A New Diagnostic Algorithm for Antibody‐Mediated Microcirculation Inflammation in Kidney Transplants

We studied the significance of microcirculation inflammation in kidney transplants, including 329 indication biopsies from 251 renal allograft recipients, who were mostly nonpresensitized (crossmatch negative). Glomerulitis (g) and peritubular capillaritis (ptc) were often associated with antibody‐mediated rejection (65% and 75%, respectively), but were also found in other diseases in the absence of donor‐specific antibody (DSA): T‐cell‐mediated rejection (ptc, g), glomerulonephritis (g) and acute tubular necrosis (ptc). To develop rules for reducing the nonspecificity of microcirculation inflammation and defining the best grading thresholds associated with DSA, we built and validated a decision tree to predict DSA. The decision tree revealed that g + ptc sum (addition of g‐score plus ptc‐score) was the best predictor of DSA, followed by time posttransplant, then C4d, which had a small role. Late biopsies with g + ptc > 0 showed higher frequency of DSA compared to early biopsies with g + ptc > 0 (79% vs. 27%). Microcirculation inflammation in early biopsies was often false positive (antibody‐independent). The decision tree predicted DSA with higher sensitivity and accuracy than C4d staining. Microcirculation inflammation sum score predicted graft failure independently of time, C4d and transplant glomerulopathy. Thus any degree of microcirculation inflammation in late kidney transplant biopsies strongly indicates presence of DSA and predicts progression to graft failure.     

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.     

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.     

Isolated v‐lesion in kidney transplant recipients: Characteristics,association with DSA,and histological follow‐up

Isolated v‐lesion (IvL) represents a rare and challenging situation in renal allograft biopsies because it is unknown whether IvL truly represents rejection, antibody‐ or T cell–mediated, or not. This multicentric retrospective study describes the clinicopathological features of IvL with an emphasis on the donor‐specific antibody (DSA) status, histological follow‐up, and graft survival. Inclusion criteria were the presence of v‐lesion with minimal interstitial (i ≤ 1) and microvascular inflammation (g + ptc≤1). C4d‐positive biopsies were excluded. We retrospectively found 33 IvL biopsies in 33 patients, mainly performed in the early posttransplantation period (median time 27 days) and clinically indicated in 66.7%. A minority of recipients (5/33, 15.2%) had DSA at the time of biopsy. IvL was treated by anti‐rejection therapy in 21 cases (63.6%), whereas 12 (36.4%) were untreated. Seventy percent of untreated patients and 66% of treated patients showed favorable histological evolution on subsequent biopsy. Kidney graft survival in IvL was significantly higher than in a matched cohort of antibody‐mediated rejection with arteritis. In conclusion, IvL is not primarily antibody‐mediated and may show a favorable evolution. The heterogeneity of IvL pathophysiology on early biopsies should prompt DSA testing as well as close clinical and histological follow‐up in all patients with IvL.     

Microarray Diagnosis of Antibody‐Mediated Rejection in Kidney Transplant Biopsies: An International Prospective Study (INTERCOM)

In a reference set of 403 kidney transplant biopsies, we recently developed a microarray‐based test that diagnoses antibody‐mediated rejection (ABMR) by assigning an ABMR score. To validate the ABMR score and assess its potential impact on practice, we performed the present prospective INTERCOM study ( clinicaltrials.gov NCT01299168) in 300 new biopsies (264 patients) from six centers: Baltimore, Barcelona, Edmonton, Hannover, Manchester and Minneapolis. We assigned ABMR scores using the classifier created in the reference set and compared it to conventional assessment as documented in the pathology reports. INTERCOM documented uncertainty in conventional assessment: In 41% of biopsies where ABMR features were noted, the recorded diagnoses did not mention ABMR. The ABMR score correlated with ABMR histologic lesions and donor‐specific antibodies, but not with T cell–mediated rejection lesions. The agreement between ABMR scores and conventional assessment was identical to that in the reference set (accuracy 85%). The ABMR score was more strongly associated with failure than conventional assessment, and when the ABMR score and conventional assessment disagreed, only the ABMR score was associated with early progression to failure. INTERCOM confirms the need to reduce uncertainty in the diagnosis of ABMR, and demonstrates the potential of the ABMR score to impact practice.     

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.     

