Your search keyword '"Levi, Giovanni"' showing total 7 results

1. Abnormal urethra formation in mouse models of Split-hand/split-foot malformation type 1 and type 4.

Author

Suzuki, Kentaro, Haraguchi, Ryuma, Ogata, Tsutomu, Barbieri, Ottavia, Alegria, Olinda, Vieux-Rochas, Maxence, Nakagata, Naomi, Ito, Masataka, Mills, Alea A., Kurita, Takeshi, Levi, Giovanni, and Yamada, Gen

Subjects

GENITOURINARY organs, HUMAN abnormalities, EXTREMITIES (Anatomy), POTTER'S syndrome, GENE expression, HYPOSPADIAS

Abstract

Urogenital birth defects are one of the common phenotypes observed in hereditary human disorders. In particular, limb malformations are often associated with urogenital developmental abnormalities, as the case for Hand–foot–genital syndrome displaying similar hypoplasia/agenesis of limbs and external genitalia. Split-hand/split-foot malformation (SHFM) is a syndromic limb disorder affecting the central rays of the autopod with median clefts of the hands and feet, missing central fingers and often fusion of the remaining ones. SHFM type 1 (SHFM1) is linked to genomic deletions or rearrangements, which includes the distal-less-related homeogenes DLX5 and DLX6 as well as DSS1. SHFM type 4 (SHFM4) is associated with mutations in p63, which encodes a p53-related transcription factor. To understand that SHFM is associated with urogenital birth defects, we performed gene expression analysis and gene knockout mouse model analyses. We show here that Dlx5, Dlx6, p63 and Bmp7, one of the p63 downstream candidate genes, are all expressed in the developing urethral plate (UP) and that targeted inactivation of these genes in the mouse results in UP defects leading to abnormal urethra formation. These results suggested that different set of transcription factors and growth factor genes play similar developmental functions during embryonic urethra formation. Human SHFM syndromes display multiple phenotypes with variations in addition to split hand foot limb phenotype. These results suggest that different genes associated with human SHFM could also be involved in the aetiogenesis of hypospadias pointing toward a common molecular origin of these congenital malformations.European Journal of Human Genetics (2008) 16, 36–44; doi:10.1038/sj.ejhg.5201925; published online 19 September 2007 [ABSTRACT FROM AUTHOR]

Published

2008

2. Dlx5, the mouse homologue of the human-imprinted DLX5 gene, is biallelically expressed in the mouse brain.

Author

Kimura, Motoshi I., Kazuki, Yasuhiro, Kashiwagi, Akiko, Kai, Yoshiteru, Abe, Satoshi, Barbieri, Ottavia, Levi, Giovanni, and Oshimura, Mitsuo

Subjects

CHROMOSOME abnormalities, GENES, MOLECULAR genetics, BRAIN, GENETICS, EMBRYOS, MICE

Abstract

The mouse Dlx5 gene encodes a distal-less-related DNA-binding homeobox protein first expressed during early embryonic development in anterior regions of mouse embryo and is located on chromosome 6, which is the syntenic region to the human chromosome 7q21-q31 imprinting cluster. Recently, its human homologue, DLX5, was identified to be imprinted and maternally expressed, at least in normal human lymphoblasts and in brain tissues. In our study, we analyzed the imprinting status of mouse Dlx5 by RT-PCR, first in the F1 of a reciprocal cross between two different mouse strains, and second in heterozygous Dlx5 mutant mice. Both approaches revealed that mouse Dlx5 followed a biallelic pattern of expression in brain tissue and in testis. Our findings suggest that the Dlx5 gene escapes genomic imprinting, at least in mice of certain genetic backgrounds. [ABSTRACT FROM AUTHOR]

Published

2004

3. Hyperplasia and impaired involution in the mammary gland of transgenic mice expressing human FGF4.

Author

Morini, Monica, Astigiano, Simonetta, Mora, Marirosa, Ricotta, Cristina, Ferrari, Nicoletta, Mantero, Stefano, Levi, Giovanni, Rossini, Mara, and Barbieri, Ottavia

Subjects

MAMMARY glands, TRANSGENIC mice, HYPERPLASIA

Abstract

FGF4:, a member of the fibroblast growth factor family, is frequently amplified in a variety of human cancers, however, its expression in neoplastic tissues is rarely detectable. This makes uncertain its involvement in tumour aetiology, although several in-vitro studies link Fgf4 overexpression to malignant transformation and metastatization of culture cells. We generated a transgenic mouse model in which the whey acidic protein (WAP) promoter directs expression of human Fgf4 to mammary tissues during late pregnancy and throughout lactation, with the purpose of studying the involvement of this growth factor in mammary tumorigenesis. Expression of the transgene was specifically detected in lobular-alveolar cells of lactating mammary glands that, by histological analysis, displayed hyperplastic areas and a disorganized structure. This was accompanied by an increased number of red blood cells and expression, in alveolar epithelial cells, of the vascular endothelial growth factor, which is absent in wild type controls. The most striking effect caused by FGF4 overexpression was on the remodelling of mammary tissue at the end of lactation. Indeed, transgenic animals showed a delayed involution of the gland due to a dramatic reduction in the overall number of apoptotic cells, which are normally present in the organ after weaning. Nevertheless, none of the animals examined developed neoplastic lesions of the mammary gland even after several pregnancies and at old age. Our work represents the first in-vivo demonstration of the anti-apoptotic and angiogenic properties of FGF4. Oncogene (2000) 19, 6007–6014. [ABSTRACT FROM AUTHOR]

