The pro-apoptotic activity of Drosophila Rbf1 involves dE2F2-dependent downregulation of diap1 and buffy mRNA.

The retinoblastoma gene, rb, ensures at least its tumor suppressor function by inhibiting cell proliferation. Its role in apoptosis is more complex and less described than its role in cell cycle regulation. Rbf1, the Drosophila homolog of Rb, has been found to be pro-apoptotic in proliferative tissue. However, the way it induces apoptosis at the molecular level is still unknown. To decipher this mechanism, we induced rbf1 expression in wing proliferative tissue. We found that Rbf1-induced apoptosis depends on dE2F2/dDP heterodimer, whereas dE2F1 transcriptional activity is not required. Furthermore, we highlight that Rbf1 and dE2F2 downregulate two major anti-apoptotic genes in Drosophila: buffy, an anti-apoptotic member of Bcl-2 family and diap1, a gene encoding a caspase inhibitor. On the one hand, Rbf1/dE2F2 repress buffy at the transcriptional level, which contributes to cell death. On the other hand, Rbf1 and dE2F2 upregulate how expression. How is a RNA binding protein involved in diap1 mRNA degradation. By this way, Rbf1 downregulates diap1 at a post-transcriptional level. Moreover, we show that the dREAM complex has a part in these transcriptional regulations. Taken together, these data show that Rbf1, in cooperation with dE2F2 and some members of the dREAM complex, can downregulate the anti-apoptotic genes buffy and diap1, and thus promote cell death in a proliferative tissue.

The mitochondrial TOM complex modulates bax-induced apoptosis in Drosophila.

Bax is a pro-apoptotic member of the Bcl-2 family proteins involved in the release of apoptogenic factors from mitochondria to the cytosol. Recently, it has been shown both in mammals and yeast that Bax insertion in the mitochondrial outer membrane involves at least two distinct mechanisms, one of which uses the TOM complex. Here, we show that in Drosophila, heterozygous loss of function mutations of Tom22 or Tom70, two receptors of the TOM complex, attenuates bax-induced phenotypes in vivo. These results argue that the TOM complex may be used as a mitochondrial Bax receptor in Drosophila.

The myb-related gene stonewall induces both hyperplasia and cell death in Drosophila: rescue of fly lethality by coexpression of apoptosis inducers.

We carried out gain-of-function mutagenesis screening and identified a mutant in which GAL4 induction led to both hyperplasia and apoptosis. The gene involved was identified as stonewall (stwl), a myb-related gene involved in germ cell proliferation and differentiation during oogenesis. As observed with dmyb, the ectopic expression of stwl(UY823) inhibited endoreplication in salivary glands. We also found that stwl(UY823) overexpression, like overexpression of the wild-type gene, activated G1/S transition and apoptosis. The apoptosis triggered by stwl(UY823) expression is correlated to induction of the proapoptotic gene reaper. Finally, the death of flies induced by ectopic stwl(UY823) expression is efficiently prevented in vivo by triggering cell death in stwl(UY823)-expressing cells. Our results suggest that stwl(UY823) kills flies by causing inappropriate cell cycle entry, and that triggering the death of these overproliferating cells or slowing their proliferation restores viability.

Bcl-2 and Bax mammalian regulators of apoptosis are functional in Drosophila.

Studies of apoptosis in C. elegans have allowed the identification of three genes, ced-3, ced-4 and ced-9. Their products constitute the components of an induction pathway of apoptosis conserved in the nematode and mammals. In Drosophila, homologues have been found for CED-3, CED-4 and CED-9. CED-9 belongs to the Bcl-2 family which includes negative (Bcl-2) and positive (Bax) regulators of apoptosis. The recently discovered Bcl-2 family member named Drob-1 acts as a positive regulator of cell death. To address whether a Bcl-2 anti-apoptotic pathway exists in the fly, we studied the effects of expressing the mammalian genes bcl-2 in Drosophila. In embryos, expression of bcl-2 inhibits developmental and X-ray-induced apoptosis. Expressing bcl-2 or the pro-apoptotic mammalian bax in the developing eye and wing alters these structures, bcl-2 increasing the number of cells, while bax reduces the number of cells. In addition, the functional interaction between Bcl-2 and Bax is conserved. These results indicate that factors necessary for the activity of bcl-2 and bax are present in Drosophila. Therefore, a Bcl-2 pathway for inhibition of cell death may exist in the fly.

SV40 large T antigen expression driven by col2a1 regulatory sequences immortalizes articular chondrocytes but does not allow stabilization of type II collagen expression.

Immortalization of chondrocytes by SV40 T Ag has often been reported to trigger the loss of expression of type II collagen, one of the main differentiation markers, although some immortalized chondrocyte lines maintaining a differentiated phenotype have also been described. Here, we show using transient cotransfections in differentiated chondrocytes that, in contrast to c-src, neither SV40 T Ag, nor c-myc, decreases col2a1 transcriptional activity. Then, we report the possibility of immortalizing rabbit articular chondrocytes by expression of SV40 T Ag controlled by the col2a1 promoter and enhancer (pCol2SV). This strategy allows one to select within a population of differentiated chondrocytes those which are able to maintain functional regulation of the col2a1 gene through long-term culture. In precrisis pCol2SV-transfected chondrocytes, all-trans-retinoic acid, a down-regulator of col2a1 expression, induced apoptosis, strongly suggesting the strict control of T Ag expression by col2a1 regulatory sequences. Some pCol2SV-transfected chondrocytes were definitively immortalized, after a short crisis period. However, type II collagen synthesis was restricted to a small proportion of cells, which went on to decrease with subculture, while the proportion of cells expressing T Ag was not affected. In these postcrisis cells, T Ag remained at least partially under the control of functional col2a1 regulatory elements as assessed by all-trans-retinoic acid down-regulation.