Microvascular inflammation in renal allograft biopsies assessed by endothelial and leukocyte co‐immunostain: a retrospective study on reproducibility and clinical/prognostic correlates

The most prominent histologic lesion in antibody‐mediated rejection is microvascular inflammation (MVI); however, its recognition and scoring can be challenging and poorly reproducible between pathologists. We developed a dual immunohistochemical (IHC)‐stain (anti‐CD34/anti‐CD45 for endothelium/leukocytes) as ancillary tool to improve on the semi‐quantitative Banff scores and allow quantification of MVI. We examined the relationship between CD34–CD45 IHC‐based quantitative MVI score (the inflamed peritubular capillary ratio, iptcr) and renal‐graft failure or donor‐specific antibodies (DSA) strength at the time of biopsy. Quantitative iptcr score was significantly associated with renal graft failure (hazard ratio 1.81, per 1 SD‐unit [0.13 points] of iptcr‐increase; P = 0.026) and predicted the presence and strength of DSA (ordinal odds ratio: 2.42; P = 0.005; 75 biopsies/60 kidney transplant recipients; 30 HLA‐ and/or ABO‐incompatible). Next, we assessed inter‐pathologist agreement for ptc score and ptc extent (focal/diffuse) using CD34–CD45 IHC as compared to conventional stain. Compared to conventional stain, CD34–CD45 IHC significantly increased inter‐pathologist agreement on ptc score severity and extent (κ‐coefficient from 0.52–0.80 and 0.46–0.68, respectively, P < 0.001). Our findings show that CD34–CD45 IHC improves reproducibility of MVI scoring and facilitates MVI quantification and introduction of a dual anti‐CD34/CD45 has the potential to improve recognition of MVI ahead of DSA results.     

Anti‐C1s monoclonal antibody BIVV009 in late antibody‐mediated kidney allograft rejection—results from a first‐in‐patient phase 1 trial

The classical pathway (CP) of complement may contribute to the pathogenesis of antibody‐mediated rejection (ABMR). Selective CP blockade may be a promising strategy to counteract rejection. The objective of this first‐in‐patient phase 1b trial was to evaluate the safety/tolerability and CP‐blocking potential of 4 weekly doses (60 mg/kg) of the anti‐C1s antibody BIVV009 in complement‐mediated disorders. Here we describe the results in a cohort of 10 stable kidney transplant recipients (median of 4.3 years posttransplantation) with late active ABMR and features of CP activation, such as capillary C4d or complement‐fixing donor‐specific antibodies (DSA). During 7 weeks follow‐up, no severe adverse events were reported, and BIVV009 profoundly inhibited overall and DSA‐triggered CP activation in serum. Five of 8 C4d‐positive recipients turned C4d‐negative in 5‐week follow‐up biopsies, while another 2 recipients showed a substantial decrease in C4d scores. There was, however, no change in microcirculation inflammation, gene expression patterns, DSA levels, or kidney function. In conclusion, we demonstrate that BIVV009 effectively blocks alloantibody‐triggered CP activation, even though short‐course treatment had no effect on indices of activity in late ABMR. This initial trial provides a valuable basis for future studies designed to clarify the therapeutic value of CP blockade in transplantation. ClinicalTrials.gov NCT#02502903.     

Identifying Subphenotypes of Antibody‐Mediated Rejection in Kidney Transplants

The key lesions in antibody‐mediated kidney transplant rejection (ABMR) are microcirculation inflammation (peritubular capillaritis and/or glomerulitis lesions, abbreviated “pg”) and glomerular double contours (cg lesions). We used these features to explore subphenotypes in 164 indication biopsies with ABMR‐related diagnoses: 137 ABMR (109 pure and 28 mixed with T cell–mediated rejection [TCMR]) and 27 transplant glomerulopathy (TG), identified from prospective multicenter studies. The lesions indicated three ABMR subphenotypes: pgABMR, cgABMR, and pgcgABMR. Principal component analysis confirmed these subphenotypes and showed that TG can be reclassified as pgcgABMR (n = 17) or cgABMR (n = 10). ABMR‐related biopsies included 45 pgABMR, 90 pgcgABMR, and 25 cgABMR, with four unclassifiable. Dominating all time intervals was the subphenotype pgcgABMR. The pgABMR subphenotype presented earliest (median <2 years), frequently mixed with TCMR, and was most associated with nonadherence. The cgABMR subphenotype presented late (median 9 years). Subphenotypes differed in their molecular changes, with pgABMR having the most histologic–molecular discrepancies (i.e. potential errors). Donor‐specific antibody (DSA) was not identified in 29% of pgcgABMR and 46% of cgABMR, but failure rates and molecular findings were similar to cases where DSA was known to be positive. Thus, ABMR presents distinct subphenotypes, early pg‐dominant, late cg‐dominant, and combined pgcg phenotype, differing in time, molecular features, accompanying TCMR, HLA antibody, and probability of nonadherence.     

