Holger Scholz scite author profile

The formation of intramyocardial blood vessels is critical for normal heart development and tissue repair after infarction. We report here expression of the Wilms' tumor gene-1, Wt1, in coronary vessels, which could contribute to the defective cardiac vascularization in Wt1 −/− mice. Furthermore, the high-affinity neurotrophin receptor TrkB, which is expressed in the epicardium and subepicardial blood vessels, was nearly absent from Wt1-deficient hearts. Activation of Wt1 in an inducible cell line significantly enhanced TrkB expression. The promoter of NTRK2, the gene encoding TrkB, was stimulated ∼10-fold by transient cotransfection of a Wt1 expression construct. The critical DNA-binding site for activation of the NTRK2 promoter by Wt1 was delineated by DNase I footprint analysis and electrophoretic mobility shift assay. Transgenic experiments revealed that the identified Wt1 consensus motif in the NTRK2 promoter was necessary to direct expression of a reporter gene to the epicardium and the developing vasculature of embryonic mouse hearts. Finally, mice with a disrupted Ntrk2 gene lacked a significant proportion of their intramyocardial blood vessels. These findings demonstrate that transcriptional activation of the TrkB neurotrophin receptor gene by the Wilms' tumor suppressor Wt1 is a crucial mechanism for normal vascularization of the developing heart.

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Kidney physiology and susceptibility to acute kidney injury: implications for renoprotection

Scholz

et al. 2021

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The Major Podocyte Protein Nephrin Is Transcriptionally Activated by the Wilms’ Tumor Suppressor WT1

Wagner¹,

Wagner²,

Xing³

et al. 2004

149

116

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Abstract. NPHS1 encodes the structural protein nephrin, which has a crucial role in the filtration barrier of the glomerular podocyte. Mutations or deregulation of NPHS1 are associated with a variety of renal diseases, including the Finnish type congenital nephrotic syndrome. This study analyzed a potential regulation of nephrin by the Wilms' tumor protein, Wt1. Using an inducible U2OS osteosarcoma cell line, it is shown that upon Wt1 induction, endogenous nephrin mRNA becomes highly upregulated. Co-transfection studies demonstrate that Wt1 can activate the nephrin promoter Ͼ10-fold. DNase footprinting and mutation analysis identify a Wt1 responsive element in the nephrin promoter, which is required for the binding of Wt1 protein. Mutations or deletion of this Wt1 responsive element completely abolished transactivation of the nephrin promoter by Wt1. Moreover, transgenic analysis demonstrates the requirement of the identified binding site to direct podocyte-specific expression of a reporter gene in transgenic mice, thus confirming the importance of this site for the regulation of nephrin in vivo. Finally, it is shown that nephrin expression is lowest in kidneys of mice that lack specifically the Wt1(ϪKTS) splice variant, but in comparison with wild-type littermates, it is also reduced in animals with disruption of the Wt1(ϩKTS) splice variant. Taken together, these data identify nephrin as a direct transcriptional target for Wt1 and underline the importance of Wt1 as a key regulator in podocyte function.

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The Wilms' tumor geneWt1is required for normal development of the retina

et al. 2002

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contributed equally to this workThe Wilms' tumor gene Wt1 is known for its important functions during genitourinary and mesothelial formation. Here we show that Wt1 is necessary for neuronal development in the vertebrate retina. Mouse embryos with targeted disruption of Wt1 exhibit remarkably thinner retinas than age-matched wildtype animals. A large fraction of retinal ganglion cells is lost by apoptosis, and the growth of optic nerve ®bers is severely disturbed. Strikingly, expression of the class IV POU-domain transcription factor Pou4f2 (formerly Brn-3b), which is critical for the survival of most retinal ganglion cells, is lost in Wt1 ±/± retinas. Forced expression of Wt1 in cultured cells causes an up-regulation of Pou4f2 mRNA. Moreover, the Wt1(±KTS) splice variant can activate a reporter construct carrying 5¢-regulatory sequences of the human POU4F2. The lack of Pou4f2 and the ocular defects in Wt1 ±/± embryos are rescued by transgenic expression of a 280 kb yeast arti®cial chromosome carrying the human WT1 gene. Taken together, our ®ndings demonstrate a continuous requirement for Wt1 in normal retina formation with a critical role in Pou4f2-dependent ganglion cell differentiation.

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The Wilms' tumor suppressorWt1is expressed in the coronary vasculature after myocardial infarction

et al. 2002

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Expression of the Wilms' tumor gene Wt1 in the epicardium is critical for normal heart development. Mouse embryos with inactivated Wt1 gene have extremely thin ventricles, which can result in heart failure and death. Here, we demonstrate that Wt1 can be activated in adult hearts by local ischemia. Wt1 mRNA was increased more than twofold in the left ventricular myocardium of rats between 1 day and 9 wk after infarction. Wt1 expression was localized by means of mRNA in situ hybridization and immunohistochemistry to vascular endothelial and vascular smooth muscle cells in the border zone of the infarcted tissue. A strikingly similar distribution was seen for vascular endothelial growth factor and two different cell proliferation markers in the coronary vessels of the ischemic heart. No Wt1 could be detected in the vasculature of the noninfarcted right ventricles. Wt1 expression in the coronary vessels of the ischemic heart was mimicked by exposure of rats to normobaric hypoxia (8% O2) and 0.1% CO, respectively. These findings demonstrate that Wt1 is expressed in the vasculature of the heart in response to local ischemia and hypoxia. They suggest that Wt1 has a role in the growth of coronary vessels after myocardial infarction.

