Publications (29)159.32 Total impact
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Article: A load of small RNAs in the sperm - how many bits of hereditary information?
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ABSTRACT: Transcriptionally silent sperm contains a variety of RNA fragments of both coding and non-coding transcripts. A recent article by Peng and colleagues reveals several new families of small RNAs enriched in sperm, which are derived from the same locus as tRNAs. The finding of these short fragments of tRNA in the sperm raises once again the question of the possible function(s) of such a miniaturized form of information carried by the spermatozoon.Cell Research 12/2012; · 8.19 Impact Factor -
Article: Hérédité et épigénétique: un rôle inattendu pour l’ARN
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ABSTRACT: L’hérédité mendélienne est la forme la plus classique de transmission génétique dont les lois furent découvertes par Gregor Mendel au XIXe siècle. Bien qu’expliquant la transmission de la plupart des caractères, on observe que certains caractères ne suivent pas ce mode de transmission et qu’ils se transmettent à la descendance sans que la séquence nucléotidique du chromosome soit altérée. Par opposition à l’hérédité mendélienne, celle-ci est appelée hérédité non-mendélienne. Elle met en jeu le plus souvent la transmission de modifications épigénétiques. L’exemple d’hérédité non-mendélienne ou hérédité épigénétique transgénérationnel le plus étudié est celui de la paramutation. Initialement mis en évidence chez les plantes et maintenant chez les mammifères comme la souris, la paramutation est une interaction entre deux allèles d’un locus. Dans la paramutation, un allèle d’une génération affecte d’une manière héréditaire l’expression de l’autre allèle dans la génération future, ceci même si l’allèle induisant ce changement n’est pas lui-même transmis. Dans cette revue, nous décrirons un modèle de paramutation nouvellement décrit chez la souris où l’expression du gène kit est modulée par des variations épigénétiques. Contre tout attente, nous avons montré que l’information épigénétique transmise par le gamète mâle et le gamète femelle implique non pas les modifications épigénétiques classiques telles que la méthylation de l’ADN, la structure de la chromatine, mais les molécules d’ARN. Ainsi l’ADN ne serait pas le seul support de l’information héréditaire : l’ARN serait lui-aussi un vecteur important dans la transmission d’informations «épigénétiques. Although Mendel’s first laws explain the transmission of most characteristics, there has recently been a renewed interest in the notion that DNA is not the sole determinant of our inherited phenotype. Human epidemiology studies and animal and plant genetic studies have provided evidence that epigenetic information (“epigenetic” describes an inherited effect on chromosome or gene function that is not accompanied by any alteration of the nucleotide sequence) can be inherited from parents to offspring. Most of the mechanisms involved in epigenetic “memory” are paramutation events, which are heritable epigenetic changes in the phenotype of a “paramutable” allele. Initially demonstrated in plants, paramutation is defined as an interaction between two alleles of a single locus that results in heritable changes of one allele that is induced by the other. The authors describe an unexpected example of paramutation in the mouse revealed by a recent analysis of an epigenetic variation modulating expression of theKit locus. The progeny of hétérozygote intercrosses (carrying one mutant and one wild-type allele) showed persistence of the white patches (characteristic of hétérozygotes) in the homozygous Kit+/+ progeny. The DNA sequences of the two wild-type alleles were structurally normal, revealing an epigenetic modification. Further investigations showed that RNA and microRNA, released by sperm, mediate this epigenetic inheritance. The molecular mechanisms involved in this unexpected mode of inheritance and the role of RNA molecules in the spermatozoon head as possible vectors for the hereditary transfer of such modifications — implying that paternal inheritance is not limited to just one haploid copy of the genome — are still a matter of debate. Paramutations may be considered to be one possibility of epigenetic modification in the case of familial disease predispositions not fully explained by Mendelian analysis.Andrologie 04/2012; 18(2):140-145. -
Article: Novel Small Noncoding RNAs in Mouse Spermatozoa, Zygotes and Early Embryos.
