79 research outputs found

    Lack of maternal Heat Shock Factor 1 results in multiple cellular and developmental defects, including mitochondrial damage and altered redox homeostasis, and leads to reduced survival of mammalian oocytes and embryos

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    AbstractHeat Shock Factor 1 (HSF1) is a transcription factor whose loss of function results in the inability of Hsf1−/− females to produce viable embryos, as a consequence of early developmental arrest. We previously demonstrated that maternal HSF1 is required in oocytes to regulate expression of chaperones, in particular Hsp90α, and is essential for the progression of meiotic maturation. In the present work, we used comparative morphological and biochemical analytic approaches to better understand how Hsf1−/− oocytes undergo irreversible cell death. We found that the metaphase II arrest in mature oocytes, cortical granule exocytosis and formation of pronuclei in zygotes were all impaired in Hsf1−/− mutants. Although oogenesis generated fully grown oocytes in follicles, intra-ovarian Hsf1−/− oocytes displayed ultrastructural abnormalities and contained dysfunctional mitochondria as well as elevated oxidant load. Finally, the apoptotic effector, caspase-3, was activated in most mutant oocytes and embryos, reflecting their commitment to apoptosis. In conclusion, our study shows that early post-ovulation events are particularly sensitive to oxidant insult, which abrogates the developmental competence of HSF1-depleted oocytes. They also reveal that Hsf1 knock-out mice constitute a genetic model that can be used to evaluate the importance of redox homeostasis in oocytes

    Gene Expression and Chromatin Organization during Mouse Oocyte Growth

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    AbstractMouse oocytes can be classified according to their chromatin organization and the presence [surrounded nucleolus (SN) oocytes] or absence [nonsurrounded nucleolus (NSN) oocytes] of a ring of Hoechst-positive chromatin around the nucleolus. Following fertilization only SN oocytes are able to develop beyond the two-cell stage. These studies indicate a correlation between SN and NSN chromatin organization and the developmental competence of the female gamete, which may depend on gene expression. In the present study, we have used the HSP70.1Luc transgene (murine HSP70.1 promoter + reporter gene firefly luciferase) to analyze gene expression in oocytes isolated from ovaries of 2-day- to 13-week-old females. Luciferase was assayed on oocytes after classification as SN or NSN type. Our data show that SN oocytes always exhibit a higher level of luciferase activity, demonstrating a higher gene expression in this category. Only after meiotic resumption, metaphase II oocytes derived from NSN or SN oocytes acquire the same level of transgene expression. We suggest that the limited availability of transcripts and corresponding proteins, excluded from the cytoplasm until GVBD in NSN oocytes, could explain why these oocytes have a lower ability to sustain embryonic development beyond the two-cell stage at which major zygotic transcription occurs. With this study we have furthered our knowledge of epigenetic regulation of gene expression in oogenesis

    Roles of heat shock factor 1 and 2 in response to proteasome inhibition: consequence on p53 stability.

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    International audienceA single heat shock factor (HSF), mediating the heat shock response, exists from yeast to Drosophila, whereas several related HSFs have been found in mammals. This raises the question of the specific or redundant functions of the different members of the HSF family and in particular of HSF1 and HSF2, which are both ubiquitously expressed. Using immortalized mouse embryonic fibroblasts (iMEFs) derived from wild-type, Hsf1(-/-), Hsf2(-/-) or double-mutant mice, we observed the distinctive behaviors of these mutants with respect to proteasome inhibition. This proteotoxic stress reduces to the same extent the viability of Hsf1(-/-)- and Hsf2(-/-)-deficient cells, but through different underlying mechanisms. Contrary to Hsf2(-/-) cells, Hsf1(-/-) cells are unable to induce pro-survival heat shock protein expression. Conversely, proteasome activity is lower in Hsf2(-/-) cells and the expression of some proteasome subunits, such as Psmb5 and gankyrin, is decreased. As gankyrin is an oncoprotein involved in p53 degradation, we analyzed the status of p53 in HSF-deficient iMEFs and observed that it was strongly stabilized in Hsf2(-/-) cells. This study points a new role for HSF2 in the regulation of protein degradation and suggests that pan-HSF inhibitors could be valuable tools to reduce chemoresistance to proteasome inhibition observed in cancer therapy

    Heat shock factor 2 is a stress‐responsive mediator of neuronal migration defects in models of fetal alcohol syndrome

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    Fetal alcohol spectrum disorder (FASD) is a frequent cause of mental retardation. However, the molecular mechanisms underlying brain development defects induced by maternal alcohol consumption during pregnancy are unclear. We used normal andHsf2‐deficient mice and cell systems to uncover a pivotal role for heat shock factor 2 (HSF2) in radial neuronal migration defects in the cortex, a hallmark of fetal alcohol exposure. Upon fetal alcohol exposure, HSF2 is essential for the triggering of HSF1 activation, which is accompanied by distinctive post‐translational modifications, and HSF2 steers the formation of atypical alcohol‐specific HSF1–HSF2 heterocomplexes. This perturbs the in vivo binding of HSF2 to heat shock elements (HSEs) in genes that control neuronal migration in normal conditions, such as p35 or the MAPs(microtubule‐associated proteins, such as Dclk1 and Dcx), and alters their expression. In the absence of HSF2, migration defects as well as alterations in gene expression are reduced. Thus, HSF2, as a sensor for alcohol stress in the fetal brain, acts as a mediator of the neuronal migration defects associated with FASD

