Early development of polycystic kidney disease in transgenic mice expressing an activated mutant of the beta-catenin gene.

Autosomal dominant polycystic kidney disease (ADPKD) is common and is a major cause of renal failure. Although the genetics of ADPKD are well known and have led to the discovery of polycystins, a new protein family, the pathogenesis of the disease remains largely unknown. Recent studies have indicated that the beta-catenin signaling pathway is one of the targets of the transduction pathway controlled by the polycystins. We have generated transgenic mice that overproduce an oncogenic form of beta-catenin in the epithelial cells of the kidney. These mice developed severe polycystic lesions soon after birth that affected the glomeruli, proximal, distal tubules and collecting ducts. The phenotype of these mice mimicked the human ADPKD phenotype. Cyst formation was associated with an increase in cell proliferation and apoptosis. The cell proliferation and apoptotic indexes was increased 4-5-fold and 3-4-fold, respectively, in cystic tubules of the transgenic mice compared to that of littermate controls. Our findings provide experimental genetic evidence that activation of the Wnt/beta-catenin signaling pathway causes polycystic kidney disease and support the view that dysregulation of the Wnt/beta-catenin signaling is involved in its pathogenesis.

Hepatomegaly in transgenic mice expressing an oncogenic form of beta-catenin.

Inappropriate activation of the Wnt/beta-catenin signaling, resulting mainly from activating mutations of the beta-catenin gene, has been implicated recently in the development of hepatocellular carcinoma (HCC). We have generated transgenic mice expressing an oncogenic form of beta-catenin in their hepatocytes to analyze the effect of deregulated beta-catenin signaling on liver homeostasis. These mice rapidly developed hepatomegaly soon after birth, with livers three to four times heavier than those of nontransgenic littermates. The liver cell hyperplasia resulted from increased cell proliferation without any compensatory apoptosis. Although the genes encoding c-myc and cyclin D1 are potential targets of the beta-catenin signaling pathway, neither of them was overexpressed in the hyperplastic livers of beta-catenin transgenic mice. Thus, the key target genes of the beta-catenin signaling pathway in the liver remain to be identified.

Transgenic analysis of the response of the rat calbindin-D 9k gene to vitamin D.

The promoter of the calbindin-D 9k (CaBP9k) gene, previously analyzed in transgenic mice, contains all of the information necessary for expression of a transgene similar to the endogenous gene and also for an appropriate response to vitamin D. In the present study we first investigated the role of a putative vitamin D-responsive element (9k/VDRE), located at nucleotides -489 to -445 on the rat CaBP9k promoter gene, using transgenic mice. As expected, the pattern of transgene expression in mice carrying this putative VDRE mutated in its whole promoter context was similar to that in mice bearing the wild-type sequence. These transgenic mice also responded to 1,25-dihydroxyvitamin D3 in the same way as those bearing the wild-type transgene and as those carrying a transgene with a large deletion (from -2894 to -117) eliminating the putative 9k/VDRE. Thus, the putative 9k/VDRE is not required for the control of rat CaBP9k gene expression by vitamin D in vivo. We also found that responsiveness to 1,25-dihydroxyvitamin D3 depends on the site at which the transgene is integrated into the host genome, in a tissue-specific manner. These data together with the fact that vitamin D-responsive sequences are present in a two-module region (from -3731 to -2894 and/or -117 to +365) and that this region does not contain any classical VDRE show that the CaBP9k gene is submitted to a non-conventional control by vitamin D.

Intestinal dysplasia and adenoma in transgenic mice after overexpression of an activated beta-catenin.

