Ovarian regression and apoptosis in the South American teleost Leporinus taeniatus Lütken (Characiformes, Anostomidae) from the São Francisco Basin

Involution and resorption of both postovulatory and atretic follicles were analysed in piau‐jejo Leporinus taeniatus (Characiformes, Anostomidae) in order to evaluate the role of apoptosis during ovarian regression. Histological and ultrastructural analyses showed hallmarks of apoptosis in the granulosa: aggregation of compacted chromatin against the nuclear envelope, cell shrinkage, surface blebbing, loss of cell adhesion and cell fragmentation into apoptotic bodies. Protein synthesis activity preceded the onset of the cell death. The breakdown of the basement membrane led to the detachment of the granulosa cells into the follicular lumen. TUNEL‐positive reactions were detected in in situ DNA fragmentation of granulosa of both postovulatory and atretic follicles. Apoptosis increased in a time‐dependent manner contributing to reduction of the follicular areas. The apoptotic index (per cent of apoptotic cells) of the granulosa increased in postovulatory follicles soon after spawning, then these follicles degenerated and only remnants were observed at 7 days. In contrast, the granulosa cells reabsorbed the yolk during follicular atresia and the apoptotic index increased only in the late stage of regression. The results indicated apoptosis as the major mechanism to rapidly eliminate postovulatory follicles and being an essential process in the ovarian regression after spawning.     

Relationship among follicular apoptosis,integrin β<Subscript>1</Subscript> and collagen type IV during early ovarian regression in the teleost <Emphasis Type="Italic">Prochilodus argenteus</Emphasis> after induced spawning

Early ovarian regression was analyzed in the neotropical freshwater teleost, curimatã-pacu (Prochilodus argenteus), in order to evaluate follicular apoptosis, basement membrane morphology, and integrin β₁ and collagen type IV immunostainning in postovulatory follicles. Mature females were induced to spawn by using carp pituitary extract for study of ovarian regression up to 5 days post-spawning. Morphometric analyses showed that the postovulatory follicle area decreased progressively after spawning and was coupled to the gonadosomatic index (r=0.92). During ovarian regression, follicular cells detached from the neighboring cells and basement membrane and then died by apoptosis. The follicular basement membrane became thicker and diffuse and was breached during regression of the postovulatory follicles. Follicular apoptosis was detected by TUNEL, histology, and electron microscopy. The ladder pattern of apoptotic DNA was revealed by agarose gel electrophoresis. The apoptotic index for the follicular cells increased until 3 days post-spawning and decreased thereafter. Immunohistochemistry reactions detected caspase 3, integrin β₁, and collagen type IV in the follicular layer of the postovulatory follicles. Labeling for integrin β₁ and collagen type IV decreased significantly, whereas a peak in cell death occurred 3 days post-spawning. At 4-5 days post-spawning, the connective theca was more thickened and vascularized. Simultaneously, granulocytes migrated toward the follicular lumen. Thus, follicular apoptosis contributes to early ovarian regression in P. argenteus. Additionally, our findings suggest integrin β₁ and collagen type IV as possible survival factors for follicular cells in teleost ovary.     

Nitric oxide: a possible mediator of ovulation and postovulatory follicle regression in chicken

Nitric oxide (NO) has recently emerged as a regulator of functional and structural regression in mammalian reproductive tissues. However, the role of NO in ovulation and postovulatory follicles (POF) that undergo regression in laying birds is unclear. In the present investigation, the expression profiles of iNOS mRNA, tissue NO levels and the percentage of apoptotic cells were studied in the regressing chicken postovulatory follicle (POF). The postovulatory follicles gradually lost weight during its regression and reached the lowest weight on POF5. The number of apoptotic cells was increased significantly during the regression of POF. The mRNA expression of iNOS was noticed in the second largest preovulatory follicle (F2) that subsequently increased in the largest preovulatory follicle (F1). However, the level of iNOS mRNA was declined immediately after ovulation and thereafter upregulated again to reach a peak in POF3 with a subsequent reduction in POF5 to below the basal level. The tissue NO levels followed a similar pattern except with a peak production in POF4. The gross regression and apoptosis in POFs were well associated with iNOS expression and NO production. In conclusion, NO appears to play a role in ovulation and regression of postovulatory follicle in chicken.     