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ABSTRACT: The recent discovery of a significant amount of RNA in spermatozoa contradicted the previously held belief that paternal contribution was limited to one copy of the genome. Furthermore, detection of RNA in sperm raised the intriguing question of its possible role in embryonic development. The possibility that RNAs may serve as epigenetic determinants was supported by experiments showing inheritance of epigenetic traits in mice mediated by RNA. We used high-throughput, large-scale sequencing technology to analyze sperm RNA. The RNA sequences generated were diverse in terms of length and included mRNAs, rRNAs, piRNAs, and miRNAs. We studied two small noncoding RNAs enriched in mature sperm, designated sperm RNAs (spR) -12 and -13. They are both encoded in a piRNA locus on chromosome 17, but neither their length (20-21 nt), nor their sequences correspond to known piRNAs or miRNAs. They are resistant to periodate-oxidation-mediated reaction, implying that they undergo terminal post-transcriptional modification. Both were detected in sperm and ovulated unfertilized oocytes, present in one-cell embryos and maintained in preimplantation stages, but not at later differentiation stages. These findings offer a new perspective regarding a possibly important role for gamete-specific small RNAs in early embryogenesis.PLoS ONE 01/2012; 7(9):e44542. · 4.09 Impact Factor -
Article: Mouse knockout of the cholesterogenic cytochrome P450 lanosterol 14alpha-demethylase (Cyp51) resembles Antley-Bixler syndrome.
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ABSTRACT: Antley-Bixler syndrome (ABS) represents a group of heterogeneous disorders characterized by skeletal, cardiac, and urogenital abnormalities that have frequently been associated with mutations in fibroblast growth factor receptor 2 or cytochrome P450 reductase genes. In some ABS patients, reduced activity of the cholesterogenic cytochrome P450 CYP51A1, an ortholog of the mouse CYP51, and accumulation of lanosterol and 24,25-dihydrolanosterol has been reported, but the role of CYP51A1 in the ABS etiology has remained obscure. To test whether Cyp51 could be involved in generating an ABS-like phenotype, a mouse knock-out model was developed that exhibited several prenatal ABS-like features leading to lethality at embryonic day 15. Cyp51(-/-) mice had no functional Cyp51 mRNA and no immunodetectable CYP51 protein. The two CYP51 enzyme substrates (lanosterol and 24,25-dihydrolanosterol) were markedly accumulated. Cholesterol precursors downstream of the CYP51 enzymatic step were not detected, indicating that the targeting in this study blocked de novo cholesterol synthesis. This was reflected in the up-regulation of 10 cholesterol synthesis genes, with the exception of 7-dehydrocholesterol reductase. Lethality was ascribed to heart failure due to hypoplasia, ventricle septum, and epicardial and vasculogenesis defects, suggesting that Cyp51 deficiency was involved in heart development and coronary vessel formation. As the most likely downstream molecular mechanisms, alterations were identified in the sonic hedgehog and retinoic acid signaling pathways. Cyp51 knock-out mice provide evidence that Cyp51 is essential for embryogenesis and present a potential animal model for studying ABS syndrome in humans.Journal of Biological Chemistry 06/2011; 286(33):29086-97. · 4.77 Impact Factor -
Article: A Network of Regulations by Small Non-Coding RNAs: The P-TEFb Kinase in Development and Pathology.
