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Acute cellular and humoral rejection. Eva Honsova Institute for Clinical and Experimental Medicine Prague, Czech Republic [email protected]. - PowerPoint PPT Presentation
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Acute cellular and humoral rejection
Eva HonsovaInstitute for Clinical and Experimental MedicinePrague, Czech Republic [email protected]
1. Cellular theory (Peter Medawar): the process of graft rejection is immunologically dependent. The cells (easy to see on histological slides) were recognized and identified as a cause of tissue damage.
Graft rejection: The new era of transplantation began during World War II.
Hyperacute rejection (HR)• The antibodies are not seen in
routine histological staining. • HR can occur immediately after
transplantation• HR was observed when the
kidney was transplanted into a recipient with pre-existing DSA
• HR can also be caused by antibodies directed at allogenic blood groups A and B
• New generation of laboratory tests prevents HR
thrombosis
• 2. Humoral theory (Paul Terasaki): evidence that also in later periods after transplantation antibodies must participate in graft damage.
Graft rejection:
They were unable to prove this theory: no tissue marker of confirmation. Several landmark observations enabled the definition of dg. criteria of A-MR: P. Halloran: AR with „de novo“ DSAs production and poor prognosis.H. Feucht: studied complement components and recognized the relationship of C4d deposition in PTCs in kidney grafts to graft dysfunction.
2000: 80/70% at 5 years
Complement system
C4dC4d
Positive C4d staining is a marker of antibody-mediated rejection and represents something like an imprint that the reaction occurred at the place of positive staining.
Detection of C4d (positive staining in PTCs) immunofluorescence immunoperoxidase Detection of C4d (positive staining in PTCs) immunofluorescence immunoperoxidase
Classification of rejection changes
• various centers were developing their own protocols and their own definitions of
the morphological features• without standardization of the nomenclature
the communication among various centers would remain unsatisfactory
• Banff classification since 1991• The schema underwent considerable evolution,
and was repeatedly revised and modified in follow-up meetings during a 2-year period
Kidney graft biopsy, adequacy criteria • A large number of conditions can affect the allograft, frequently in
combination with varying degrees of arteriosclerosis.• the pre-biopsy clinical diagnosis differed from the definitive
diagnosis in 42% of episodes of graft dysfunction (Pascual et al. Transplantation 1999;67:737-41)
• Therapy is changed in 60% following graft biopsy
a) adequacy of the sample; b) processing of the tissue
LM IF EM
2 cores 10 gli2 arteries
3 gli 1glus
3 H&E3 PAS1-3 Trichrom or Sirius red with elastin
IgG, IgA, IgMC3, C4dFb, κ,λ light chains, (HLA-DR or others)
PU, hematuria,1 year after Tx
The immunologic threat to the graft begins before transplantation
A. Systemic effects of ischemia/reperfusion injury I/R up-regulates the expression of HLA antigens by the
graft, the release of a cascade of chemokines, proinflammatory cytokines, and adhesion molecules.
The increased display of HLA antigens intensifies the immune response.
B. Each graft has its “medical history“; varying degrees of preexisting, clinically silent injury, mainly vascular nephrosclerosis
No collateral vessel among arteries and arterioles; stenosis of the lumen represents chronic ischemia in the interstitial tissue.
Acute T-cell-mediated rejectionC: 3. Borderline Changes:"Suspicious" for acute T-cell-mediated r.
C: 4. Acute T-cell-mediated rejection (type/grade)
• IA. Cases with significant interstitial infiltration (>25% of parenchyma affected, i2 or i3) and foci of moderate tubulitis (t2)
• IB. Cases with significant interstitial infiltration (> 25% of parenchyma affected, i2 or i3) and foci of severe tubulitis (t3)
• IIA. Cases with mild to moderate intimal arteritis (v1, <25% of the luminal area)
• IIB. Cases with severe intimal arteritis comprising > 25% of the luminal area (v2)
• III. Cases with "transmural" arteritis and/or fibrinoid change and necrosis of medial smooth muscle cells with accompanying lymphocytic inflammation (v3)
Acute T-cell-mediated rejection, tubulitis-schema
CD8 recognize peptide antigens presented by class I MHC, produce IFNγMediate direct cytotoxicity via granzymes and perforin
CD4 recognize peptide antigens presented by class II, can be divided according to their cytokine production:Th1: IFNγ , IL2, TNFα, typically in infiltrate of acute rejecting graftsTH2: IL4,IL5,IL10, provide help for B cells and production IgE – promote eosinophils
Inflammatory cytokines produced by T cells activate epithelial cells, which in turn attract more T cells.