Gonadotropin-releasing hormone antagonist antide inhibits apoptosis of preovulatory follicle cells in rat ovary

Analogs of GnRH, including agonists (GnRH-a) and antagonists (GnRH-ant), have been widely used to inhibit gonadotropin pituitary release. Aside from the effect of GnRH analogs on the pituitary-gonadal axis, studies have shown that GnRH has extrapituitary effects, particularly on rat and human ovaries. In the present study, we evaluated the direct in vivo effects of the GnRH-a, leuprolide acetate (LA), or the GnRH-ant, Antide (Ant), either singly or together, on ovarian follicular development in prepubertal eCG-treated rats. LA significantly decreased ovarian weight, whereas Ant increased ovarian weight compared with controls; however, coinjection of both compounds had no effect. In addition, LA increased the number of preantral follicles (PFs) and atretic follicles, and decreased the number of early antral follicles (EAFs) and preovulatory follicles (POFs). Coinjection of Ant interfered with this LA effect. Ant alone increased the number of POFs compared with that of controls. Analysis of apoptosis has shown that LA increases the percentage of apoptotic cells in PFs, EAFs, and POFs; however, Ant prevented this effect. In addition, Ant alone decreased the percentage of apoptotic cells in EAFs and POFs. Data have shown that Ant per se inhibited BAX translocation from cytosol to mitochondria and retained cytochrome C in the mitochondria, whereas LA induced cytochrome C release. We conclude that Ant inhibits apoptosis in preovulatory follicles through a decrease of BAX translocation to mitochondria, suggesting that GnRH may act as a physiological intraovarian modulator factor that is able to interfere with follicular development through an increase in apoptotic events mediated by an imbalance among the BCL-2 family members.     

Dual roles for autophagy during follicular atresia in fish ovary

Autophagy, a highly conserved catabolic program for degrading proteins and organelles, is essential for cell and tissue homeostasis. Primarily, this process has a cytoprotective role under nutrient deprivation, but several stress stimuli can induce autophagy and, thus, distinct programmed cell death (PCD) pathways can be actived when stress is not abolished. Fish ovaries are a suitable experimental model system for studying the mechanisms of PCD due to the presence of postovulatory and atretic (i.e., non-ovulated) follicles, which follow different routes after spawning. Apoptosis of the follicular cells is the major mechanism responsible for the rapid resorption of the postovulatory follicles. Recently, we investigated the contribution of PCD during follicular atresia in two species of freshwater fish. In contrast to mammals, this study revealed that follicular apoptosis is not a major process for deletion of follicular cells in atretic follicles. Furthermore, we detected autophagic vacuoles containing degenerating organelles increasing through follicular atresia in both species. In this addendum, we propose a hypothesis for follicular cell removal during ovarian regression in oviparous fish. In this model, autophagy could have dual roles in follicular atresia. Thus, fish ovaries after breeding are suitable models for studying the interactions among the different cell death pathways.     

Morphological patterns of cell death in ovarian follicles of primary and secondary growth and postovulatory follicle complex of the annual killifish Millerichthys robustus (Cyprinodontiformes: Cynolebiidae)

