Your search keyword '"Miglino M"' showing total 10 results

1. Gene expression in placentation of farm animals: an overview of gene function during development.

Author

Barreto RS, Bressan FF, Oliveira LJ, Pereira FT, Perecin F, Ambrósio CE, Meirelles FV, and Miglino MA

Subjects

Animals, Cattle metabolism, Computational Biology, Female, Humans, Mice, Models, Animal, Oligonucleotide Array Sequence Analysis, Pregnancy, Cattle genetics, Gene Expression Regulation, Developmental, Placentation genetics

Abstract

Eutherian mammals share a common ancestor that evolved into two main placental types, i.e., hemotrophic (e.g., human and mouse) and histiotrophic (e.g., farm animals), which differ in invasiveness. Pregnancies initiated with assisted reproductive techniques (ART) in farm animals are at increased risk of failure; these losses were associated with placental defects, perhaps due to altered gene expression. Developmentally regulated genes in the placenta seem highly phylogenetically conserved, whereas those expressed later in pregnancy are more species-specific. To elucidate differences between hemotrophic and epitheliochorial placentae, gene expression data were compiled from microarray studies of bovine placental tissues at various stages of pregnancy. Moreover, an in silico subtractive library was constructed based on homology of bovine genes to the database of zebrafish - a nonplacental vertebrate. In addition, the list of placental preferentially expressed genes for the human and mouse were collected using bioinformatics tools (Tissue-specific Gene Expression and Regulation [TiGER] - for humans, and tissue-specific genes database (TiSGeD) - for mice and humans). Humans, mice, and cattle shared 93 genes expressed in their placentae. Most of these were related to immune function (based on analysis of gene ontology). Cattle and women shared expression of 23 genes, mostly related to hormonal activity, whereas mice and women shared 16 genes (primarily sexual differentiation and glycoprotein biology). Because the number of genes expressed by the placentae of both cattle and mice were similar (based on cluster analysis), we concluded that both cattle and mice were suitable models to study the biology of the human placenta., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

2. Evaluation of the contribution of the placentomal fusion during gestation in cattle.

Author

Rici RE, Facciotti PR, Maria DA, Fernandes VM, Ambrósio CE, and Miglino MA

Subjects

Animals, Cell Cycle physiology, Cell Proliferation, Extraembryonic Membranes cytology, Extraembryonic Membranes physiology, Female, Flow Cytometry, Placenta anatomy & histology, Placenta cytology, Pregnancy, Uterus physiology, Cattle physiology, Placenta physiology, Pregnancy, Animal physiology

Abstract

The placenta of mammals is a structure formed by the juxtaposition of the fetal membranes and the maternal tissues. The main function of the placenta is to regulate the physiological interchange between the fetus and the mother as well as to operate as an important endocrine organ during the gestation. The placentomal fusions were characterized throughout gestation of cattle using macroscopic, histological and flow cytometry analyses. Analyzing the cell cycle phases with a flow cytometry, a balance between the G2M phase and apoptosis was observed, suggesting that the placentomal fusions do not interfere in the placentary maturation process, which is a pre-requirement for the fetal-maternal disconnection and the release of fetal membrane., (Copyright © 2011 Elsevier B.V. All rights reserved.)

Published

2011

3. Morpho-physical recording of bovine conceptus (Bos indicus) and placenta from days 20 to 70 of pregnancy.

Author

Assis Neto AC, Pereira FT, Santos TC, Ambrosio CE, Leiser R, and Miglino MA

Subjects

Animals, Embryo, Mammalian physiology, Embryonic Development physiology, Female, Fetus physiology, Pregnancy, Cattle embryology, Embryo, Mammalian anatomy & histology, Fetus anatomy & histology, Placenta physiology, Pregnancy, Animal

