Early patterning of the mouse embryo -- contributions of sperm and egg

The first cleavage of the fertilised mouse egg divides the zygote into two cells that have a tendency to follow distinguishable fates. One divides first and contributes its progeny predominantly to the embryonic part of the blastocyst, while the other, later dividing cell, contributes mainly to the abembryonic part. We have previously observed that both the plane of this first cleavage and the subsequent order of blastomere division tend to correlate with the position of the fertilisation cone that forms after sperm entry. But does sperm entry contribute to assigning the distinguishable fates to the first two blastomeres or is their fate an intrinsic property of the egg itself? To answer this question we examined the distribution of the progeny of early blastomeres in embryos never penetrated by sperm — parthenogenetic embryos. In contrast to fertilised eggs, we found there is no tendency for the first two parthenogenetic blastomeres to follow different fates. This outcome is independent of whether parthenogenetic eggs are haploid or diploid. Also unlike fertilised eggs, the first 2-cell blastomere to divide in parthenogenetic embryo does not necessarily contribute more cells to the blastocyst. However, even when descendants of the first dividing blastomere do predominate, they show no strong predisposition to occupy the embryonic part. Thus blastomere fate does not appear to be decided by differential cell division alone. Finally, when the cortical cytoplasm at the site of sperm entry is removed, the first cleavage plane no longer tends to divide the embryo into embryonic and abembryonic parts. Together these results indicate that in normal development fertilisation contributes to setting up embryonic patterning, alongside the role of the egg

Pottery from the well and its context. Searching for differences and similarities

In this article the pottery obtained from three wells from the settlement in Kwiatków was analyzed. Compared to other sites associated with the Przeworsk culture, this site deserves a special attention due to the presence of over a hundred of artificial water intakes within excavated area. The method of the vessels production, macro and micromorphology characteristics, the degree of their preservation and the level of deposition inside the features were examined in detail. Most of the pottery fragments should be associated with the Przeworsk culture from the Roman Iron Age, however there was also a small percentage of pottery with Jastorf culture elements. The information obtained allowed to define the context of their discovery and to explain its presence inside the well.In this article the pottery obtained from three wells from the settlement in Kwiatków was analyzed. Compared to other sites associated with the Przeworsk culture, this site deserves a special attention due to the presence of over a hundred of artificial water intakes within excavated area. The method of the vessels production, macro and micromorphology characteristics, the degree of their preservation and the level of deposition inside the features were examined in detail. Most of the pottery fragments should be associated with the Przeworsk culture from the Roman Iron Age, however there was also a small percentage of pottery with Jastorf culture elements. The information obtained allowed to define the context of their discovery and to explain its presence inside the well

Early patterning of the mouse embryo -- contributions of sperm and egg

The first cleavage of the fertilised mouse egg divides the zygote into two cells that have a tendency to follow distinguishable fates. One divides first and contributes its progeny predominantly to the embryonic part of the blastocyst, while the other, later dividing cell, contributes mainly to the abembryonic part. We have previously observed that both the plane of this first cleavage and the subsequent order of blastomere division tend to correlate with the position of the fertilisation cone that forms after sperm entry. But does sperm entry contribute to assigning the distinguishable fates to the first two blastomeres or is their fate an intrinsic property of the egg itself? To answer this question we examined the distribution of the progeny of early blastomeres in embryos never penetrated by sperm — parthenogenetic embryos. In contrast to fertilised eggs, we found there is no tendency for the first two parthenogenetic blastomeres to follow different fates. This outcome is independent of whether parthenogenetic eggs are haploid or diploid. Also unlike fertilised eggs, the first 2-cell blastomere to divide in parthenogenetic embryo does not necessarily contribute more cells to the blastocyst. However, even when descendants of the first dividing blastomere do predominate, they show no strong predisposition to occupy the embryonic part. Thus blastomere fate does not appear to be decided by differential cell division alone. Finally, when the cortical cytoplasm at the site of sperm entry is removed, the first cleavage plane no longer tends to divide the embryo into embryonic and abembryonic parts. Together these results indicate that in normal development fertilisation contributes to setting up embryonic patterning, alongside the role of the egg

Blastomeres arising from the first cleavage division have distinguishable fates in normal mouse development

