Repression of CMIP transcription by WT1 is relevant to podocyte health.

The WT1 (Wilm's tumor suppressor) gene is expressed throughout life in podocytes and is essential for the functional integrity of the glomerular filtration barrier. We have previously shown that CMIP (C-Maf inducing protein) is overproduced in podocyte diseases and alters intracellular signaling. Here we isolated the proximal region of the human CMIP promoter and showed by chromatin immunoprecipitation assays and electrophoretic-mobility shift that Wilm's tumor protein (WT1) bound to 2 WT1 response elements, located at positions -290/-274 and -57/-41 relative to transcription start site. Unlike the human CMIP gene, only one Wt1 response element was identified in the mouse Cmip proximal promoter located at position -217/-206. Luciferase reporter assays indicated that WT1 dose-dependently inhibited the transcriptional induction of the CMIP promoter. Transfection of decoy oligonucleotides mimicking the WT1 response elements prevented the inhibition of WT1 on CMIP promoter activity. Furthermore, WT1 silencing promoted Cmip expression. In line with these findings, the abundance of Cmip was early and significantly increased at the transcript and protein level in podocytes displaying a primary defect in Wt1, including Denys-Drash syndrome and Frasier syndrome. Thus, WT1 is a major repressor of the CMIP gene in physiological situations, while conditional deletion of CMIP in the developing kidney did not affect the development of mature glomeruli.

Characteristics of testicular dysgenesis syndrome and decreased expression of SRY and SOX9 in Frasier syndrome.

Frasier syndrome (FS) is characterized by chronic renal failure in early adulthood, varying degrees of gonadal dysgenesis, and a high risk for gonadal germ cell malignancies, particularly gonadoblastoma. Although it is known to arise from heterozygous splice mutations in intron 9 of the Wilms' tumor gene 1 (WT1), the mechanisms by which these mutations result in gonadal dysgenesis in humans remain obscure. Here we show that a decrease in WT1 + KTS isoforms due to disruption of alternative splicing of the WT1 gene in a FS patient is associated with diminished expression of the transcription factors SRY and SOX9 in Sertoli cells. These findings provide the first confirmation in humans of the results obtained by others in mice. Consequently, Sertoli cells fail to form the specialized environment within the seminiferous tubules that normally houses developing germ cells. Thus, germ cells are unable to fully mature and are blocked at the spermatogonial-spermatocyte stage. Concomitantly, subpopulations of the malignant counterpart of primordial germ cells/gonocytes, the intratubular germ cell neoplasia unclassified type (ITGCN), are identified. Furthermore, dysregulated Leydig cells produce insufficient levels of testosterone, resulting in hypospadias. Collectively, the impaired spermatogenesis, hypospadias and ITGCN comprise part of the developmental disorder known as 'testicular dysgenesis syndrome' (TDS), which arises during early fetal life. The data presented here show that critical levels of WT1 + KTS, SRY and SOX9 are required for normal Sertoli cell maturation, and subsequent normal spermatogenesis. To further study the function of human Sertoli cells in the future, we have established a human cell line.

WT1 mutation and podocyte molecular expression in a Chinese Frasier syndrome patient.

We report on a Chinese girl with Frasier syndrome (FS). She presented with steroid-resistant focal segmental glomerulosclerosis (FSGS) and male pseudohermaphroditism. The WT1 IVS 9 + 5 G>A mutation was detected in one allele in the proband. The ratio of +KTS/-KTS was 0.67 in the proband's cDNA. The expression of podocyte molecules (WT1, nephrin, podocin, alpha-actinin 4 and CD2AP) were also investigated in a renal specimen of this FS patient. WT1 expression showed diffuse nuclear staining, with less obvious speckles in the patient's glomeruli than in those of controls. The distribution and intensity of podocyte molecules were altered both in normal- and abnormal-appearing glomeruli. In conclusion, the study presented a case of FS by clinical manifestation, renal pathology, karyotype analysis and genetic testing. A lower ratio of +KTS/-KTS and an abnormal distribution of WT1, as well as abnormal expressions of other podocyte molecules, were also revealed. The mechanisms of WT1 mutation causing FS still need to be investigated.