Abstract

The study is based on 141 pregnant Bos indicus cows, from days 20 to 70 post-insemination. First, special attention was given to the macroscopically observable phenomena of attachment of the conceptus to the uterus, i.e. the implantation, from about days 20 to 30 post-insemination up to day 70, and placentome development by growth, vascularization and increase in the number of cotyledons opposite to the endometrial caruncles. Secondly, as for the conceptuses, semiquantitative, statistical analyses were performed of the lengths of chorio-allantois, amnion and yolk sac; and the different parts of the centre and two extremes of the yolk sacs were also analysed. Thirdly, the embryos/foetuses corresponding to their membranes were measured by their greatest length and by weight, and described by the appearance of external developmental phenomena during the investigated period like neurulation, somites, branchial arcs, brain vesicles, limb buds, C-form, pigmented eye and facial grooves. In conclusion, all the data collected in this study from days 20 to 70 of bovine pregnancy were compared extensively with corresponding data of the literature. This resulted in an 'embryo/foetal age-scale', which has extended the data in the literature by covering the first 8 to 70 days of pregnancy. This age-scale of early bovine intrauterine development provides model for studies, even when using slaughtered cows without distinct knowledge of insemination or fertilization time, through macroscopic techniques. This distinctly facilitates research into the cow, which is now being widely used as 'an experimental animal' for testing new techniques of reproduction like in vitro fertilization, embryo transfer and cloning., (© 2009 Blackwell Verlag GmbH.)

Published

2010

4. Initial development of bovine placentation (Bos indicus) from the point of view of the allantois and amnion.

Author

Assis Neto AC, Santos EC, Pereira FT, and Miglino MA

Subjects

Allantois ultrastructure, Amnion ultrastructure, Animals, Embryonic Development physiology, Female, Placenta ultrastructure, Pregnancy, Allantois growth & development, Amnion growth & development, Cattle embryology, Cattle physiology, Placentation, Pregnancy, Animal physiology

Abstract

The aim of this study was to perform a morphological characterization of the initial bovine placental development, between 20 and 70 days post-insemination (p.i.), with emphasis on the differentiation of the allantois and amnion. After collection, the conceptuses were dissected, macroscopically measured and photographically documented. The extraembryonic membranes were cut into fragments measuring 5 cm(2), and then fixed in 4% paraformaldehyde for analysis using light microscopy, and in 2.5% glutaraldehyde for use in scanning and transmission electron microscopy. The extraembryonic and fetal membranes presented variable degrees of development throughout the periods analysed. The macroscopic appearance of vascularization of the allantois, its attempt to merge with the chorium and the effective appearance of the first cotyledons in development were the events observed from 30 to 40 days of pregnancy. The measurements of the amnion increased gradually as gestation developed. The allantoic epithelia presented cellular dimorphism from 20 to 25 days of pregnancy, but was shown to be immature from 60 to 70 days of pregnancy.

Published

2009

5. Bovine meroanencephaly and gastroschisis: a macro and microscopic study.

Author

Alberto ML, Trujillo HA, Riveros AC, Lima EB, Miglino MA, and Santos JM

Subjects

Anencephaly ultrastructure, Animals, Female, Gastroschisis ultrastructure, Pregnancy, Anencephaly veterinary, Cattle abnormalities, Cattle embryology, Gastroschisis veterinary

Abstract

Congenital malformations correspond to one of the main causes of embryonic loss during the gestational process. They result from interaction of several factors such as multifactor heredity, chromosomal and genetic alterations and environmental agents; however, unknown aetiology also can be present. In this article, we have used 10 embryos, from a frigorific area of Dracena, SP, Brazil, which were fixed in Bouin solution for a macro- and micro-scopic description. We could verify the presence of an encephalic tissue mass on the embryo's dorsal cranial area, resulting from the non-formation of part of the cranial cap and from the non-closing of cephalic neuropore and consequent neuroepithelial cells disorganization. In the abdominal area, the embryos did not show the complete fusion of the body lateral pleats during the abdominal wall formation, and the liver extruded into the amniotic cavity without involvement of the intestine.

Published

2008

6. Placentation in cloned cattle: structure and microvascular architecture.

Author

Miglino MA, Pereira FT, Visintin JA, Garcia JM, Meirelles FV, Rumpf R, Ambrósio CE, Papa PC, Santos TC, Carvalho AF, Leiser R, and Carter AM

Subjects

Animals, Cloning, Organism methods, Extraembryonic Membranes ultrastructure, Female, Male, Microscopy, Electron, Scanning veterinary, Pregnancy, Umbilical Cord anatomy & histology, Umbilical Cord ultrastructure, Cattle physiology, Cloning, Organism veterinary, Nuclear Transfer Techniques veterinary, Placenta blood supply, Placenta ultrastructure, Placentation physiology

