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Query: UMLS:C0403608 (
ureter
)
9,655
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Paired box (PAX) genes play a critical role in human development and disease. The
PAX2
gene is expressed in primitive cells of the kidney,
ureter
, eye, ear and central nervous system. We have conducted a mutational analysis of
PAX2
in a family with optic nerve colobomas, renal hypoplasia, mild proteinuria and vesicoureteral reflux. We report a single nucleotide deletion in exon five, causing a frame-shift of the
PAX2
coding region in the octapeptide domain. The phenotype resulting from the
PAX2
mutation in this family was very similar to abnormalities that have been reported in Krd mutant mice. These data suggest that
PAX2
is required for normal kidney and eye development.
...
PMID:Mutation of the PAX2 gene in a family with optic nerve colobomas, renal anomalies and vesicoureteral reflux. 867 93
The Wilms' tumor suppressor gene, wt1, encodes a zinc finger protein which functions as a transcriptional regulator. Expression of the wt1 gene is developmentally regulated and restricted to a small set of tissues which include the fetal urogenital system, mesothelium, and spleen. In the developing kidney, induction of neprohogenesis by the
ureter
is accompanied by an increase in expression levels of the Pax-2 gene, a developmentally and spatially regulated paired-box member. This is followed by an increase in wt1 expression as mesenchymal cells condense and differentiate. In this report, we demonstrate that
PAX2
isoforms are capable of transactivating the wt1 promoter. Deletion mutagenesis of the wt1 promoter identified an element responsible for mediating
PAX2
responsiveness, located between nucleotides -33 and -71 relative to the first wt1 transcription start site. Consistent with its identity as a PAX responsive element, multimerization of this mofit upstream of a heterologous minimal promoter enhanced reporter activity when co-transfected with a Pax-2 expression vector. Finally, we demonstrate that
PAX2
can stimulate expression of the endogenous wt1 gene. These results suggest that a role for
PAX2
during mesenchyme-to-epithelium transition in renal development is to induce wt1 expression.
...
PMID:The paired-box transcription factor, PAX2, positively modulates expression of the Wilms' tumor suppressor gene (WT1). 876 Feb 85
Primary vesicoureteric reflux (VUR) is one of the more common genetic disorders. Little is yet known about the genetics of this potentially manageable childhood condition, which is characterised by regurgitation of urine from the bladder to the kidney. The VUR phenotype is associated with shortness of the submucosal segment of the
ureter
due to congenital lateral ectopia of the ureteric orifice. VUR is found in 30-50% of infants and young children with a urinary tract infection. A serious concern in families with an affected patient is that approximately one half of siblings or offspring will be affected, but up to a half of these affected siblings and offspring may be asymptomatic in childhood. If left untreated, these patients may present later in life with proteinuria, hypertension or renal failure. VUR is the commonest cause of end-stage renal failure in children, and an important cause in adults. As the kidney damage resulting from severe VUR is preventable, early detection is desirable. The techniques for clinical diagnosis are invasive and costly, reinforcing the importance of identification of a gene for VUR to facilitate genetic screening. Although family studies suggest a major dominant gene, the inheritance pattern is still a matter of debate. In rare instances, VUR occurs in association with other diseases, such as the coloboma-ureteric-renal syndrome, which is caused by a
PAX2
gene mutation. In this review, we present evidence that this common disorder may be caused by mutations in the developmental pathway of which the
PAX2
gene forms a part.
...
PMID:Unravelling the genetics of vesicoureteric reflux: a common familial disorder. 887 47
Vesicoureteric reflux (VUR) is a common childhood condition characterised by regurgitation of urine from the bladder to the kidney. It is the commonest cause of end stage renal failure in children and an important cause in adults. Primary VUR is often familial, suggesting that genetic factors play an important role in its aetiology. Recently, VUR was observed as part of a syndrome, involving optic nerve colobomas and renal anomalies, caused by mutations of the
PAX2
gene.
PAX2
is a member of the paired box family of genes and is expressed in the ureteric bud and differentiating nephrogenic mesenchyme of the developing kidney.
PAX2
has been shown to play a critical role in the development of both the kidney and the
ureter
. The occurrence of VUR in one family with the
PAX2
mutation, and the expression pattern of
PAX2
in developing ureteric bud, strongly suggested that
PAX2
could be the cause of primary familial VUR. Single strand conformational polymorphism (SSCP) analysis of 23 affected subjects in eight families with primary familial VUR showed no alterations in exons 2-5 of the
PAX2
gene. In addition, a polymorphic dinucleotide repeat marker located within the
PAX2
gene segregated independently of the disease trait in one large family who primarily had VUR or reflux nephropathy. These results suggest that
PAX2
is not a major cause of primary familial reflux.
