Post on 06-Jul-2020
Daniel SerónNephrology DepartmentHospital Vall d’HebronBarcelona
Early detection and prevention ofacute and chronic allograft damage
Acute and chronic lesions and outcome
Immunosuprresion and damage
New markers of early damage
Acute and chronic lesions and outcome
Immunosuprresion and damage
New markers of early damage
IF/TASCRCHR
Recurrence De novo GN
Polyoma
Protocol biopsies
Cortesy: M Carrera
Subclinical rejection
=
Tubulointerstitial inflammation
Subclinical rejection (CsA, Aza, PN)n= 25 patients and 125 biopsies
0 1 2 3 6 12 m
Rush DN et al Transplantation 1995; 59: 511
SCR and progression of IF/TAn=598 BX, (no SCR 462, borderline 102, SCR34)
Nankivell BJ et al, Transplantation 2004; 78:242
* p<0.05***p<0.001
SCR at 14 d (living donor) n=304 patients
Choi BS et al, Am J Transplant 2005; 5: 1354
SCR + IF/TA and graft survival
Shishido et al, JASN 2003; 14: 1046
IF/TA without SCR
IF/TA with SCR
Normal
1 year protocol Bx
.25
.5
.75
1
0 50 100 150 200 months
Normal=186SCR=74IF/TA=110
IF/TA+SCR=65
Cosio FG et al, AJT 2005; 5: 2464Moreso F et al AJT 2006; 6: 747
IF/TA with SCR
Inflammation in areas of tubular atrophyn=337 indication Bx for cause
Mannon RB, et al. AJT 20010; 10: 2066
Glomerular enlargement after renal Tx
Serón D and Moreso F. Transplant Rev 2007; 21: 110
Glomerular enlargement and SCR(n=61)
1st B 2nd BδVg
4m 1y
Ibernon et al et al, Kidney Int 2006; 76: 557
Glomerular enlargement
yes no
4-month 1-year
No glom enlargementδ Vg < 1 (n=29)
*
*
*4-month 1-year
Glom enlargement δ Vg ≥ 1 (n=32)
*
*
Ibernon et al et al, Kidney Int 2006; 76: 557*p<0.05
0
2
4
6
4-month 1-year
Glomerulosclerosis (%)
Glomerular enlargementδ Vg ≥ 1 (n=32)
0
2
4
6
4-month 1-year
*
Glomerulosclerosis (%)
No glomerular enlargementδ Vg < 1 (n=29)
Ibernon et al et al, Kidney Int 2006; 76: 557
*p<0.05
Tx SCR CAN Survival
SCR and CAN
Tx SCR IF/TA Survival
SCR and CHR
CHR
Protocol Bx:Is SCR associated with CHR?
SCR and Chronic humoral rejection1988-2006
Protocol Bx n = 517CHR 44IF/TA nos 42Recurrence 11De novo GN 7Acute rejection 4Polyoma 1
Bx for cause: n = 109
Clinical characteristics at the time of biopsy
Variable CHR (44) IF/TA (42) p
Protocol biopsyTime (m) 4.5 ± 2.4 4.6 ± 3.3 nsSCr (μmol/L) 149 ± 37 144 ± 44 nsProteinuria (g/d) 0.3 ± 0.2 0.3 ± 0.2 ns
Biopsy for causeTime (y) 6.4 ± 3.4 8.2 ± 4.4 0.037SCr (μmol/L) 240 ± 141 204 ± 80 nsProteinuria (g/d) 2.3 ± 2.4 1.4 ± 1.7 0.061
Clinical characteristics of patientsVariable CHR IF/TA p-value
(n=44) (n=42)__________________________________________________Donor age (years) 40 ± 16 34 ± 15 nsDonor gender (% male) 65.9 78.6 nsPatient age (years) 43 ± 12 40 ± 12 nsPatient gender (male) 59.1 69.0 nsPRA (%) 7 ± 18 3 ± 10 nsVirus hepatitis C 18.2 9.5 nsRe-transplants (%) 15.9 2.3 0.058HLA DR mm 0.7 ± 0.5 0.7 ± 0.6 ns
Cold ischemia time (hours) 23 ± 6 21 ± 6 nsImmunosuppression
CNI without MMF 24 27CNI with MMF 18 12CNI with mTOR-i 1 2CNI free 1 1 ns
Delayed graft function (%) 25 19 nsAcute rejection (%) 22.7 26.2 ns_________________________________________________________
0
0,5
1
1,5
2
2,5
CHR IF/TA
v
t
i
g
Acute score in protocol biopsies
(p=0.003)
SCR, CHR and IF/TA
CHR IF/TA p__________________________________SCR (%) 52.3 28.6 0.025__________________________________
RR 95% CI p__________________________________SCR 2.52 1.1-6.3 0.047ReTx 6.7 0.8-58.8 ns__________________________________
SCR
IF/TA CHR
?
