Translational control of programmed cell death: eukaryotic translation initiation factor 4E blocks apoptosis in growth-factor-restricted fibroblasts with physiologically expressed or deregulated Myc.

There is increasing evidence that cell cycle transit is potentially lethal, with survival depending on the activation of metabolic pathways which block apoptosis. However, the identities of those pathways coupling cell cycle transit to survival remain undefined. Here we show that the eukaryotic translation initiation factor 4E (eIF4E) can mediate both proliferative and survival signaling. Overexpression of eIF4E completely substituted for serum or individual growth factors in preserving the viability of established NIH 3T3 fibroblasts. An eIF4E mutant (Ser-53 changed to Ala) defective in mediating its growth-factor-regulated functions was also defective in its survival signaling. Survival signaling by enforced expression of eIF4E did not result from autocrine release of survival factors, nor did it lead to increased expression of the apoptosis antagonists Bcl-2 and Bcl-XL. In addition, the execution apparatus of the apoptotic response in eIF4E-overexpressing cells was found to be intact. Increased expression of eIF4E was sufficient to inhibit apoptosis in serum-restricted primary fibroblasts with enforced expression of Myc. In contrast, activation of Ha-Ras, which is required for eIF4E proliferative signaling, did not suppress Myc-induced apoptosis. These data suggest that the eIF4E-activated pathways leading to survival and cell cycle progression are distinct. This dual signaling of proliferation and survival might be the basis for the potency of eIF4E as an inducer of neoplastic transformation.     

Effect of Lincocin Treatment on the Greening Process in Bean (Phaseolus vulgaris) Leaves

The effect of lincocin (a plastid protein synthesis inhibitor) treatment on the greening process of bean (Phaseolus vulgaris L.) leaves have been studied. In comparison with control leaves treated ones had a decreased rate of chloroplast development. They had a marked chlorophyll deficiency and a decreased chlorophyll a/b ratio. Some long and short wavelength forms of chlorophyll a were lacking as evidenced from the absorption spectra at 25°C and the fluorescence spectra at 77°K. The –¹⁴CO₂ fixation was inhibited by 80–90% in treated leaves. The fluorescence induced by the measuring light was greater in the treated leaves than in the control ones, and the kinetics of the decline of the relative fluorescence intensity were also different. Electron microscopic studies showed macrogranum-like structures and incomplete membrane vesicles in the treated plastids. After longer treatment a destruction of membranes was observed. The results indicate some structural and functional membrane deficiencies and instability of the membranes.     

Lecithotrophic development and metamorphosis in the Indo-West Pacific brittle star Ophiomastix venosa (Echinodermata: Ophiuroidea)

Summary

The larval development of the ophiocomid ophiuroid Ophiomastix venosais described using SEM. The gastrula transforms into a uniformly ciliated early larva which progressively changes into a lecithotrophic late premetamorphic larva with a continuous bilateral ciliated band. This stage is short-lived and equivalent to a highly reduced ophiopluteus. Comparisons between O. venosa and other ophiuroid species whose development has been investigated suggest that, whatever the developmental mode (lecithotrophic or planktotrophic), a pluteus stage always occurs in ophiuroids with planktonic development. Two metamorphic stages were identified, the late metamorphic larva differing from the early one by the closure of the larval mouth. The appearance of the permanent mouth marks the end of the metamorphosis. The postlarva still possesses remnants of larval features. The transformation of the reduced ophiopluteus into a barrel-shaped metamorphic larva with transverse ciliated bands, a vitellaria larva, is followed. The possible occurrence of a unique type of metamorphic larva in non-brooding ophiuroids is discussed. Verification of this, however, needs further SEM investigations on metamorphic larva from species having “regular” planktotrophic development.     

Reactivation of rat peritoneal leukocyte and mast cell nuclei in heterokaryons with actively growing mouse cells

Leukocytes and mast cells of rat peritoneal exudate (PE) were fused in vitro with actively growing mouse cells. Segmented ring-shaped nuclei of granulocytes undergo drastic changes which result in dispersion of tightly condensed chromatin and gradual disappearance of the opening in the centre of the nucleus. These changes are paralleled by a resumption of RNA and DNA synthesis, as shown by autoradiography with [3H]uridine and [3H]thymidine. Solid inactive nuclei of mast cells, lymphocytes, monocytes and macrophages also resume DNA replication and high level of RNA synthesis. Fusion of thymidine kinase-deficient 3T3-4E cells with PE cells results in the incorporation of [3H]thymidine into the nuclei of heterokaryons. This may be considered evidence of the phenotypic expression of rat thymidine kinase gene in heterokaryons. A similar way in which segmented and non-segmented dormant nuclei undergo reactivation suggests that the reversibility of nuclear inactivation is a common feature of differentiated somatic cells.     

Onset of DNA replication in nuclei of proliferating and resting NIH 3T3 fibroblasts following fusion

NIH 3T3 mouse fibroblasts arrested in medium containing 0.5% serum were fused with stimulated cells taken at 2-h intervals after replacing the medium with one containing 10% serum, and DNA synthesis was studied in mono-, homo- and heterokaryons using radioautography with double-labelling technique. The presence of a resting nucleus in a common cytoplasm with a stimulated nucleus from the prereplicative period has an inhibitory effect on the entry of the stimulated nucleus into the S period in medium containing either 0.5 or 10% serum, but ongoing DNA synthesis continues. After a 24-h stay in a common cytoplasm with resting nuclei the stimulated nuclei return into the state of rest. When resting cells are stimulated by 10% serum, their inhibitory effect on stimulated nuclei in heterokaryons still persists, at least for 2 h following stimulation. Preincubation of resting cells with cycloheximide for 4 h abolishes their ability to suppress DNA synthesis in stimulated nuclei.The data suggest that resting cells produce an endogenous inhibitor of cell proliferation, whose formation depends upon the synthesis of protein. When stimulated, the cells can proliferate only after decreasing the level of this inhibitor. The results obtained are consistent with the idea of a negative control of cell proliferation.