When renal allografts turn DARC

BACKGROUND: The Duffy antigen-receptor for chemokines (DARC) is a chemokine-binding protein that is up-regulated on peritubular capillaries (PTC) during cellular renal allograft rejection. C4d deposition and accumulation of inflammatory cells in PTC are indicators of humoral renal allograft rejection. Because DARC is expressed at the site of C4d deposition and might be involved in inflammatory cell recruitment, the authors evaluated the expression of DARC in different forms of human renal allograft rejection. METHODS: Deposition of C4d and DARC expression were evaluated by immunohistochemistry in 42 renal transplant biopsy specimens. Biopsy specimens were subdivided according to histologic and immunohistochemical results, that is, C4d-negative biopsy specimens with (Banff 1, n=8) or without signs of cellular rejection (n=16), and C4d-positive biopsies (humoral rejection) with (Banff 1 rejection, n=7) or without cellular rejection (n=11). RESULTS: DARC expression was found on a small number of PTC and veins in patients without rejection. Cellular and humoral rejection led to a comparable increase in the number of DARC-positive PTC (9.7 and 8.7 vs. 2.6 vessels per high-power field [HPF], respectively). The highest numbers were found in biopsy specimens with signs of both humoral and cellular rejection (17.5 vessels per HPF). CONCLUSIONS: This is the first study that demonstrates an induction of a chemokine-binding protein at the site of C4d deposition in humoral allograft rejection. The additive effect of humoral and cellular rejection on DARC expression might imply different pathways of DARC induction for different forms of allograft rejection.     

Capillary deposition of complement split product C4d in renal allografts is associated with basement membrane injury in peritubular and glomerular capillaries: a contribution of humoral immunity to chronic allograft rejection

Endothelial deposition of the complement split product C4d is an established marker of antibody-mediated acute renal allograft rejection. A contribution of alloantibody-dependent immune reactions to chronic rejection is under discussion. In this study, the association of immunohistochemically detected endothelial C4d deposition in peritubular capillaries (PTC) with morphologic features of chronic renal allograft injury was investigated in a large study cohort. C4d deposits in PTC were detected in 73 (34%) of 213 late allograft biopsies performed in 213 patients more than 12 mo after transplantation (median, 4.9 yr) because of chronic allograft dysfunction. Endothelial C4d deposition was found to be associated with chronic transplant glomerulopathy (CG) (P < 0.0001), with basement membrane multilayering in PTC (P = 0.01), and with an accumulation of mononuclear inflammatory cells in PTC (P < 0,001). Furthermore, C4d deposits in PTC (in biopsies with normal glomerular morphology) were associated with development of CG in follow-up biopsies. Other morphologic features of chronic allograft nephropathy (with exception of tubular atrophy) were not associated with C4d deposits in PTC. Analyses of previous and follow-up biopsies revealed that C4d deposits may occur de novo and may also disappear at any time after transplantation. In conclusion, the data suggest that complement activation in renal microvasculature, indicating humoral alloreactivity, contributes to chronic rejection characterized by chronic transplant glomerulopathy and basement membrane multilayering in PTC.     

Capillary deposition of complement C4d and C3d in pediatric renal allograft biopsies