Mutations in the adenomatous polyposis coli gene or activating mutations in the beta-catenin gene itself are thought to be responsible for the excessive beta-catenin signaling involved in intestinal carcinogenesis. We generated transgenic mice that expressed large amounts of a NH2-terminally truncated mutant beta-catenin (deltaN131beta-catenin) in the intestine. These mice had multifocal dysplastic lesions in the small intestine, reminiscent of the early lesions observed in the mouse models of familial adenomatous polyposis. The number of apoptotic cells in the villi of these transgenic mice was 3-4-fold higher than in nontransgenic mice. Expression of the truncated beta-catenin mutant in the kidney led to the development of severe polycystic kidney disease. Our findings support the concept that deregulation of the beta-catenin signaling pathway is the major oncogenic consequence of adenomatous polyposis coli mutations in intestinal neoplasia.

Intestinal expression of the calbindin-D9K gene in transgenic mice. Requirement for a Cdx2-binding site in a distal activator region.

The calbindin-D9K gene encodes a vitamin D-induced calcium-binding protein that is expressed as a marker of small intestine differentiation. We have shown that 4580 base pairs of its 5' DNA regulatory region can target reporter transgene expression in the intestine and cause this transgene to respond like the endogenous gene to vitamin D active metabolite and that the homeoprotein Cdx2 is bound to the TATA box in the intestine. We now show that the 4580 base pairs construct confers a differentiated pattern of reporter transgene expression in the intestine and that cooperation between the proximal promoter and a distal element located in an opened chromatin structure is responsible for the intestinal expression and vitamin D responsiveness of the transgene. Gel shift and footprinting assays using duodenal nuclear extracts indicate that this distal element contains a Cdx2-binding site. Finally, a mutation in this distal Cdx2-binding site dramatically decreases intestinal expression in transgenic mice. This report, using an in vivo approach, demonstrates the crucial role of Cdx2 for the transcription of an intestinal gene.

Somatic mutations of the beta-catenin gene are frequent in mouse and human hepatocellular carcinomas.

Hepatocellular carcinoma (HCC) is the major primary malignant tumor in the human liver, but the molecular changes leading to liver cell transformation remain largely unknown. The Wnt-beta-catenin pathway is activated in colon cancers and some melanoma cell lines, but has not yet been investigated in HCC. We have examined the status of the beta-catenin gene in different transgenic mouse lines of HCC obtained with the oncogenes c-myc or H-ras. Fifty percent of the hepatic tumors in these transgenic mice had activating somatic mutations within the beta-catenin gene similar to those found in colon cancers and melanomas. These alterations in the beta-catenin gene (point mutations or deletions) lead to a disregulation of the signaling function of beta-catenin and thus to carcinogenesis. We then analyzed human HCCs and found similar mutations in eight of 31 (26%) human liver tumors tested and in HepG2 and HuH6 hepatoma cells. The mutations led to the accumulation of beta-catenin in the nucleus. Thus alterations in the beta-catenin gene frequently are selected for during liver tumorigenesis and suggest that disregulation of the Wnt-beta-catenin pathway is a major event in the development of HCC in humans and mice.

Control of nuclear transcription of vitamin D-dependent genes by vitamin D.

Vitamin D acts on the genome via its active metabolite, calcitriol, which is bound to its nuclear receptor (vitamin D receptor) and a DNA response element. The characterization of the DNA target of the vitamin D receptor in vitamin D-activated or -repressed genes and structure-function analysis of the vitamin D receptor have led to several advances. These include a better understanding of the mechanisms of transactivation via the vitamin D receptor by the description of direct and indirect interactions of the vitamin D receptor with the basal transcriptional machinery. Physiological evidence for heterodimerization of the vitamin D receptor with the retinoid X receptor, and with other liganded or unliganded nuclear receptors, has indicated how the genetic response to vitamin D can be modulated. This modulation can also be brought about by cooperation between vitamin D receptor and transcription factors, by the action of a dominant negative isoform of vitamin D receptor, and by cross-talk between the signalling pathways for vitamin D and growth factors. These new concepts, plus the development of analogues of calcitriol, all indicate considerable progress towards vitamin D therapy for several disorders, including renal diseases.

Estradiol-dependent uterine leiomyomas in transgenic mice.