Abstract

To elucidate the morphological differences between placentas from normal and cloned cattle pregnancies reaching term, the umbilical cord, placentomes and interplacentomal region of the fetal membranes were examined macroscopically as well as by light and scanning electron microscopy. In pregnancies established by somatic nucleus transfer (NT), the umbilical cord and fetal membranes were edematous. Placentomal fusion was common, resulting in increased size and a decreased number of placentomes. Extensive areas of the chorioallantoic membrane were devoid of placentomes. An increased number of functional or accessory microcotyledons (<1 cm) were present at the maternally oriented surface of fetal membranes. Extensive areas of extravasated maternal blood were present within the placentomes and in the interplacentomal region. The crypts on the caruncular surface were dilated and accommodated complexes of more than one primary villus, as opposed to a single villus in non-cloned placentae. Scanning electron microscopy of blood vessel casts revealed that there was also more than one stem artery per villous tree and that the ramification of the vessels failed to form dense complexes of capillary loops and sinusoidal dilations as in normal pregnancies. At the materno-fetal interface, however, the trophoblast and uterine epithelium had normal histology. In conclusion, the NT placentas had a range of pathomorphological changes; this was likely associated with the poor clinical outcome of NT pregnancies.

Published

2007

7. Culture of mature trophoblastic giant cells from bovine placentomes.

Author

Landim LP Jr, Miglino MA, Pfarrer C, Ambrosio CE, and Garcia JM

Subjects

Animals, Cell Separation, Cell Survival, Female, Giant Cells cytology, Pregnancy, Cattle, Cell Culture Techniques, Trophoblasts cytology

Abstract

The mostly binucleate trophoblast giant cells (TGC) found in bovine placentomes, in addition to synthesizing and releasing hormones play an important role in fetal development and maternal adaptation to pregnancy. Placentomes from early gestation were collected, and for isolation of mature TGC, three cellular disaggregation methods, mechanical (MECH), enzymatic by trypsin (TRYP) or collagenase (COLL) were compared to each other. Further on, the cell survival in culture medium (DMEM) supplemented with either 10% fetal calf serum (FCS) or 10% serum replacement (SR) on culture plates free of any substrate was evaluated over a period of 90 days by trypan blue exclusion. The cells were further characterized by HOECHST 33342 nuclear staining, and immunocytochemical staining with monoclonal antibodies against vimentin and cytokeratin. A mean total rate of TGC survival of 82.56% was recorded. Statistical analysis showed significantly higher survival rates after enzymatic disaggregation with COLL (86.23%) than following MECH (80.38%) or TRYP (80.91%) treatment. Supplementation of DMEM with FCS resulted in significantly higher cellular survival rates (87.13%) when compared to the addition of SR (77.73%). Analysis of the influence of both, disaggregation method and medium supplementation on TGC survival revealed statistically significant differences between the following groups: MECH-SR (71.09%) was significantly lower than all other groups; TRYP-SR (78.03%) was significantly different from all other groups; TRYP-FCS (83.43%) and COLL-SR (84.08%) were significantly lower than MECH-FCS (89.98%) which together with COLL-FCS (88.25%) showed the highest cellular survival rate. In summary, our results show that TGC isolated from early gestation placentomes may be viable for more than 90 days of culture. However, whether these TGC produce placental lactogen throughout this period has yet to be determined.

Published

2007

8. The three-dimensional feto-maternal vascular interrelationship during early bovine placental development: a scanning electron microscopical study.

Author

Pfarrer C, Ebert B, Miglino MA, Klisch K, and Leiser R

Subjects

Animals, Arteries anatomy & histology, Capillaries anatomy & histology, Corrosion Casting, Female, Gestational Age, Microscopy, Electron, Scanning, Pregnancy, Veins anatomy & histology, Cattle physiology, Endometrium blood supply, Extraembryonic Membranes blood supply, Fetus blood supply, Placenta blood supply