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ABSTRACT: Part of the heterodimeric P-TEF-b element of the Pol II transcription machinery, the cyclin-dependent kinase 9 plays a critical role in gene expression. Phosphorylation of several residues in the polymerase is required for elongation of transcript. It determines the rates of transcription and thus, plays a critical role in several differentiation pathways, best documented in heart development. The synthesis and activity of the protein are tightly regulated in a coordinated manner by at least three non-coding RNAs. First, its kinase activity is reversibly inhibited by formation of a complex with the 334 nt 7SK RNA, from which it is released under conditions of stress. Then, heart development requires a maximal rate of synthesis during cardiomyocyte differentiation, followed by a decrease in the differentiated state. The latter is insured by microRNA-mediated translational inhibition. In a third mode of RNA control, increased levels of transcription are induced by small non-coding RNA molecules with sequences homologous to the transcript. Designated paramutation, this epigenetic variation, stable during development, and hereditarily transmitted in a non-Mendelian manner over several generations, is thought to be a response to the inactivation of one of the two alleles by an abnormal recombination event such as insertion of a transposon.Frontiers in genetics. 01/2011; 2:95. -
Article: Non-Mendelian epigenetic heredity: gametic RNAs as epigenetic regulators and transgenerational signals.
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ABSTRACT: Inheritance of epigenetic variations may account for a significant part of heritability in human and in mammalian models. Heritable epigenetic variations were reported in plants under the name 'paramutation' more than 50 years ago. Reports by E. Whitelaw and her colleagues and by our laboratory now describe a variety of situations resulting in epigenetic inheritance in mouse systems. In the three cases that we have analysed, a transcriptional increase is initiated by RNAs related to the locus, either microRNAs or transcript fragments. RNAs carried by the spermatozoon appear as the transgenerational signals responsible for paternal transmission. Extension from mouse models to human heredity, obviously speculative at present, is encouraged by the high load of RNA in human sperm.Essays in Biochemistry 09/2010; 48(1):101-6. · 3.71 Impact Factor -
Article: The miR-124-Sox9 paramutation: RNA-mediated epigenetic control of embryonic and adult growth.
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ABSTRACT: The size of the mammalian body is determined by genetic and environmental factors differentially modulating pre- and postnatal growth. We now report a control of growth acting in the mouse from the first cleavages to the postnatal stages. It was evidenced by a hereditary epigenetic modification (paramutation) created by injection of a miR-124 microRNA into fertilized eggs. From the blastocyst to the adult, mouse pups born after microinjection of this miRNA showed a 30% increase in size. At the blastocyst stage, frequent duplication of the inner cell mass resulted in twin pregnancies. A role of sperm RNA as a transgenerational signal was confirmed by the giant phenotype of the progeny of transgenic males expressing miR-124 during spermiogenesis. In E2.5 to E8.5 embryos, increased levels of several transcripts with sequence homology to the microRNA were noted, including those of Sox9, a gene known for its crucial role in the progenitors of several adult tissues. A role in embryonic growth was confirmed by the large size of embryos expressing a Sox9 DNA transgene. Increased expression in the paramutants was not related to a change in miR-124 expression, but to the establishment of a distinct, heritable chromatin structure in the promoter region of Sox9. While the heritability of body size is not readily accounted for by Mendelian genetics, our results suggest the alternate model of RNA-mediated heritable epigenetic modifications.Development 11/2009; 136(21):3647-55. · 6.60 Impact Factor -
Article: A response to 'Mammalian paramutation: a tail's tale?'--a commentary by H. Arnheiter on our paramutation paper.
Pigment Cell & Melanoma Research 01/2009; 22(1):140-1; author reply 142-3. · 5.06 Impact Factor -
Article: RNA induction and inheritance of epigenetic cardiac hypertrophy in the mouse.
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ABSTRACT: Epigenetic regulation shapes normal and pathological mammalian development and physiology. Our previous work showed that Kit RNAs injected into fertilized mouse eggs can produce heritable epigenetic defects, or paramutations, with relevant loss-of-function pigmentation phenotypes, which affect adult phenotypes in multiple succeeding generations of mice. Here, we illustrate the relevance of paramutation to pathophysiology by injecting fertilized mouse eggs with RNAs targeting Cdk9, a key regulator of cardiac growth. Microinjecting fragments of either the coding region or the related microRNA miR-1 led to high levels of expression of homologous RNA, resulting in an epigenetic defect, cardiac hypertrophy, whose efficient hereditary transmission correlated with the presence of miR-1 in the sperm nucleus. In this case, paramutation increased rather than decreased expression of Cdk9. These results highlight the diversity of RNA-mediated epigenetic effects and may provide a paradigm for clinical cases of familial diseases whose inheritance is not fully explained in Mendelian terms.Developmental cell 07/2008; 14(6):962-9. · 13.36 Impact Factor -
Article: Inherited variation at the epigenetic level: paramutation from the plant to the mouse.
