Emilia Pers-Kamczyc

Cross-talk between singlet oxygen- and hydrogen peroxide-dependent signaling of stress responses in Arabidopsis thaliana

Upon a dark-to-light shift, the conditional fluorescent (flu) mutant of Arabidopsis releases singlet oxygen (1O2) within the plastid compartment. Distinct sets of nuclear genes are activated that are different from those induced by superoxide (O2•−) and/or hydrogen peroxide (H2O2), suggesting that different types of reactive oxygen species activate distinct signaling pathways. It is not known whether the pathways operate separately or interact with each other. We have addressed this problem by modulating noninvasively the level of H2O2 in plastids by means of a transgenic line that overexpresses the thylakoid-bound ascorbate peroxidase (tAPX). The overexpression of the H2O2-specific scavenger reduced strongly the activation of nuclear genes in plants treated with the herbicide paraquat that in the light leads to the enhanced generation of O2•− and H2O2. In the flu mutant overexpressing tAPX, the intensity of 1O2-mediated cell death and growth inhibition was increased when compared with the flu parental line. Also, the expression of most of the nuclear genes that were rapidly activated after the release of 1O2 was significantly higher in flu plants overexpressing tAPX, whereas in wild-type plants, overexpression of tAPX did not lead to visible stress responses and had only a very minor impact on nuclear gene expression. The results suggest that H2O2 antagonizes the 1O2-mediated signaling of stress responses as seen in the flu mutant. This cross-talk between H2O2- and 1O2-dependent signaling pathways might contribute to the overall stability and robustness of wild-type plants exposed to adverse environmental stress conditions.

Timing of the first zygotic cleavage as a marker of developmental potential of mammalian embryos.

Embryo quality related to its developmental potential is now one of the most important issues in modern embryology. It has been demonstrated that some in vitro produced blastocysts fail to hatch and implant after transfer despite a normal morphology. Although embryos are able to adjust to sub-optimal culture conditions, significant changes in expression profiles of developmentally important genes have been noticed. Timing of the first zygotic cleavage is considered a non-invasive marker of embryo developmental potential and has been successfully used in human IVF programs for identifying embryos of superior quality. Early-cleaving zygotes are more likely to develop to the blastocyst stage than their late-cleaving counterparts. The timing of the first zygotic cleavage has been associated with several parameters that may affect developmental potential of the resulting embryos. The mechanism causing variation in the timing of the first zygotic cleavage has not been identified. It may be related to culture environment or to some intrinsic factors within the oocyte, the sperm or both. In this paper we discuss some of the important aspects related to the timing of the first zygotic cleavage and its influence on the developmental competence of resulting embryos.

Camelina sativa cake improved unsaturated fatty acids in ewe's milk

BACKGROUND Camelina sativa cake (CSC), a rich source of unsaturated fatty acids, in the case of ruminants, may improve the energy value of a diet and also increase the unsaturated fatty acid content in milk. Effects of basal diet (control), basal diet plus 30 g kg(-1) of CSC in dietary dry matter (DM), basal diet plus 60 g kg(-1) of CSC in dietary dry matter on milk production and the fatty acid composition of ewes milk with particular emphasis on the monoenes and conjugated isomers of linoleic acid content were examined. RESULTS Elevated concentration of total monounsaturated fatty acids, the effect of an increase in monounsaturated fatty acids in the trans configuration, as well as the increased content of total polyunsaturated fatty acids, resulted from CSC supplementation. Total saturated fatty acid concentration was decreased. CONCLUSION Milk from CSC-supplemented ewes was characterized by increased levels of beneficial nutritional factors, including mono- and n-3 polyunsaturated fatty acids, and was also by lower atherogenic and thrombogenic indices. Taking into consideration all the obtained results and recommended fat concentrations in a daily ruminant ration, we recommend supplementing a dairy ewes diet with 30 g kg(-1) DM of CSC cake in practice.

Disturbances of nuclear maturation in BCB positive oocytes collected from peri-pubertal gilts

The developmental competence (quality) of oocytes is affected by several factors linked to their intrinsic properties and also to growth and maturation environment. Donor puberty and chromosomal complement are one of the main factors influencing oocyte quality. A high rate of porcine oocytes matured in vitro is chromosomally imbalanced. Moreover, there is no published data on chromosomal aberrations in oocytes selected by the brilliant cresyl blue (BCB) test. Therefore, the aim of this study was to analyze whether BCB positive (BCB+) oocytes derived from ovaries of peripubertal gilts (prepubertal NCL and cyclic CL) differ with respect to the incidence of numerical chromosome aberrations. COCs collected from NCL and CL ovaries were selected by the BCB test. Only BCB+ oocytes were matured in vitro and subjected to FISH analysis using molecular probes for chromosome pairs 1 and 10. The rate of BCB+ oocytes was similar for both groups of ovaries (NCL 80%, CL 92%). Altogether 554 oocytes were fixed and 471 oocytes at the MII stage were analyzed cytogenetically. Diploid (2MII) and aneuploid oocytes were detected. The contribution of MII oocytes was similar for NCL (85%) and CL (90%) group. Chromosomally aberrant BCB+ oocytes accounted for 18.0% and ranged from 13.7% for CL and 22.2% for NCL ovaries. Diploidy was a predominant anomaly observed (11.2%) with a significantly higher frequency in BCB+ oocytes of pre-pubertal (16.7%) than cyclic gilts (5.6%, P < 0.05). Aneuploid oocytes occurred with similar rate in NCL (6.7%) and CL (8.5%) females. The majority of aneuploid spreads (72.2%; P < 0.01) concerned the chromosome pair 10. The overall rate of disomy (56%) and nullisomy (44.4%) was similar. We have shown that donor puberty affects the incidence of chromosomal abnormalities in porcine oocytes matured in vitro. Significantly more diploid oocytes was derived from prepubertal ovaries, whereas the frequency of aneuploidy was similar in NCL and CL gilts.

