pyridoxine sensitivity in primary hyperoxaluria
DESCRIPTION
TRANSCRIPT
Pyridoxine sensitivity in Primary
Hyperoxaluria
Christiaan v Woerden, Hans Waterham, Frits Wijburg, Ronald Wanders, Jaap GroothoffEmma Children’s hospital AMC, Amsterdam
What has brought them to the top?
environment?
genes?What made them the
greatest?
Primary Hyperoxaluria I (PHI): peroxisomal enzyme (AGT) deficiency in the liver
Role of pyridoxine (B6)
• Essential co-factor of AGT
• mutation Gly82Glu: inhibits B6 binding no AGT activity
• Reduction of oxalate excretion by B6 in B6 deficiency
• Reduction oxalate excretion pharmacological dosages B6 in 30% of PH1 patients W Europe
PH1: extreme heterogenous phenotypical expression
No symptoms, sole kidney stones, nephrocalcinosis, UTI
or
Interstitial nephritis & fibrosis, ESRD systemic oxalosis: retinopathy , blunted vision, bone pain, fractures, growth, arthopathy
peripheral neuropathy, heartblock, myocarditis, skin calcification, peripheral,
gangreen, pancytopenia, splenomegaly, vascular calcification, arterial wall stiffening
AGT mutation
AGT metabolic activity
level of endogenous oxalate
oxalate diet, hydration medicationInfectionRenal handling oxalate
Clinical severity
Genotype-phenotype association? Impact B6 sensitivity?
Mrs. A
• Age 22: kidney stone
Hyperoxaluria (5x normal) & hyperglycoluria
• Liver biopsy: AGT residual activity of 48%
• Reduction of hyperoxaluria to “high normal” (0.057 mmol/mmol
kreat) under pyridoxine 50 mg
• Age 38: good health, 1 new stone removed, US small
calcifications
Mrs. B, sister of Mrs. A
• Age 6: kidney stones, surgical removal
• Age 30: diagnosis PH1, lost to follow-up
• Age 50: kreat 200 μmol/l, nephrocalcinosis
• Liver biopsy: 15% AGT-activity
• Age 51: ESRD
Mrs. C, sister of A & B
• Age 48: ESRD (1 year after diagnosis B)
• AGT-activity 9%
• Age 49: renal tx
• Nephrocalcinosis renal graft
Mrs. C, sister of A & B
• Age 48: ESRD (1 year after diagnosis B)
• AGT-activity 9%
• Age 49: renal tx
• Nephrocalcinosis renal graft
• All 3 sisters homozygous G170R mutation
OO Immunoreactive AGT -; Immunoreactive AGT -; •• immunoreactive AGT + immunoreactive AGT + (Danpure ea J Inher Metab Dis 17: 487-499, 1994)(Danpure ea J Inher Metab Dis 17: 487-499, 1994)
AGT in liver biopsy specimens
AGT deficiency: over 50 mutations
liver biopsy:immunoreactivity enzyme
activity1. Protein not synthesized (nonsense m) - -
2. Protein synthesized OK but inactive + -
3. Protein synthesized OK but unstable:– Protein rapidly degraded + -– Protein aggregates + +/-– Protein mistargeting: mitochondrion + +
Gly82Glu (Pyr-) mutation abolishes pyridoxine (PLP) binding
(imm+/enz-)
Gly41Arg (Pyr-) abolishes contact 2 monomers: destablilisation aggregation AGT
From Zhang et al, JMB, 2003
2 polymorphic variants: a “major” & “minor” allele
• Minor allele: 4% population Europe/USA
• Normal AGT: peroxisomal localisation by way of Peroxisomal Targeting Sequence 1 as folded dimer
• Minor allele: P11L aa replacement: catalytic act AGT to 30% dimerisation AGT in vitro at 37°– 5% mitochondrial location AGT by a weak Mitochondrial
Targeting Sequence at N-terminus– Mitochondrial AGT import only as an unfolded monomer
G170R & F152I activity of P11L-induced
mitochondrial mistargeting to 90% by unfolding the AGT
from Danpure et al
G170R & F152I activity of P11L-induced
mitochondrial mistargeting to 90% by unfolding the AGT
from Danpure et al
pyridoxine may increase the activity of 10% peroxisomal AGT
association pyridoxine sensitivity?
