Genotype-Phenotype Correlation Analysis of WT1 Gene Variants in Denys-Drash Syndrome and Frasier Syndrome / 罕见病研究

ObjectiveThis study aims to explore the association between different genotypes of WT1 gene variations and the phenotypes of Denys-Drash syndrome (DDS) and Frasier syndrome (FS).MethodsThrough searching and summarizing the case information of WT1 gene variations recorded in NCBI PubMed and CNKI databases from January 1, 1991 to October 31, 2023, we analyzed the association between variation types, occurrence locations, and phenotypes such as progressive renal function impairment, genitourinary developmental abnormalities, nephroblastoma, and gonadal tumors between DDS and FS.ResultsA total of 128 articles, including 304 subjects, were included in this study, and 86 pathogenic variations of the WT1 gene were detected.The distribution characteristics of these variations were as follows: the most common occurrence was in exon 9(24/86, 27.9%) and exon 8 (23/86, 26.7%); the most common variation type was missense mutation(51/86, 59.3%), followed by splice site mutation (13/86, 15.1%).The disease types caused by WT1 gene variations were as follows: DDS had the highest number of cases (174/304, 57.2%), followed by FS (83/304, 27.3%); DDS was mainly caused by missense mutations on exon 9 and exon 8 (143/174, 82.2%), while FS was mainly caused by splice site mutations on intron 9 (76/83, 91.6%).ConclusionsThe missense variants in exon 9 and exon 8 on the WT1 gene mainly resulted in DDS, while the splice variants in intron 9 mainly resulted in FS. Infants and children with progressive renal injury should undergo a comprehensive evaluation of the genitourinary system, and early genetic diagnosis should be established to improve prognosis.

Denys-Drash syndrome, Septated Vagina And Low Level Of Anti-mullerian Hormone In male neonate

There is a wide variety of genital abnormalities observed in patients with Denys-Drash syndrome (DDS). WT1 is thought to influence the genes related to genital development and mutations in this gene have been associated with DDS. DDS should be considered in the differential diagnosis of newborns with genital anomalies. In contrast to other conditions with 46,XY disorders of sex development, individuals with DDS often have duplicated genital organs (a double vagina, cervix or uterus). A double uterus has not yet been reported with 1390G>A (Arg464 Asn) mutation. However, duplicated genitals have been reported with other genetic mutations in patients with DDS. The duplicated genitals in DDS may be associated with low anti-Mullerian hormone (AMH) secretion. Measurement of the AMH levels may add to our understanding of variations in genital development and their abnormalities in disorders such as DDS. In conclusion, this is first case of low level of AMH and double uterus in 1390G>A (Arg464 Asn) mutations of DDS male.

El tumor de Wilms. Un paradigma de heterogeneidad genética: a paradigm of genetic heterogeneity / Wilm's toumor

El Tumor de Wilms constituye el más frecuente de los cánceres renales pediátricos, aparece antes de los 5 años de edad y con igual frecuencia en ambos sexos. El gen causante de la enfermedad está localizado en 11p13, se extiende unas 50 kb con 10 exones y sus alteraciones pueden ser tanto genéticas como epigenéticas. Por diferentes mecanismos se originan al menos 24 productos con funciones diversas. Existen otras regiones cromosómicas, cuyas alteraciones pueden dar lugar a la aparición del tumor. En este sentido, el Tumor de Wilms es un ejemplo sobresaliente de heterogeneidad genética. El presente trabajo hace un análisis de los fundamentos moleculares de la enfermedad y presenta a modo de ilustración una breve reseña de los principales síndromes hereditarios con predisposición a presentar este tumor.

Wilm's tumor is the most frequent cancer of the kidney in childhood with onset before five year old. WT gene was mapped in 11p13 and span 50 kb with 10 exons. WT modifications would be either genetics or epigenetics. The gene code for at least 24 isoforms of protein products. Other chromosomes loci whose alterations may be cause of disease have been identified, so Wilm's tumor is a remarkable paradigm of genetic heterogeneity. In this paper an analysis of the molecular basis of the disease is presented and, also, a brief references on main hereditary syndromes which include Wilm's tumor.