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ABSTRACT: In contrast with a wide definition of the 'epigenetic variation', including all changes in gene expression that do not result from the alteration of the gene structure, a more restricted class had been defined, initially in plants, under the name 'paramutation'. It corresponds to epigenetic modifications distinct from the regulatory interactions of the cell differentiation pathways, mitotically stable and sexually transmitted with non-Mendelian patterns. This class of epigenetic changes appeared for some time restricted to the plant world, but examples progressively accumulated of epigenetic inheritance in organisms ranging from mice to humans. Occurrence of paramutation in the mouse and possible mechanisms were then established in the paradigmatic case of a mutant phenotype maintained and hereditarily transmitted by wild-type homozygotes. Together with the recent findings in plants indicative of a necessary step of RNA amplification in the reference maize paramutation, the mouse studies point to a new role of RNA, as an inducer and hereditary determinant of epigenetic variation. Given the known presence of a wide range of RNAs in human spermatozoa, as well as a number of unexplained cases of familial disease predisposition and transgenerational maintenance, speculations can be extended to possible roles of RNA-mediated inheritance in human biology and pathology.Current Opinion in Genetics & Development 05/2008; 18(2):193-6. · 8.09 Impact Factor -
Article: PU.1 (Sfpi1), a pleiotropic regulator expressed from the first embryonic stages with a crucial function in germinal progenitors.
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ABSTRACT: In the adult mammalian testis, spermatogenic differentiation starts from a minute population of spermatogonial stem cells (SSCs). SSCs are generated after birth from the fetal gonocytes, themselves derived from the primordial germ cells (PGCs), which are specified during the first days after implantation. Transcriptome profiling of purified preparations evidenced the preferential accumulation in SSCs of transcripts of PU.1 (Sfpi1), a regulatory gene previously identified in hematopoietic progenitors. In situ immunolabeling and RNA determination showed a complex pattern of expression in the adult testis, first in SSCs and early spermatogonia followed by de novo expression in pachytene spermatocytes. Spermatogenesis in a null mutant (PU.1(G/G)) was arrested at the prenatal stage, with reduced numbers of gonocytes owing to a defect in proliferation already noticeable at E12.5. Transcripts of several germinal markers, including vasa (Mvh, Ddx4), Oct4 (Pou5f1), Dazl and Taf4b, were detected, whereas stella (PGC7, Dppa3) was not. Germ cells of PU.1(G/G) newborn testes grafted in nude mice did not initiate the postnatal replicative stage, whereas grafts of their wild-type littermates underwent complete spermatogenesis. During embryonic development, PU.1 transcription was initiated as early as the blastocyst stage, with a generalized expression at E6.5 in the embryonic ectoderm. PU.1 therefore appears to play a determinant role in at least two distinct lineages and, given its wide range of expression, possibly in other stem cells.Development 12/2007; 134(21):3815-25. · 6.60 Impact Factor -
Article: [Epigenetic heredity in mice: involvement of RNA and miRNas.].
