Spermatogenesis associated 22 is required for DNA repair and synapsis of homologous chromosomes in mouse germ cells.

Analysis of the N-ethyl-N-nitrosourea (ENU)-induced repro42 mutation previously identified spermatogenesis associated 22 (Spata22) as a gene required for meiotic progression and fertility in both male and female mice, but its specific contribution to the process was unclear. Here, we report on a novel, null allele of Spata22 (Spata22Gt ) and confirm its requirement for germ cell development. Similar to repro42 mutant mice, histological and mating analyses indicate that gametogenesis is profoundly affected in Spata22Gt/Gt males and females, resulting in infertility. Cytological examination confirms that germ cells do not progress beyond zygonema and meiotic arrest is linked to impairment of both synapsis and DNA repair. Analysis of SPATA22 distribution reveals that it localizes to foci associated with meiotic chromosomes during prophase I and that the number of foci peaks at zygonema; there are also more SPATA22 foci in oocytes than in spermatocytes. Furthermore, SPATA22 co-localizes with a number of proteins involved in meiotic recombination, including RAD51, DMC1, and MLH1, and is present until mid-pachynema, suggesting a role in resolution of recombination intermediates. In fact, SPATA22 co-localizes with MLH1 in more than 20% of foci at pachynema. Analysis of Spata22Gt/Gt meiocytes confirms that SPATA22 is required for localization of MEIOB but not RPA (two proteins known to interact with SPATA22), and immunoblotting corroborates that production of MEIOB is indeed decreased in the absence of SPATA22. Together, these data suggest that SPATA22 is required for both meiotic recombination and synapsis during meiosis in mice.

COMT polymorphism modulates the resting-state EEG alpha oscillatory response to acute nicotine in male non-smokers.

Performance improvements in cognitive tasks requiring executive functions are evident with nicotinic acetylcholine receptor (nAChR) agonists, and activation of the underlying neural circuitry supporting these cognitive effects is thought to involve dopamine neurotransmission. As individual difference in response to nicotine may be related to a functional polymorphism in the gene encoding catechol-O-methyltransferase (COMT), an enzyme that strongly influences cortical dopamine metabolism, this study examined the modulatory effects of the COMT Val158Met polymorphism on the neural response to acute nicotine as measured with resting-state electroencephalographic (EEG) oscillations. In a sample of 62 healthy non-smoking adult males, a single dose (6 mg) of nicotine gum administered in a randomized, double-blind, placebo-controlled design was shown to affect α oscillatory activity, increasing power of upper α oscillations in frontocentral regions of Met/Met homozygotes and in parietal/occipital regions of Val/Met heterozygotes. Peak α frequency was also found to be faster with nicotine (vs. placebo) treatment in Val/Met heterozygotes, who exhibited a slower α frequency compared to Val/Val homozygotes. The data tentatively suggest that interindividual differences in brain α oscillations and their response to nicotinic agonist treatment are influenced by genetic mechanisms involving COMT.

Effects of COMT genotype on sensory gating and its modulation by nicotine: Differences in low and high P50 suppressors.

Elevated smoking rates seen in schizophrenia populations may be an attempt to correct neuropathologies associated with deficient nicotinic acetylcholine receptors and/or dopaminergic systems using exogenous nicotine. However, nicotine's effects on cognitive processing and sensory gating have been shown to be baseline-dependent. Evidence of a restorative effect on sensory gating deficits by nicotine-like agonists has been demonstrated, however, its underlying mechanisms in the context of dopamine dysregulation are unclear. Catechol-O-methyltransferase (COMT), a key dopamine regulator in the brain, contains a co-dominant allele in which a valine-to-methionine substitution causes variations in enzymatic activity leading to reduced synaptic dopamine levels in the Val/Val genotype. Using a randomized, double-blind, placebo-controlled design with 57 non-smokers, this study examined the effects of COMT genotype on sensory gating and its modulation by nicotine in low vs. high suppressors. The results were consistent with the hypothesis that increased dopamine resulting from nicotine stimulation or Met allelic activity would benefit gating in low suppressors and impair gating in high suppressors, and that this gating improvement with nicotine would be more evident in Val carriers who were low suppressors, while the gating impairment would be more evident in Met carriers who were high suppressors. These findings reaffirm the importance of baseline-dependency and suggest a subtle relationship between COMT genotype and baseline-stratified levels of sensory gating, which may help to explain the variability of cognitive abilities in schizophrenia populations.

