept 4‐weekly, belatacept 8‐weekly, and cyclosporine were 67.0, 68.7, and 42.7 mL/min per 1.73 m², respectively (P<.001 for overall treatment effect). Although not statistically significant, rates of BPAR were 2‐fold higher in patients administered belatacept every 8 weeks vs every 4 weeks.     

Donor‐Specific HLA Antibodies in Living Versus Deceased Donor Liver Transplant Recipients

With less ischemia, improved donor selection and controlled procedures, living donor liver transplantation (LDLT) might lead to less HLA donor‐specific antibody (DSA) formation or fewer adverse outcomes than deceased donor liver transplantation (DDLT). Using the multicenter A2ALL (Adult‐to‐Adult Living Donor Liver Transplantation Cohort Study) biorepository, we compared the incidence and outcomes of preformed and de novo DSAs between LDLT and DDLT. In total, 129 LDLT and 66 DDLT recipients were identified as having serial samples. The prevalence of preformed and de novo DSAs was not different between DDLT and LDLT recipients (p = 0.93). There was no association between patient survival and the timing (preformed vs. de novo), class (I vs. II) and relative levels of DSA between the groups; however, preformed DSA was associated with higher graft failure only in DDLT recipients (p = 0.01). De novo DSA was associated with graft failure regardless of liver transplant type (p = 0.005) but with rejection only in DDLT (p = 0.0001). On multivariate analysis, DSA was an independent risk factor for graft failure regardless of liver transplant type (p = 0.017, preformed; p = 0.002, de novo). In conclusion, although similar in prevalence, DSA may have more impact in DDLT than LDLT recipients. Although our findings need further validation, future research should more robustly test the effect of donor type and strategies to mitigate the impact of DSA.