Dissection of the autophagic route in oocytes from atretic follicles.

BACKGROUND INFORMATION: Autophagy is a conserved process that functions as a cytoprotective mechanism; it may function as a cell death process called programmed cell death type II. There is considerable evidence for the presence of autophagic cell death during oocyte elimination in prepubertal rats. However, the mechanisms involved in this process have not been deciphered. RESULTS: Our observations revealed autophagic cell death in oocytes with increased labeling of the autophagic proteins Beclin 1, light chain 3 A (LC3 A), and lysosomal-associated membrane protein 1 (Lamp1). Furthermore, mTOR and phosphorylated (p)-mTOR (S2448) proteins were significantly decreased in oocytes with increased levels of autophagic proteins, indicating autophagic activation. Moreover, phosphorylated protein kinase B (p-AKT) was not expressed by oocytes, but mitogen-activated protein kinase/extracellular signalregulated kinase (MAPK/ERK) signaling was observed. Additionally, selective and elevated mitochondrial degradation was identified in altered oocytes. CONCLUSIONS: All these results suggest that mTOR downregulation, which promotes autophagy, could be mediated by low energy levels and sustained starvation involving the phosphoinositide 3-kinase (PI3K)/AKT/mTOR and MAPK/ERK pathways. SIGNIFICANCE: In this work, we analyzed the manner in which autophagy is carried out in oocytes undergoing autophagic cell death by studying the behavior of proteins involved in different steps of the autophagic pathway.

Nucleolus structural integrity during the first meiotic prophase in rat spermatocytes.

A typical nucleolus structure is shaped by three components. A meshwork of fine fibers forming the fibrillar center (FC) is surrounded by densely packed fibers forming the dense fibrillar component (DFC). Meanwhile, wrapping the FC and DFC is the granular component (GC). During the mitotic prophase, the nucleolus undergoes disassembling of its components. On the contrary, throughout the first meiotic prophase that occurs in the cells of the germ line, small nucleoli are assembled into one nucleolus by the end of the prophase. These nucleoli are transcriptionally active, suggesting that they are fully functional. Electron microscopy analysis has suggested that these nucleoli display their three main components but a typical organization has not been observed. Here, by immunolabeling and electron microscopy, we show that the nucleolus has its three main components. The GC is interlaced with the DFC and is not as well defined as previously thought during leptotene and zygotene stage.

The width of the lateral element of the synaptonemal complex is determined by a multilayered organization of its components.

The synaptonemal complex (SC) is a proteinaceous structure that holds the homologous chromosomes in close proximity while they exchange genetic material in a process known as meiotic recombination. This meiotic recombination leads to genetic variability in sexually reproducing organisms. The ultrastructure of the SC is studied by electron microscopy and it is observed as a tripartite structure. Two lateral elements (LE) separated by a central region (CR) confer its classical tripartite organization. The LEs are the anchoring platform for the replicated homologous chromosomes to properly exchange genetic material with one another. An accurate assembly of the LE is indispensable for the proper completion of meiosis. Ultrastructural studies suggested that the LE is organized as a multilayered unit. However, no validation of this model has been previously provided. In this ultrastructural study, by using mice with different genetic backgrounds that affect the LE width, we provide further evidence that support a multilayered organization of the LE. Additionally, we provide data suggesting additional roles of the different cohesin complex components in the structure of the LEs of the SC.

Paraptosis-like cell death in Wistar rat granulosa cells.

Follicular atresia, a common process present in all mammals, involves apoptotic and autophagic cell death. However, the participation of paraptosis, a type of caspase-independent cell death, during follicular atresia is unknown. This study found swollen endoplasmic reticulum in the granulosa cells of adult Wistar rats. Calnexin was used as a marker of the endoplasmic reticulum at the ultrastructural and optical levels. The cells with swelling of the endoplasmic reticulum were negative to the TUNEL assay and active caspase-3 immunodetection, indicating that this swelling is not part of any apoptotic or autophagic process. Additionally, immunodetection of the CHOP protein was used as a marker of endoplasmic reticulum stress, and this confirmed the presence of the paraptosis process. These data suggest that paraptosis-like cell death is associated with the death of granulosa cells during follicular atresia in adult Wistar rats.