The quality of porcine oocytes is affected by sexual maturity of the donor gilt

Although differences in the quality of oocytes derived from young gilts and adult sows are well documented, evidence concerning gametes of pre-pubertal and cycling gilts is scarce and inconsistent. The aim of this work was to establish whether sexual maturity of gilts affects the quality of their oocytes with the use of the brilliant cresyl blue (BCB) test, oocyte diameter and apoptosis. Ovarian morphology was evaluated, and gonads with corpus luteum or albicans were recognized as originating form cycling gilts (C) and those with follicles as originating form pre-pubertal females (P). Altogether 952 cumulus-oocyte complexes (COCs; group P: 554; group C: 398) were examined, whereas 149 COCs, not subjected to BCB test, served as a control for TUNEL. COCs of proper morphology were evaluated by the BCB test which differentiated two categories of gametes: more competent, BCB+, and less competent BCB- oocytes. The control group comprised oocytes of proper morphology aspirated from ovaries of P and C gilts not subjected to BCB test. Finally five groups of COCs were matured in vitro: 1/P-BCB+, 2/P-BCB-, 3/C-BCB+, 4/ C-BCB- and 5/ control. Significantly more large oocytes (≥ 120 µm), more BCB+ oocytes and more high quality (both BCB+ and ≥ 120 µm) oocytes originated from ovaries of cycling gilts than pre-pubertal gilts (p<0.001). The rate of mature oocytes at the MII stage differed significantly between C-BCB+ (68.5%) and P-BCB+ (32.9%) oocytes. The incidence of apoptosis among BCB-treated oocytes after in vitro maturation was 21.4% and was similar to that observed in control oocytes (17.4%). BCB+ oocytes from cycling gilts showed significantly higher (28.7%) incidence of apoptosis than that of the group P (16.2%). Interestingly, high quality oocytes displayed a similar level of apoptosis regardless of the donor puberty. We demonstrated that C gilts provided more BCB+ oocytes as well as more large oocytes than P gilts, although C-BCB+ oocytes showed higher apoptotic rate. In conclusion, high incidence of apoptosis and a big variation in the diameter of more competent BCB+ oocytes make the BCB test a less effective selection tool than previously reported.

Rumen antimethanogenic effect of Saponaria officinalis L. phytochemicals in vitro

Although the effect of saponins or saponin-containing plants on rumen microorganisms and rumen fermentation has been intensively investigated, this issue still requires special attention. Many of the phenomena occurring in the rumen related to dietary saponin supplementation are still not fully understood. Saponaria officinalis is a triterpenoid saponin-containing plant; thus, the aim of the present study was to evaluate the effect of S. officinalis L. powdered root, methanolic extract of the S. officinalis root (SOR) and the effect of the separated fractions (polysaccharides, saponins and phenolics) of S. officinalis on rumen methanogenesis, microbial population and rumen fermentation characteristics in an in vitro batch culture fermentation system. The powdered root (raw plant material) and S. officinalis extract (SOE) decreased in vitro methane production and consequently reduced the microbial population in a dose-dependent manner. The inhibition of methanogenesis was accompanied by changes in the volatile fatty acids profile. In vitro dry matter digestibility was not affected by any of the secondary compounds applied. The highest applied doses of SOE caused a higher reduction in methanogenesis (33·5 v . 14·4%) than the highest doses of powdered root form. Such results suggest that the basic components of the SOR could interact with phytochemicals or that the phytochemicals became physically less available for microbiota, resulting in a decreased antimethanogenic activity of the powdered root v . the extract. Among all the fractions selected, the saponin fraction exerted the greatest impact on ruminal fermentation. In conclusion, saponins decreased methane production by 29% in comparison with the control. This decrease was related to the reduction in protozoa and methanogen counts. It is proposed that S. officinalis has the potential to inhibit rumen methanogenesis without affecting rumen fermentation adversely.