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ABSTRACT: By contrast with a wide definition of the 'epigenetic variation', including all changes in gene expression that do not result from alteration of the gene structure, a more restricted class had been defined, initially in plants, under the name 'paramutation'. It corresponds to epigenetic modifications distinct from the regulatory interactions of the cell differentiation pathways, mitotically stable and sexually transmitted with non-Mendelian patterns. This class of epigenetic changes appeared for some time restricted to the plant world, but examples progressively accumulated of epigenetic inheritance in organisms ranging from mice to humans. Occurrence of paramutation in the mouse and possible mechanisms were then established in the paradigmatic case of a mutant phenotype maintained and hereditarily transmitted by wild type homozygotes. Together with recent findings in plants indicative of a necessary step of RNA amplification in the reference maize paramutation, the mouse studies point to a new role of RNA, as an inducer and hereditary determinant of epigenetic variation. Given the known presence of a wide range of RNAs in human spermatozoa, as well as a number of unexplained cases of familial disease predisposition and transgenerational maintenance, speculations can be extended to possible roles of RNA-mediated inheritance in human biology and pathology.La paramutation est une modification épigénétique héréditaire, découverte chez des plantes et récemment, chez la souris. C'est un changement héréditaire du phénotype associé avec un allèle sauvage à la suite de son passage dans une structure hétérozygote avec un allèle mutant (phénomène quelquefois appelé "conversation interchromosomique"). Souvent il est considéré comme une exception à la base de lois de Mendel, "les allèles sont retrouvés inchangés lors des ségrégations au cours des croisements". Au contraire la paramutation observée chez la souris résulte d'une modification de l'allèle sauvage du gène Kit après transmission à partir d'un hétérozygote avec un allèle mutant "insertion". Le phénotype des taches blanches visibles aisément par la couleur du pelage est transmis en absence de l'allèle inducteur sur plusieurs générations. Il est corrélé avec une diminution du niveau d'ARNm de Kit et une accumulation d'ARN de taille variable de Kit dans les spermatozoïdes des souris paramutantes. La micro-injection de l'ARN de l'hétérozygote, ou de l'ARN et des microARN spécifiques de Kit dans l'oeuf fécondé induit le phénotype "taches blanches". Le rôle de l'ARN dans l'établissement et le maintien d'un état épigénétique héréditaire est proposé et discuté.Journal de la Société de Biologie 02/2007; 201(4):397-9. -
Article: Inheritance of an epigenetic mark: the CpG DNA methyltransferase 1 is required for de novo establishment of a complex pattern of non-CpG methylation.
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ABSTRACT: Site-specific methylation of cytosines is a key epigenetic mark of vertebrate DNA. While a majority of the methylated residues are in the symmetrical (meC)pG:Gp(meC) configuration, a smaller, but significant fraction is found in the CpA, CpT and CpC asymmetric (non-CpG) dinucleotides. CpG methylation is reproducibly maintained by the activity of the DNA methyltransferase 1 (Dnmt1) on the newly replicated hemimethylated substrates (meC)pG:GpC. On the other hand, establishment and hereditary maintenance of non-CpG methylation patterns have not been analyzed in detail. We previously reported the occurrence of site- and allele-specific methylation at both CpG and non-CpG sites. Here we characterize a hereditary complex of non-CpG methylation, with the transgenerational maintenance of three distinct profiles in a constant ratio, associated with extensive CpG methylation. These observations raised the question of the signal leading to the maintenance of the pattern of asymmetric methylation. The complete non-CpG pattern was reinstated at each generation in spite of the fact that the majority of the sperm genomes contained either none or only one methylated non-CpG site. This observation led us to the hypothesis that the stable CpG patterns might act as blueprints for the maintenance of non-CpG DNA methylation. As predicted, non-CpG DNA methylation profiles were abrogated in a mutant lacking Dnmt1, the enzymes responsible for CpG methylation, but not in mutants defective for either Dnmt3a or Dnmt2.PLoS ONE 02/2007; 2(11):e1136. · 4.09 Impact Factor -
Article: RNA-mediated non-mendelian inheritance of an epigenetic change in the mouse.