The dynamics of cellular development and homeostasis of the ovary depend on the balance between proliferation and cell death throughout the reproductive cycle. Millerichthys robustus is an annual fish whose ovarian follicles develop asynchronously, allowing daily reproduction from sexual maturity until death. The objective of this research is to describe, histologically, the processes of follicular atresia and regression of postovulatory follicular complexes (POC) throughout a reproductive cycle of M. robustus. Patterns of cell death were documented by apoptosis in atretic follicles and POC, and necrosis in the POC after ovulation with an associated inflammatory response. Atretic follicles were seen from the onset of sexual maturity, during week three post-hatching (PH), both in primary growth (from the Cortical alveoli step, with folliculogenesis completed) and secondary growth Stages, with a higher prevalence in the latter. POCs were observed in different stages of regression from week four PH until the death of the fish. The apoptotic characteristics found were: (i) fragmentation of the nuclear membrane and zona pellucida, and liquefaction of the cortical alveoli and yolk; (ii) follicular cells becoming phagocytic, increasing their size, and migrating within the oocyte; and (iii) formation of an intrafollicular lumen, a product of phagocytosis of the oocyte constituents and dispersed pigments that remain after the digestion of yolk and cortical alveoli. The morphological changes of the follicular cells of the POC, from a squamous morphology after ovulation to columnar during its regression with PAS+ contents, was documented, suggesting a secretory activity.     

Ovarian follicular atresia in two teleost species: a histological and ultrastructural study

Follicular atresia is a common phenomenon in vertebrate ovaries involving the oocyte and the follicular wall degeneration. Female Astyanax bimaculatus lacustris and Leporinus reinhardti were kept in aquaculture cages inside tanks from February 1994 to January 1995 for the study of the characteristics of different stages of follicular atresia. Histological and ultrastructural analysis demonstrated similarities in the degenerative events and in the resorption of oocytes in both species. Degradation of organelles, such as mitochondria, cortical alveoli, and annulate lamellae occurred in the peripheral ooplasm during the initial stage of the process. Follicle cells showed marked phagocytic activity with digestive vacuoles, myelin figures, and lipofuscin granules during the intermediate and advanced stages of follicular atresia. Granulocytes were in activity during the final stage of follicle resorption. The duration of follicular atresia was 4 months in Leporinus reinhardti and 7 months in Astyanax bimaculatus lacustris. When submitted to induced reproduction in December 1995, 50-60% of the females of both species responded to induced spawning, indicating the recovery of gonadal activity. It is suggested that, in captive conditions, follicular atresia is shorter in total-spawning fishes when compared to those showing partial spawning, and that it has no apparent deleterious effects on induced reproduction in the subsequent cycle.     

Distribution of laminin β2, collagen type IV, fibronectin and MMP-9 in ovaries of the teleost fish

Extracellular matrix in the ovarian follicle has been characterised for several mammalian species but there are no reports that describe the immunolocalisation of the extracellular matrix elements, matrix metalloproteinases, and its relation to plasma 17β estradiol levels and follicular apoptosis during the teleost’s reproductive cycle. The present study used immunohistochemistry to characterise the distribution of laminin β2, collagen type IV, fibronectin and matrix metalloproteinases-9 (MMP-9). The TUNEL in situ technique was used to quantify apoptosis and indirect immunofluorimetric to determine plasma 17β estradiol levels. The TUNEL-positive reaction associated with morphological features exhibited follicular apoptosis. During postovulatory follicle involution, the drop in plasma 17β estradiol levels after spawning contributed to the intense apoptosis observed. By immunohistochemical analysis, laminin β2 and collagen type IV were identified as the major constituents of the basement membrane. The loss of integrity of the basement membrane occurred due to lyses of the major constituents, and coincides with increased follicular apoptosis. The integrity of the basement membrane is important for the survival of follicular cells. Furthermore, the MMP-9 results suggest that this enzyme is involved in final oocyte maturation and regression of postovulatory follicles. Fibronectin was observed on the surface of follicular cells of the postovulatory follicle in P. argenteus, this being important for maintaining normal cell adhesion to extracellular matrix. In conclusion, our results suggest that the structure and composition of the extracellular matrix, and plasma 17β estradiol levels related to apoptosis, play an important role during the follicular development and post-spawning involution in teleost fishes.     