BACKGROUND: Peritubular capillary deposition of C4d (C4d(PTC)) is a marker of antibody-mediated alloresponse and is associated with poor graft survival in adults. C3d(PTC) has received less attention; its significance is unclear. To date no information has been gained in children. METHODS: The prevalence of C4d(PTC) and C3d(PTC) in pediatric renal allograft biopsies (n=77, 31 cadaveric kidneys) was analyzed retrospectively. Associations with histology, donor-specific antibodies (DSAs), and outcome were investigated. RESULTS: The overall prevalence of C4d(PTC) and C3d(PTC) was 52% and 48%, respectively. C3d(PTC) was associated with C4d(PTC) (P<0.0001). Thirty-six percent of acute rejections were cellular, 28% were humoral, and 36% were combined cellular and humoral. C3d(PTC) was found in 57% of acute rejection biopsies. C4d(PTC), but not C3d(PTC), was associated with accumulation of polymorphonuclear cells in peritubular capillaries (P=0.02). Fifty-one percent of late biopsies (>6 months posttransplantation) had features of chronic allograft nephropathy: 50% were C4d(PTC_ positive, and 50% were C3d(PTC) positive. C4d(PTC) positive chronic allograft nephropathy biopsies had more transplant glomerulopathy (P=0.020) and mesangial matrix increase (P=0.026). C3d(PTC) tended to be associated with transplant glomerulopathy (P=0.06), but not with mesangial matrix increase. C4d(PTC) was correlated with DSA (P=0.011). Excluding early nonrejection graft losses, more grafts were lost in the C4d(PTC) positive group (P=0.019). C3d(PTC) was not associated with DSA or graft outcome. CONCLUSIONS: Our results support C4d(PTC) being a hallmark of humoral rejection in pediatric renal transplantation; its presence was associated with DSA and poorer immunologic graft outcome. In contrast, C3d(PTC), although highly associated with C4d(PTC), did not correlate with DSA or outcome.     

Peritubular capillary C4d deposition and renal outcome in post-transplant IgA nephropathy

BACKGROUNDS: Immunological staining of the transplanted kidney for C4d in peritubular capillaries (C4d(PTC)) has emerged as a useful method to detect antibody-mediated rejection in situ. In this retrospective study, we evaluated the prevalence of C4d(PTC) deposition in allograft renal biopsies diagnosed of IgA nephropathy (IgAN) and analysed its clinical significance. METHOD: Sixty-six biopsy specimens of post-transplant IgAN, which were obtained to evaluate azotemia and/or heavy proteinuria, were examined by immunohistochemical staining of the paraffin sections with polyclonal antibody for C4d. RESULTS: C4d was stained positively in peritubular capillaries in 16 (24%) of the 66 cases. The C4d(PTC)-negative (n=50) and C4d(PTC)-positive groups (n=16) were not different in recipient gender, age, donor age, type of donor (living vs. cadaveric), interval from transplantation to graft biopsy (41.6+/- 21.8 vs. 48.3+/-26.1 months) and post-biopsy follow-up period (60.3+/-23.3 vs. 56.9+/-25.4 months). During the follow-up period, 12 of 50 (24%) although the incidence of graft failure was not different by the C4d deposition in peritubular capillaries, intervals from renal biopsy to graft failure tended to be shorter in C4d(PTC)-positive cases than C4d(PTC)-negative cases. In Kaplan-Meier analysis, the renal allograft function of the C4d(PTC)-positive group deteriorated more rapidly than that of the C4d(PTC)-negative group (p<0.05). Histologically, the C4d(PTC)-positive group had findings suggestive of acute cellular rejection more commonly than the C4d(PTC)-negative group (p<0.01). CONCLUSIONS: Evidence of humoral rejection, as demonstrated by C4d(PTC) deposition, was concurrently present in significant portions of post-transplant IgAN biopsy specimens and was associated with more rapid deterioration of renal function. These results suggest that C4d(PTC) positivity needs to be determined at the time of biopsy even in cases of post-transplant glomerulonephritis and immunosuppression may need to be modified accordingly.     

Histological analysis of late renal allografts of antidonor antibody positive patients with C4d deposits in peritubular capillaries