Spermiogenesis alterations in the absence of CTCF revealed by single cell RNA sequencing.

CTCF is an architectonic protein that organizes the genome inside the nucleus in almost all eukaryotic cells. There is evidence that CTCF plays a critical role during spermatogenesis as its depletion produces abnormal sperm and infertility. However, defects produced by its depletion throughout spermatogenesis have not been fully characterized. In this work, we performed single cell RNA sequencing in spermatogenic cells with and without CTCF. We uncovered defects in transcriptional programs that explain the severity of the damage in the produced sperm. In the early stages of spermatogenesis, transcriptional alterations are mild. As germ cells go through the specialization stage or spermiogenesis, transcriptional profiles become more altered. We found morphology defects in spermatids that support the alterations in their transcriptional profiles. Altogether, our study sheds light on the contribution of CTCF to the phenotype of male gametes and provides a fundamental description of its role at different stages of spermiogenesis.

Impaired Carbohydrate Metabolism and Excess of Lipid Accumulation in Offspring of Hyperandrogenic Mice.

Polycystic ovary syndrome (PCOS) is an endocrine-metabolic disorder of unknown etiology. Hyperandrogenism (HA) is the main diagnostic criteria for PCOS, in addition to being a risk factor for developing several disorders throughout the patient's life, including pregnancy. However, the impact on offspring is little known. Therefore, the aim of this work was to evaluate the effect of maternal HA on glucose metabolism and hepatic lipid accumulation in adult offspring. We used Balb/c mice treated with dehydroepiandrosterone (DHEA) for 20 consecutive days. The ovary of DHEA-treated mice showed hemorrhagic bodies, an increased number of atretic follicles, and greater expression of genes related to meiotic cell cycle and DNA repair. The DHEA offspring (O-DHEA) had low birth weight, and some pups showed malformations. However, O-DHEA individuals gained weight rapidly, and the differences between them and the control group became significantly greater in adulthood. Moreover, O-DHEA presented higher serum glucose after a 6 h fast and a larger area under glucose, insulin, and pyruvate tolerance test curves. Oil Red O staining showed a more significant accumulation of fat in the liver but no changes in serum cholesterol and triacylglycerol levels. In summary, our results show that HA, induced by DHEA, affects gene expression in oocyte, which in turn generates defects in embryonic development, insulin resistance, and alteration in hepatic gluconeogenesis and lipid metabolism in O-DHEA, thereby increasing the risk of developing metabolic diseases.

Synaptonemal complex stability depends on repressive histone marks of the lateral element-associated repeat sequences.

The synaptonemal complex (SC) is the central key structure for meiosis in organisms undergoing sexual reproduction. During meiotic prophase I, homologous chromosomes exchange genetic information at the time they are attached to the lateral elements by specific DNA sequences. Most of these sequences, so far identified, consist of repeat DNA, which are subject to chromatin structural changes during meiotic prophase I. In this work, we addressed the effect of altering the chromatin structure of repeat DNA sequences mediating anchorage to the lateral elements of the SC. Administration of the histone deacetylase inhibitor trichostatin A into live rats caused death of cells in the pachytene stage as well as changes in histone marks along the synaptonemal complex. The most notable effect was partial loss of histone H3 lysine 27 trimethylation. Our work describes the epigenetic landscape of lateral element-associated chromatin and reveals a critical role of histone marks in synaptonemal complex integrity.

Revealing the high-resolution three-dimensional network of chromatin and interchromatin space: a novel electron-microscopic approach to reconstructing nuclear architecture.