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ABSTRACT: Paramutation is a heritable epigenetic modification induced in plants by cross-talk between allelic loci. Here we report a similar modification of the mouse Kit gene in the progeny of heterozygotes with the null mutant Kit(tm1Alf) (a lacZ insertion). In spite of a homozygous wild-type genotype, their offspring maintain, to a variable extent, the white spots characteristic of Kit mutant animals. Efficiently inherited from either male or female parents, the modified phenotype results from a decrease in Kit messenger RNA levels with the accumulation of non-polyadenylated RNA molecules of abnormal sizes. Sustained transcriptional activity at the postmeiotic stages--at which time the gene is normally silent--leads to the accumulation of RNA in spermatozoa. Microinjection into fertilized eggs either of total RNA from Kit(tm1Alf/+) heterozygotes or of Kit-specific microRNAs induced a heritable white tail phenotype. Our results identify an unexpected mode of epigenetic inheritance associated with the zygotic transfer of RNA molecules.Nature 06/2006; 441(7092):469-74. · 36.28 Impact Factor -
Article: Development of transgenic mice expressing calcitonin as a beta-lactoglobulin fusion protein in mammary gland.
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ABSTRACT: Expression of foreign proteins in mammalian milk is becoming a widespread strategy for high-level production of recombinant pharmaceuticals, especially those with the most complex post-translational modifications. A milk-specific ovine beta-lactoglobulin (oBLG) promoter was used to drive expression of recombinant calcitonin in mouse milk. A gene construct was generated, consisting of 10.7 kbp of the oBLG gene including its promoter and 3' flanking region with the calcitonin coding sequences inserted in-frame into the oBLG fifth exon. After microinjection, six founder mice transmitted the transgene to their progeny. RT-PCR confirmed mammary-gland specific expression of recombinant mRNA in most transgenic mice and Western blot analysis confirmed expression of chimeric protein. Calcitonin can thus be expressed under the oBLG promoter and regulatory elements in a mammary-gland specific manner.Transgenic Research 11/2005; 14(5):719-27. · 2.75 Impact Factor -
Article: Germ cells and fatty acids induce translocation of CD36 scavenger receptor to the plasma membrane of Sertoli cells.
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ABSTRACT: The CD36 scavenger receptor is involved in the uptake and transport of fatty acids, as well as the phagocytosis process in macrophages. We show here that the CD36 protein is expressed by Sertoli cells in the seminiferous epithelium, mainly during the stages where phagocytosis takes place. Using a Sertoli-derived cell line, we show that addition of germ cells and residual bodies triggers a re-localization of CD36 from the cytoplasm to the plasma membrane of the cells, while latex beads do not. Moreover, Sertoli cell phagocytosis of germ cells, but not of latex beads, is reduced by the presence of fatty acids in the culture medium. In the testis, CD36 plays a key role in both phagocytosis and lipid recycling, for constant production of mature spermatozoa.Journal of Cell Science 08/2005; 118(Pt 14):3027-35. · 6.11 Impact Factor -
Article: Primary spermatocyte-specific Cre recombinase activity in transgenic mice.
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ABSTRACT: We have evaluated the specificity of Cre recombinase activity in transgenic mice expressing Cre under the control of the synatonemal complex protein 1 (Sycp1) gene promoter. Sycp1Cre mice were crossed with the ROSA26 reporter line R26R, to monitor the male germ cell stage-specificity of Cre activity as well as to verify that Cre was not active previously during development of other tissues. X-gal staining detected Cre-mediated recombination only in testis. Detailed histological examination indicated that weak Cre-mediated recombination occurred as early as in zygotene spermatocytes at stage XI of the cycle of the seminiferous epithelium. Robust expression of X-gal was detected in early to mid-late spermatocytes at stages V-VIII. We conclude that this transgenic line is a powerful tool for deleting genes of interest specifically during male meiosis.Transgenic Research 07/2004; 13(3):289-94. · 2.75 Impact Factor -
Article: Peroxisome proliferator-activated receptor delta controls muscle development and oxidative capability.