Abstract:  The association of humoral immunity with late renal allograft dysfunction has recently been recognized, and many reports have revealed C4d deposits in peritubular capillaries (C4d in PTC), and the presence of serum antidonor HLA antibody in patients suffering from graft dysfunction, long time after transplantation. In this study, morphological changes in renal allograft biopsies more than 1 year after transplantation in 14 patients with C4d in PTC and serum antidonor antibody were investigated for the presence of chronic rejection (CR). In addition to the light microscope study, an electron microscope study was done to evaluate the multilayering of the peritubular capillary basement membrane (MLPTC). Histologically, only seven of 14 patients met the criteria of CR, and 71.4% (5/7) of CR patients had episodes of acute humoral rejection (AHR), coexisting with acute tubulointerstitial rejection. Peritubular capillaritis was observed in all patients, although it differed in severity. Transplant glomerulitis and interstitial inflammation were also observed in many patients: 71.4% (10/14) and 92.9% (13/14) respectively. MLPTC was observed in 12 patients (85.7%), but the severity of the MLPTC did not reflect the severity of peritubular capillaritis or any other histological features. The long-term outcomes of the patients CR, especially those with episodes of AHR, were poor, and two of them lost their graft functions. On the other hand, patients without CR had relatively favourable outcomes. In conclusion, we confirmed the diverse morphological changes of late renal allografts, which cannot be categorized as chronic humoral rejection (CHR), and such patients who do not have typical morphological changes such as CHR, should be followed-up on a long-term basis in order to clarify the significance of C4d on PTC in late renal allografts.     

Role of CXCR3 in cellular but not humoral renal allograft rejection

CXCR3, a chemokine receptor mainly expressed by T cells, is involved in animal transplant models and in human allograft rejection. CXCR3 expression was localized in formalin-fixed, paraffin-embedded renal allograft biopsies without signs of rejection (C4d-negative, Banff 0, n = 16), with C4d deposits as a sign of humoral rejection (C4d-positive, Banff 0, n = 8), with cellular rejection (C4d-negative, Banff I, n = 7) and with signs of both cellular and humoral rejection (C4d-positive, Banff 1, n = 5). Small, round infiltrating cells were CXCR3-positive. A high number of these cells was present in biopsies with cellular rejection (independent of C4d deposition). CXCR3-positive cells diffusely infiltrated the interstitium, including the tubular epithelium (tubulitis). CXCR3 scores and the area of CXCR3 staining were significantly higher in cellular rejection, when compared to biopsies without rejection, and with deposition of C4d alone. CXCR3-positive cells infiltrate renal allografts during cellular rejection, whereas C4d deposition is not associated with the recruitment of these cells.     

Endothelial C4d deposition is associated with inferior kidney allograft outcome independently of cellular rejection.

BACKGROUND: Capillary deposition of complement split product C4d has been suggested to be a valuable marker for humoral rejection. In this retrospective study we evaluated the clinical impact of C4d deposition in renal allografts with special emphasis on associations between C4d staining patterns and histological features of acute rejection. METHODS: One hundred and two allograft biopsies obtained from 61 kidney transplants (1-532 days after transplantation; median 14 days) were examined by immunohistochemistry on routine paraffin sections using a novel anti-C4d polyclonal antibody (C4dpAb). RESULTS: Fourty-two of 102 biopsies showed endothelial C4d deposits in peritubular capillaries (PTC). Histopathological analysis revealed a significantly lower frequency of positive C4d staining in biopsies with rather than in those without acute cellular rejection defined by the Banff grading schema (P<0.01). For clinical evaluation, patients were classified according to C4d staining in allografts (C4d(PTC) positive in at least one biopsy, n=31 vs C4d(PTC) negative in all biopsies, n=30). C4d(PTC) positive patients had significantly higher serum creatinine levels than C4d negative patients. Even in the absence of morphological evidence for rejection, differences in serum creatinine levels between C4d(PTC) positive and negative recipients were significant (6 months: 2.01+/-0.75 vs 1.41+/-0.27 mg/dl; 12 months: 1.95+/-0.60 vs 1.36+/- 0.34 mg/dl; 18 months: 1.98+/-0.50 vs 1.47+/-0.31 mg/dl; P<0.05). All patients with rejection resistant to conventional therapy (n=4) were in the C4d(PTC) positive subgroup. All recipients with panel reactive antibodies (PRA) >50% (n=8) were C4d(PTC) positive. CONCLUSIONS: Our data indicate that endothelial C4d deposition is associated with inferior graft outcome. We provide evidence that this immunohistochemical finding and its clinical impact are not associated with morphological signs of cellular rejection.     