Alveolar bone height in primary dentition a radiographic evaluation related to caries lesions.

AIM: This was to evaluate the CEJ-ABC distance in sound and unsound deciduous teeth, according to subject's age and the presence of caries. STUDY DESIGN: cross-sectional study. The study sample comprised 334 radiographs, the teeth were divided in two groups, according to the interproximal surface characteristics. The distal surface of the mandibular first deciduous molar and/or the mesial surface of the second mandibular deciduous molar were analysed. RESULTS: The average for the CEJ-ABC distance in the distal surface of the mandibular first molar was different between sound and carious teeth. The same behaviour was observed in the mesial surface of the mandibular second molar. Both the presence of lesion on the interproximal surface and the subject age exherted influence over the mean CEJ- ABC distance. No interaction between these factors was statistically observed. STATISTICS: data were analyzed with SPSS. Two- way ANOVA was used to assess the distance of CEJ-ABC considering the interproximal surface status and age. CONCLUSION: Although the observation that both the interproximal surface status and the age had influence on the CEJ- ABC distance values, in the present study the interaction between these variables was not a determinant for the increase CEJ- ABC distances.

The retinal pigment epithelium undergoes massive apoptosis during early differentiation and pigmentation of the optic cup.

PURPOSE: The aim of our work was to study apoptosis during the development of the retinal pigment epithelium (RPE) in mice between embryonic day (E) 10.5 and E12.5 and to examine a possible link between apoptosis and pigmentation. METHODS: We collected mouse embryos at E10.5, E11.5, and E12.5 and labeled apoptotic cells in 5-µm paraffin sections, using the terminal deoxynucleotidyl transferase dUTP nick end labeling technique. We counted the total number of cells and the number of apoptotic cells in the early developing RPE and calculated the percentage of apoptosis at each stage. RESULTS: In the C57BL/6J mouse, 17% of the RPE cells were apoptotic at E10.5 compared to 0.9% at E12.5. At E11.5, three-quarters of the RPE cells began to pigment, and apoptotic cells were located mostly in the nonpigmented part. In contrast, in the BALB/c mouse (tyrosinase-deficient) and pJ mouse (carrying mutations in the p gene) hypopigmented strains, the RPE contained significantly fewer apoptotic cells (7.5% and 10.1%, respectively) at E10.5 than controls. Subsequently at E11.5 and E12.5, the two hypopigmented strains displayed different apoptotic patterns; the BALB/c RPE had a similar percentage of apoptotic cells to controls (1.5% and 1.1%, respectively, for BALB/c versus 3.0% and 0.9%, respectively, for C57BL/6J), whereas the pJ RPE contained significantly more apoptosis (7.5% and 3.5%, respectively). Overall we observed differences in the evolution of the relative total number of RPE cells between the three strains. CONCLUSIONS: Apoptosis is a main event during the first stages of normal RPE development, indicating an essential role during RPE differentiation. Moreover, the early apoptotic pattern and possibly the whole early development of the RPE is different between hypopigmented and pigmented strains, as well as between BALB/c and pJ mice. This suggests the existence of regulatory and developmental differences with a more complex origin than just differing pigmentation levels.

[Ethylene glycol intoxication: a case report]. / Intoxication par l'éthylène glycol : réflexion à propos d'un cas.

Ethylene glycol intoxication is one of the most serious acute poisonings due to the high toxicity that can result in death if not treated rapidly. We report the case of a patient who presented to the intensive care unit with a hypertensive crisis associated to a renal insufficiency. Laboratories investigations which revealed metabolic acidosis and elevated anion gap, highlighted an unexpected ethylene glycol intoxication. Clinical and psychiatric feature lead to suspect a chronic ingestion. Spontaneous recovery occured without specific treatment.

Developmental acquisition of genome-wide DNA methylation occurs prior to meiosis in male germ cells.

The development of germ cells is a highly ordered process that begins during fetal growth and is completed in the adult. Epigenetic modifications that occur in germ cells are important for germ cell function and for post-fertilization embryonic development. We have previously shown that male germ cells in the adult mouse have a highly distinct epigenetic state, as revealed by a unique genome-wide pattern of DNA methylation. Although it is known that these patterns begin to be established during fetal life, it is not known to what extent DNA methylation is modified during spermatogenesis. We have used restriction landmark genomic scanning (RLGS) and other techniques to examine DNA methylation at multiple sites across the genome during postnatal germ cell development in the mouse. Although a significant proportion of the distinct germ cell pattern is acquired prior to the type A spermatogonial stage, we find that both de novo methylation and demethylation occur during spermatogenesis, mainly in spermatogonia and spermatocytes in early meiotic prophase I. Alterations include predominantly non-CpG island sequences from both unique loci and repetitive elements. These modifications are progressive and are almost exclusively completed by the end of the pachytene spermatocyte stage. These studies better define the developmental timing of genome-wide DNA methylation pattern acquisition during male germ cell development.

