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Although multiple functions for the small heat shock protein HSP25 have been proposed, its specific role during developmental and differentiation processes is not known. Cartilage is one of the tissues in which HSP25 is specifically and highly expressed during development. C1 cells, able to form aggregates in vitro, can be induced to differentiate into chondrocytes. In this study, we generated two stable transfected clones overexpressing HSP25 at two different levels. Cell morphology and growth rate were modified in both clones, although the actin content and distribution did not seem to be altered. Overexpressing clones had more difficulties in coalescing, leading to smaller aggregates and they did not differentiate into chondrocytes. Subsequently, these aggregates tended to dissociate into loose masses of dying cells. The strength of all these effects was directly correlated to the level of HSP25 overexpression. These data suggest that overexpressing HSP25 decreases cellular adhesion and interferes with chondrocyte differentiation.

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Heat shock proteins (Hsps) act as molecular chaperones and are generally constitutively expressed in the absence of stress. Hsps are also inducible by a variety of stressors whose effects could be disastrous on the brain. It has been shown previously that Hsps are differentially expressed in glial and neuronal cells, as well as in the different structures of the brain. This differential expression has been related to specific functions distinct from their general chaperone function, such as intracellular transport. We investigated here the constitutive expression of 5 Hsps (the small Hsp, Hsp25, the constitutive Hsc70 and Hsp90beta, the mainly inducible Hsp70 and Hsp90alpha), and of a molecular chaperone, TCP-1alpha during mouse nervous system development. We analyzed, by immunohistochemistry, their distribution in the central nervous system and in the ganglia of the peripheral nervous system from day 9.5 (E9.5) to day 17.5 (E17.5) of gestation. Hsps are expressed in different cell classes (neuronal, glial, and vascular). The different proteins display different but often overlapping patterns of expression in different regions of the developing nervous system, suggesting unique roles at different stages of neural maturation. Their putative function in cell remodeling during migration or differentiation and in protein transport is discussed. Moreover we consider Hsp90 function in cell signaling and the role of Hsp25 in apoptosis protection.

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The process of endochondral bone formation was examined with regard to expression of seven heat shock proteins (Hsps): two small Hsps, the constitutive and the inducible forms of the 70 and the 90 Hsp families, the collagen chaperone Hsp47, and a cytosolic chaperone, TCP-1alpha, using immunohistochemistry. Around day 15.5 of embryogenesis the calcification of the long endochondral bones occurs through progressive replacement of the cartilaginous scaffold (rich in type II collagen) with an ossified matrix (rich in type I collagen), and thus a longitudinal section of limb bone recapitulates all the steps of chondrogenesis and the early steps of osteogenesis. We observed that all these Hsps and chaperones are differentially expressed during bone development in a stage-specific pattern reaching very high levels at some specific stages. The involvement of chaperones during these important differentiation steps will be discussed.

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The spontaneous expression of heat shock genes during development is well documented in many animal species, but the mechanisms responsible for this developmental regulation are only poorly understood. In vertebrates, additional heat shock transcription factors, distinct from the heat shock factor 1 (HSF1) involved in the stress response, were suggested to be involved in this developmental control. In particular, the mouse HSF2 has been found to be active in testis and during preimplantation development. However, the role of HSF2 and its mechanism of activation have remained elusive due to the paucity of data on its expression during development. In this study, we have examined HSF2 expression during the postimplantation phase of mouse development. Our data show a developmental regulation of HSF2, which is expressed at least until 15.5 days of embryogenesis. It becomes restricted to the central nervous system during the second half of gestation. It is expressed in the ventricular layer of the neural tube which contains mitotically active cells but not in postmitotic neurons. Parallel results were obtained for mRNA, protein, and activity levels, demonstrating that the main level of control was transcriptional. The detailed analysis of the activity of a luciferase reporter gene under the control of the hsp70.1 promoter, as well as the description of the protein expression patterns of the major heat shock proteins in the central nervous system, show that HSF2 and heat shock protein expression domains do not coincide. This result suggests that HFS2 might be involved in other regulatory developmental pathways and paves the way to new functional approaches.

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During the pre-implantation phase of development, the mouse embryo synthesizes HSC70, and HSP90 alpha and beta at a very high rate. After implantation, the expression of HSPs appears non-coordinated and is not uniform in the different tissues. The expression of inducible HSPs appears later in development than that of constitutive members of the family. HSP25 is highly expressed early in heart and muscle development, but also in some structure of the central nervous system. HSC70 and HSP90 beta are expressed ubiquitously, but their expression reaches very high levels in the nervous system (neural tracks) and during bone morphogenesis (in the hypertrophic chondrocytes). The mechanisms involved in HSP expression during mouse embryogenesis are probably diverse, involving tissue-specific sequences. Although the DNA-binding activity and expression of the second heat shock transcription factor, HSF2, seems to be developmentally regulated, becoming detectable at the blastocyst stage and reaching a peak at day 10 of development, there is no obvious correlation between the level of this factor and the expression of HSPs. HSF2 might be involved in the onset of expression of HSPs, regulate (inhibit) their expression, or control the expression of other developmental genes yet to be discovered.

