Yeast killer plasmid mutations affecting toxin secretion and activity and toxin immunity function.

We studied the expression of the estrogen-related receptor 1 (ERR-1) during mouse embryonic development. ERR-1 is expressed at very early stages in ES cells and at E8.5 in the mesodermal cells of the visceral yolk sac. ERR-1 continues to be expressed later in mesodermal tissues and particularly in heart and in skeletal muscles. This expression persists during all the embryonic development and in adult stage. ERR-1 transcripts level increases during muscle differentiation. Accordingly, we show that ERR-1 expression increases during the myoblast to myotube transition in differentiating C2 myoblastic cells. ERR-1 has also been detected in the nervous system during embryonic development. At E10.5, a high level of ERR-1 transcripts can be observed in differentiated cells of the intermediate zone of the spinal cord which also suggests a role of ERR-1 in the differentiation of the nervous system. The same is observed in the telencephalon vesicules at E13.5. Later, at E15.5 and E17.5, expression persists in the spinal cord but decreases dramatically in the central nervous system. Moreover, ERR-1 expression increases during skin formation and is detected in the stratum spinosum which contains differentiated Malpighian cells. Finally, we also observed ERR-1 in endodermal derivatives such as the epithelium of intestine and urogenital system. The DNA target of ERR-1 has been identified to be the SF-1/FTZ-F1 responsive element (SFRE) and we show in this paper that SF-1/FTZ-F1 and ERR-1 bind to and activate transcription independently through the SFRE element. Our study suggests that ERR-1 may be implicated in numerous physiological or developmental functions, particularly in the muscle, the central and peripheral nervous system and the epidermis. Interestingly, in these various systems ERR-1 expression is correlated with post-mitotic cells stage, suggesting that ERR-1 may play a role in the differentiation process.

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Retinoic acid receptors and muscle b-HLH proteins: partners in retinoid-induced myogenesis

Froeschle

Alric

Kitzmann

et al. 1998

Oncogene

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The results reported here indicate that retinoic acid (RA) induces growth arrest and dierentiation only in MyoDexpressing muscle cells. Transient transfection assays reveal a functional interaction between MyoD, a key myogenic regulator and RA-receptors, principal mediators of RA actions. Interestingly, we demonstrate that RXR-MyoD-containing complexes are recruited at speci®c MyoD DNA-binding sites in muscle cells.Furthermore, we also demonstrate that RA-receptors and the muscle basic helix ± loop ± helix (b-HLH) proteins interact physically. Mutational analysis suggests that this interaction occurs via the basic region of muscle b-HLH proteins and the DNA-binding domain of RAreceptors and is important for functional interactions between these two families of transcription factors. In conclusion, these results highlight novel interactions between two distinct groups of regulatory proteins that in¯uence cell growth and dierentiation.

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Functional specificity of the two retinoic acid receptor RAR and RXR families in myogenesis

et al. 1998

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SPECIFIC ROLE OF RXRα IN MEDIATING THE ALL‐TRANS RETINOIC ACID‐INDUCED GROWTH ARREST OF C2 MYOGENIC CELLS

Froeschle¹,

Carnac²,

Alric³

et al. 1996

Biology of the Cell

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Evidences for a “Cross‐talk” Between Retinoic Acid Receptors and Myod in Muscle Cells

Proeschlé¹,

Alric²,

Auradé

et al. 1996

Biology of the Cell

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Séverine Alric

Expression of the estrogen-related receptor 1 (ERR-1) orphan receptor during mouse development

Retinoic acid receptors and muscle b-HLH proteins: partners in retinoid-induced myogenesis

Functional specificity of the two retinoic acid receptor RAR and RXR families in myogenesis

SPECIFIC ROLE OF RXRα IN MEDIATING THE ALL‐TRANS RETINOIC ACID‐INDUCED GROWTH ARREST OF C2 MYOGENIC CELLS

Evidences for a “Cross‐talk” Between Retinoic Acid Receptors and Myod in Muscle Cells

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