The nuclear architecture is considered an important contributor to genome function. Although the fine structural features of the cell nucleus have been investigated extensively by means of ultrastructural cytochemistry, mainly on ultrathin sections in two dimensions (2D), there was a of lack routine methods for a rapid reconstruction of three-dimensional (3D) distribution of different structural constituents throughout the nuclear volume. We have now filled this gap by the application of a novel approach associating a pre-embedding selective visualization of nuclear components with a method making use of ultramicrotomy combined with scanning electron microscopy (microtome serial block face scanning electron microscopy--'3View'). We have been able to apply this method to the study of DNA distribution within the nuclear volume and reconstruction of 3D chromatin arrangement in nuclei of rat hepatocytes and endothelial cells. Our observations demonstrate that while chromatin appears to occupy the interior of nuclei rather sparsely on 2D images, once reconstructed in 3D from a series of sequential 2D images it gives the impression of considerably filling the nuclear volume. However, quantitative evaluation of the nuclear volume occupied by DNA in the above two types of nuclei leaves a significant part to the interchromatin space (66.2% for hepatic cells and 41.7% for endothelial cells, including nuclear space occupied by nucleoli). Detailed analysis of the reconstructed nuclei reveals a high degree of superposition of chromatin domains, giving rise to a false impression that they fill a much larger part of the nuclear volume than they really do. Our results show the importance of the contribution of such reconstruction techniques to our understanding of the nuclear architecture.

Beclin 1 Interacts With Active Caspase-3 and Bax in Oocytes From Atretic Follicles in the Rat Ovary.

Oocyte cell death is a normal process in the mammalian ovary during follicular growth. Recent reports have demonstrated the presence of pro-apoptotic and pro-autophagic proteins during oocyte elimination. The goal of this study was to identify the interactions between proteins involved in different types of programmed cell death in the same oocyte during follicular atresia. We evaluated the presence of Beclin 1 and its interaction with the pro-apoptotic proteins active caspase-3, Bax, and Bak by means of histochemical observations, ultrastructural immunodetection, and immunoprecipitation techniques in ovaries from prepubertal (28- and 33-day-old), juvenile (40-day-old), and young adult (90-day-old) rats. In this study, we identified that oocyte elimination occurred with a high quantity of pro-autophagic protein Beclin 1 and increased the presence of the pro-apoptotic proteins active caspase-3, Bax, and Bak. Conversely, the antiapoptotic protein Bcl-2 was reduced in oocytes from atretic follicles. In addition, Beclin 1 was shown to interact with active caspase-3 and Bax. Our results suggest that the increase in Beclin 1 is directly related to the rise of pro-apoptotic proteins, which could promote the apoptotic process during oocyte elimination.

Histochemical Study of the Emergence of Apoptosis and Altered SYCP3 Protein Distribution During the First Spermatogenic Wave in Wistar Rats.

Apoptosis is a type of cell death responsible for maintaining tissue homeostasis that can occur in male gonads. The morphological and biochemical characteristics of apoptosis include cellular contraction, caspase activation, and DNA fragmentation. Dynamic processes of cell renewal and differentiation occur inside the seminiferous tubules, which are regulated by mitosis and meiosis, respectively. During meiosis, recombination is caused by assembly of the synaptonemal complex, which involves the participation of constitutive proteins, such as synaptonemal complex protein-3 (SYCP3). The present study evaluated germinal cell death in immature male rats and the distribution of the SYCP3 protein. Our results indicate that as germinal cells progress to the second meiotic stage, significant numbers of them are eliminated by apoptosis. We determined that the SYCP3 protein is not always incorporated into the structure of the synaptonemal complex but rather forms a nuclear cumulus near the inner nuclear membrane, causing many of these cells to undergo apoptosis. We propose that both the excess of the SYCP3 protein and its accumulation during the first meiotic division could contribute to the cell death of primary spermatocytes during the first spermatogenic wave in prepubertal Wistar rats. Anat Rec, 302:2082-2092, 2019. © 2019 American Association for Anatomy.