Clinical and genetic findings of five patients with WT1-related disorders / Achados clínicos e genéticos de cinco pacientes com anomalias relacionadas ao gene WT1

AIM: To present phenotypic variability of WT1-related disorders. METHODS: Description of clinical and genetic features of five 46,XY patients with WT1 anomalies. RESULTS: Patient 1: newborn with genital ambiguity; he developed Wilms tumor (WT) and chronic renal disease and died at the age of 10 months; the heterozygous 1186G>A mutation compatible with Denys-Drash syndrome was detected in this child. Patients 2 and 3: adolescents with chronic renal disease, primary amenorrhea and hypergonadotrophic hypogonadism; patient 2 had a gonadoblastoma. The heterozygous IVS9+4, C>T mutation, compatible with Frasier syndrome was detected. Patient 4: 9-year-old boy with aniridia, genital ambiguity, dysmorphisms and mental deficiency; a heterozygous 11p deletion, compatible with WAGR syndrome was detected. Patient 5: 2 months old, same diagnosis of patient 4; he developed WT at the age of 8 months. CONCLUSIONS: Constitutional abnormalities of WT1 cause gonadal and renal anomalies and predisposition to neoplasia and must be investigated in patients with ambiguous genitalia, chronic renal disease and(or) Wilms tumors; primary amenorrhea with chronic renal disease; and aniridia, genital ambiguity and dysmorphisms.

OBJETIVO: Descrever a variabilidade fenotípica das anomalias relacionadas ao WT1. MÉTODOS: Descrição das características clínicas e genéticas de cinco pacientes 46,XY com anomalias no WT1. RESULTADOS: Paciente 1: Recém-nascido com ambigüidade genital desenvolveu tumor de Wilms (TW) e insuficiência renal crônica (IRC), com óbito aos 10 meses. Detectada a mutação 1186G>A em heterozigose, compatível com síndrome de Denys-Drash. Pacientes 2 e 3: Adolescentes com IRC, amenorréia primária e hipogonadismo hipergonadotrófico; a paciente 2 apresentava gonadoblastoma. Ambas apresentavam mutação IVS9+4, C>T em heterozigose, característica da síndrome de Frasier. Paciente 4: Idade 9 anos, aniridia, ambigüidade genital, dismorfismos e deficiência mental; deleção 11p, compatível com síndrome WAGR foi encontrada em heterozigose. Paciente 5: Dois meses, mesmo diagnóstico do paciente 4, desenvolveu TW aos 8 meses. CONCLUSÕES: Alterações constitucionais do WT1 determinam anomalias gonadais, renais e predisposição a neoplasias; devem ser pesquisadas em casos de ambigüidade genital associada a IRC e(ou) TW; de amenorréia primária com IRC; e aniridia, ambigüidade genital e dismorfismos.

Two Cases of Isolated Diffuse Mesangial Sclerosis with WT1 Mutations

Here we report two cases of isolated diffuse mesangial sclerosis (IDMS) with early onset end-stage renal failure. These female patients did not show abnormalities of the gonads or external genitalia. Direct sequencing of WT1 PCR products from genomic DNA identified WT1 mutations in exons 8 (366 Arg>His) and 9 (396 Asp>Tyr). These mutations have been reported previously in association with Denys-Drash syndrome (DDS) with early onset renal failure. Therefore we suggest that, at least in part, IDMS is a variant of DDS and that investigations for the WT1 mutations should be performed in IDMS patients. In cases with identified WT1 mutations, the same attention to tumor development should be required as in DDS patients, and karyotyping and serial abdominal ultrasonograms to evaluate the gonads and kidney are warranted.

Study of the WT1 gene mutation in the Chinese patients with Denys-Drash syndrome / 中华肾脏病杂志

T, p.R394W in exon 9.

A Case of Congenital Nephrotic Syndrome due to Diffuse Mesangial Sclerosis

Diffuse mesangial sclerosis (DMS) is one of the underlying pathology of congenital and infantile nephrotic syndrome. Infants with DMS develop nephrotic syndrome before 2 years of age and progress to end stage renal disease within 3 years of age. The authors experienced a case of isolated DMS in a 4-month-old male infant who had nephrotic syndrome for 1 month. The diagnosis was confirmed on the basis of clinical, laboratory, pathological and molecular genetic findings. This is the 3rd case report of DMS in our country and the 1st case report of isolated DMS confirmed by molecular genetic study.