Pathological study on the relationship between C4d, CD59 and C5b-9 in acute renal allograft rejection

Abstract:  In order to evaluate the activation or inhibition of the later phases of classical complement cascade in renal allograft presenting with acute rejection, particularly with C4d deposition on the peritubular capillary (PTC), we observed the expression of CD59 and C5b-9 on the PTC. Subjective cases were divided into two groups, an acute rejection group, of 4 males and 6 females, and a normal donor group, of 5 males and 5 females. Renal biopsies were performed at the onset of acute rejection and at the transplant operation, before reperfusion. C4d deposition on PTC was found in three of 10 cases (30%) with biopsy proven acute rejection, whereas CD59 on PTC was positively expressed in all of the rejection cases. Although C5b-9 was not observed on PTC in the acute rejection group, it was intensively deposited on the tubular basement membrane (TBM) in five cases, including the three with positive C4d on PTC. In the normal donor group, CD59 on PTC was intensively observed, whereas C5b-9 was weakly expressed on TBM. CD59, a complement regulatory factor, works as an inhibitory factor against the formation of C5b-9, a membrane attack complex. From our data, we noted the dissociation between the depositions of C4d and C5b-9 on PTC. The substantially expressed CD59 on PTC may affect this dissociation between C4d and C5b-9 on PTC. The intensive deposition of C5b-9 on TBM in acute rejection cases may suggest an independent immunological injury attacking tubular cells.     

Renal allograft biopsies in the era of C4d staining: the need for change in the Banff classification system.

C4d immunostaining in the peritubular capillaries (PTC) is a marker of antibody-mediated rejection (AMR). We evaluated the histopathologic diagnoses of 388 renal transplant biopsies since the implementation of routine C4d immunostaining at our center. Of these, 155 (40%) biopsies had evidence of acute cellular rejection (ACR), out of which 119 (77%) had pure ACR, 31 (20%) had ACR with concomitant features of AMR, and five (3%) had ACR with focal C4d staining. Sixty-four (16%) biopsies exhibited features of AMR [33 (52%) pure AMR, and 31(48%) concomitant AMR and ACR]. One hundred and fifty-five (40%) biopsies had features of interstitial fibrosis and tubular atrophy (IFTA). Of these, 20 (13%) had concomitant AMR [13 (8.5%) had pure AMR and seven (4.5%) had concomitant ACR and AMR]. Creatinine at the time of biopsy was higher in patients with mixed ACR and AMR and the clinical behavior of mixed lesions is more aggressive over time. Despite having a lower serum creatinine at the time of biopsy, patients with IFTA experienced gradual decline in graft function over time. The pathologic findings in renal allograft biopsies are often mixed and mixed lesions appear to have more aggressive clinical behavior. These findings suggest the need for change in the Banff classification system to better capture the complexity of renal allograft pathologies.     

A retrospective study of plasma cell infiltrates in explanted renal allografts

Renal transplantation is the most effective therapy in end-stage renal disease. The prognosis for transplant survival is still determined by rejection. When plasma cells predominate in the cellular infiltrate of allografts in rejection, it is called plasma cell-rich rejection, which has a poor prognosis. To study the correlation between plasma cell infiltration and humoral rejection, and to explore whether the local plasma cells were involved in renal allograft loss we analyzed 40 explanted grafts and 20 specimens removed for other diseases. All specimens were embedded, deparaffined, and stained with hematoxylin eosin (HE) for analysis by immunohistochemistry (IH). Renal allograft rejection was classified according to the Banff 1997 criteria with examinations for C4d deposition and CD138 expression. Positive C4d staining was defined by linear endothelial C4d deposition in > or =25% of cortical peritubular capillaries. The specimens designated as CD138-positive demonstrated strong and diffuse staining characteristics; trace or rare CD138-positive were classified as negative. Our results showed that among 40 renal graft specimens, 17 cases were C4d-positive, 23 cases were CD138-positive, and 13 cases were C4d and CD138 double-positive, namely, 42.5%, 57.5%, and 32.5%, respectively. Among the double-positive cases, there were 2 patients with a diagnosis of acute cellular rejection, 1 with hyperacute rejection, and 10 with chronic humoral rejection. C4d deposition and CD138-positive plasma cell infiltrate were related by a Spearman analysis (r = 0.330; P = .038). In the control group, there was only 1 case showing C4d positive activities. These observations suggested that infiltrated plasma cells in the renal allograft probably participate in humoral rejection through local secretion of antibodies.     