Firing of transcription and compartmentalization of splicing factors in tomato radicle nuclei during germination(1).

BACKGROUND INFORMATION: Germination is a well-characterized process in which embryo cells of seeds experience a programmed transition from quiescence to proliferation. For this reason they constitute a very good system to analyse nuclear evolution from a dehydrated practically inactive state until the steady state of proliferation. We analysed the temporal and spatial organization of transcription and splicing factors in nuclei of tomato radicle cells during germination. To address this issue we performed in situ immunodetection of several markers of these processes: the Z-DNA stretches forming behind the active RNA polymerases, the splicing proteins U2B'' and Sm, and the trimethyl guanosin cap of small nuclear RNA. The concomitant structural changes of the different nuclear compartments were studied in meristematic nuclei by electron microscopy and high-resolution cytochemistry for DNA and ribonucleoproteins. RESULTS: In quiescent cells practically no Z-DNA stretches were detected and splicing components localized mainly to one or two Cajal bodies associated to the nucleolus. In early germination, a massive de-condensation of chromatin and nucleolar Z-DNA conformation stretches were first detected, followed by the relocation of scarce splicing components to the small interchromatin spaces. Nucleoplasmic Z-DNA stretches were not detected until 4 h of imbibition and were accompanied by an important increase of splicing components in this nuclear domain. Soon after the post-germination stage, transcription and splicing topology and nuclear organization in meristematic nuclei resemble those in steady state growing tomato roots. CONCLUSIONS: Our results demonstrate that, in tomato, dormant nuclei splicing factors are stored in nucleolar Cajal bodies. In early germination, RNA polymerase I transcription is first activated, whereas mRNA transcription is fired later and is accompanied by a massive de-condensation of chromatin and accumulation of splicing factors in the interchromatin domains. Nucleoplasmic Cajal bodies appear later in germination.

Peptide presentation on primate erythroparvovirus 1 virus-like particles: In vitro assembly, stability and immunological properties.

Virus-like particles (VLPs) have demonstrated to be valuable scaffolds for the display of heterologous peptides for vaccine development and other specific interactions. VLPs of primate erythroparvovirus 1, generally referred as parvovirus B19 (B19V), have already been produced in-vivo and in-vitro from the recombinant VP2 protein of this virus. In this study, chimeric forms of B19V VP2 were constructed, and their ability to assemble into VLPs was evaluated. Chimeras were composed of the VP2 protein fused, at its N-terminus, with two peptides derived from the fusion glycoprotein (F) of the respiratory syncytial virus (RSV). The chimeric proteins self-assembled into VLPs morphologically similar to B19V virions. Stability of these VLPs was analyzed under denaturation conditions with guanidinium chloride (GdnHCl). Our results indicate that the presence of the heterologous fragments increased the stability of VLPs assembled by any of the VP2 chimeras. Specific proteolysis assays shown that a fraction of the N-termini of the chimeric proteins is located on the outer surface of the VLPs. Immunogenicity of VLPs against RSV was evaluated and the results indicate that the particles can elicit a humoral immune response, although these antibodies did not cross-react with RSV in ELISA tests. These results provide novel insights into the localization of the N-termini of B19V VP2 protein after in vitro assembly into VLPs, and point them to be attractive sites to display peptides or proteins without compromise the assembly or stability of VLPs.

Immunocytolocalization of tryptophan decarboxylase in Catharanthus roseus hairy roots.

We investigated the intracellular distribution of tryptophan decarboxylase (TDC) (EC 4.1.1.28) in Catharanthus roseus hairy roots using immunofluorescence and immunogold techniques. TDC was detected by immunofluorescence localization in the cytosol and in the apoplastic region of the meristematic cells of the roots, with a slight enrichment in the epidermal cells of the root cap and in the meristematic region. In the enlargement zone, TDC was localized only in the first three layers of the cortex. In the maturation zone, the enzyme was not present. Immunogold studies confirmed that the enzyme was localized in the cytosol of the meristematic region, and intense gold labeling was found in the apoplastic zone. A protein fraction isolated from the apoplastic zone and assayed for TDC activity showed high activity.

