Download Unique X-linked familial FSGS with co

Unique X-linked familial FSGS with co-segregating heart block disorder is associated
with a mutation in the NXF5 gene
Teresa Esposito1^, Rod A Lea2^, Bridget H Maher2, Dianne Moses2, Hannah C Cox2, Sara
Magliocca1, Andrea Angius3, Dale R Nyholt4, Thomas Titus5, Troy Kay5, Nicholas A Gray6,
Maria P Rastaldi7, Alan Parnham5, Fernando Gianfrancesco1+, Lyn R Griffiths2+*
^
Joint First Authors
+
Joint Senior Authors
1
Institute of Genetics and Biophysics "Adriano Buzzati-Traverso", National Research
Council of Italy, Naples, Italy.
2
Genomics Research Centre, Griffith Health Institute, Griffith University, Gold Coast,
Queensland, 4222, Australia.
3
Institute of Genetic and Biomedical Research, National Research Council of Italy, Cagliari,
Italy.
4
Queensland Institute of Medical Research, Herston Road, Herston, Brisbane, 4006, Australia
5
Renal Department, Gold Coast Hospital, Queensland, Australia
6
Renal Services, Nambour Hospital, Nambour, Queensland, Australia
7
Renal Research Laboratory, Fondazione IRCCS Ca’ Granda Ospedale Maggiore Policlinico
& Fondazione D'Amico per la Ricerca sulle Malattie Renali, Milano, Italy
Corresponding author:
*
Professor Lyn Griffiths, Genomics Research Centre, Griffith Health Institute, Griffith
University, Queensland 4222, Australia.; Phone +61 7 5552 8664, fax +61 7 5552 9081, email: [email protected]
Supplementary Table. 1 Summary of the molecular genetics of FSGS and progressive heart
block
Disorder
Inheritance
Locus
Gene
Protein
FSGS1
FSGS2
Aut. Dom
Aut. Dom
19q13
11q21-q22
ACTN4
TRPC6
-actinin 4
Transient recept. pot. cat. chan. 6
FSGS3
Aut. Rec
6p12
CD2AP
CD2 – associated protein
FSGS4
Aut. Dom
22q12
MYH9
Myosin, heavy chain 9
NPHS1
Aut. Rec
19q13.1
NPHS1
Nephrin
NPHS2
Aut. Rec
1q25-q31
NPHS2
Podocin
NPHS3
Aut. Rec
10q23.32-q24.1
PLCE1
Phospholipase C Epsilon
FSGS
Aut. Dom
14q32.33
INF2
Formin
FSGS
Aut. Rec
15q21
MYO1E
Myosin 1E
PFHB1A
Aut. Dom
3p21
SCN5A
Sodium Channel, voltage-gated, type V
PFHB1B
Aut. Dom
19q13.2-q13.3
TRPM4
Transient receptor potential cation channel
PFHB2
Aut. Dom
1q32.2-q32.3
Unknown
Supplementary Table 2. Table of pathologies in the pedigree
Pathology
Individuals
FSGS
Premature death in generations I,II,III –
family history suggests renal failure
ID1, ID8, ID12
FSGS not confirmed by renal biopsy*
ID14, ID16, ID50, ID62
FSGS confirmed by renal biopsy
ID69, ID75, ID85, D136
Kidney Transplant
ID62, ID69, ID105
Cardiac Conduction Defects
Cardiac conduction defects
ID14, ID16, ID50, ID69, ID75, ID85
Pacemaker
ID14, ID50, ID69, ID75, ID85
Other
Renal Tumours
ID30, ID34, ID39, ID100
ID34, ID47, ID55, ID59, ID80 ID82,
Pre-eclampsia and hypertension
ID84, ID88, ID139, ID142
Asymptomatic proteinuria (carriers)
ID34, ID47, ID55, ID78
* A histological diagnosis of the renal pathology is unavailable for these four affected males
as they died prior to the development of renal biopsy as a routine clinical investigation in the
regions they were residing.
Supplementary Table. 3 Summary of the molecular genetics analysis of candidate genes located
in linkage interval.
Gene
Protein Inheritance
Disorder
Candidate gene status
GLA
Disorder
CLDN2
Galactosidase, ALPHA
Claudin 2
Fabry Disease
No mutations
No mutations
COL4A5
Collagen, type IV, ALPHA-5
Alport Syndrome
No mutations
TRPC5
Transient Receptor Potential Cation
No mutations
AMOT
Channel, Subfamily C, Member 5
Angiomotin
No mutations
These five genes were analysed by direct sequencing of all exons including exon-intron boundary.
Primers sequences are available on request.
Supplementary Figure 1 The complete 6-generational Australian FSGS pedigree.
Supplementary Figure 2 Genomic map of the candidate interval showing all genes housing
this region. Underlined are indicated the candidate genes analysed by direct sequencing.
Supplementary Figure 3: Exome sequencing analysis. A, coverage of part of the COL4A5
gene located in the linkage interval. B sequence of the exon 12 of the COL4A5 gene
containing the codon 222 that was mutated in a patient with glomerulopathy.
Supplementary Figure 4 SIFT prediction of the R113W mutation in NXF5 gene. From
amino acid 101 to 121 are reported and the position 113 is indicated with a rectangle. At left
are indicated the deleterious changes and at right are indicated the tolerated changes.