Decreased allograft survival
Acute and chronic lesions and outcome
Immunosuprresion and damage
New markers of early damage
Treatment of SCR with steroid boluses(n=72; 36 pts in each group)
CsA+AZA+PN
1 2 3 6 12
Biopsy
Control
Randomización
Biopsy Control_________________________________________________________chronic score at 6m 0.50 ± 0.13 1.02 ± 0.31 nsci + ct score at 6m 0.21 ± 0.09 0.62 ± 0.18 0.05_________________________________________________________
Rush D et al, J Am Soc Nephrol 1998; 9: 2129
Treatment of SCR
Rush D et al, J Am Soc Nephrol 1998; 9: 2129
0
50
100
150
200
1 2 3 6 12 24
Control
Biopsy
SCrμmol/l
SCR
Poor outcome Improved outcome
Treatment of SCR
SCR in TAC+MMF+P treated patients(56% induction therapy)
Protocol biopsies at 3m (n=114)
Gloor JM et al, Transplantation 2002; 73: 1965
Dg N %_________________________________SCR 3 2.6%Borderline changes 12 10.6%Normal 99 86.8%__________________________________
114 100__________________________________
TAC vs CsA, case control studyall treated with MMF and P
n=98
Moreso F et al Transplantation 2004; 78: 1064
borderline
AR I
AR II
Immunophenotype in protocol biopsies from TAC vs CsA treated patients
n= 44TAC vs 22 CsA
P<0.01
P<0.01 P<0.05ns
Serón D et al, Transplantation 2007; 83:649
0
10
20
30
40
50
CsAn=363
TACn=49
CNI-freen=23
NormalSCRIF/TAIF/TA+SCR
Moreso F et al Am J Transplant 2006; 6: 747
IS treatment and SCRn=435
IS treatment and SCR
Nankivell BJ et al, Transplantation 2004; 78:242
Treatment Acute rejection, SCR and IFTAn=200, surveillance x at 1,6,12, 24,36,48,60
CsA CsA TAC TACMMF SRL MMF SRL p
N 50 50 50 50_______________________________________________________________AR at 1y (%) 18 8 14 6 <0.05
SCR at 1y (%) 22 8 16 6 <0.05
IFTA at 5y (%) 54 16 38 14 <0.05_______________________________________________________________
Anil Kumar MS et al Transpl Immunol 2008; 20: 32
Treatment of SCR with steroids in TAC+MMF+Ptreated patients
12 centers
Biopsy Control(n=121) (n=119)
_______________________________________________6m ci+ct>2 (%) 35 2024m ci+ct>2 (%) 48 3924 m CrCl (ml/min) 76±27 72 ±18_______________________________________________
Rush D et al. AJT 2007; 7(11): 2538
1 2 3 6 24Biopsy
ControlRandomization
5 7 0 9 0
6 2
Acute and chronic lesions and outcome
Immunosuprresion and damage
New markers of early damage
Risk factors associated with SCR
Previous AR
Degree of sensitation
Donor age
Innate immunity and SCR
(PRP)Pattern recognition
receptors
(PAMPs) Pathogen associated molecular patterns
Infection(Alarmins) Tissue associated molecular patterns
Tissue damage
DAMPsDamage associated molecular patterns
Innate immunityReceptors
Secreted (MBL, amyloid)
Endocytic (NOD)
Signalling (TLR, CD14)
Medzhinov R & Janeway C. NEJM 2008; 343: 338
Defense collagens
Bohlson SS et al. Mol Immunol 2007; 44:33
MBL 96KDa protein made of 3 identical 32 KDa structures
Carbohydrate recognition domain
Collagen like domain
N-terminal cross linking region
N-acetylglucosamine D-mannoseN-acetyl mannosamineL-fructose
Bouwman LH et al. 2006; 67:247
MBL associated serine proteases MASPs
MBL polymorphism and serum MBL
Bouwman LH et al. 2006; 67:247
High MBL
Low MBL
MBL y enfermedad en la población general