...
PMID:Absence of PAX2 gene mutations in patients with primary familial vesicoureteric reflux. 959 33
Primary vesico-ureteral reflux (VUR) is a common disorder in children, with an incidence in an unselected population between 0.5-1%. Twenty seven to forty five percent of an affected patient's siblings will have VUR between birth and children of 2 years or younger. VUR is caused by a structural abnormality of the vesico-ureteral junction, characterised by an abnormally short submucosal segment of the
ureter
or deficiency in the musculature of the intravesical
ureter
. The etiology of this malformation is currently not well known, but it is probably related to an abnormal development of the ureteral bud. Several genes, such as
PAX2
or similar genes, are involved in this development and the interrelationship between these different genes is slowly being unravelled, providing a first insight into the complex molecular cascade directing the embryogenesis of the excretory system. Each gene involved in the development of the excretory system is a potential candidate gene for VUR. Sanyanusin et al. have identified frameshift mutations in exon 5 in
PAX2
in several patients with coloboma-ureteric-renal syndrome, which involved VUR as part of the phenotype. In a separate study, linkage to
PAX2
was excluded in a three generation pedigree involving individuals with VUR and renal hypoplasia. These results suggest that VUR is a genetic condition, inherited as an autosomal dominant disorder.
...
PMID:[Molecular basis of vesicoureteral reflux]. 1224 79
Vesico-ureteric reflux (VUR) is a urinary tract abnormality that affects roughly one-third of patients with renal-coloboma syndrome, an autosomal dominant condition caused by a mutation in
PAX2
. Here, we report that a mouse model with an identical mutation, the Pax2 1Neu+/- mouse, has a 30% incidence of VUR. In VUR, urine flows retrogradely from the bladder to the
ureter
and is associated with urinary tract infections, hypertension, and renal failure. The propensity to reflux in the Pax2 1Neu+/- mouse is correlated with a shortened intravesical
ureter
that has lost its oblique angle of entry into the bladder wall compared with wild-type mice. Normally, the kidney and urinary tract develop from the ureteric bud, which grows from a predetermined position on the mesonephric duct. In Pax2 1Neu+/- mice, this position is shifted caudally while surrounding metanephric mesenchyme markers remain unaffected. Mutant offspring from crosses between Pax2 1Neu+/- and Hoxb7/GFP+/- mice have delayed union of the
ureter
with the bladder and delayed separation of the
ureter
from the mesonephric duct. These events are not caused by a change in apoptosis within the developing urinary tract. Our results provide the first evidence that VUR may arise from a delay in urinary tract maturation and an explanation for the clinical observation that VUR resolves over time in some affected children.
...
PMID:Vesico-ureteric reflux and urinary tract development in the Pax2 1Neu+/- mouse. 1788 63
The transcription factors HNF1B and Pax2, co-expressed in the Wolffian duct and ureteric bud epithelia, play essential roles during the early steps of mouse kidney development. In humans, heterozygous mutations in these genes display a number of common kidney phenotypes, including hypoplasia and multicystic hypoplastic kidneys. Moreover, a high prevalence of mutations either in HNF1B or
PAX2
has been observed in children with renal hypodysplasia. To gain a better understanding of Hnf1b and Pax2 interactions in vivo, we generated compound heterozygous mice for Hnf1b and Pax2 null alleles. We show here that compound heterozygous mutants display phenotypes similar to severe congenital anomalies of the kidney and the urinary tract (CAKUT), including strong hypoplasia of the kidneys, caudal ectopic aborted
ureter
buds, duplex kidneys, megaureters and hydronephrosis. At a molecular level, compound mutants show a delay in nephron segment and medullar interstitial differentiation, increased apoptosis and a transient decrease in Lim1 and Wnt4 expression. We also observe a perturbation of smooth muscle differentiation around the
ureter
associated with a local down-regulation in transcript levels of Bmp4 and Tbx18, two key regulators involved in
ureter
smooth muscle formation, thus explaining, at least in part, megaureters. These results together uncover a novel role of Hnf1b as a modifier of the Pax2 haplo-insufficient phenotype and show that these two transcription factors operate in common pathways governing both kidney morphogenesis and
ureter
differentiation. This mouse model should provide new insights into the pathogenic mechanisms of human CAKUT, the most frequent developmental defect identified in newborns.
...
PMID:Hnf1b and Pax2 cooperate to control different pathways in kidney and ureter morphogenesis. 2251 95