Sex-specific promoters regulate Dnmt3L expression in mouse germ cells.

BACKGROUND: Dnmt3L, a member of the DNA methyltransferase 3 family, lacks enzymatic activity but is required for de-novo methylation of imprinted genes in oocytes and for transposon repression in male germ cells. METHODS: We used northern blots, RT-PCR, 5' rapid amplification of complementary DNA (cDNA) ends (RACE), RNase H mapping, real-time/quantitative RT-PCR and in situ hybridization to identify and characterize Dnmt3L transcripts produced during germ cell development. RESULTS: Mouse Dnmt3L uses three sex-specific promoters, not the single promoter previously thought. A promoter active in prospermatogonia drives transcription of an mRNA encoding the full-length protein in perinatal testis, where de-novo methylation occurs. Late pachytene spermatocytes activate a second promoter in intron 9 of the Dnmt3L gene. After this stage, the predominant transcripts are three truncated mRNAs, which appear to be non-coding. We could also detect similar adult testis transcripts in humans. In the mouse ovary, an oocyte-specific promoter located in an intron of the neighbouring autoimmune regulator (Aire) gene produces a transcript with the full open reading frame (ORF). This is the only Dnmt3L transcript found in growing oocytes and is absent in the oocytes of Dnmt3L-/- females. CONCLUSIONS: Sex-specific promoters control Dnmt3L expression in the mouse germ line, mirroring the situation at the Dnmt1 and Dnmt3A loci.

A unique configuration of genome-wide DNA methylation patterns in the testis.

In the mammalian lifecycle, the two periods of genome-wide epigenetic reprogramming are in the early embryo, when somatic patterns are set, and during germ cell development. Although some differences between the reprogrammed states of somatic and germ cells have been reported, overall patterns of genomic methylation are considered to be similar. Using restriction landmark genomic scanning to examine approximately 2,600 loci distributed randomly throughout the genome, we find that the methylation status of testicular DNA is highly distinct, displaying eightfold the number of hypomethylated loci relative to somatic tissues. Identification and analysis of >300 loci show that these regions are generally located within nonrepetitive sequences that are away from CpG islands and 5' regions of genes. We show that a contributing factor for these differences is that the methylation state of non-CpG-island DNA is correlated with the regional level of GC content within chromosomes and that this relationship is inverted between the testis and somatic tissues. We also show that in Dnmt3L-deficient mice, which exhibit infertility associated with abnormal chromosomal structures in germ cells, this unique testicular DNA methylation pattern is not established. These special properties of testicular DNA point to a broad, distinct epigenetic state that may be involved in maintaining a unique chromosomal structure in male germ cells.

Major role of BAX in apoptosis during retinal development and in establishment of a functional postnatal retina.

Apoptosis plays a major role in the development of the central nervous system. Previous studies of apoptosis induction during retinal development are difficult to interpret, however, because they explored different mouse strains, different developmental periods, and used different assays. Here, we first established a comprehensive sequential pattern of cell death during the whole development of the C57BL/6J mouse retina, from E10.5 to postnatal day (P) 21 by using the terminal deoxynucleotidyl transferase (TdT) -mediated deoxyuridine triphosphate (dUTP)-biotinylated nick end labeling (TUNEL) assay. We confirmed the existence of three previously described apoptotic peaks and identified another, later peak at P15, in both the outer nuclear layer, in which the photoreceptors differentiate, and the ganglion cell layer. Comparison of wild-type C57BL/6 mice, gld mice, defective in the death ligand fasL, and bax-/- mice, defective in the pro-apoptotic BAX protein, revealed a minor role for FAS ligand but a crucial role for BAX in both apoptosis and normal retinal development. The lack of BAX resulted in thicker than normal inner neuroblastic and ganglion cell layers in adults, with larger numbers of cells and an impaired electroretinogram response related to a decreased number of responsive cells. Our findings indicate that cell death during normal retinal development is important for the modeling of a functional vision organ and showed that the pro-apoptotic BAX protein plays a crucial role in this process.