Published

2000

4. Down-regulation of DPH2L gene during cellular differentiation/apoptosis: Use of mRNA differential display.

Author

Guizhong, Liu, Ferrari, Nicoletta, Levi, Giovanni, and Min, Wu

Subjects

MOLECULAR cell differentiation, APOPTOSIS

Abstract

Discusses a study which explored the involvement of the down-regulation of DPH2L gene in the transition from cell growth to differentiation or apoptosis. Cloning of differentiation/apoptosis-specific genes; Expression of DPH2L during differentiation/apoptosis in GLC82 cells; Expression of DPH2L in other lung cancer cell lines.

Published

1999

5. Thyroid hormone effects on Krox-24 transcription in the post-natal mouse brain are developmentally regulated but are not correlated with mitosis.

Author

Ghorbel, Mohamed T, Seugnet, Isabelle, Hadj-Sahraoui, Nadia, Topilko, Piotr, Levi, Giovanni, and Demeneix, Barbara

Subjects

THYROID hormones, TRANSCRIPTION factors, MITOSIS, GENETIC transformation

Abstract

KROX-24: (NGFI-A, Egr-1) is an immediate-early gene encoding a zinc finger transcription factor. As Krox-24 is expressed in brain areas showing post-natal neurogenesis during a thyroid hormone (T3)-sensitive period, we followed T3 effects on Krox-24 expression in newborn mice. We analysed whether regulation was associated with changes in mitotic activity in the subventricular zone and the cerebellum. In vivo T3-dependent Krox-24 transcription was studied by polyethylenimine-based gene transfer. T3 increased transcription from the Krox-24 promoter in both areas studied at post-natal day 2, but was without effect at day 6. An intact thyroid hormone response element (TRE) in the Krox-24 promoter was necessary for these inductions. These stage-dependent effects were also seen in endogenous Krox-24 mRNA levels: activation at day 2 and no effect at day 6. Moreover, similar results were obtained by examining β-galactosidase expression in heterozygous mice in which one allele of the Krox-24 gene was disrupted with an in-frame Lac-Z insertion. However, bromodeoxyuridine incorporation showed mitosis to continue through to day 6. We conclude first, that T3 activates Krox-24 transcription during early post-natal mitosis but that this effect is extinguished as development proceeds and second, loss of T3-dependent Krox-24 expression is not correlated with loss of mitotic activity. [ABSTRACT FROM AUTHOR]

Published

1999

6. Probing the origin of matching functional jaws: roles of Dlx5/6 in cranial neural crest cells.

Author

Shimizu, Miki, Narboux-Nême, Nicolas, Gitton, Yorick, de Lombares, Camille, Fontaine, Anastasia, Alfama, Gladys, Kitazawa, Taro, Kawamura, Yumiko, Heude, Eglantine, Marshall, Lindsey, Higashiyama, Hiroki, Wada, Youichiro, Kurihara, Yukiko, Kurihara, Hiroki, and Levi, Giovanni

Abstract

Gnathostome jaws derive from the first pharyngeal arch (PA1), a complex structure constituted by Neural Crest Cells (NCCs), mesodermal, ectodermal and endodermal cells. Here, to determine the regionalized morphogenetic impact of Dlx5/6 expression, we specifically target their inactivation or overexpression to NCCs. NCC-specific Dlx5/6 inactivation (NCC∆Dlx5/6) generates severely hypomorphic lower jaws that present typical maxillary traits. Therefore, differently from Dlx5/6 null-embryos, the upper and the lower jaws of NCC∆Dlx5/6 mice present a different size. Reciprocally, forced Dlx5 expression in maxillary NCCs provokes the appearance of distinct mandibular characters in the upper jaw. We conclude that: (1) Dlx5/6 activation in NCCs invariably determines lower jaw identity; (2) the morphogenetic processes that generate functional matching jaws depend on the harmonization of Dlx5/6 expression in NCCs and in distinct ectodermal territories. The co-evolution of synergistic opposing jaws requires the coordination of distinct regulatory pathways involving the same transcription factors in distant embryonic territories. [ABSTRACT FROM AUTHOR]

Published

2018

7. Developmental genetic bases behind the independent origin of the tympanic membrane in mammals and diapsids.

Author

Kitazawa, Taro, Takechi, Masaki, Hirasawa, Tatsuya, Adachi, Noritaka, Narboux-Nême, Nicolas, Kume, Hideaki, Maeda, Kazuhiro, Hirai, Tamami, Miyagawa-Tomita, Sachiko, Kurihara, Yukiko, Hitomi, Jiro, Levi, Giovanni, Kuratani, Shigeru, and Kurihara, Hiroki

Published

2015