Abstract

Both the fetal and maternal microvasculature of bovine placentomes was examined by scanning electron microscopy of vascular casts. So far the development of the vascular architecture of the bovine placentome in early gestation has only been studied 2-dimensionally due to technical difficulties arising from the fragility of the early placental blood vessels. Repeated experiments led to the selection of the microvascular corrosion casts presented here. The vasculature of the maternal compartment is supplied by large caruncular stalk or spiral arteries, which release short maternal stem arteries. In the 3rd month of gestation, these arteries branch into several arterioles at their base, thus providing the vascular framework for the lower part of the septal walls of the primary crypts. In the 4th month, due to progressive longitudinal growth of the stem arteries, branching into arterioles occurs not only at the base, but over the whole length of the stem arteries. These arterioles supply the capillary complexes of the septa which resemble the major part of the septal vasculature and face the secondary crypts. Further indentation results in the formation of tertiary crypt capillary complexes, encircling the earlier secondary unit. From the 6th month of gestation the architecture resembles the fully developed maternal placenta with stem arteries running directly to the fetal side to branch into 4 to 6 arterioles, which turn back to enter secondary and tertiary septa. Maternal venules, collecting the blood from the capillary bed of secondary and tertiary septa, converge onto stem veins leaving the caruncle via branches of the uterine vein. The fetal part of the placentome is supplied by the cotyledonary arteries, which branch into fetal stem arteries that are the tributary to single villous trees. Over their whole course towards the maternal side, these give off arterioles entering secondary villi. The tertiary or terminal villous vasculature consists of capillaries, which are organised in serial capillary loops. This system is progressively elaborated in the course of gestation. In the 4th month there are only finger-like loops, whereas from the 6th month large fan-like structures can be observed. In early gestation the maternal and fetal blood vessels meet predominantly in a countercurrent fashion, changing to the less efficient crosscurrent exchange when the tertiary unit develops. These results indicate the development of a highly elaborated fetomaternal villous-crypt exchange system, already established in the 1st half of gestation, thus meeting the increasing needs of the fetus.

Published

2001

9. Vasculature of bovine placentas studied by scanning electron microscopy of corrosion casts.

Author

Miglino MA and DiDio LJ

Subjects

Animals, Cattle embryology, Corrosion Casting, Female, Microscopy, Electron, Scanning, Pregnancy, Umbilical Arteries ultrastructure, Umbilical Veins ultrastructure, Cattle anatomy & histology, Placenta blood supply

Abstract

Corrosion casts, obtained after injection of Tensol or Mercox, from 10 placentas of Holstein breed cows, were studied. The investigation was performed in fetal cotyledons, which are attached to uterine caruncles to form units, called placentons. Arteries and veins form, together, vascular cylinders, with the venous half cartridge partially surrounding the arterial one. The morphological differences between arterioles and venules concern the type of distribution, branching, surface (nuclei, oblique folds, anular narrowings).

Published

1992

10. Morphometric developmental pattern of bovine handmade cloned concepti in late pregnancy.

Author

Gerger, R. P. C., Zago, F. C., Ribeiro, E. S., Neto, S. Gaudencio, Martins, L. T., Aguiar, L. H., Rodrigues, V. H. V., Furlan, F. H., Ortigari Jr., I., Sainz, R. D., Ferrell, C. L., Miglino, M. A., Ambrósio, C. E., Rodrigues, J. L., Rossetto, R., Forell, F., Bertolini, L. R., and Bertolini, M.

Subjects

MORPHOMETRICS, EMBRYO transfer, TRANSPLANTATION of cell nuclei, CATTLE cloning, FERTILIZATION in vitro

Abstract

Cloning procedures often interfere with conceptus growth and life ex utero, in a set of symptoms known as abnormal offspring syndrome (AOS). The aim of the present study was to compare the developmental pattern of in vivoderived (IVD), IVF-derived and handmade cloning-derived (NT-HMC) Day 225 bovine concepti using established procedures. Pregnancy diagnosis was performed on Day 30 following blastocyst transfer on Day 7. Conceptus morphometry was assessed by ultrasonography on Day 51, and on Day 225 pregnant cows were killed for morphological examination of concepti. Pregnancy outcome was similar between groups, with greater pregnancy losses in the first trimester (70.6%) and smaller fetuses on Day 51 in the NT-HMC group than in the IVD (14.3%) and IVF (20.0%) groups. However, NT-HMC-derived concepti were twofold larger on Day 225 of gestation than controls. A higher frequency (63.5%) of placentomes larger than the largest in the IVD group was observed in the NT-HMC group, which may be relevant to placental function. Conceptus traits in the IVF group were similar to the IVD controls, with only slight changes in placentome types. Morphological changes in cloned concepti likely affected placental function and metabolism, disrupting the placental constraining mechanism on fetal growth in mid- to late pregnancy. [ABSTRACT FROM AUTHOR]

Published

2017