Fernandez Real JM et al. Diabetologia 2006; 49: 2402
Low MBL
Infection Chronic inflammation
Diabetes Cardiovascular disease
MBL and susceptebility to disease: a double sword edge protein
MBL and DM
Hansen TK et al Diabetes 2004; 53: 1570Hovind et al. Diabetes 2005; 54: 1527Berger SP et al. AJT 2005; 5: 1361
cv disease in DM1microalbuminuria in DM1mortality in DM2
High MBL is associated with
Low MBL is associated with
incidence DM2
MBL amd disease in general population
Fernandez Real JM et al. Diabetologia 2006; 49: 2402
Low MBL
Infection
Chronic inflammation
Diabetes
Cardiovascular & renaldisease
Trasplante renal
TR
Diabetes Infection
Inflammation CV disease
MBL in Renal TransplantsMar 2005 –Oct 2006, 125 RT, 111 with a functioning graft at 3 m
0
,5
1
1,5
2
2,5
3
3,5
4
Cel
l Mea
n
MBL-T1 MBL-T2 MBL-T3
Interaction Bar Plot for CualquierMBLEffect: MBL-terciles
T 1Low MBL
T 2,3High MBL
Log MBL(ng/ml)
MBL before and after TxMarch 2005-Oct 2006, 125 pts,
111 with a functioning graft at 3 m
Ibernon M et al. Transplantation 2009: 88: 272
Variable low MBL high MBL p
(n=42) (n=83)_________________________________________________Induction
ATG 9 17Anti-IL2R 28 54none 5 12 ns
Maintenance
CNI + MMF + P 20 31mTOR + MMF + P 11 30CNI + mTOR + P 6 11Belatacept + MMF + P 5 11 ns
__________________________________________________
Variable low MBL high MBL p(n=42) (n=83)
__________________________________________________
DGF (no / yes) 24 / 18 (43%) 57 / 26 (31%) nsAR (no / yes) 35 / 7 (17%) 65 / 18 (22%) nsSCr 3 m (μmol/L) 135 ± 49 150 ± 92 ns
Graft loss (no / yes) 35 / 7 74 / 9 nsPatient surv (no / yes) 40 / 2 78 / 5 ns
Follow up (months) 19 ± 10 22 ± 10 ns__________________________________________________
sTNFR2 before Txsoluble TNFR
p=0.05
MBL and infection (bacterial or fungal)March 2005-Oct 2006, 125 pts,
111 with a functioning graft at 3 m
Ibernon M et al. Transplantation 2009: 88: 272
MBL and NODAT March 2005-Oct 2006, 125 pts,
111 with a functioning graft at 3 m
Ibernon M et al. Transplantation 2009: 88: 272
Low MBL and NODAT 3m(logistic regression)
Variable RR 95% CIp______________________________________________________Low MBL 3.04 1.18-7.81 0.021
Recipient age (años) 1.05 1.07-1.09 0.002
Impared fasting glucose 6.53 1.15-36.9 0.034before Tx______________________________________________________
P=0,0054
Low MBL and SCR
Resumen
Low MBL
Inflammation before TxsTNFR2
SCRNODAT
Infection after Tx
MBL and clearing of apoptotic and necrotic cells
Leakage“secondary necrosis”
Alo antibodies?
Chronic Inflammation Autoantibodies
C1q and MBL and rejection
Bohlson SS et al. Mol Immunol 2007; 44:33
C1q deficiency and acute rejectionHeart transplant in C1q deficient mice
Csencsits K et al. AJT 2008; 8: 1622
WT
C1q-/-
C1q deficiency and acute rejectionHeart transplant in C1q deficient mice
Csencsits K et al. AJT 2008; 8: 1622
T cell response is not enhancedin C1q-/- mice
More intense anti-donor Ab response
Innate immunity
SCR
CHR
?
Summary
a.) SCR is associated with IF/TA and CHR
b.) IS decreases the prevalence of SCR and probably of IF/TA
c.) innate immunity alterations as a risk factor for SCR
Low and High MBL are associated with autoimmune
disease
Bouwman LH et al. Hum Immunol2006; 67:247