Peritubular capillary deposition of C4d complement fragment in ABO-incompatible renal transplantation with humoral rejection

In ABO-incompatible renal transplantation complement activation may be related to antibody-associated humoral rejection. However, immune deposits within the vasculature have been infrequently demonstrated in biopsy specimens. Whether deposition of complement fragment C4d is correlated with graft outcome and pathological findings (as measured by the severity of antibody-associated humoral rejection) is investigated in this study. Nineteen ABO-incompatible and 9 ABO-compatible renal graft biopsy specimens were selected. Four out of 19 ABO-incompatible patients lost their grafts within 1 yr. Ten out of 19 ABO-incompatible and just 1 out of 9 ABO-compatible patients, had prominent C4d deposition in peritubular capillaries. ABO-incompatible patients with predominant C4d deposition showed few tubulitis, accumulation of polymorphonuclear cells and thrombosis in peritubular and glomerular capillaries. The severity of the humoral rejection was correlated to C4d deposition in peritubular capillaries. Three out of four graft losses in ABO-incompatible renal transplantation showed severe humoral rejection and profuse deposition of C4d complement fragments in peritubular capillaries. Immunosuppression therapy was discontinued in the 4th patient, who lost his graft because of his lethal intestinal bleeding. C4d deposition in peritubular capillaries would be helpful for differential diagnosis between humoral rejection and drug-induced nephrotoxicity, and may serve as a sensitive marker of ABO-incompatible humoral rejection for patients with unsatisfactory (no glomeruli) biopsy specimens.     

C4d—The Witness of Humoral Rejection

Objective

Acute antibody-mediated (humoral) rejection is a major cause of morbidity, graft loss, and mortality among heart transplant patients. Herein we have presented our experience using C4d to characterize humoral rejection.

Materials and Methods

All nonformalin-fixed cardiac graft biopsies (protocol or emergency) received between May 2007 and May 2008 were examined by immunofluorescence for C4d.

Results

One hundred twelve endomyocardial biopsies from 25 transplanted patients included 20 males and 5 females of ages ranging from 3 to 71 years. The number of biopsies per subject varied from 1 to 11; the timespan between transplantation and the diagnostic biopsies ranged from days to 8 years. Thirteen biopsies showed acute humoral rejection (intramyocardial capillaries positive for C4d); 31, acute cellular rejection (grades 1R, 2R); 7, both humoral and cellular rejection; and 1, acute humoral rejection and allograft vasculopathy. Some of the positive biopsies belonged to the same person, and some to transplanted individuals with signs and symptoms suggestive of rejection, while others did not. The persistence of humoral rejection, despite the disappearance of a cellular component, correlated with slower clinicoechocardiographic improvement.

Conclusions

C4d positivity is a morphologic sign of humoral rejection. It may hasten the appearance and/or worsening of allograft vasculopathy independent of patient age or posttransplantation time.     

Local Complement C3 Expression is Upregulated in Humoral and Cellular Rejection of Renal Allografts

Evidence on the role of the complement system in transplantation pathology has been accelerated by the discovery of C4d as an in situ marker of antibody-mediated rejection. However, a local or systemic source of complement expression during acute rejection is under discussion. Thus, we quantitatively analyzed local RNA expression of complement component C3 as a pivotal molecule in active humoral and cellular rejection of renal allografts. After laser microdissection, real-time RT-PCR was performed for C3 using RNA extracted from tubuli and glomeruli of 68 paraffin-embedded renal allograft biopsies. Protocol and indication biopsies with signs of humoral and/or cellular rejection were investigated. Quantitative expression analysis of cytokines (IFN gamma, MCP-1, IL2, IL8) potentially influencing local C3 expression was performed. We observed a significant increase in median expression level of C3 mRNA in tubuli of C4d-positive indication biopsies, and in tubuli from indication biopsies with signs of T-cell-mediated cellular rejection. Highest expression levels were found in C4d-positive indication biopsies with signs of cellular rejection. Biopsies with upregulated C3 showed increased IFN gamma expression, suggesting allograft-infiltrating T-cells as potential stimulus for local C3 expression. Therefore, locally synthesized complement component C3 contributes to both humoral and cellular rejection, with tubular epithelial cells being a major source.     

