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Drug
Enzyme
Compound
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Query: UMLS:C0033687 (
proteinuria
)
24,015
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Frasier syndrome (FS) is a rare disease defined by male pseudo-hermaphroditism and progressive glomerulopathy. Patients present with normal female external genitalia, streak gonads and XY karyotype and frequently develop gonadoblastoma. Glomerular symptoms consist of childhood
proteinuria
and nephrotic syndrome, characterized by unspecific focal and segmental glomerular sclerosis, progressing to end-stage renal failure in adolescence or early adulthood. No case of Wilms' tumour has been reported, even in patients with extended follow-up. In contrast with FS patients, most individuals with Denys-Drash syndrome (DDS; refs 6,7) have ambiguous genitalia or a female phenotype, an XY karyotype and dysgenetic gonads. Renal symptoms are characterized by diffuse mesangial sclerosis, usually before the age of one year, and patients frequently develop Wilms' tumour. Mutations of the Wilms'-tumour gene, WT1, cause different pathologies of the urogenital system, including DDS. WT1 is composed of ten exons and encodes a protein with four zinc-finger motifs and transcriptional and tumour-suppressor activities. Alternative splicing generates four isoforms: the fifth exon may or may not be present, and an alternative splice site in intron 9 allows the addition of three amino acids (
KTS
) between the third and fourth zinc fingers of WT1 (ref. 17). Here we demonstrate that FS is caused by mutations in the donor splice site in intron 9 of WT1, with the predicted loss of the +KTS isoform. Examination of WT1 transcripts indeed showed a diminution of the +KTS/-
KTS
isoform ratio in patients with FS.
...
PMID:Donor splice-site mutations in WT1 are responsible for Frasier syndrome. 939 52
Mutations in the Wilms' tumor suppressor gene (WT1) are linked with Denys-Drash syndrome (DDS), a rare childhood disease characterized by diffuse mesangial sclerosis and renal failure of early onset, XY pseudohermaphroditism, and high risk of Wilms' tumor.
KTS
(lysine-threonine-serine) splice site mutations in WT1 intron 9 have been described in patients with Frasier syndrome, another rare syndrome defined by focal and segmental glomerulosclerosis (FSGS), XY pseudohermaphroditism, and frequent occurrence of gonadoblastoma. Cases of Frasier syndrome raise the question whether splice site mutations may also be found in XX females with isolated FSGS. A girl (index case) presented with the nephrotic syndrome at 9 mo of age. The diagnosis of DDS was based on the finding of diffuse mesangial sclerosis in the kidney biopsy and of a XY karyotype. The index case's mother had had
proteinuria
since she was 6 years of age. A renal biopsy was performed when she was 28 and disclosed FSGS. The same splice site mutation in intron 9 (WT1 1228+5 G-->A) involving one allele was found in the child and in her mother, but not in other members of the kindred (including the parents, the two brothers, and the two sisters of the index case's mother) who were free of renal symptoms. Quantification of WT1 +KTS/-
KTS
isoforms in the index case's father and one index case's maternal uncle showed a normal +KTS/-
KTS
ratio of 1.50. In contrast, the index case and her mother had a low ratio (0.40 and 0.34, respectively), within the range reported in Frasier syndrome. In conclusion, this study shows that the
KTS
splice site mutation is not specific for Frasier syndrome, but that it can also be found in DDS and in a normal female (XX) with FSGS, a woman who achieved normal pregnancy. It is suggested that WT1 splice site mutations should be sought in phenotypically normal females who present with FSGS or with related glomerulopathies of early onset.
...
PMID:Mother-to-child transmitted WT1 splice-site mutation is responsible for distinct glomerular diseases. 1050
The Wilms' tumour suppressor protein, WT1, is a zinc finger protein essential for the development of several organs, including the kidney and gonads. In each of these tissues WT1 is required at multiple stages of development and its persistent expression in podocytes and Sertoli cells suggests WT1 may also have a role in the maintenance of kidney and testis function throughout adult life. Naturally occurring isoforms of WT1 are generated by alternative mRNA splicing. An altered ratio of the splice isoforms WT1-
KTS
and WT1 +
KTS
appears to be sufficient to account for the developmental abnormalities (pseudohermaphroditism and nephropathy) characteristic of Frasier syndrome. We show that mice with a transgene encoding WT1-
KTS
do not differ from their wild-type littermates unless they are also heterozygous for a null mutation at the endogenous Wt1 locus. Animals with both genetic modifications develop
proteinuria
, together with multiple glomerular cysts, and male infertility. These pathologic changes may be explained as a consequence of altering the WT1 isoform ratio in tissues that express WT1 during adulthood. The results suggest WT1 misexpression could contribute to human glomerulocystic kidney disease.
...
PMID:Nephropathy and defective spermatogenesis in mice transgenic for a single isoform of the Wilms' tumour suppressor protein, WT1-KTS, together with one disrupted Wt1 allele. 1696 12
Wilms' tumor gene (WT1) abnormality leads to various disorders of differentiation as well as renal and urinary system abnormalities. Here we present a case of WT1 abnormality and steroid-resistant nephrotic syndrome in a female infant. The 3-year-old patient was initially diagnosed with
proteinuria
at an annual mass screening program for children aged three years and was referred to our hospital. She met the diagnostic criteria for nephrotic syndrome and showed normal renal function. The patient was treated with corticosteroids; however her condition showed resistance to corticosteroids. On renal biopsy, she was diagnosed with focal segmental glomerulosclerosis (FSGS). Because of the possibility of WT1 abnormality, an exon array analysis was conducted, which ruled out Denys-Drash Syndrome (DDS). The patient was then diagnosed with Frasier Syndrome (FS) on the basis of donor site mutation (IVS9+5G > A) of the splice site in the intron 9. Reports of female infants with FS are extremely rare. FS is one of the pre-mRNA splicing diseases, in which the occurrence of symptoms is associated with a decrease in the ratio of the lysine-threonine-serine (+/-
KTS
) isoform of the WT1 protein. A typical case exhibits 46 XY male karyotype and is characterized by male pseudohermaphroditism with cord-like gonadal structures as well as progressive nephropathy caused by FSGS. However, in female infants without such extrarenal signs, it is necessary to consider the analysis for WT1 intron 9 for conclusive diagnosis of FS, because the presence of nephropathy is the only symptom for possible detection.
...
PMID:A female infant with Frasier syndrome showing splice site mutation in Wilms' tumor gene (WT1) intron 9. 2049 63
