Elena Vega-Núñez scite author profile

Insights have emerged concerning insulin function during development, from the finding that apoptosis during chicken embryo neurulation is prevented by prepancreatic (pro)insulin. While characterizing the molecules involved in this survival effect of insulin, we found insulindependent regulation of the molecular chaperone heat shock cognate 70 kDa (Hsc70), whose cloning in chicken is reported here. This chaperone, generally considered constitutively expressed, showed regulation of its mRNA and protein levels in unstressed embryos during early development. More important, Hsc70 levels were found to depend on endogenous (pro)insulin, as shown by using antisense oligodeoxynucleotides against (pro)insulin mRNA in cultured neurulating embryos. Further, in the cultured embryos, apoptosis affected mainly cells with the lowest level of Hsc70, as shown by simultaneous Hsc70 immunostaining and terminal deoxynucleotidyltransferase-mediated UTP nick end labeling. These results argue in favor of Hsc70 involvement, modulated by embryonic (pro)insulin, in the prevention of apoptosis during early development and suggest a role for a molecular chaperone in normal embryogenesis.

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Thyroid hormone-regulated brain mitochondrial genes revealed by differential cDNA cloning.

Vega-Núñez¹,

Menéndez-Hurtado²,

Garesse³

et al. 1995

J. Clin. Invest.

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Thyroid hormone (T3) plays a critical role in the development of the central nervous system and its deficiency during the early neonatal period results in severe brain damage. However the mechanisms involved and the genes specifically regulated by T3 during brain development are largely unknown. By using a subtractive hybridization technique we have isolated a number of cDNAs that represented mitochondrial genes (12S and 16S rRNAs and cytochrome c oxidase subunit I). The steady state level of all three RNAs was reduced in hypothyroid animals during the postnatal period and T3 administration restored control levels. During fetal life the level of 16S rRNA was decreased in the brain of hypothyroid animals, suggesting a prenatal effect of thyroid hormone on brain development. Since T3 does not affect the amount of mitochondrial DNA, the results suggest that the effect of T3 is at transcriptional and/or postranscriptional level. In addition, the transcript levels for two nuclear-encoded mitochondrial cytochrome c oxidase subunits: subunits IV and VIc were also decreased in the brains of hypothyroid animals. Hypothyroidism-induced changes in mitochondrial RNAs were followed by a concomitant 40% decrease in cytochrome c oxidase activity. This study shows that T3 is an important regulator of mitochondrial function in the neonatal brain and, more importantly, provides a molecular basis for the specific action of this hormone in the developing brain. (J. Clin. Invest. 1995. 96:893-899.)

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Regulation by Thyroid Hormone and Retinoic Acid of the CCAAT/Enhancer Binding Protein α and β Genes during Liver Development

Menéndez-Hurtado

Vega-Núñez

Pérez-Castillo

1997

Biochemical and Biophysical Research Communications

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Dynamic restricted expression of the chaperone Hsc70 in early chick development

Vega-Núñez

Peña-Melián

Rosa

et al. 1999

Mechanisms of Development

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The non-inducible chaperone heat shock cognate 70 kDa (Hsc70) is regulated during development. We now characterize its dynamic expression pattern from gastrulation to early organogenesis. Throughout this developmental period, hsc70 transcripts were largely restricted to neuroectoderm- and mesoderm-derived structures. In stage 10 embryos, Hsc70 protein was expressed in the neural tube with increasing rostrocaudal and decreasing dorsoventral gradients, and in some somite cells. This highly regulated expression of Hsc70 is likely to reflect specific developmental functions, besides its well-characterized role in protein folding.

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