Diagnostic value of C4d in renal allograft biopsies in different clinical settings: absence of C4d in grafts from non-heart-beating donors

Humoral mechanisms of rejection after kidney transplantation (TX) can be identified through the detection of diffuse complement C4d deposits in peritubular capillaries (PTC) in graft biopsies or donor-specific antibodies (DSA) in serum samples. It has been hypothesized that ischemic injury in the graft may facilitate humoral responses. Kidney grafts from non-heart-beating donors (NHBD) present more often severe ischemia lesions than grafts from heart-beating or living donors. METHODS: We reviewed kidney TX biopsies performed from May 2002 to November 2004 with special interest paid to recipients from NHBD. We checked corresponding frozen tissue for the detection of C4d in PTC using immunofluorescence with a monoclonal antibody against C4d. We also collected post-TX contemporaneous DSA data, either flow crossmatches or cytotoxic PRA. RESULTS: During this period, we performed 22 kidney TXs from NHBD of a total of 326 kidney TX (either single or combined with other grafts). Nine patients of this group underwent 12 biopsies for delayed graft function over 15 days or deteriorating scans. All biopsies showed acute tubular necrosis, but one also presented IA Banff acute rejection and another one had neutrophils in PTC. Frozen tissue from these 12 biopsies did not have diffuse C4d deposits in PTC. Serum samples of seven of nine patients were available: four had negative DSA flow crossmatches and three had 0% PRA within the same period. We diagnosed acute humoral rejection (AHR) in 13 patients-with acute renal dysfunction, C4d in biopsies and DSA after kidney TX-of 38 with high clinical suspicion for AHR. We detected C4d in seven biopsies of 30 patients performed more than 6 months after TX. CONCLUSIONS: Severe ischemic injury does not necessarily determine the activation of humoral mechanisms of rejection mediated through DSA. Therefore, C4d is extremely interesting for the identification of humoral rejection in any clinical setting after kidney TX.     

The presence of B-cell nodules does not necessarily portend a less favorable outcome to therapy in patients with acute cellular rejection of a renal allograft

The presence of B-cell nodules in kidney biopsies of patients undergoing acute renal allograft rejection has been reported to be associated with glucocorticoid resistance and a high risk of graft failure. In an attempt to corroborate this observation, biopsies of renal transplants that evidenced Banff grade I A acute rejection were examined for the presence of B- or T-cell nodules, the detection of which was correlated with the therapeutic response. Biopsies from 14 consecutive renal transplant recipients with a diagnosis of acute cellular rejection were examined for the presence of T (CD3-positive) or B (CD20-positive) cells by immunohistochemistry. All patients were biopsied because of a rise in serum creatinine. No biopsy showed evidence of acute humoral rejection. Immunofluorescence microscopy was negative for C4d deposition in peritubular capillaries. There were no neutrophils in the peritubular or glomerular capillaries. Five patients had T-cell nodules; four had B-cell nodules; three had both T- and B-cell nodules; two had no nodules. All biopsies contained CD3-positive cells in the tubules and in the interstitium. In all but one of the patients, episodes of acute rejection were treated with steroids (one received thymoglobulin). Furthermore two patients received mycophenolate mofetil and one, sirolimus. There were no significant differences among the groups in either the initial creatinine or the creatinine after therapy. The presence of B-cell nodules in renal allograft biopsies of patients experiencing acute cellular rejection did not portend a less favorable outcome.     