Markers of graft microvascular endothelial injury may identify harmful donor‐specific anti‐HLA antibodies and predict kidney allograft loss

Graft microvasculature is a major target of donor‐specific antibodies (DSA) and endothelial damage is direct evidence of antibody‐mediated rejection (ABMR). Using immunohistochemistry, we analyzed the expression of three microvascular endothelial activation markers (fascin, vimentin, and hsp47), suggestive of endothelial‐to‐mesenchymal transition (EndMT) in 351 graft biopsies from 248 kidney recipients, with concomitant screening of circulating antihuman leukocyte antigen (HLA) DSA at the time of the biopsy. The factors associated with EndMT marker expression were DSA and the presence of microvascular inflammation (MI). EndMT expressing grafts had significantly more allograft loss compared to EndMT negative grafts (P < .0001). The expression of EndMT markers positively correlated with anti‐HLA DSA class II mean fluorescence intensity (MFI) levels and especially identified DQ and DR antibodies as being more closely associated with microvascular injury. Moreover, only DSA linked to positive EndMT score affected allograft survival, regardless of DSA MFI levels or presence of C4d deposition. Thus, EndMT markers could represent a clinically relevant tool for early identification of ongoing endothelial injury, harmful DSA, and patients at high risk for allograft failure.     

Positive Crossmatch Kidney Transplant Recipients Treated With Eculizumab: Outcomes Beyond 1 Year

This study examined outcomes beyond 1 year in eculizumab‐treated (EC) positive crossmatch kidney transplants (+XMKTx) compared to a historical control group. +XMKTx received desensitization with either plasma exchange (PE) alone (N = 48) or PE and EC (N = 30). EC, given for at least 1 month, was continued in the setting of persistently high DSA (B flow cytometric crossmatch [BFXM] >200) including: 4 weeks (n = 14); 9 weeks (n = 6), 6 months (n = 2), and 12 months (n = 8). All patients had at least 2 years follow‐up. The incidence of acute clinical ABMR was lower in the EC group than controls (6.7% vs. 43.8% p < 0.01). Death‐censored allograft survival was similar between groups. Chronic ABMR was the main cause of graft loss. On 1‐year protocol biopsies, no differences were noted between EC and controls including: cg score >0, 26.7% versus 31.9% (p = 0.62), ptc score ≥ 2, 60.0% versus 60.0% (p = 1.00), or C4d + , 33.8% versus 13.5% (p = 0.08). A persistently high BFXM in EC‐treated patients was associated with cg score >0 at 1 year, while EC appeared to protect against cg if the BFXM remained low. We conclude that despite decreasing acute clinical ABMR rates, EC treatment does not prevent chronic ABMR in recipients with persistently high BFXM after +XMKTx.     

Using Molecular Phenotyping to Guide Improvements in the Histologic Diagnosis of T Cell–Mediated Rejection

Recognition that some lesions typical of T cell–mediated rejection (TCMR) also occur in antibody‐mediated rejection requires revision of the histologic TCMR definition. To guide this process, we assessed the relative importance of various lesions and the performance of new histology diagnostic algorithms, using molecular TCMR scores as histology‐independent estimates of true TCMR. In 703 indication biopsies, random forest analysis and logistic regression indicated that interstitial infiltrate (i‐lesions) and tubulitis (t‐lesions) were the key histologic predictors of molecular TCMR, with arteritis (v‐lesions) having less importance. Histology predicted molecular TCMR more accurately when diagnoses were assigned by strictly applying the Banff rules to the lesion scores and redefining isolated v‐lesion TCMR. This improved prediction from area under the curve (AUC) 0.70 with existing rules to AUC 0.80. Further improvements were achieved by introducing more categories to reflect inflammation (AUC 0.84), by summing the lesion scores (AUC 0.85) and by logistic regression (AUC 0.90). We concluded that histologic assessment of TCMR can be improved by placing more emphasis on i‐ and t‐lesions and incorporating new algorithms for diagnosis. Nevertheless, some discrepancies between histologic and molecular diagnoses persist, partially due to the inherent nonspecificity of i‐ and t‐lesions, and molecular methods will be required to help resolve these cases.     

