scholarly journals MORC1 represses transposable elements in the mouse male germline

2014 ◽  
Vol 5 (1) ◽  
Author(s):  
William A. Pastor ◽  
Hume Stroud ◽  
Kevin Nee ◽  
Wanlu Liu ◽  
Dubravka Pezic ◽  
...  
Keyword(s):  
Germ Cells ◽  
Dna Methyltransferase ◽  
De Novo ◽  
Cell Loss ◽  
Genetic Screens ◽  
Male Germline ◽  
Silent Genes ◽  
Localized Defects ◽  
Eukaryotic Organisms ◽  
Male Specific

Abstract The Microrchidia (Morc) family of GHKL ATPases are present in a wide variety of prokaryotic and eukaryotic organisms but are of largely unknown function. Genetic screens in Arabidopsis thaliana have identified Morc genes as important repressors of transposons and other DNA-methylated and silent genes. MORC1-deficient mice were previously found to display male-specific germ cell loss and infertility. Here we show that MORC1 is responsible for transposon repression in the male germline in a pattern that is similar to that observed for germ cells deficient for the DNA methyltransferase homologue DNMT3L. Morc1 mutants show highly localized defects in the establishment of DNA methylation at specific classes of transposons, and this is associated with failed transposon silencing at these sites. Our results identify MORC1 as an important new regulator of the epigenetic landscape of male germ cells during the period of global de novo methylation.

Sex-specific exons control DNA methyltransferase in mammalian germ cells

Development ◽  
1998 ◽  
Vol 125 (5) ◽  
pp. 889-897 ◽  
Author(s):  
C. Mertineit ◽  
J.A. Yoder ◽  
T. Taketo ◽  
D.W. Laird ◽  
J.M. Trasler ◽  
...  
Keyword(s):  
Germ Cells ◽  
Dna Methyltransferase ◽  
De Novo ◽  
Male Meiosis ◽  
Specific Expression ◽  
Oocyte Growth ◽  
Methyl Transferase ◽  
Developmental Potential ◽  
Allele Specific ◽  
Methylation Patterns

The spermatozoon and oocyte genomes bear sex-specific methylation patterns that are established during gametogenesis and are required for the allele-specific expression of imprinted genes in somatic tissues. The mRNA for Dnmt1, the predominant maintenance and de novo DNA (cytosine-5)-methyl transferase in mammals, is present at high levels in postmitotic murine germ cells but undergoes alternative splicing of sex-specific 5′ exons, which controls the production and localization of enzyme during specific stages of gametogenesis. An oocyte-specific 5′ exon is associated with the production of very large amounts of active Dnmt1 protein, which is truncated at the N terminus and sequestered in the cytoplasm during the later stages of oocyte growth, while a spermatocyte-specific 5′ exon interferes with translation and prevents production of Dnmt1 during the prolonged crossing-over stage of male meiosis. During the course of postnatal oogenesis, Dnmt1 is present at high levels in nuclei only in growing dictyate oocytes, a stage during which gynogenetic developmental potential is lost and biparental developmental potential is gained.

scholarly journals Oxidative Stress in the Male Germline: A Review of Novel Strategies to Reduce 4-Hydroxynonenal Production

Antioxidants ◽  
2018 ◽  
Vol 7 (10) ◽  
pp. 132 ◽  
Author(s):  
Jessica Walters ◽  
Geoffry De Iuliis ◽  
Brett Nixon ◽  
Elizabeth Bromfield
Keyword(s):  
Oxidative Stress ◽  
Germ Cells ◽  
Cell Function ◽  
De Novo ◽  
Protein Translation ◽  
Egg Recognition ◽  
Male Germline ◽  
New Strategy ◽  
Artery Disease ◽  
The Stability