Uterine leiomyomas are a major health problem for women of reproductive age. The molecular biology of these tumors is poorly understood partly because of the lack of relevant animal models. We have produced transgenic mice expressing the simian virus 40 T antigen driven by the promoter of the Calbindin-D9K (CaBP9K) gene and either -1,000 or -117 bp of regulatory sequences so as to establish in vivo, uterine smooth muscle tumor models. Six transgenic mouse lines were obtained. Leiomyomas developed in all of them, with an almost complete penetrance of the phenotype. The smooth muscle tumors arose in different parts of the female reproductive tract. Leiomyomas usually developed in the corpus of the uterus, but one mouse line developed leiomyomas in the horn of the uterus, and another in the vagina. The CaBP9K regulatory sequences directing the expression of the Tag gene possess an estradiol responsive element, and accordingly, development of the tumors was strictly under the control of estrogen. Expression of the Tag gene is not only necessary for the initiation of the tumor but also for its development and maintenance. These transgenic mouse models should be useful for studying the pathobiology of uterine leiomyomas and could be instrumental in designing new therapeutic approaches to this disease.

Tissue-specific and hormonal regulation of calbindin-D9K fusion genes in transgenic mice.

The rat Calbindin-D9K (CaBP9K) gene is mainly expressed in intestine, uterus, and lung and is regulated in a complex tissue-specific manner. To analyze the role of potential regulatory elements, previously defined by DNaseI hypersensivity, we made transgenic mice containing truncated rat CaBP9K fusion gene with simian virus 40 large T antigen and the chloramphenicol acetyltransferase as reporter genes. The transgenes contained CaBP9K promoter fragments with 5' end points at -4400, -1011, and -117 base pairs (bp), whereas the 3' end points was at +365 bp. Northern blot analysis of T antigen expression and chloramphenicol acetyltransferase enzyme-linked immunosorbent assay indicated that a positive element, probably the distal intestine-specific DNaseI HS, necessary to target the expression of the transgene in the intestine, is present between -4400 and -1011 bp. The cephalo-caudal gradient of expression of the transgene along the small intestine was similar to those of the endogenous gene, but an ectopic expression of the transgene was observed in the colon. The -1011 transgene was expressed in epithelial alveolar cells of the lung, in renal proximal tubule cells, and in uterine myometrium, as judged from immunocytochemical, histological, and Northern blot analyses. The shortest, -117 construct was only expressed in uterine myometrium, and it was under a strict estrogen dependence like the endogenous gene. Finally, responsiveness to vitamin D in the duodenum was observed with the largest, -4400 construct. Thus, different tissues utilize distinct cis-acting elements to direct and regulate the expression of the rat CaBP9K gene.

Functional and growth properties of a myometrial cell line derived from transgenic mice: effects of estradiol and antiestrogens.

This study describes the properties of a myometrial cell line, m-M116, that was derived from a leiomyoma developed in an adult female transgenic mouse harboring the simian virus 40 large T antigen (Tag) under the control of the 5'-regulatory sequence of the calbindin D9k (CaBP9k) gene. As the expression of this transgene is governed by the CaBP9k estrogen-responsive element, m-M116 cells were grown in medium supplemented with 17 beta-estradiol. The cells were long lived, had Tag-positive nuclei, and were nontumorigenic when injected into nude mice. They formed irregular layers of elongated cells with typical features of uterine, smooth muscle cells, as assessed by the presence of alpha-smooth muscle actin and desmin filaments, estradiol and progesterone receptors, and expression of the CaBP9k gene. The rate of cell doublings and the expression of the Tag gene in early passaged cells depended on the presence of 17 beta-estradiol. Tamoxifen, a mixed estrogen agonist-antagonist, also stimulated the growth of m-M116 cells, whereas ICI 182 780, a pure antiestrogen, blocked cell growth. Later passages of m-M116 cells still had a smooth muscle phenotype, but proliferated even in the absence of 17 beta-estradiol. These mouse uterine smooth muscle cells obtained by targeted oncogenesis provide a useful model for studies of the progression of steroid-independent carcinomas.