Autophagy and Cathepsin D mediated apoptosis contributing to ovarian follicular atresia in the Nile tilapia

Follicular atresia is a hormonally controlled degenerative process involving apoptosis of the somatic and germ cells. Since different signaling pathways can induce cell death, the aim of the present study was to investigate cell death signaling and crosstalk between autophagic, apoptotic, and lysosomal proteins during follicular atresia in Nile tilapia. For this, females were kept in controlled conditions for 21 days, and ovary samples were collected weekly. The atretic follicles (AF) were analyzed in three regression phases: Early, advanced, and late. Under electron microscopy, the follicular cells exhibited numerous protein synthesis organelles in the early AF. Immunoreactivity for Bcl2, Beclin1, Lc3, and Cathepsin D increased significantly in advanced AF (p < .001), when follicular cells were in intense yolk phagocytosis. In this phase, autophagosomes and autolysosomes were frequently observed. In the late AF, follicular cells had a markedly electron‐lucid cytoplasm and immunoreactivity for Bax and TUNEL assay indicated an elevated apoptosis rate. Colocalisation of Lamp1/Cathepsin D and Lc3/Caspase‐3 suggests dynamic crosstalk between the autophagy, apoptosis, and lysosome pathways. Taken together, the data indicate that autophagy plays a role in the homeostasis and clearance of the follicular cells preceding Cathepsin D mediated apoptosis during follicular atresia in Nile tilapia.     

Topological Control of Life and Death in Non-Proliferative Epithelia

Programmed cell death is one of the most fascinating demonstrations of the plasticity of biological systems. It is classically described to act upstream of and govern major developmental patterning processes (e.g. inter-digitations in vertebrates, ommatidia in Drosophila). We show here the first evidence that massive apoptosis can also be controlled and coordinated by a pre-established pattern of a specific ‘master cell’ population. This new concept is supported by the development and validation of an original model of cell patterning. Ciona intestinalis eggs are surrounded by a three-layered follicular organization composed of 60 elongated floating extensions made of as many outer and inner cells, and indirectly spread through an extracellular matrix over 1200 test cells. Experimental and selective ablation of outer and inner cells results in the abrogation of apoptosis in respective remaining neighbouring test cells. In addition incubation of outer/inner follicular cell-depleted eggs with a soluble extract of apoptotic outer/inner cells partially restores apoptosis to apoptotic-defective test cells. The 60 inner follicular cells were thus identified as ‘apoptotic master’ cells which collectively are induction sites for programmed cell death of the underlying test cells. The position of apoptotic master cells is controlled by topological constraints exhibiting a tetrahedral symmetry, and each cell spreads over and can control the destiny of 20 smaller test cells, which leads to optimized apoptosis signalling.     

Anticancer effects and lysosomal acidification in A549 cells by Astaxanthin from Haematococcus lacustris

Astaxanthin (AXN) is known to have health benefits by epidemiological studies. Therefore, it is of interest to assess the effect of AXN (derived from indigenous unicellular green alga Haematococcus lacustris) to modulate cell cycle arrest, lysosomal acidification and eventually apoptosis using in vitro in A549 lung cancer cells. Natural extracts of astaxanthin were obtained by standardized methods as reported earlier and characterized by standard HPLC and MS. Treatment of A549 cells with AXN (purified fraction) showed significant reduction in cell viability (about 50%) as compared to crude extract at 50µM concentration. Thus, we show the anticancer effects and lysosomal acidification in A549 cells by Astaxanthin from Haematococcus lacustris for further consideration. Together, our results demonstrated the anticancer potential of AXN from Haematococcus lacustris, which is found to be mediated via its ability to induce cell cycle arrest, lysosomal acidification and apoptotic induction.     

Cutting edge: cellular Fas-associated death domain-like IL-1-converting enzyme-inhibitory protein protects germinal center B cells from apoptosis during germinal center reactions

During germinal center (GC) reactions, follicular dendritic cells are believed to select memory B lymphocytes by switching off apoptosis in the successfully binding B cells. The cellular signals involved in this process are largely unknown. Here, we show that GC B lymphocytes have a long isoform of the cellular homologue of the viral Fas-associated death domain-like IL-1-converting enzyme-like inhibitory protein (cFLIP(L)), which is capable of inhibiting death receptor-induced caspase activation. In isolated GC B cells, cFLIP(L) decays rapidly even without Fas ligation, and this results in activation of caspase activity and apoptosis. Contact with follicular dendritic cells prevents cFLIP(L) degradation and blocks all signs of apoptosis, even in the presence of anti-Fas ABS: cFLIP(L) expression is sustained by CD40 ligation as well, suggesting that at least at some stage of the GC reaction activated T cells may help selected B cells to leave the follicular dendritic cell network without becoming apoptotic.     