Apoptotic index within cumulus cells is a questionable marker of meiotic competence of bovine oocytes matured in vitro

Information gained from most human studies indicate a negative correlation between the apoptotic index (AI) in cumulus cells (CC) and the quality of the corresponding oocytes. However, results obtained in other species are not so consistent. The rate of apoptosis-free COCs (cumulus oocytes complexes) subjected to IVM (in vitro maturation) also varies among studies. The aim of the present study was to investigate whether the AI in cumulus cells of post-IVM COCs is related to the morphology of pre-IVM COCs and to meiotic competence of bovine oocytes. COCs of known morphology (four grade scale) obtained from individual follicles were matured in a well-in-drop system. After IVM, the external layers of CC of each COC were analyzed by TUNEL. In order to determine the meiotic stage, oocytes were stained with DAPI. It was found that 25.6% of bovine COCs contained apoptosis-free cumulus cells. Moreover, the majority of COCs with apoptotic cells were characterized by apoptotic index lower than 15%. The level of apoptosis in CC was related neither to COC morphology nor to the oocyte meiotic stage. It is suggested that the extent of apoptosis in cumulus cells is not a reliable quality marker of the corresponding oocyte after IVM.

Preliminary in vitro study on the effect of xanthohumol on rumen methanogenesis

There is a great interest in reducing the methane emission from ruminants as one possible cause of global warming. The aim of the presented study was to determine the effects of xanthohumol, one of the hop (Humulus lupulus) phytofactors, on methane production, microbial population and basic parameters of ruminal fermentation. The experiment was carried out in a batch culture system. The basic substrate (400 mg) consisting of meadow hay and barley meal (60:40) was supplemented with 0 (Control), 0.1, 0.2 or 1.0 mg of xanthohumol. The basic parameters of rumen fermentation and composition of microbial population were measured after 24 h of incubation. For the first time, the results of this in vitro study have demonstrated that xanthohumol is capable to reduce the methane production, even at the lowest dose applied (0.1 mg/400 mg). The observed reduction in methane production by 12–13% was not accompanied by altering the basic rumen fermentation parameters. However, the practical utility of this supplement needs further investigation under long-term invivo conditions.

Growth hormone exerts no effect on the timing of the first zygotic cleavage in cattle

Most of the protocols used for oocyte and embryo quality assessments are invasive and thus reduce embryo viability. Special interest has recently been placed on a search for non-invasive markers related to embryo quality. The characteristics of a non-invasive marker are met by the timing of the first zygotic cleavage (FZC). Therefore, the aim of the present study was to investigate whether growth hormone added to IVM medium influences the timing of the FZC in cattle and also the quality of resulting blastocysts. The novelty of this manuscript concerns two findings: 1) no effect of GH supplementation to IVM medium on the timing of the first zygotic cleavage in cattle, and 2) differences in the relative transcript abundance in bovine day 7.5 blastocysts derived from early and late cleaved zygotes. Cumulus-oocyte complexes aspirated from slaughterhouse ovaries were matured in TCM199 medium supplemented with growth hormone (GH+ 100 ng/ml, GH- control), inseminated, and cultured in sequential media for 7.5 d. Embryo selection was done at 30 hpi (early cleavers EC) and 48 hpi (non-early cleavers NEC). The blastocyst quality was assessed by the total and ICM:TE cell counts, dead cell index, and relative transcript abundance (RA) of five genes affecting embryo development (p66(shc), bax, bcl-2, survivin, Hsp 70.1). The results of this study showed that although GH added to the IVM medium significantly improved the quality of blastocysts on day 7.5 pi, it had no effect on the timing of the first zygotic cleavage expressed by the rate of EC zygotes. The quality of the four categories of blastocysts investigated in this study can be ranked as follows: GH+ EC, followed by GH+ NEC, and further by the GH- EC and GH- NEC embryos. It has to be mentioned, however that the quality of blastocysts derived from the NEC zygotes was significantly improved by the GH supplementation. This is particularly relevant, since those blastocysts were very few and usually characterized by an impaired morphology (e.g., presence of fragmented blastomeres, smaller size).

Effects of Two Sources of Tannins (Quercus L. and Vaccinium Vitis Idaea L.) on Rumen Microbial Fermentation: an in Vitro Study

The aim of the experiment was to determine the effect of different sources of tannins on the in vitro rumen fermentation with focus on methane production. In the experiment, a rumen simulation system (RUSITEC) equipped with 4 fermenters (1 L) was used in three replicated runs (6 d of adaptation and 4 d of sampling) to study the effects of Quercus cortex extract (QC), Vaccinium vitis idaea (VVI) dried leaf extract and a mixture of VVI/QC on rumen microbial fermentation. Fermenters were fed 10.9 g/d of dry matter (DM) of a 600:400 forage:concentrate diet. Treatments were control, QC (2.725 mL), VVI leaves 0.080 g) and mixture of QC/VVI (1.362 mL+0.040 g) and were randomly assigned to fermenters within periods. The equivalent of 2.5 g of tannins/kg dietary DM from three sources of tannins was evaluated. All tannin sources decreased CH4 and ammonia concentrations, as well as protozoa and methanogen counts (P<0.001). Vaccinium vitis idaea and QC/VVI tended (P=0.005) to reduce the acetate to propionate ratio. There were no changes in nutrient digestion. Results suggest that these sources of tannins, especially VVI have the potential to reduce rumen CH4 production and ammonia concentration without negative effects on in vitro DM digestibility, total volatile fatty acids and pH.