体液性排斥反应患者移植物组织C4d沉积和浆细胞聚集性浸润初探

目的检测移植肝及肾组织中浆细胞的浸润和补体C4裂解产物C4d的沉积情况,分析浆细胞浸润、C4d沉积与体液性排斥反应的相关性。方法25例肝移植术后出现不同程度肝脏损害的患者的34次经皮肝脏穿刺活体组织病理检查标本与43例因排斥反应而丧失功能的移植肾组织,进行HE染色和免疫组织化学染色,对排斥反应进行病理分型,检测移植物组织中C4d和CD138的表达,分析二者之间的相关性。同时以10例非排斥反应导致移植肾功能丧失者和供肝术前标本作为对照。结果34个移植肝组织标本病理检查诊断为急性排斥反应16个,慢性排斥反应9个,非排斥反应9个。移植前供肝病理标本中均未见C4d沉积,急性排斥反应和慢性排斥反应标本中分别有9／16（56．3％）和5／9（55．6％）见到C4d沉积现象,非排斥反应标本只有1例非吻合口胆管狭窄患者C4d染色也呈阳性（11．1％）。移植肝排斥反应标本中11／25（44．0％）CD138阳性,8／25（32．0％）标本C4d和CD138均阳性。C4d的沉积与CD138的表达存在相关性（r=0．346,P〈0．05）。43例移植肾排斥反应中,超急性排斥反应5例,急性排斥反应9例,慢性排斥反应29例;43例中,C4d阳性19例（44．2％）,CD138阳性24例（55．8％）;有10例（23．3％）C4d和CD138均阳性,C4d的沉积与CD138的表达亦存在相关性（r=0．5051,P〈0．01）。10个对照标本中,C4d阳性1个,无CD138阳性标本。结论CD138与C4d的沉积存在相关性,提示移植肝和肾组织中聚集性浸润的浆细胞可能通过局部分泌抗体的方式参与体液性排斥反应。     

First acute rejection episode after renal transplantation: study of the histopathological characteristics according to the immunological risk

Renal allograft biopsies (n=34) of two different populations of patients according to the immunological risk (high versus low-risk) have been compared retrospectively. The presence of polymorphonuclear leukocytes in peritubular capillaries was more frequent in the high-risk group. The C4d staining was positive in 10% of the low-risk patients and in 50% of the high-risk patients (P=0.03). There were more early graft loss, renal infarctions, interstitial hemorrhage, severe glomerulitis, neutrophilic glomerulitis and Banff III grade rejection in the positive C4d group. In conclusion, half of the immunized patients had a humoral rejection, patients with a C4d positive rejection had more early graft loss and more severe histological lesions.     

A case of acute humoral rejection with various depositions of C4d, IgG, IgM, and C3c in peritubular capillaries and/or glomerular capillaries

Abstract:  A 41-year-old Japanese male patient with end-stage renal disease received ABO compatible living related kidney transplantation from his sister on April 2003. The kidney functioned immediately after kidney transplantation. Protocol allograft biopsy at 1 yr after kidney transplantation was performed on April 2004. His serological data was not particular and he did not suffer with chronic inflammation. The allograft biopsy specimen revealed moderate accumulations of polymorphonuclear leukocytes in peritubular capillaries (PTCs), dilatation of PTCs and moderate infiltrations of polymorphonuclear and/or mononuclear cell in glomeruli (Transplant glomerulitis, moderate). Immunofluorescent study (IF) of a frozen section of the allograft biopsy specimen showed a strong, diffusely distributed endothelial-staining pattern in PTCs for C4d. The C4d was also strongly detected in a linear glomerular basement membrane (GBM) pattern. And widespread moderate C3c deposits, weak IgM, and IgG deposits were also seen in PTCs. Immunofluorescent study also showed granularly peripheral and mesangial deposits of strong IgM, C1q, and moderate IgG in glomeruli, IgA and C3c were faintly positive. The panel reactive antibody, which had been negative before transplantation, was positive for both HLA classes I and II at that time. We diagnosed as acute humoral rejection (AHR) and he was treated with course of steroid pulses and 5 d of gusperimus (DSG); and a total of three times Plasma exchange (PE) treatment was added. The level of serum creatinine, once increased to 1.7 mg/dL, decreased gradually to 1.4 mg/dL. He has a stable graft function. This is the only case of various depositions of immunoglobulins and complements in PTC and/or glomerular capillaries during AHR.     