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ABSTRACT: Peroxisome proliferator-activated receptors (PPARs) are nuclear receptors exerting several functions in development and metabolism. The physiological functions of PPARdelta remain elusive. By using a CRE-Lox recombination approach, we generated an animal model for muscle-specific PPARdelta overexpression to investigate the role of PPARdelta in this tissue. Muscle-specific PPARdelta overexpression results in a profound change in fiber composition due to hyperplasia and/or shift to more oxidative fiber and, as a consequence, leads to the increase of both enzymatic activities and genes implicated in oxidative metabolism. These changes in muscle are accompanied by a reduction of body fat mass, mainly due to a large reduction of adipose cell size. Furthermore, we demonstrate that endurance exercise promotes an accumulation of PPARdelta protein in muscle of wild-type animals. Collectively, these results suggest that PPARdelta plays an important role in muscle development and adaptive response to environmental changes, such as training exercise. They strongly support the idea that activation of PPARdelta could be beneficial in prevention of metabolic disorders, such as obesity or type 2 diabetes.The FASEB Journal 01/2004; 17(15):2299-301. · 5.71 Impact Factor -
Article: A novel germ line-specific gene of the phosducin-like protein (PhLP) family. A meiotic function conserved from yeast to mice.
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ABSTRACT: We identified a new member of the phosducin-like (PhLP) protein family that is predominantly, if not exclusively, expressed in male and female germ cells. In situ analysis on testis sections and analysis of purified spermatogenic cell fractions evidenced a stage-specific expression with high levels of RNA and protein in pachytene spermatocytes and round spermatids. Three mRNA species were detected, which correspond to different polyadenylation sites and vary in abundance during germ cell maturation. Only low levels of RNA were detected in whole ovary extracts, but expression of the protein became detectable within hours after hormonal induction of superovulation. The gene (Mgcphlp) is located on mouse chromosome 5 in the immediate vicinity of the Clock locus. The predicted amino acid sequence shows extensive similarities not only with the known mammalian PhLP proteins but also with the yeast phosducin-like protein Plp2, required for the production and growth of haploid cells. Expression of the murine protein was found to complement the defect of a yeast plp2 Delta mutant. We propose that MgcPhLP/Plp2 proteins exert a function in germ cell maturation that is conserved from yeast to mammals.Journal of Biological Chemistry 02/2003; 278(3):1751-7. · 4.77 Impact Factor -
Article: A Novel Germ Line-specific Gene of the Phosducin-like Protein (PhLP) Family
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ABSTRACT: We identified a new member of the phosducin-like (PhLP) protein family that is predominantly, if not exclusively, expressed in male and female germ cells. In situ analysis on testis sections and analysis of purified spermatogenic cell fractions evidenced a stage-specific expression with high levels of RNA and protein in pachytene spermatocytes and round spermatids. Three mRNA species were detected, which correspond to different polyadenylation sites and vary in abundance during germ cell maturation. Only low levels of RNA were detected in whole ovary extracts, but expression of the protein became detectable within hours after hormonal induction of superovulation. The gene (Mgcphlp) is located on mouse chromosome 5 in the immediate vicinity of the Clock locus. The predicted amino acid sequence shows extensive similarities not only with the known mammalian PhLP proteins but also with the yeast phosducin-like protein Plp2, required for the production and growth of haploid cells. Expression of the murine protein was found to complement the defect of a yeastplp2Δ mutant. We propose that MgcPhLP/Plp2 proteins exert a function in germ cell maturation that is conserved from yeast to mammals.Journal of Biological Chemistry 01/2003; 278(3):1751-1757. · 4.77 Impact Factor
Top co-authors
Top Journals
Institutions
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2012
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Hokkaido University
Sapporo-shi, Hokkaido, Japan
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1970–2012
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Université de Nice - Sophia Antipolis
Valbonne, Provence-Alpes-Cote d'Azur, France
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2005
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Agricultural Biotechnology Research Institute of Iran
Karaj, Ostan-e Alborz, Iran
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2002
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Institut national de la santé et de la recherche médicale
Paris, Ile-de-France, France
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