Anna Maria Barbieri scite author profile

Cell growth and proliferation require coordinated ribosomal biogenesis and translation. Eukaryotic Initiation Factors (eIF) control translation at the rate-limiting step of initiation 1,2 . So far, only two eIFs connect extracellular stimuli to global translation rates 3 ; eIF4E acts in the eIF4F complex and regulates binding of capped mRNA to 40S subunits, downstream of growth factors 4 ; eIF2 controls loading of the ternary complex on the 40S subunit and is inhibited upon stress stimuli [5][6] . No eIFs have been found to link extracellular stimuli to the activity of the large 60S ribosomal subunit. eIF6 binds 60S ribosomes precluding ribosome joining in vitro [7][8][9] . However studies in yeasts showed that eIF6 is required for ribosome biogenesis rather than translation [10][11][12][13] . We show that mammalian eIF6 is required for efficient initiation of translation, in vivo. eIF6 null embryos are lethal at preimplantation. Heterozygous mice have 50% reduction of eIF6 levels in all tissues, and show reduced mass of hepatic and adipose tissues due to a lower number of cells and to impaired G1/S cell cycle progression. eIF6 +/− cells retain sufficient nucleolar eIF6 and normal ribosome biogenesis. The liver of eIF6 +/− mice displays an increase of 80S in polysomal profiles, indicating a defect in initiation of translation. Consistently, isolated hepatocytes have impaired insulin-stimulated translation. Heterozygous mouse embryonic fibroblasts (MEFs) recapitulate the organism phenotype and have normal ribosome biogenesis, reduced insulin-stimulated translation, and delayed G1/S phase progression. Furthermore, eIF6 +/− cells resist to oncogene-induced transformation. Thus, eIF6 is the first eIF associated with the large 60S subunit that regulates translation in response to extracellular signals.The eIF6 gene was deleted by homologous recombination using embryonic stem (ES) cell technology ( Supplementary Fig. 1a). The portion of the gene containing the first two exons and the first two introns was substituted by a cassette containing the neomycin resistance gene. The presence of the neomycin resistance cassette did not affect expression of wt eIF6 and of adjacent genes ( Supplementary Fig. 2). Germline transmission was achieved and intercrossingCorrespondence and requests for materials should be addressed to stefano.biffo@hsr.it. * These authors contributed equally Reprints and permissions information is available at npg.nature.com/reprintsandpermissions. Table 1). The lethality of eIF6 −/− embryos is consistent with the early expression of the protein in the blastocysts ( Supplementary Fig. 1d).Heterozygous eIF6 +/− mice were viable and indistinguishable from wt counterparts up to 30 days after birth. At three months of age, heterozygous mice, independently from gender and genetic background, weighted less than their wt littermates (Fig. 1a). The head-anus length of eIF6 +/− and wt mice was identical, suggesting that the reduction of body mass in eIF6 +/− mice could be due to smaller size of specific...

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Pseudohypoparathyroidism andGNASEpigenetic Defects: Clinical Evaluation of Albright Hereditary Osteodystrophy and Molecular Analysis in 40 Patients

Mantovani

et al. 2010

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We report the largest series of the literature of patients with clinical AHO and multihormone resistance and no mutation in the Gsalpha gene. Our findings of frequent GNAS imprinting defects further confirm the existence of an overlap between molecular and clinical features of PHP-Ia and PHP-Ib and highlight the necessity of a new clinical classification of the disease that takes into account the recent knowledge on the molecular basis underlying these defects.

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A homeobox gene, vax2 , controls the patterning of the eye dorsoventral axis

Barbieri

Lupo

Bulfone

et al. 1999

Proc. Natl. Acad. Sci. U.S.A.

146

116

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We have identified a transcription factor specifically expressed in the developing vertebrate eye. We named this gene vax2 because of the high degree of sequence similarity to the recently described vax1. Both in the human and mouse genomes, vax2 is localized in the vicinity of the emx1 gene. This mapping assignment, together with the previously reported colocalization of Vax1 and Emx2 in mouse, indicates that the vax and the emx genes may be organized in clusters. vax2 has a remarkable expression domain confined to the ventral portion of the prospective neural retina in mouse, human, and Xenopus. The overexpression of either the frog Xvax2 or the human VAX2 in Xenopus embryos leads to an aberrant eye phenotype and, in particular, determines a ventralizing effect on the developing eye. The expression domain of the transcription factor Xpax2, normally confined to the ventral developing retina, extends to the dorsal region of the retina after overexpression of vax2. On the other hand, the expression of Xvent2, a molecular marker of the dorsal retina, is strongly reduced. Furthermore, vax2 overexpression induces a striking expansion of the optic stalk, a structure deriving from the ventralmost region of the eye vesicle. Altogether, these data indicate that vax2 plays a crucial role in eye development and, in particular, in the specification of the ventral optic vesicle.

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