Two independent studies have recently suggested similar models in which the embryonic and abembryonic parts of the mouse blastocyst become separated already by the first cleavage division. However, no lineage tracing studies carried out so far on early embryos provide the support for such a hypothesis. Thus, to re-examine the fate of blastomeres of the two-cell mouse embryo, we have undertaken lineage tracing studies using a non-perturbing method. We show that two-cell stage blastomeres have a strong tendency to develop into cells that comprise either the embryonic or the abembryonic parts of the blastocyst. Moreover, the two-cell stage blastomere that is first to divide will preferentially contribute its progeny to the embryonic part. Nevertheless, we find that the blastocyst embryonic-abembryonic axis is not perfectly orthogonal to the first cleavage plane, but often shows some angular displacement from it. Consequently, there is a boundary zone adjacent to the interior margin of the blastocoel that is populated by cells derived from both earlier and later dividing blastomeres. The majority of cells that inhabit this boundary region are, however, derived from the later dividing two-cell stage blastomere that contributes predominantly to the abembryonic part of the blastocyst. Thus, at the two-cell stage it is already possible to predict which cell will contribute a greater proportion of its progeny to the abembryonic part of the blastocyst (region including the blastocyst cavity) and which to the embryonic part (region containing the inner cell mass) that will give rise to the embryo proper

Four-cell stage mouse blastomeres have different developmental properties

Blastomeres of the early mouse embryo are thought to be equivalent in their developmental properties at least until the eight-cell stage. However, the experiments that have led to this conclusion could not have taken into account either the spatial origin of individual blastomeres or the spatial allocation and fate of their progeny. We have therefore readdressed this issue having defined cell lineages in mouse embryos undergoing different patterns of cleavage in their second division cycle. This has enabled us to identify a major group of embryos in which we can predict not only the spatial origin of each given four-cell blastomeres, but also which region of the blastocyst is most likely to be occupied by its progeny. We show that a pattern of second cleavage divisions in which a meridional division is followed by one that is equatorial or oblique allows us to identify blastomeres that differ in their fate and in their developmental properties both from each other and from their cousins. We find that one of these four-cell stage blastomeres that inherits some vegetal membrane marked in the previous cleavage cycle tends to contribute to mural trophectoderm. The progeny of its sister tend to donate cells to part of the ICM lining the blastocyst cavity and its associated trophectoderm. Chimaeras made entirely of these equatorially or obliquely derived blastomeres show developmental abnormalities in both late preimplantation and early postimplantation development. By contrast, chimaeras made from four-cell stage blastomeres from early meridional divisions develop normally. The developmental defects of chimaeras made from the most vegetal blastomeres that result from later second cleavages are the most severe and following transplantation into foster mothers they fail to develop to term. However, when such individual four-cell blastomeres are surrounded by blastomeres from random positions, they are able to contribute to all embryonic lineages. In conclusion, this study shows that while all four-cell blastomeres can have full developmental potential, they differ in their individual developmental properties according to their origin in the embryo from as early as the four-cell stage

Polycystic ovary syndrome (PCOS) - risk factor, diagnostic and current treatment

Introduction:  Polycystic ovary syndrome (PCOS) is one of the most common endocrine and metabolic disorders in women in reproductive age, defined as a combination of signs and symptoms resulting from androgen excess and ovarian dysfunction in the absence of other specific diagnoses. PCOS is often associated with an increased risk of obesity, insulin resistance, metabolic disorders and cardiovascular events. The aim of the study: The purpose of this systemic review was to collect and analyze materials about risk factors, diagnostics, and the current treatment of polycystic ovary syndrome.Material and method: Review of the literature published in 2004-2018.Description of the state of knowledge: PCOS is characterized by an excessive secretion of androgens from the ovaries and / or adrenal glands. Intrinsic ovarian factors, such as altered steroidogenesis, and factors external to the ovary, such as hyperinsulinemia, contribute to the ovarian overproduction of androgens. PCOS requires careful selection of an appropriate diagnostic method and therapeutic approach to combat hyperandrogenism, a consequence of ovarian dysfunction and related metabolic disorders. Treatment of both women at risk of PCOS and those with a confirmed diagnosis of PCOS includes education, healthy lifestyle interventions and symptomatic therapeutic interventions.Summary:  PCOS is a complex disorder involving many organs and affecting many body functions. It is important to diagnose this disease as soon as possible in order to implement appropriately selected therapeutic treatment aimed at eliminating disease symptoms and reducing the systemic consequences of hyperandrogenism in patients