Germline oxidative stress is intimately linked to several reproductive pathologies including a failure of sperm-egg recognition. The lipid aldehyde 4-hydroxynonenal (4HNE) is particularly damaging to the process of sperm-egg recognition as it compromises the function and the stability of several germline proteins. Considering mature spermatozoa do not have the capacity for de novo protein translation, 4HNE modification of proteins in the mature gametes has uniquely severe consequences for protein homeostasis, cell function and cell survival. In somatic cells, 4HNE overproduction has been attributed to the action of lipoxygenase enzymes that facilitate the oxygenation and degradation of ω-6 polyunsaturated fatty acids (PUFAs). Accordingly, the arachidonate 15-lipoxygenase (ALOX15) enzyme has been intrinsically linked with 4HNE production, and resultant pathophysiology in various complex conditions such as coronary artery disease and multiple sclerosis. While ALOX15 has not been well characterized in germ cells, we postulate that ALOX15 inhibition may pose a new strategy to prevent 4HNE-induced protein modifications in the male germline. In this light, this review focuses on (i) 4HNE-induced protein damage in the male germline and its implications for fertility; and (ii) new methods for the prevention of lipid peroxidation in germ cells.

scholarly journals Exposure to sevoflurane results in changes of transcription factor occupancy in sperm and inheritance of autism

2021 ◽  
Author(s):  
Hsiao-Lin V Wang ◽  
Samantha Forestier ◽  
Victor G Corces
Keyword(s):  
Germ Cells ◽  
Behavioral Problems ◽  
Animal Studies ◽  
De Novo ◽  
Germ Line ◽  
Autism Spectrum ◽  
General Anesthetics ◽  
General Anesthetic ◽  
Male Germline ◽  
Pregnant Mice

Abstract One in 54 children in the U.S. is diagnosed with Autism Spectrum Disorder (ASD). De novo germline and somatic mutations cannot account for all cases of ASD, suggesting that epigenetic alterations triggered by environmental exposures may be responsible for a subset of ASD cases. Human and animal studies have shown that exposure of the developing brain to general anesthetic (GA) agents can trigger neurodegeneration and neurobehavioral abnormalities but the effects of general anesthetics on the germ line have not been explored in detail. We exposed pregnant mice to sevoflurane during the time of embryonic development when the germ cells undergo epigenetic reprogramming and found that more than 38% of the directly exposed F1 animals exhibit impairments in anxiety and social interactions. Strikingly, 44–47% of the F2 and F3 animals, which were not directly exposed to sevoflurane, show the same behavioral problems. We performed ATAC-seq and identified more than 1200 differentially accessible sites in the sperm of F1 animals, 69 of which are also present in the sperm of F2 animals. These sites are located in regulatory regions of genes strongly associated with ASD, including Arid1b, Ntrk2, and Stmn2. These findings suggest that epimutations caused by exposing germ cells to sevoflurane can lead to ASD in the offspring, and this effect can be transmitted through the male germline inter and trans-generationally.

scholarly journals Epigenetic Changes in Host Ribosomal DNA Promoter Induced by an Asymptomatic Plant Virus Infection

Biology ◽  
2020 ◽  
Vol 9 (5) ◽  
pp. 91 ◽  
Author(s):  
Miryam Pérez-Cañamás ◽  
Elizabeth Hevia ◽  
Carmen Hernández
Keyword(s):  
Gene Silencing ◽  
Ribosomal Dna ◽  
Plant Virus ◽  
Dna Methyltransferase ◽  
Cytosine Methylation ◽  
De Novo ◽  
Methylation Pattern ◽  
Transcriptional Gene Silencing ◽  
Post Transcriptional Gene Silencing ◽  
The Impact

DNA cytosine methylation is one of the main epigenetic mechanisms in higher eukaryotes and is considered to play a key role in transcriptional gene silencing. In plants, cytosine methylation can occur in all sequence contexts (CG, CHG, and CHH), and its levels are controlled by multiple pathways, including de novo methylation, maintenance methylation, and demethylation. Modulation of DNA methylation represents a potentially robust mechanism to adjust gene expression following exposure to different stresses. However, the potential involvement of epigenetics in plant-virus interactions has been scarcely explored, especially with regard to RNA viruses. Here, we studied the impact of a symptomless viral infection on the epigenetic status of the host genome. We focused our attention on the interaction between Nicotiana benthamiana and Pelargonium line pattern virus (PLPV, family Tombusviridae), and analyzed cytosine methylation in the repetitive genomic element corresponding to ribosomal DNA (rDNA). Through a combination of bisulfite sequencing and RT-qPCR, we obtained data showing that PLPV infection gives rise to a reduction in methylation at CG sites of the rDNA promoter. Such a reduction correlated with an increase and decrease, respectively, in the expression levels of some key demethylases and of MET1, the DNA methyltransferase responsible for the maintenance of CG methylation. Hypomethylation of rDNA promoter was associated with a five-fold augmentation of rRNA precursor levels. The PLPV protein p37, reported as a suppressor of post-transcriptional gene silencing, did not lead to the same effects when expressed alone and, thus, it is unlikely to act as suppressor of transcriptional gene silencing. Collectively, the results suggest that PLPV infection as a whole is able to modulate host transcriptional activity through changes in the cytosine methylation pattern arising from misregulation of methyltransferases/demethylases balance.