    Oocyte–Targeted Deletion Reveals That Hsp90b1 Is Needed for the Completion of First Mitosis in Mouse Zygotes

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    Hsp90b1 is an endoplasmic reticulum (ER) chaperone (also named Grp94, ERp99, gp96,Targ2, Tra-1, Tra1, Hspc4) (MGI:98817) contributing with Hspa5 (also named Grp78, BIP) (MGI:95835) to protein folding in ER compartment. Besides its high protein expression in mouse oocytes, little is known about Hsp90b1 during the transition from oocyte-to-embryo. Because the constitutive knockout of Hsp90b1 is responsible for peri-implantation embryonic lethality, it was not yet known whether Hsp90b1 is a functionally important maternal factor.To circumvent embryonic lethality, we established an oocyte-specific conditional knockout line taking advantage of the more recently created floxed Hsp90b1 line (Hsp90b1(flox), MGI:3700023) in combination with the transgenic mouse line expressing the cre recombinase under the control of zona pellucida 3 (ZP3) promoter (Zp3-cre, MGI:2176187). Altered expression of Hsp90b1 in growing oocytes provoked a limited, albeit significant reduction of the zona pellucida thickness but no obvious anomalies in follicular growth, meiotic maturation or fertilization. Interestingly, mutant zygotes obtained from oocytes lacking Hsp90b1 were unable to reach the 2-cell stage. They exhibited either a G2/M block or, more frequently an abnormal mitotic spindle leading to developmental arrest. Despite the fact that Hspa5 displayed a similar profile of expression as Hsp90b1, we found that HSPA5 and HSP90B1 did not fully colocalize in zygotes suggesting distinct function for the two chaperones. Consequently, even if HSPA5 was overexpressed in Hsp90b1 mutant embryos, it did not compensate for HSP90B1 deficiency. Finally, further characterization of ER compartment and cytoskeleton revealed a defective organization of the cytoplasmic region surrounding the mutant zygotic spindle.Our findings demonstrate that the maternal contribution of Hsp90b1 is critical for the development of murine zygotes. All together our data indicate that Hsp90b1 is involved in unique and specific aspects of the first mitosis, which brings together the maternal and paternal genomes on a single spindle

    The Human Proteins MBD5 and MBD6 Associate with Heterochromatin but They Do Not Bind Methylated DNA

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    BACKGROUND: MBD5 and MBD6 are two uncharacterized mammalian proteins that contain a putative Methyl-Binding Domain (MBD). In the proteins MBD1, MBD2, MBD4, and MeCP2, this domain allows the specific recognition of DNA containing methylated cytosine; as a consequence, the proteins serve as interpreters of DNA methylation, an essential epigenetic mark. It is unknown whether MBD5 or MBD6 also bind methylated DNA; this question has interest for basic research, but also practical consequences for human health, as MBD5 deletions are the likely cause of certain cases of mental retardation. PRINCIPAL FINDINGS: Here we report the first functional characterization of MBD5 and MBD6. We have observed that the proteins colocalize with heterochromatin in cultured cells, and that this localization requires the integrity of their MBD. However, heterochromatic localization is maintained in cells with severely decreased levels of DNA methylation. In vitro, neither MBD5 nor MBD6 binds any of the methylated sequences DNA that were tested. CONCLUSIONS: Our data suggest that MBD5 and MBD6 are unlikely to be methyl-binding proteins, yet they may contribute to the formation or function of heterochromatin. One isoform of MBD5 is highly expressed in oocytes, which suggests a possible role in epigenetic reprogramming after fertilization

    Quand la mÚre est plus que responsable du devenir de sa progéniture : les mutations à effet maternel

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    Les mutations Ă  effet maternel affectent les gĂšnes qui codent pour des facteurs maternels (transcrits, protĂ©ines) normalement stockĂ©s dans l’ovocyte et utilisĂ©s par l’embryon aprĂšs la fĂ©condation. Alors que les femelles porteuses de ces mutations sont viables et d’apparence normale, le dĂ©veloppement ou mĂȘme la survie de leur descendance est compromis. Connues jusqu’ici chez les organismes infĂ©rieurs tels que la drosophile ou le poisson zĂšbre, les mutations Ă  effet maternel (Dnmt, Hsf1 et Mater) ont Ă©tĂ© dĂ©couvertes plus rĂ©cemment chez les mammifĂšres. Ces nouvelles donnĂ©es ouvrent la perspective d’une meilleure comprĂ©hension des mĂ©canismes du dĂ©veloppement embryonnaire qui sont directement sous le contrĂŽle de l’ovocyte

    Orthodox Christianity and Human Rights in Europe. A Dialogue Between Theological Paradigms and Socio-legal Pragmatics

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    This book aims at examining in what terms, and to what extent, the "reception" of the Human Rights doctrine takes place in Eastern Orthodox countries, as well as in Orthodox diaspora. A series of questions are raised regarding the resources and theological structures that are mobilizes in the overall Human Rights' Debate and controversy, the theological "interpretation" of Human Rights within the Eastern Orthodox spiritual tradition, and the similarities and/or divergences of this interpretation compared to the other Christian confessions. The present book studies the diversity that characterizes the Orthodox theological traditions and interpretations regarding Human Rights, not only in terms of an 'external" or "strategical" approach of socio-political and ecclesial nature, but also through a reflexive analysis of theological discourses facing Human Rights concrete judicial pragmatics. This book aims at experiencing new kind of interdisciplinary between Law and Theology : how to take seriously Law from a theological point of view; how (far) to take into account Theological narratives through a legal approach
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