Donor Specificity but Not Broadness of Sensitization Is Associated With Antibody‐Mediated Rejection and Graft Loss in Renal Allograft Recipients

Panel‐reactive antibodies are widely regarded as an important immunological risk factor for rejection and graft loss. The broadness of sensitization against HLA is most appropriately measured by the “calculated population‐reactive antibodies” (cPRA) value. In this study, we investigated whether cPRA represent an immunological risk in times of sensitive and accurate determination of pretransplantation donor‐specific HLA antibodies (DSA). Five hundred twenty‐seven consecutive transplantations were divided into four groups: cPRA 0% (n = 250), cPRA 1–50% (n = 129), cPRA 51–100% (n = 43), and DSA (n = 105). Patients without DSA were considered as normal risk and received standard immunosuppression without T cell–depleting induction. Patients with DSA received an enhanced induction therapy and maintenance immunosuppression. Surveillance biopsies were performed at 3 and 6 months. Median follow‐up was 5.7 years. Among the three cPRA groups, there were no differences regarding the 1‐year incidence of ABMR (p = 0.16) and TCMR (p = 0.75). The 5‐year allograft survival rates were similar and around 87% (p = 0.28). The estimated glomerular filtration rate at last follow‐up was 50–53 mL/min (p = 0.45). On multivariable Cox proportional hazard analysis, the strongest independent predictor for ABMR and (death‐censored) graft survival was pretransplantation DSA. cPRA were not predictive for ABMR, TCMR, or (death‐censored) graft survival. We conclude that with current DSA assignment, the broadness of sensitization measured by cPRA does not imply an immunological risk.     

Discrepancy analysis comparing molecular and histology diagnoses in kidney transplant biopsies

Discrepancy analysis comparing two diagnostic platforms offers potential insights into both without assuming either is always correct. Having optimized the Molecular Microscope Diagnostic System (MMDx) in renal transplant biopsies, we studied discrepancies within MMDx (reports and sign‐out comments) and between MMDx and histology. Interpathologist discrepancies have been documented previously and were not assessed. Discrepancy cases were classified as “clear” (eg, antibody‐mediated rejection [ABMR] vs T cell–mediated rejection [TCMR]), “boundary” (eg, ABMR vs possible ABMR), or “mixed” (eg, Mixed vs ABMR). MMDx report scores showed 99% correlations; sign‐out interpretations showed 7% variation between observers, all located around boundaries. Histology disagreed with MMDx in 37% of biopsies, including 315 clear discrepancies, all with implications for therapy. Discrepancies were distributed widely in all histology diagnoses but increased in some scenarios; for example, histology TCMR contained 14% MMDx ABMR and 20% MMDx no rejection. MMDx usually gave unambiguous diagnoses in cases with ambiguous histology, for example, borderline and transplant glomerulopathy. Histology lesions or features associated with more frequent discrepancies (eg, tubulitis, arteritis, and polyomavirus nephropathy) were not associated with increased MMDx uncertainty, indicating that MMDx can clarify biopsies with histologic ambiguity. The patterns of histology‐MMDx discrepancies highlight specific histology diagnoses in which MMDx assessment should be considered for guiding therapy.     

What have we learned about how to prevent and treat antibody‐mediated rejection in kidney transplantation?

Antibody‐mediated rejection (ABMR) in kidney transplantation is a major cause of late graft loss, and despite all efforts to date the “standard of care” remains plasmapheresis, IVIg, and steroids, which itself is based on low quality evidence. This review focuses on the risk factors leading to memory and de novo donor‐specific antibody (DSA)‐associated ABMR, the optimal prevention strategies for ABMR, and advances in  adjunctive and emerging therapies for ABMR. Because new agents require regulatory approval via a Phase 3 randomized control trial (RCT), an overview of progress in innovative trial design for ABMR is provided. Finally, based on the insights gained in the biology of ABMR, current knowledge gaps are identified for future research that could significantly affect our understanding of how to optimally treat ABMR.