Apoptosis and ovarian function: novel perspectives from the teleosts

Apoptosis is a fundamental mechanism in follicular atresia and postovulatory regression in mammals, but its role in teleost ovarian function is currently unknown. This study tested the hypotheses that apoptosis mediates follicular atresia in teleosts and is inducible in vitro by incubation in serum-free conditions. Vitellogenic follicles from rainbow trout (Oncorhynchus mykiss) and goldfish (Carassius auratus) were incubated overnight in serum-free medium and examined for apoptosis by 3'-end-labeling and/or TUNEL analysis. Primary, postovulatory, and oocytectomized vitellogenic trout follicles and atretic goldfish follicles were evaluated in similar fashion. Overall, goldfish follicles had lower levels of DNA fragmentation than trout follicles. The DNA fragmentation in atretic goldfish follicles was similar to that measured in healthy vitellogenic and prematurational follicles; DNA fragmentation did not change after incubation. In the trout, postovulatory and oocytectomized vitellogenic follicles showed significantly greater in vitro susceptibility to apoptosis than intact vitellogenic follicles, whereas primary follicles were least susceptible. The TUNEL analyses revealed that in trout vitellogenic follicles, more thecal/epithelial cells than granulosa cells showed fragmented DNA in vivo, but incubation (24 h) did not result in increased apoptosis in cells of either type. These results indicate that apoptosis is involved in normal ovarian growth and postovulatory regression in teleosts, but that it does not appear to be an early event in teleost follicular atresia.     

Morphological and biochemical identification of apoptosis in small, medium, and large bovine follicles and the effects of follicle-stimulating hormone and insulin-like growth factor-I on spontaneous apoptosis in cultured bovine granulosa cells

The first objective of this study was to determine whether the death of bovine granulosa cells (GC) isolated from small ( 8 mm) follicles during follicular atresia occurs by apoptosis. The second objective was to establish an in vitro model system to elucidate the developmental (GC from follicles of different sizes) and hormonal (FSH and insulin-like growth factor-I [IGF-I]) regulation of bovine GC apoptosis during follicular atresia. Bovine ovaries were obtained from a nearby slaughterhouse. Follicles were classified by morphometric criteria as healthy or atretic. Apoptosis in GC from follicles of different sizes was analyzed by both morphological and biochemical methods. Bovine GC were cultured for 48 h at a density of 5 x 10(6) cells/ml in serum-free media at 39 degrees C to determine the effects of FSH and IGF-I on apoptosis. The results showed that apoptosis occurred in GC from all sizes of follicles. Apoptosis in GC was also detected in some healthy follicles. Degenerate GC displayed the morphological characteristics of apoptosis, including nuclei with marginated chromatin, a single condensed nucleus, multiple nuclear fragments, and/or membrane-bound structures containing variable amounts of chromatin and/or cytoplasm (apoptotic bodies). All GC classified as apoptotic on the basis of their morphology contained fragmented DNA measured by the terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) technique. Cells that had undergone apoptosis were observed mainly in GC and in scattered theca cells. Throughout the GC layer, apoptotic cell death was more prevalent among antral GC than among mural GC. Interestingly, morphological results showed that no apoptosis occurred in cumulus cells. A time-dependent, spontaneous onset of apoptosis occurred in GC from small, medium, and large follicles during in vitro serum-free culture. The rate of DNA fragmentation in the culture of GC from small follicles was higher than that from medium and large follicles. FSH attenuated apoptotic cell death in GC from medium follicles more effectively than in those from small follicles. IGF-I also suppressed apoptosis in cultured GC from small follicles. In conclusion, this study showed that 1) GC death during bovine follicular development and atresia occurs by apoptosis; 2) apoptosis occurs in GC and theca cells; however, apoptosis does not occur in cumulus cells even in atretic antral follicles; 3) GC from all small, medium, and large follicles undergo spontaneous onset of apoptosis when cultured under serum-free conditions; and 4) FSH and IGF-I can attenuate apoptosis in cultured bovine GC.     