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The lampbrush chromosomes of the urodele Pleurodeles waltl have been studied using the mitosis-specific monoclonal antibody MPM-2. Immunofluorescence studies revealed that MPM-2 stains structures associated with axial granules, numerous other chromomeres, telomeres and certain chiasmata. These structures showed a negative reaction with the anti-DNA monoclonal antibody AC-30-10. In course of meiotic condensation of the chromosomes, in growing and maturating oocytes, the number of such structures associated with the chromosome axis was found to diminish progressively. These granular structures have been found to be formed by fine fibrils about 5 nm in diameter. Immunogold labeling confirmed the results of immunofluorescence studies. MPM-2 was also found to stain two other types of structures observed in association with the lampbrush chromosome axis in P waltl, viz the sphere organelle (only in later stages of oogenesis) and the structure known as 'M' which is singular to this material.

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Monoclonal antibodies A33/22 and La11G7 have been used to study the distribution of the corresponding antigens, PwA33 and La, on the lampbrush chromosome loops and nucleoplasmic structures of P. waltl oocytes, using immunofluorescence, confocal laser scanning microscopy and immunogold labeling. The results obtained with these antibodies have been compared with those obtained with the Sm-antigen-specific monoclonal antibody Y12. All these monoclonal antibodies (mAbs) labeled the matrices of the majority of normal loops along their whole length. Nucleoplasmic RNP granules showed a strong staining with the mAbs La11G7 and Y12 throughout their mass, but with the mAb A33/22, they showed only a weak peripheral labeling in the form of patches on their surface. This patchy labeling was confirmed by confocal laser scanning microscopy. Electron microscopy revealed that this patchy labeling might be due to a hitherto undescribed type of submicroscopic granular structure, around 100 nm in either dimension, formed by 10-nm particles. Such granules were observed either attached to the RNP granules or free in the nucleoplasm, but rarely in relation with the normal loop matrices. These 100-nm granules may have a role in the movement of proteins and snRNPs inside the oocyte nuclei for storage, recycling, and/or degradation. Our results also suggest that all the microscopically visible free RNP granules of the nucleoplasm of P. waltl oocytes correspond to B snurposomes. The granules forming the B (globular) loops showed a labeling pattern similar to that of B snurposomes; their possible relationship is discussed.

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The mitotic Z and W sex chromosomes in Pleurodeles seem to be identical. Earlier morphological and molecular analyses of lampbrush paired chromosomes in the female meiosis showed clearly that 20% of the chromosomal length located in the middle part of the sex bivalent (bivalent IV) is heteromorphic. We investigated here the base content and composition of the DNA axes in the heteromorphic region by quantitative fluorescence imaging using various base-specific (DAPI, Hoechst 33342 and chromo-mycin A3) or base-nonspecific (ethidium bromide) fluorescent DNA probes. Our results show a significantly higher percentage of AT bases in Z than in W differential sectors. In addition the entire base content of Z appears slightly higher than that of W.

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Several repeated DNA sequences were isolated from a partial genomic DNA library of the newt Pleurodeles waltl. These repeated DNA elements are dispersed over the 12 P. waltl bivalents, and some of them are transcribed in the oocyte. We describe the localization of label following in situ hybridization to nascent RNA attached to the lateral loops of lampbrush chromosomes. Variations in the number and the location of labelled loops were constantly found for several of the probes. The results are discussed in view of the "cotranscription model" of RNA synthesis on lampbrush chromosomes. We speculate on the possible origins of variation in transcription on lampbrush loops.

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In vivo irradiation of ovaries of Pleurodeles poireti by gamma-rays leads to structural rearrangement of lampbrush chromosomes in late vitellogenic oocytes (stages V and VI). The loops collapse into the chromomeres and the axes condense. Doses between 200 and 2,000 rads have been tested. We observed that such changes were dependent on the irradiation dose though the chronological order of the events was irrespective of the dose. The maximum effect was attained about 10 h after irradiation. The alterations are totally reversible. Over a period of 3 days chromosomes gradually relax regenerate loops and recover their normal appearance. In mid vitellogenic oocytes (stages III and IV) lampbrush chromosomes do not undergo radiation induced alterations. It seems that only full-grown oocytes are competent to respond to the ionizing-flow.

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