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Oxygen‐regulated expression of the Wilms’ tumor suppressorWt1involves hypoxia‐inducible factor‐1 (HIF‐1)

Wagner

Wellmann

et al. 2003

FASEB j.

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The Wilms' tumor gene Wt1 is unique among tumor suppressors because of its requirement for the development of certain organs. We recently described de novo expression of Wt1 in myocardial blood vessels of ischemic rat hearts. The purpose of this study was to analyze the mechanism(s) of hypoxic/ischemic induction of Wt1. We show here that Wt1 mRNA and protein is up-regulated in the heart and kidneys of rats exposed to normobaric hypoxia (8% O2). Ectopic Wt1 immunoreactivity was detected in renal tubules of hypoxic rats, which also expressed the antiapoptotic protein Bcl-2 and contained significantly fewer TUNEL-positive cells than in normoxic kidneys. Wt1 expression was enhanced in the osteosarcoma line U-2OS and in Reh lymphoblast cells that were grown either at 1% O2 or in the presence of CoCl2 and desferrioxamine, respectively. The promoter of the Wt1 gene was capable of mediating expression of a luciferase reporter in response to hypoxia. We identified a hypoxia-responsive element in the Wt1 sequence that bound to hypoxia-inducible factor-1 (HIF-1) and was required for activation of the Wt1 promoter by CoCl2 and HIF-1. These findings demonstrate that Wt1 expression can be stimulated by hypoxia, which involves activation of the Wt1 promoter by HIF-1.

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Intermediate filament protein nestin is expressed in developing kidney and heart and might be regulated by the Wilms' tumor suppressor Wt1

Wagner¹,

Wagner²,

Scholz³

et al. 2006

American Journal of Physiology-Regulatory, Integrative and Comp

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Nestin is an intermediate filament protein originally described in neural stem cells and a variety of progenitor cells. More recently, nestin was detected in rat kidney podocytes. We show here that nestin is expressed in a developmentally regulated pattern in the kidney. Nestin was detected by immunohistochemistry in the condensing mesenchyme surrounding the ureter, in developing glomeruli, in podocytes of the adult kidney, and in a podocyte cell line. Nestin shared a striking overlap in expression with the Wilms' tumor suppressor Wt1. Nestin was significantly upregulated in a cell line with inducible Wt1 expression upon induction of Wt1. Cotransfection experiments in human embryonic kidney cells (HEK293) revealed stimulation of a nestin intron 2 enhancer element up to six-fold by the Wt1(-KTS) splice variant. Nestin expression was significantly reduced in an inducible mouse model of glomerular disease. This model is based on podocyte-specific overexpression of Pax2 and associated with a loss of Wt1 expression ( 33 ). Furthermore, also in the developing heart, nestin was found in an overlapping pattern with Wt1 in the epicardium and the forming coronary vessels. Strikingly, in the hearts of Wt1 knockout mice, nestin was barely detectable compared with the hearts of wild-type embryos. Our results show that nestin is expressed at different stages of kidney and cardiac development and suggest that its expression in these organs might be regulated by the Wilms' tumor suppressor Wt1.

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A splice variant of the Wilms' tumour suppressorWt1is required for normal development of the olfactory system

Wagner

Hammes

et al. 2005

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Neuronal lineage formation in the developing olfactory epithelium has been extensively studied at the cellular level, but little is known about the genes that control proliferation and differentiation of neuronal progenitor cells. Here, we report that the Wilms' tumour zinc-finger protein, Wt1, is required for normal formation of the olfactory epithelium. Wt1 was detected by immunohistochemistry in the developing olfactory epithelium of wild-type embryos between gestational days E9.5 and E18.5. Embryos with complete lack of Wt1 and embryos with selective ablation of the alternatively spliced Wt1(+KTS) isoform both had thinner olfactory epithelia and fewer neuronal progenitor cells than do normal animals. Mash1 and neurogenin 1, two basic helix-loop-helix transcription factors with critical functions during olfactory neuron development, were reduced in the Wt1(+KTS)-/- mutants compared with the wild-type mice. Stable expression of the Wt1(+KTS) isoform, but not of the Wt1(-KTS) variant, upregulated Mash1 mRNA and protein in vitro. The olfactory epithelia of mouse embryos, which lacked the Wt1(-KTS)protein, appeared normal. However, formation of the neural retina was severely impaired in the Wt1(-KTS)-/- mutants. These findings demonstrate that the Wt1(+KTS) protein, which has been proposed to play a role in mRNA processing, acts upstream of Mash1 to promote the development of the olfactory epithelium. Furthermore, neuron formation depends on distinct functions of alternatively spliced Wt1 products in the embryonic retina and the olfactory epithelium.

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Holger Scholz

Coronary vessel development requires activation of the TrkB neurotrophin receptor by the Wilms' tumor transcription factor Wt1

Kidney physiology and susceptibility to acute kidney injury: implications for renoprotection

The Major Podocyte Protein Nephrin Is Transcriptionally Activated by the Wilms’ Tumor Suppressor WT1

The Wilms' tumor geneWt1is required for normal development of the retina

The Wilms' tumor suppressorWt1is expressed in the coronary vasculature after myocardial infarction

Oxygen‐regulated expression of the Wilms’ tumor suppressorWt1involves hypoxia‐inducible factor‐1 (HIF‐1)

Intermediate filament protein nestin is expressed in developing kidney and heart and might be regulated by the Wilms' tumor suppressor Wt1

A splice variant of the Wilms' tumour suppressorWt1is required for normal development of the olfactory system

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