Morphological and quantitative evaluation of the ovarian recrudescence in Nile tilapia (Oreochromis niloticus) after spawning in captivity

The Nile tilapia is one of the most important fish species for aquaculture worldwide. Understanding their reproductive biology is essential for improving their aquaculture methods. The morphological and quantitative dynamics of ovarian recrudescence of Oreochromis niloticus was studied for 21 days postspawning. To accomplish this, breeding females were kept in controlled conditions and ovarian samples were collected weekly for histological, ultrastructural and morphometric analyses. Ovarian follicle morphology revealed an intense synthesis activity of the follicular cells, which actively contributed to formation of the zona radiata and oocyte development following spawning. Recently spawned ovaries contained follicles at all developmental stages, but they were predominantly early primary growth (～42%) and full‐grown follicles (～20%). Remnants of spawning, postovulatory follicle complexes represented approximately 5% of the former ovarian follicles immediately after spawning, and less than 1% after 7 days. Atretic follicles accounted for approximately 2% of the follicles studied during the period. The stock of primary growth follicles was stable during ovarian recrudescence, indicating their availability for continuous recruitment. Only the frequency of full‐grown follicles significantly increased in the ovaries during recrudescence, representing approximately 35% of the follicles 21 days postspawning. The diameters of all follicles were significantly different between the periods analyzed. The ovaries' morphological characteristics, the maintenance of young follicles stocks and the gradual and significant increase in the proportion and diameter of full‐grown follicles showed a rapid ovarian recovery and follicular growth of O. niloticus, in 21 days at 29.5°C, necessary for the next spawning. J. Morphol. 275:348–356, 2014. © 2013 Wiley Periodicals, Inc.     

Mechanisms involved in tissue-specific apopotosis regulated by glucocorticoids

Physiological cell turnover is under the control of a sharp and dynamic balance of different homeostatic mechanisms such as the equilibrium between cell proliferation and cell death. These mechanisms play an important role in maintaining normal tissue function and architecture. It is well known that apoptosis is the prevalent mode of physiological cell loss in most tissues. Steroid hormones like glucocorticoids have been identified as key signals controlling cell turnover by modulating programmed cell death in a tissue- and cell-specific manner. In this sense, several reports have demonstrated that glucocorticoids are able to induce apoptosis in cells of the hematopoietic system such as monocytes, macrophages, and T lymphocytes. In contrast, they protect against apoptotic signals evoked by cytokines, cAMP, tumor suppressors, in glandular cells such as the mammary gland epithelia, endometrium, hepatocytes, ovarian follicular cells, and fibroblasts. Although several studies have provided significant information on hormone-dependent apoptosis in an specific tissue, a clearly defined pathway that mediates cell death in response to glucocorticoids in different cell types is still misunderstood. The scope of this review is held to those mechanisms by which glucocorticoids control apoptosis, emphasizing tissue-specific expression of genes that are involved in the apoptotic pathway.     

Induction of secondary apoptosis, inflammation, and lung fibrosis after intratracheal instillation of apoptotic cells in rats