Association B6 sensitivity - outcome 1. the Dutch experience
• follow-up PH 1972-2002• search for patients:
– Dutch Registration Renal Replacement Therapy (RENINE)– Dutch Society of Pediatric Nephrology– Dutch Society of Nephrology
• if no answer: contact by phone• review of all available medical charts
• Total number of patients: 62 • PH1: 57 PH2: 1• PH-unidentified: 4
• Prevalence PH1 = 2.9 per 106
• Incidence PH1 = 0.15 per 106 per year
v Woerden et al, NDT 18, 2003 & Kidney Int 66, 2004
Age at diagnosis
70
30%
pediatric age(n=40)
adult age(n=17)
End-stage renal disease at diagnosis
pediatric age (n=10)
77%
23%ESRD
adult age (n=9)
41%
59%ESRD
Outcome: renal function
57
30preserved renal function
27renal insufficiency
at diagnosis
19 ESRD
Outcome: renal function
57
30preserved renal function
27renal insufficiency
at diagnosis
19 ESRD
at follow-up
24 preserved renal function
11death
28ESRD/ low GFR
5 ESRD/low GFR
4 ESRD2 improved/ 2 stabilized
Clinical & biochemical parameters in relation to renal insufficiency
parameter n RR 95%CI
UOx > median 18/37 1.1 0.5-2.2
AGT<15% 19/29 0.45 0.3-1.8
nephro- calcinosis
33/57 1.8 1.0-3.4
Pyridoxine unresponsive
12/36 2.2 1.1-4.2
RR = relative risk, 95%CI = 95% confidence interval
Mutation analysis: patients
• 33/57 patients of 26 families
• Median age onset of symptoms/diagnosis 5.7/6.6 (0.1-50/57)
• Mean follow up after diagnosis 12.5 years (0.1- 49)
• 20/33 patients onset < 18th years of age
• 6/33 patients onset < 1st year of age
Mutations
• 11 patients homozygous for G170R - pyr+
• 4 patients homozygous for P152I - pyr+
• 3 patients homozygous for 33InsC - pyr-
• 3 patients homozygous for G82R - pyr-
• 1 patient homozygous for G170R & V336D
mutation - pyr-
• 11 patients compound heterozygous - pyr-
G170R homozygosity (Pyr+)
11
6preserved renal function
5ESRD
at diagnosis
5 kidney Tx: all B6 responsive
at follow-up
5 preserved function 3 preserved function
1 ESRD (not treated)
kidney Tx: preserved function
F152I homozygosity (Pyr+)
4
2preserved renal function
2ESRD
at diagnosis
1 kidney Tx: B6 responsive
at follow-up
2 preserved function 1 preserved function
1 dialysis
33InsC homozygosity (pyr-)
3
3 neonatal ESRDat diagnosis
1 deceased(liver failure)
at follow-up 1 deceased
1 preserved function
2 liver kidney Tx
G82R (pyr-)
3
3 normal GFRat diagnosis
at follow-up 1 preserved
1 liver kidney-tx
1 decreased GFR 1 ESRD
GFR decreasing
Mrs. B, sister of Mrs. A
• Age 6: kidney stones, surgical removal• Age 30: diagnosis PH1, lost to follow-up• Age 50: kreat 200, nephroclacinosis• Liverbiopsy: 15% AGT-activity• Age 51: ESRD
Follow-up (8 years):• Same year renal Tx, calcification Tx kidney, GFR 46 at 5 years
follow up• Normalisation oxalate excretion under pyridoxine
Mrs. C, sister of A & B
• Age 48: ESRD (1 year after diagnosis B)• AGT-activity 9%• Age 49: renal tx • Nephrocalcinosis graft
Follow-up (7 years):• Normalisation oxalate excretion under B6• GFR graft 56 after 5 years of follow-up
• All 3 sisters homozygous G170R mutation
The American experienceMonico et al Am J Nephrol 2005
• 23 PH1 patients
• 6 homozygotes G170R
• 1 homozygous F152I
• Homozygotes G170R & F152I B6 responsive and high AGT residual act (19 vs.10 heterozygotes G170R & 8 non-G170R)
• No follow up
• Conclusion: association B6 and G170R & F152I
The German experienceHoppe et al, Am J Nephrol 2005
• Patients: 65 PH; 42 PH1; 12 unclassified
• 7 B6 full response - no mutation found - AGT 7.2 (1 patient)
• 9 B6 partial response (25-50%)- 4 heterozygous G170R - AGT 4.7
• Time interval symptoms - diagnosis: 1-31 year
• 17 no B6 response - AGT 5.2
• 25 (38%) ESRD - 2 homozygous G170R
• 6 isolated kidney tx - 1 successful, 3 recurrences, 2 failed
The Israel experienceFrishberg et al Am J Nephrol 2005
• 56 PH1 patients
• 21 families
• 15 mutations, 1 nonsense, 13 missense mutations
• No B6 responsiveness, AGT-activity near to 0
• Prevalent phenotype; early onset CRF– 20 ESRD childhood (18†), 15 at infancy– Clinical presentation 43 < age 5– 12 asymptomatic at diagnosis
Conclusions pyridoxine sensitive PH1
• Homozygosity G170R and F152I & minor allele, others?
• 20-30% PH1 patients Western Europe/USA
• Relatively late onset: adult patients!!
• Diagnosis often delayed
• Good outcome if early diagnosed
• no indication for liver Tx
PH1 group Emma children’s Hospital AMC
Christiaan van Woerden Resident PaediatricsSimone Denis TechnicianHans Waterham Molecular GeneticistRonald Wanders BiochemistCarla Annink Technician |Marinus Duran Clinical ChemistFrits Wijburg Pediatrician Metabolic DiseasesJaap Groothoff Pediatric Nephrologist
Participating centres
AN Bosschaart (Enschede)
WT v Dorp (Haarlem)
MAGL ten Dam (Nijmegen)
CFM Franssen (Groningen)
IH Go (Nijmegen)
JJ Homan vd Heide (Groningen)
JP v Hooff (Maastricht)
F Th Huysmans (Leiden)
JE Kist-van Holthe tot Echten (Leiden)
W Koning-Mulder (Enschede)
G Kolsters (Zwolle)
MR Liliën (Utrecht)
S Lobatto (Hilversum)
LAH Monnens (Nijmegen)
J Le Noble (Schiedam)
C Ramaker (Amsterdam)
EMA vd Veer (Amsterdam)
ED Wolff (Rotterdam)
R Zietse (Rotterdam)
a kidney stone