Characterization of the pre-meiotic S phase through incorporation of BrdU during spermatogenesis in the rat.

Seminiferous tubules in mammals have histological arrangements defined by the associations between somatic cells and germ cells. The processes of DNA synthesis in meiotic and mitotic cells have different features that are not easily distinguishable through morphological means. In order to characterize the pre-meiotic S phase, 5-bromo-2'-deoxyuridine (BrdU) was injected intraperitoneally into Wistar rats, which were sacrificed 30 min, 2 hr, and 24 hr after injection. We found three different labeling patterns. One of these patterns was characterized by a distribution of the label in the form of speckles, most of which were associated with the nuclear envelope (labeling type I). We suggest that this pattern is due to mitotic DNA synthesis of type B spermatogonia. Labeling type II consisted of labeled foci scattered throughout the nuclear volume, which can be correlated with preleptotenic cells in pre-meiotic DNA synthesis. After 24 hr of incorporation, a third type of labeling, characterized by large speckles, was found to be related to cells in the "bouquet" stage; that is, cells in transition between the leptotene and zygotene phases. Our results indicate that BrdU incorporation induces different labeling patterns in the mitotic and pre-meiotic S phases and thus makes it possible to identify somatic and germinal cells.

Human parvovirus B19 virus-like particles: In vitro assembly and stability.

Virus-like particles (VLPs) are biological nanoparticles identical to the natural virions, but without genetic material. VLPs are suitable for the analysis of viral infection mechanisms, vaccine production, tissue-specific drug delivery, and as biological nanomaterials. Human parvovirus B19 (B19) infects humans; therefore VLPs derived from this virus have enormous potential in medicine and diagnostics. Current production of self-assembled VLPs derived from B19 is typically carried out in eukaryotic expression systems. However many applications of VLPs require access to its internal core. Consequently, the processes of disassembly and further reassembly of VLPs are critical both for purification of viral proteins, and for encapsulation purposes. Herein we report the in vitro self-assembly of B19 VLPs derived from the recombinant VP2 protein expressed in Escherichia coli and the effects of pH and ionic strength on the assembly process. Our results demonstrate that VP2 is able to form VLPs completely in vitro. At neutral pH, homogeneous VLPs assemble, while at acidic and basic pHs, with low ionic strength, the major assemblies are small intermediates. The in vitro self-assembled VLPs are highly stable at 37°C, and a significant fraction of particles remain assembled after 30min at 80°C.

Differential distribution and association of repeat DNA sequences in the lateral element of the synaptonemal complex in rat spermatocytes.

The synaptonemal complex (SC) is an evolutionarily conserved structure that mediates synapsis of homologous chromosomes during meiotic prophase I. Previous studies have established that the chromatin of homologous chromosomes is organized in loops that are attached to the lateral elements (LEs) of the SC. The characterization of the genomic sequences associated with LEs of the SC represents an important step toward understanding meiotic chromosome organization and function. To isolate these genomic sequences, we performed chromatin immunoprecipitation assays in rat spermatocytes using an antibody against SYCP3, a major structural component of the LEs of the SC. Our results demonstrated the reproducible and exclusive isolation of repeat deoxyribonucleic acid (DNA) sequences, in particular long interspersed elements, short interspersed elements, long terminal direct repeats, satellite, and simple repeats. The association of these repeat sequences to the LEs of the SC was confirmed by in situ hybridization of meiotic nuclei shown by both light and electron microscopy. Signals were also detected over the chromatin surrounding SCs and in small loops protruding from the lateral elements into the SC central region. We propose that genomic repeat DNA sequences play a key role in anchoring the chromosome to the protein scaffold of the SC.