Significant lowering of the rate of episodes of ACR to approximately 5-10% in the 1st yearGrade I: 65-70%, grade II: 30%Huge progress was made in our understanding of immunological mechanisms of rejection
Acute T-cell-mediated rejection, type I tubulitis in non-atrophic tubules
Banff criteria:• IA. i:>25% of parenchyma affected, i2 or i3 and t2• IB. i> 25% of parenchyma affected, i2 or i3 and t3Chapel Hill Standards1. i ≥5% 2. Mild to moderate interstitial edema3. Tubulitis (t1 in ≥3 tubules in most inflamed area),- scattered eosinophils and ATI are common- MHC class II in tubular cells- If criteria 1-3 are not fulfilled, but tubules strongly expressed MHC class II, then an episode of ACR is suggested
tubulitis
Acute T-cell-mediated rejection, type Idg. problems and differential diagnosis
• How much inflammation is reactive in subcapsular space early posttransplant
• Resolving/partially treated rejection
• inflammation in areas of interstitial fibrosis with t1 in the interface areas
• 20-65% ATMR show C4d deposits along PTCs: mixed cellular- and antibody-mediated rejection
Differential diagnosis• Drug-induced TINDifficult or impossible to distinguish from ATMR• Pyelonephritisneutrophlic casts• Polyomavirus nephropathyplasma cells, IH detection
Acute T-cell-mediated rejection, type IDif. Dg.: polyoma virus nephropathy
Acute T-cell-mediated rejection, type II and III arteritis or endotheliitis
Acute T-cell-mediated rejection, type II and III differential diagnosis
If we strictly follow the Banff criteria, one lymphocyte is enough for the dg. type II ATMR rejection.Pre-existing donor disease
AS, hypertension Atheromatous embolism
Severe hypertension
Acute B-cell-mediated rejection/humoral rejection• Recognition of AMR requires demonstration of C4d
and circulating antibodies.The diagnostic criteria of AMR (cases that meet 2 criteria are considered suspicious for
AHR)1. Neutrophil/lymphocyte margination (capillaritis),and/or thombosis/necrosis2. C4d+ in PTCs3. Circulating anti-donor antibodies (DSA)Categories:1.Hyperacute rejection2. Acute B-cell-mediated rejection, late acute B-cell-mediated3. Accommodation
Hyperacute rejection (HR)• Now, HR is not included
in Banff schema• Complement dependent • recipient with pre-
existing DSA• Can be C4d negativeDifferential dg.:• Vascular thrombosis
(artery or vein), technical problems or hypercoagulable state
• Donor TMA
Acute B-cell-mediated rejection/humoral rejection
C4d is the terminal inactive split product of antibody-activatedclassical complement cascade and positive C4d staining representssomething like an imprint of the reaction driven by antibodies.
Scoring of C4d staining• C4d0 negative 0% of ptcs• C4d1 minimal C4d detection 1-10%• C4d2 focal C4d positive 11-50%• C4d3 diffuse C4d positive >50%
Acute B-cell-mediated rejectioncapillaritis: gli, PTCs; thrombosis
AHR has occurred with all IS regiments. The pathology of AHR has a wide spectrum of findings. However, none of these features is specific.
Acute B-cell-mediated rejectionAnti-donor Abs such as those directed atMHC antigens can trigger AMR. However, the absence of DSA cannot be
taken to exclude AMR.Cases with: C4d+, DSA+ Cases with: C4d+, DSA-• some antigens may be expressed on
the endothelial cells and not on lymphocytes, which are typically used for the test (MICA).
• graft can absorb huge amounts of antibodies from blood and Abs can be below the level of detection.
Cases with: C4d-,DSA+ • Negative staining may result from
non-complement fixing antibodies, low reactivity of Abs.
Sis B; Halloran P.Endothelial transcripts uncover a previously unknown phenotype: C4d-negative antibody-mediated rejection.Current Opinion in Organ Transplantation. 15(1):42-48, February 2010.
Acute B-cell-mediated rejectionPhenomenon of so-calledaccommodation was repeatedlydescribed in AB0 incompatible kidneygrafts. In this situation, there are DSA, and C4dpositive staining in PTCs. There is no tissue injury in the graft andthe function is stable. However, in long-term studies, themorphological features of chronic injurywere demonstrated more frequentlythan in AB0 compatible recipients.
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Rejection remains a central challenge in the field of transplantationAlthough huge progress has been made in our understanding of immunological mechanisms of rejection there is still alot unknown.
???• Is humoral response always pathogenic?• What is the role of IgG subclasses in transplantation?• Can some antibodies block these DS antibodies which bind
the complement?• Are all DSA harmful? • Is there acute antibody mediated rejection with arterial
injury similar to type II ATMR? (humoral v, in mice it is so)(Hirohashi et al. Am J Transplant 2010:10;510-517)
Now we do not know what technique will represent a breakthrough and a great improvement in diagnosis of rejection; gene transcripts or perhaps microRNA, or something unknown …
???