scholarly journals UVR8 interacts with de novo DNA methyltransferase and suppresses DNA methylation in Arabidopsis

Nature Plants ◽  
2021 ◽  
Vol 7 (2) ◽  
pp. 184-197
Author(s):  
Jianjun Jiang ◽  
Jie Liu ◽  
Dean Sanders ◽  
Shuiming Qian ◽  
Wendan Ren ◽  
...  
Keyword(s):  
Dna Methylation ◽  
Dna Methyltransferase ◽  
De Novo

scholarly journals Absence of X-chromosome dosage compensation in the primordial germ cells of Drosophila embryos

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Ryoma Ota ◽  
Makoto Hayashi ◽  
Shumpei Morita ◽  
Hiroki Miura ◽  
Satoru Kobayashi
Keyword(s):  
X Chromosome ◽  
Germ Cells ◽  
Dosage Compensation ◽  
Sex Chromosome ◽  
Primordial Germ Cells ◽  
Histone H4 ◽  
X Chromosomes ◽  
Essential Components ◽  
Msl Complex ◽  
Male Specific

AbstractDosage compensation is a mechanism that equalizes sex chromosome gene expression between the sexes. In Drosophila, individuals with two X chromosomes (XX) become female, whereas males have one X chromosome (XY). In males, dosage compensation of the X chromosome in the soma is achieved by five proteins and two non-coding RNAs, which assemble into the male-specific lethal (MSL) complex to upregulate X-linked genes twofold. By contrast, it remains unclear whether dosage compensation occurs in the germline. To address this issue, we performed transcriptome analysis of male and female primordial germ cells (PGCs). We found that the expression levels of X-linked genes were approximately twofold higher in female PGCs than in male PGCs. Acetylation of lysine residue 16 on histone H4 (H4K16ac), which is catalyzed by the MSL complex, was undetectable in these cells. In male PGCs, hyperactivation of X-linked genes and H4K16ac were induced by overexpression of the essential components of the MSL complex, which were expressed at very low levels in PGCs. Together, these findings indicate that failure of MSL complex formation results in the absence of X-chromosome dosage compensation in male PGCs.

scholarly journals Paternal exposure to a common pharmaceutical (Ritalin) has transgenerational effects on the behaviour of Trinidadian guppies

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Alex R. De Serrano ◽  
Kimberly A. Hughes ◽  
F. Helen Rodd
Keyword(s):  
Poecilia Reticulata ◽  
Specific Effect ◽  
Differential Mortality ◽  
Paternal Effects ◽  
Transgenerational Effects ◽  
Hyperactivity Disorder ◽  
Male Germline ◽  
Paternal Line ◽  
Chronic Dose ◽  
Male Specific

AbstractEvidence is emerging that paternal effects, the nongenetic influence of fathers on their offspring, can be transgenerational, spanning several generations. Methylphenidate hydrochloride (MPH; e.g. Ritalin) is a dopaminergic drug that is highly prescribed to adolescent males for the treatment of Attention-deficit/hyperactivity disorder. It has been suggested that MPH could cause transgenerational effects because MPH can affect the male germline in rodents and because paternal effects have been observed in individuals taking similar drugs (e.g. cocaine). Despite these concerns, the transgenerational effects of paternal MPH exposure are unknown. Therefore, we exposed male and female Trinidadian guppies (Poecilia reticulata) to a low, chronic dose of MPH and observed that MPH affected the anxiety/exploratory behaviour of males, but not females. Because of this male-specific effect, we investigated the transgenerational effects of MPH through the paternal line. We observed behavioural effects of paternal MPH exposure on offspring and great-grandoffspring that were not directly administered the drug, making this the first study to demonstrate that paternal MPH exposure can affect descendants. These effects were not due to differential mortality or fecundity between control and MPH lines. These results highlight the transgenerational potential of MPH.

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