Uncontrolled apoptosis has been associated with several pulmonary disorders; however, the molecular mechanism underlying this process and the fate of apoptotic cells in vivo are unclear. Here we show that direct administration of apoptotic cells to the lungs of rats caused pulmonary inflammation and fibrosis, as indicated by emigration of inflammatory cells to the air spaces, TNF-alpha immunoreactivity, and connective tissue accumulation, indicating a direct relationship between apoptotic cells and the observed lung pathologies. To determine how the lungs process the accumulated apoptotic cells, normal or apoptotic cells from autologous donor rats were labeled with fluorescent nanobeads and intratracheally instilled into the lungs of rats. Probe distribution and lung cell apoptosis were determined at various times over a 28-day period by confocal fluorescence microscopy and terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling, respectively. Labeled apoptotic cells were cleared by lung macrophages within 1 wk after the treatment. However, the total number of apoptotic cells in the lung remained high at 28 days posttreatment. The results indicate a continuous induction of secondary apoptosis by apoptotic cell instillation, which may contribute to the observed lung pathology. Analysis of lung cell apoptosis by caspase assays showed an elevation of caspase-8 but not caspase-9 in the treatment group at 28 days posttreatment, indicating involvement of the death receptor-mediated pathway in the apoptotic process. Together, our results demonstrate a direct effect of apoptotic cell accumulation on inflammatory and fibrotic pulmonary responses and the continuous induction of lung cell apoptosis by apoptotic cell instillation.     

Functional aspects of the postovulatory follicle in the ovary of the African catfish,Clarias gariepinus,after induced ovulation

Summary In captive African catfish, Clarias gariepinus, ovulation was induced with human chorionic gonadotropin (HCG) 4 I.U./g body weight to study the function of postovulatory follicles (POFs). Ultrastructural and enzyme-histochemical data indicate that, apart from special theca cells, the granulosa of relative young POFs (i.e., from 16 h and 28 h after HCG-injection) is capable of producing steroids. Possible functions of the synthesized steroids are discussed. Histological comparison of POFs from stripped and from unstripped fish, as well as histochemical investigation of the contents of ovulated ova and granulosa of POFs at 48 h after HCG-injection, showed that the latter structure is involved in phagocytosis of the disintegrating ovulated eggs. The polysaccharide-lipid-protein material, initially taken up by heterophagolysosomes of the granulosa cells, subsequently undergoes fatty degeneration. The granulosa cells of the POFs showed strong acid phosphatase activity and abundant granular endoplasmic reticulum from 16 h after HCG-injection onward; heterophagolysosomes appeared at 32 h. These results indicate that after ovulation the phagocytotic function of the granulosa develops progressively. Autophagolysosomes, responsible for the final disintegration of POFs, become increasingly evident in the granulosa cells with increasing time after ovulation.     

Differential effects of indomethacin on the sheep ovary: Prostaglandin biosynthesis, intracellular calcium, apoptosis, and ovulation

Cells of the apical wall of the dominant follicle and contiguous ovarian surface epithelium become apoptotic with the approach of ovulation in the sheep. It was hypothesized that indomethacin, an established inhibitor of prostaglandin biosynthesis and ovulation, would protect apical ovarian cells from programmed death. The anovulatory potencies of two systemic doses of indomethacin (200 and 800 mg) were tested in gonadotropin-stimulated ewes. A complete blockade of ovulation occurred at the higher dose of indomethacin. Ovulation was not inhibited by 200 mg indomethacin. Both doses of drug suppressed follicular prostaglandin production below pregonadotropin levels. Immunofluorescence detection of digoxigenin end-labeled (fragmented) DNA was used as a marker of apoptosis among ovarian surface epithelial and granulosa cells recovered from the apical hemisphere of preovulatory ovine follicles. Cellular DNA fragmentation was averted in animals given 800 mg indomethacin, whereas apoptosis ensued after 200 mg. A sustained increase in cytosolic calcium is generally a prerequisite to apoptotic DNA fragmentation and cell death. Indeed, intracellular calcium, detected by fluorescence of fura-2, was elevated in ovarian cells of animals destined to ovulate (controls, 200 mg indomethacin) in comparison to (safeguarded) cells of anovulatory ewes (800 mg indomethacin). These observations provide circumstantial evidence that apical ovarian cell degeneration by calcium-mediated apoptosis is a determinant of follicular instability and rupture, but that these events are unrelated to the gonadotropin-induced rise in prostanoid production characteristic of preovulatory follicles.     

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.