Cell Death in Mammalian Ovary

The ovary is a suitable organ for studying theprocesses of cell death. Cell death was first described in therabbit ovary (Graaffian follicles), the phenomenon being called'chromatolysis'. To date, it is recognized that various forms ofcell death (programmed cell death, apoptosis and autophagy) areessential components of ovarian development and function.Programmed cell death is responsable for the ovarian endowment ofprimordial follicles around birth; in the prepuberal and adultperiod, apoptosis is a basic mechanism by which oocytes areeliminated by cancer therapies and environmental toxicants; in theovarian cycle, follicular atresia and luteal regression involvefollicular cell apoptosis. Finally, abnormalities in cell deathprocesses may lead to ovarian disease such as cancer andchemoresistance. In this book, after an introductory description ofvarious forms of cell death and of the ovary development andfunction in mammals, the processes of cell death in ovarian somaticcells and oocytes are described at cytological, physiological andmolecular levels and analyzed in the embryonic, prepuberal andadult ovary. A complex array of molecular pathways triggered byextrinsic and intrinsic signals able tor induce or suppress celldeath in the same cell, according to cell type and ovarydevelopmental stage, emerges. Physiological interactions with theaxis hypothalamus-hypophysis as well as ovarian internal functionalsignal are also critically reviewed to explain the abortivedevelopment of follicles before the beginning of the ovarian cycle.The book conveys information useful to the updating of biologistsand physicians who are interested to the ovary biology andfunctions. Hopefully it should provide also clues for stimulatingnovel experiments in the study of cell death in the mammalian ovarystill at an early stage.

Análisis ultraestructural e inmunocitoquímico del complejo sinaptonémico al inicio de la sinapsis / Ultraestructual analysis and immunocytochemical of synaptonemal complex at begging of synapsis

Los complejos sinaptonémicos (CSs) son estructuras nucleares específicas de las meiosis. Juegan un papel central en el apareamiento de cromosomas homólogos, se consideran esenciales en los eventos de crossing over y la segregación cromosómica durante la primera división meiótica. Cuando finaliza su ensamble en el estadio paquiteno, cada complejo sinaptonémico se extiende a lo largo del bivalente uniendo sus extremos a la envoltura nuclear. Los CSs se caracterizan por la presencia de dos elementos laterales y una región central. Los elementos laterales son paralelos y equidistantes. La cromatina de los cromosomas homólogos, se unen en una serie de asas a estos elementos. La región central se localiza entre los elementos laterales. Está formada por las fibrillas latero-mediales y el elemento medial. Las primeras se orientan perpendicularmente al eje longitudinal de CS y conectan los elementos laterales con el elemento medial. Los nódulos de recombinación juegan un papel activo en los procesos de recombinación y formación de quiasmas, se asocian a intervalos con la región central entre los cromosomas homólogos. La localización y función de los ácidos nucleicos en la formación y apareamiento del complemento sinaptonémico es poco conocida, por lo que se buscan alternativas metodológicas para resolver este tipo de problemas. En el presente trabajo se estudió la distribución de ADN en ovocitos de pollo en citeno utilizando técnicas para icroscopía electrónica de inmuno-oro. Además se emplearon técnicas citoquímicas como: contraste preferencial para ADN o preferencial para ribonucleoproteínas (RNPs). La combinación de tinción preferencial para RNPs e inmunolocalización de ADN nos demuestran que la cromatina se acumula conujuntamente con las ribonucleoprotéinas en los elementos laterales no apareados y la presencia de numerosas fibrillas RNPs distribuidas laxamante alrededor de los elementos laterales. Se encontraron nódulos de recombinación entre los elementos laterales durante el apareamiento, estos nódulos son PTA positivos lo que nos indica la presencia de ADN en éstos y por lo tanto la presencia de ADN entre los elementos laterales. La presencia de un puente de fibrillas marcadas con oro coloidal (ADMN) uniendo a los elementos laterales no apareados, sugeriría al ADN como una especie de macromolécula formadora de sitios de sinapsis