Frédéric Chalmel scite author profile

We report a cross-species expression profiling analysis of the human, mouse, and rat male meiotic transcriptional program, using enriched germ cell populations, whole gonads, and high-density oligonucleotide microarrays (GeneChips). Among 35% of the protein-coding genes present in rodent and human genomes that were found to be differentially expressed between germ cells and somatic controls, a key group of 357 conserved core loci was identified that displays highly similar meiotic and postmeiotic patterns of transcriptional induction across all three species. Genes known to be important for sexual reproduction are significantly enriched among differentially expressed core loci and a smaller group of conserved genes not detected in 17 nontesticular somatic tissues, correlating transcriptional activation and essential function in the male germ line. Some genes implicated in the etiology of cancer are found to be strongly transcribed in testis, suggesting that these genes may play unexpected roles in sexual reproduction. Expression profiling data further identified numerous conserved genes of biological and clinical interest previously unassociated with the mammalian male germ line.bioinformatics ͉ spermatogenesis ͉ transcriptome

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Identification and characterization of rod-derived cone viability factor

Léveillard

et al. 2004

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Retinitis pigmentosa is an untreatable, inherited retinal disease that leads to blindness. The disease initiates with the loss of night vision due to rod photoreceptor degeneration, followed by irreversible, progressive loss of cone photoreceptor 1-3. Cone loss is responsible for the main visual handicap, as cones are essential for day and high-acuity vision 4. Their loss is indirect, as most genes associated with retinitis pigmentosa are not expressed by these cells. We previously showed that factors secreted from rods are essential for cone viability 5-8. Here we identified one such trophic factor by expression cloning and named it rod-derived cone viability factor (RdCVF). RdCVF is a truncated thioredoxin-like protein specifically expressed by photoreceptors. The identification of this protein offers new treatment possibilities for retinitis pigmentosa. We used a viability assay based on cone-enriched primary cultures from chicken embryos 9 for expression cloning. Unlike those of mammals, bird retinas are cone-dominated. Cones represent 60-80% of the total population in cultured cells 8. Once cultured, these cells degenerate over a few days, but adding conditioned medium from wild-type mouse retinal explants delays this loss 8. We carried out a screen to isolate factors that could support cone survival. We constructed a cDNA expression library from neural retinas of 5-week-old wild-type mice and we purified plasmid DNA from pools of 100 individual clones and used them to transfect COS-1 cells. We added conditioned medium from transfected COS cells to chicken retinal cultures seeded in 96-well plates. After 7 d of culture, we carried out an automated viability assay and we screened 2,100 pools, corresponding to 210,000 individual clones. Pool 939 contained twice as many living cells as the negative controls (Fig. 1). We isolated clone 939.09.08 by limiting dilution and found that it contained a 502-bp insert with an open reading frame encoding a putative polypeptide of 109 amino acids. We named this protein rod-derived cone viability factor (RdCVF, international patent no. PCT/EP 02/03810; Supplementary Fig. 1 online).

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Role of miR-34c microRNA in the late steps of spermatogenesis

Bouhallier¹,

Allioli²,

Lavial³

et al. 2010

RNA

252

235

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Spermatogenesis is a cyclic process in which diploid spermatogonia differentiate into haploid spermatozoa. This process is highly regulated, notably at the post-transcriptional level. MicroRNAs (miRNAs), single-stranded noncoding RNA molecules of about 20-25 nucleotides, are implicated in the regulation of many important biological pathways such as proliferation, apoptosis, and differentiation. We wondered whether miRNAs could play a role during spermatogenesis. The miRNA expression repertoire was tested in germ cells, and we present data showing that miR-34c was highly expressed only in these cells. Furthermore, our findings indicate that in male gonads, miR-34c expression is largely p53 independent in contrast to previous results showing a direct link in somatic cells between the miR-34 family and this tumor suppressor protein. In order to identify target genes involved in germinal lineage differentiation, we overexpressed miR-34c in HeLa cells, analyzed the transcriptome of these modified cells, and noticed a shift of the expression profile toward the germinal lineage. Recently, it has been shown that exogenous expression of Ddx4/Vasa in embryonic chicken stem cells (cESC) induces cESC reprogramming toward a germ cell fate. When we simultaneously expressed miR-34c in such cells, we could detect an up-regulation of germ cell-specific genes whereas the expression of other lineage specific markers remained unchanged. These data suggest that miR-34c could play a role by enhancing the germinal phenotype of cells already committed to this lineage.

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Execution of the meiotic noncoding RNA expression program and the onset of gametogenesis in yeast require the conserved exosome subunit Rrp6

Lardenois

Liu

Walther

et al. 2010

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

126

217

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Budding yeast noncoding RNAs (ncRNAs) are pervasively transcribed during mitosis, and some regulate mitotic protein-coding genes. However, little is known about ncRNA expression during meiotic development. Using high-resolution profiling we identified an extensive meiotic ncRNA expression program interlaced with the protein-coding transcriptome via sense/antisense transcript pairs, bidirectional promoters, and ncRNAs that overlap the regulatory regions of genes. Meiotic unannotated transcripts (MUTs) are mitotic targets of the conserved exosome component Rrp6, which itself is degraded after the onset of meiosis when MUTs and other ncRNAs accumulate in successive waves. Diploid cells lacking Rrp6 fail to initiate premeiotic DNA replication normally and cannot undergo efficient meiotic development. The present study demonstrates a unique function for budding yeast Rrp6 in degrading distinct classes of meiotically induced ncRNAs during vegetative growth and the onset of meiosis and thus points to a critical role of differential ncRNA expression in the execution of a conserved developmental program.

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