C4d deposition is associated with immune cells infiltrating in kidney allograft glomerulitis and peritubular capillaritis

Abstract

Objective: The aim of our study was to determine the amount and composition of immune cells within glomeruli and PTCs and its relationship with C4d deposition. Materials and methods: Immunohistochemistry staining for C4d, CD3, CD68, granzyme B and Foxp3 was used for phenotyping and enumerating immune cells within intracapillaries. Results: C4d staining was present in 26 biopsy specimens (C4d⁺) and negative in 25 specimens (C4d^?). The total number of infiltrating cells in glomerulus and PTC in C4d⁺ was significantly higher than in C4d^?. Although the C4d⁺ showed a significantly higher mean number of macrophages per glomerulus and PTC than in C4d^? group, the C4d^? showed a higher mean number of T cells per glomerulus and PTC than in C4d⁺. Comparing cell counts in diffuse C4d⁺ and focal C4d⁺ groups, a significant difference of absolute numbers of intracapillary cells could be observed in glomeruli and PTCs. The mean number of macrophages per glomerulus and PTC in diffuse C4d⁺ was greater than that of the focal C4d⁺, while mean T cells per glomerulus and PTC were less in cases of diffuse C4d⁺ than in focal C4d⁺. The differences, however, did not achieve statistical significance. Not only glomerular T cells but also PTCs are granzyme B positive T cells totally. Conclusion: The total number of infiltrating cells in glomeruli and PTC has association with PTC C4d deposition; the infiltrating cells were predominantly macrophages in C4d⁺, especially in diffuse C4d⁺, whereas the infiltrating cells were predominantly T cells in C4d^?. Glomerular and PTC T cells were cytotoxic phenotype completely.     

Glomerulitis during acute cellular rejection may be a surrogate marker of vasculitis in renal allografts--better index for diagnosis of vasculitis

Background

The Banff criteria (from 2005 to 2009) use “T cell-mediated rejection” to indicate acute cellular rejection. Vasculitis in smaller arteries is an important diagnostic criterion for moderate and severe T cell-mediated rejection. The renal allograft endothelium is a significant target of inflammatory response-mediated tissue damage. Medium-size arteries (arcuate arteries) are mostly absent in routine allograft biopsies, so identification of vasculitis relies on its identification in small arteries (arterioles to interlobar arteries). Although inflammation in terminal vessels such as the glomerular capillaries has been previously recognized, their role in grading the rejection process is not well characterized. We therefore evaluated the expression of CD3-positive T lymphocytes and CD68-positive macrophages in glomeruli, small arteries, and arcuate arteries of nephrectomy specimens obtained from transplant and renal tumor patients.

Methods

The study group included 21 renal explant subjects with nonreversible moderate to severe T cell-mediated rejection (IIa to III) and/or severe chronic changes. The control group comprised 17 individuals with nephrectomy for renal tumors. In each case, a large renal section from cortex to medulla was stained for CD3 and CD68 by immunohistochemical method. CD3-positive T lymphocytes and CD68-positive macrophages per balanced high-power field were counted in glomeruli, interlobar arteries, and arcuate arteries.

Results

In control kidney sections, neither CD3-positive T lymphocytes nor CD68-positive macrophages were noted in glomeruli, interlobar arteries, or arcuate arteries. In the study group, 15/21 showed diffuse C4d positivity. Also in the study group, positive CD3 and CD68 counts in glomeruli were significantly correlated to both interlobar and arcuate artery counts by linear regression analysis.

Conclusion

We conclude that in renal allograft biopsies, T lymphocytes and macrophages in the glomeruli not only represent a separate entity, “transplant glomerulitis,” but also may be a surrogate marker of vasculitis present in larger vascular beds. Comparable amounts of T cells and macrophages imply that “acute cellular rejection” may be a better terminology to reflect the true inflammatory status.