Antonin Pavlok

Interplay between CDC2 kinase and MAP kinase pathway during maturation of mammalian oocytes

Two principal kinases, p34cdc2 kinase and MAP kinase play a pivotal role in maturation of mammalian oocytes. In the porcine and bovine oocytes both kinases are activated around the time of germinal vesicle breakdown (GVBD). Butyrolactone I (BL I), a specific inhibitor of cdk kinases, prevents effectively and reversibly resumption of meiosis in the porcine and bovine oocytes. Neither p34cdc2 kinase nor MAP kinase are activated in oocytes inhibited in the GV stage. The bovine oocytes maintained for 48 h in the medium supplemented with BL I, progress subsequently to metaphase II in 91%, their cumuli expand optimally and after in vitro fertilization they possess two pronuclei. When the cdc2 kinase is blocked in the porcine oocytes by BL I, MAP kinase, activated by okadaic acid treatment, is able to substitute cdc2 kinase and induce GVBD. The histone H1 kinase activity sharply decreases in the metaphase II oocytes treated by BL I and one or two female pronuclei are formed. These data indicate that BL I is a useful tool either for the two step in vitro culture of mammalian oocytes or for their activation in nuclear transfer experiments.

Antibody Microarray Analyses of Signal Transduction Protein Expression and Phosphorylation during Porcine Oocyte Maturation

Kinex antibody microarray analyses was used to investigate the regulation of 188 protein kinases, 24 protein phosphatases, and 170 other regulatory proteins during meiotic maturation of immature germinal vesicle (GV+) pig oocytes to maturing oocytes that had completed meiosis I (MI), and fully mature oocytes arrested at metaphase of meiosis II (MII). Increases in apparent protein levels of protein kinases accounted for most of the detected changes during the GV to MI transition, whereas reduced protein kinase levels and increased protein phosphorylation characterized the MI to MII transition. During the MI to MII period, many of the MI-associated increased levels of the proteins and phosphosites were completely or partially reversed. The regulation of these proteins were also examined in parallel during the meiotic maturation of bovine, frog, and sea star oocytes with the Kinex antibody microarray. Western blotting analyses confirmed altered expression levels of Bub1A, IRAK4, MST2, PP4C, and Rsk2, and the phosphorylation site changes in the kinases Erk5 (T218 + Y220), FAK (S722), GSK3-beta (Y216), MEK1 (S217 + S221) and PKR1 (T451), and nucleophosmin/B23 (S4) during pig oocyte maturation.

Frequency of Aneuploidy Related to Age in Porcine Oocytes

It is generally accepted that mammalian oocytes are frequently suffering from chromosome segregation errors during meiosis I, which have severe consequences, including pregnancy loss, developmental disorders and mental retardation. In a search for physiologically more relevant model than rodent oocytes to study this phenomenon, we have employed comparative genomic hybridization (CGH), combined with whole genome amplification (WGA), to study the frequency of aneuploidy in porcine oocytes, including rare cells obtained from aged animals. Using this method, we were able to analyze segregation pattern of each individual chromosome during meiosis I. In contrast to the previous reports where conventional methods, such as chromosome spreads or FISH, were used to estimate frequency of aneuploidy, our results presented here show, that the frequency of this phenomenon was overestimated in porcine oocytes. Surprisingly, despite the results from human and mouse showing an increase in the frequency of aneuploidy with advanced maternal age, our results obtained by the most accurate method currently available for scoring the aneuploidy in oocytes indicated no increase in the frequency of aneuploidy even in oocytes from animals, whose age was close to the life expectancy of the breed.

The extracellular matrix of porcine mature oocytes: Origin, composition and presumptive roles

The extracellular matrix (ECM) of porcine mature oocytes was revealed by transmission electron microscopy (TEM) after treatment with tannic acid and ruthenium red. Present in the perivitelline space (PVS) and on the surface of the zona pellucida (ZP), it appeared to be composed of thin filaments and granules at the interconnections of the filaments, which were interpreted respectively as hyaluronic acid chains and bound proteoglycans. In order to determine whether this material is produced by the corona cells (the same ECM was found also on the surface of the zona pellucida and between cumulus cells) or by the oocyte itself, the synthesis of glycoproteins and glycosaminoglycans was checked by autoradiography on semi-thin and thin sections observed by light and electron microscopy. Immature oocytes within or without cumulus cells, were incubated with L [3H-] fucose or L [3H-] glucosamine – precursors respectively of glycoproteins and hyaluronic acid or hyaluronan (HA) bound to proteoglycans – for various times (with or without chase) and at different stages during in vitro maturation. In the first case, incorporation was found in both cumulus cells and ooplasm (notably in the Golgi area for 3H-fucose) and labeled material accumulated in the ECM of the PVS and of the ZP surface. Labeling in the PVS with both precursors was maximum between metaphase I (MI) and metaphase II (MII) and was partially extracted by hyaluronidase but not by neuraminidase. Tunicamycin, an inhibitor of glycoprotein synthesis, significantly decreased the amount of 3H-fucose labeled molecules in the PVS and increased the incidence of polyspermic penetration during subsequent in vivo fertilization. Since cumulus-free oocytes also secreted 3H-glucosamine containing compounds, both oocyte and cumulus cells probably contribute to the production of the ECM found in the PVS of mature oocytes. ECM and particularly its HA moiety present on both sides of the ZP may constitute a favourable factor for sperm penetration.