Bcl-2 and Hsp27 act at different levels to suppress programmed cell death.

Apoptosis and necrosis, two morphologically distinct forms of cell death, can be induced by common stimuli depending on the doses and the cell type. This study compares the protective effect of oncoprotein Bcl-2 and of the small stress protein Hsp27 on these two types of cell death. We use rat embryo fibroblasts conditionally immortalized by the tsA58 mutant of SV40 large T antigen as parental cells to develop cell lines carrying inducible bcl-2 or hsp27 genes. Two apoptotic stimuli were used: shift to the restrictive temperature that induced p53-mediated apoptosis and treatment with low doses of hydrogen peroxide. Necrosis was induced by high doses of hydrogen peroxide. Although Bcl-2 and Hsp27 protect these cells from necrotic death, only Bcl-2 appears capable of preventing apoptotic death. Bcl-2 protection is not mediated by a negative effect on the induction of the p53 responsive genes bax or waf1 but it slows down at least two stages of apoptosis: decrease of mitochondrial membrane potential and subsequent morphological changes. In contrast, although Hsp27 has been recently shown to inhibit apoptosis induced by various stimuli, its overexpression has no effect on apoptosis in this cell system. It should be also noticed that the apoptotic stimuli (temperature shift or hydrogen peroxide treatment) induce Hsp27, but not Bcl-2 accumulation suggesting that, in parental cells, Hsp27 might already provide some protection. However, taken together these results suggest that Hsp27, as well as Bcl-2, acts at several levels to inhibit cell death, but that their protective functions only partially overlap.

Down-regulation of actin genes precedes microfilament network disruption and actin cleavage during p53-mediated apoptosis.

Inactivation of Simian Virus 40 large T antigen, in cells immortalized with conditional mutants, leads to activation of p53 and apoptosis. We used the mRNA differential display method to identify genes differentially expressed during this process. We found that steady-state levels of mRNA for cytoplasmic actins decreased early during apoptosis. We also showed that, although the steady-state level of the corresponding proteins is not profoundly affected, they are substrates for an interleukin 1-beta converting enzyme (ICE)-like protease activated during the process. However, only a very small fraction of actin is proteolysed during the early stages of apoptosis. The microfilament network is affected and non polymerized actin accumulates in apoptotic bodies after the decrease of mRNA levels, but before a significant amount of actin is cleaved. This suggests that down-regulation of actin genes may be involved in microfilament rearrangements during p53-mediated apoptosis.

The three dominant female-sterile mutations of the Drosophila ovo gene are point mutations that create new translation-initiator AUG codons.

The Drosophila ovo gene, which encodes a putative transcription factor (Ovo) with TFIIIA-like zinc fingers, is required for female germline survival and proper oogenesis. Three dominant female-sterile ovoD mutations cause ovarian abnormalities that define an allelic series, with ovoD1 displaying the stronger phenotype and ovoD3 the weaker. We report here that all three ovoD mutations are point mutations that create new in-frame methionine codons in the 5' part of ovo. There are two types of overlapping ovo transcription units, ovo alpha and ovo beta. By using various ovo-lacZ reporter genes, we determined that the long Ovo isoforms starting at methionine M1, present in transcripts ovo alpha, are expressed at low levels only in mature oocytes. Short Ovo isoforms are translated from methionine M373, the first in-frame start codon present in transcript ovo beta, and correspond to the activity defined by recessive loss of function ovo mutations. The new AUGs created in ovoD mutations all are located upstream of the M373 initiation site. Our results support the hypothesis that they can substitute for M373 as translation starts and initiate the synthesis of Ovo proteins that have extra amino acids at their N termini. We propose that premature expression of long Ovo protein isoforms occurs in ovoD mutants and interferes with wild-type Ovo function in controlling female germline differentiation.

Studies of specific gene induction during apoptosis of cell lines conditionally immortalized by SV40.

Inactivation of SV40 large T antigen in cells immortalized with conditional mutants leads to activation of p53 and apoptosis. We have analysed during this process the expression of genes induced by p53 or differentially expressed during apoptosis in other systems. We find an early induction of Waf1/Cip1. We also observe clusterin is induced during the process and displays a high level of expression in non-apoptotic cells, suggesting a protective role for clusterin. Other genes associated with thymocyte and lymphocyte apoptosis are not induced, showing that the pattern of gene induction is specific to the system studied.

Production of dominant female sterility in Drosophila melanogaster by insertion of the ovoD1 allele on autosomes: use of transformed strains to generate germline mosaics.

We have cloned a 7 kb genomic fragment containing the dominant female-sterile mutation ovoD1. This fragment confers to transgenic females a sterility phenotype, the severity of which depends both on the genetic background and the ratio of ovoD1 product to ovo+ product. Females containing two copies of the ovoD1 transgene, or those containing one recessive null allele at the ovo locus, are about as sterile as ovoD1 females. Twenty transformed strains were obtained and five of them were tested and shown to be excellent tools for identifying a germline clone of cells sustaining mitotic recombination on the autosomes. One of the tested strains carries an insert on chromosome 4, which enabled us to show that mitotic recombination on that chromosome is not a rare event: it is in fact frequent enough for the maternal effects of the zygotic lethal mutations cubitus interruptus Dominant (ciD) and l(4)29 to be studied.