Development of Mouse Ova in Explanted Oviducts: Fertilization, Cultivation, and Transplantation

The development of fertilized ova in explanted parts of oviducts was studied from 12 to 36 hours after fertilization, and from 36 to 84 hours after fertilization. No egg mortality during cultivation, nor any slowing of development could be detected in either experiment. It may be presumed that the mortality of mouse ova during the period before implantation has no essential effect on the resulting fertility. During cultivation of oviducts for 144 hours, there occurred in most blastocysts herniation of their walls resulting in a formation similar to the blastocyst, and a migration of a disorganized mass of cells, some of which resembled the giant trophoblastic cells. After transplantation of ova fertilized in vitro to recipients, in four cases there occurred nidation and subsequent normal development of the embryo.

Mitochondrial Metabolism in a Large-Animal Model of Huntington Disease: The Hunt for Biomarkers in the Spermatozoa of Presymptomatic Minipigs

Background: Huntington disease (HD) is a fatal neurodegenerative disorder involving reduced muscle coordination, mental and behavioral changes, and testicular degeneration. In order to further clarify the decreased fertility and penetration ability of the spermatozoa of transgenic HD minipig boars (TgHD), we applied a set of mitochondrial metabolism (MM) parameter measurements to this promising biological material, which can be collected noninvasively in longitudinal studies. Objective: We aimed to optimize methods for MM measurements in spermatozoa and to establish possible biomarkers of HD in TgHD spermatozoa expressing the N-terminal part of mutated human huntingtin. Methods: Semen samples from 12 TgHD and wild-type animals, aged 12-65 months, were obtained repeatedly during the study. Respiration was measured by polarography, MM was assessed by the detection of oxidation of radiolabeled substrates (mitochondrial energy-generating system; MEGS), and the content of the oxidative phosphorylation system subunits was detected by Western blot. Three possibly interfering factors were statistically analyzed: the effect of HD, generation and aging. Results: We found 5 MM parameters which were significantly diminished in TgHD spermatozoa and propose 3 specific MEGS incubations and complex I-dependent respiration as potential biomarkers of HD in TgHD spermatozoa. Conclusions: Our results suggest a link between the gain of toxic function of mutated huntingtin in TgHD spermatozoa and the observed MM and/or glycolytic impairment. We determined 4 biomarkers useful for HD phenotyping and experimental therapy monitoring studies in TgHD minipigs.

C18 The hunt for biomarkers in presymptomatic large animal model: mitochondrial metabolism in spermatozoa of transgenic minipigs modelling huntington’s disease

Background Large-animal minipig transgenic model of Huntington’s disease (HD), carrying N-terminal part of human mutated huntingtin, was developed in Libechov and is expected to resemble to clinical picture of HD patients. Phenotyping of this model started immediately in presymptomatic stage. Despite of ongoing discussion, whether the glycolytic or mitochondrial metabolism (MM) is crucial for sperm ATP production; we decided to use spermatozoa as a promising biological material to assess MM parameters in HD. Aims The aims of this study were: to optimise methods for MM measurement in minipig spermatozoa; to assess its MM and to establish possible biomarkers of HD. Methods Semen samples were obtained repeatedly (12 boars, two generations, aged 12–65 months). Mitochondrial energy generating system (MEGS) capacity was measured by radiolabeled substrates oxidation, respiration by polarography and citrate synthase (CS) by spectrophotometry. Results Three possibly interfering factors were statistically analysed: the effects of HD; generation and ageing. Eight analysed parameters were incident to distinct generation. These parameters were influenced also by the effect of ageing. MEGS incubation with [1–14C] pyruvate+carnitine+ADP was affected significantly by all analysed effects. Four MM parameters were significantly diminished in HD spermatozoa: [U-14C]malate+pyruvate+malonate+ADP (I2) and [1–14C] pyruvate+ADP incubations, I2/CS ratio and complex I-dependent respiration might be considered as biomarkers of HD. Conclusions Used methods are suitable for MM analysis in minipig spermatozoa. Interestingly, spermatozoa can preferentially utilise pyruvate by sperm-specific isoform of lactate dehydrogenase. Our results in pyruvate-containing MEGS-incubations might indicate both MM and glycolytic defect in porcine HD spermatozoa, but further analyses are needed. Support The Project Contract No. MSMT-28477/2014 “HUNTINGTON” 7F14308 and NPU 1609 (MSMT).

Fertilization rate after synchronization of the oestrous cycle in heifers with prostaglandin F2α

Abstract Oestrus was synchronized in 31 heifers by the intrauterine administration of PGF 2 α than salt. Nineteen were given 2 doses of 0.5mg 24 hr apart, and 10 of these received 1500 I.U. of PMSG i.m. 24 hr before the treatment with PGF 2 α. The remaining 12 heifers in the experiment were given a single dose of 2mg followed at the beginning of oestrus by 1500 I.U. of HCG i.m. Of 9 heifers which received only the two doses of 0.5mg (Group 1), 7 were observed to have corpora lutea when slaughtered 56–72 hr after the onset of oestrus, and four fertilized eggs were recovered. In those which received PMSG before the double injection of PGF 2 α(Group 2), 118 corpora lutea were observed at slaughter and 34 fertilized eggs were recovered. Each heifer which received a single injection of PGF 2 α and HCG had a corpus luteum, and 9 fertilized eggs were recovered. Unovulated follicles were most commonly observed in the PMSG-treated heifers but they were also observed in the heifers given the double injection treatment. It was observed that in the two-injection treatments, whether or not given PMSG, time of ovulation relative to the onset of oestrus was variable, and eggs were found in the uterus before the expected time.