Your search keyword '"Paolucci M"' showing total 7 results

1. Changes in ovarian follicles and in vitro sex hormone release in the lizardPodarcis sicula sicula

Author

M. M. Di Fiore, Gaetano Ciarcia, Marina Paolucci, Ciarcia, G., Paolucci, M., and DI FIORE, Maria Maddalena

Subjects

Ovulation, medicine.medical_specialty, medicine.drug_class, Ovary, Vitellogenin, In Vitro Techniques, Follicle, Ovarian Follicle, Internal medicine, Genetics, medicine, Animals, Ovarian follicle, Gonadal Steroid Hormones, Steroid, Progesterone, Estradiol, biology, fungi, Lizards, Cell Biology, Perfusion, Endocrinology, medicine.anatomical_structure, Sex steroid, Estrogen, 17β‐estradiol, biology.protein, Oviduct, Female, Folliculogenesis, Developmental Biology

Abstract

An in vitro superfusion method was used to test sex hormone release from different kinds of ovarian follicle (growing follicles, postovulatory follicles, and atretic follicles) in the lizard Podarcis sicula sicula. Sex hormone output changes with the stage of follicle evolution and sexual cycle. Previtellogenetic follicles prevail in early‐spring quiescent ovaries and secrete mainly progesterone, which is probably utilized at that phase to delay ovarian resumption. In the active ovary, progesterone output from previtellogenetic follicles decreases, whereas vitellogenetic follicles produce a significant amount of 17β‐estradiol, which is necessary for sustaining vitellogenin synthesis by the liver and oviduct growth. As follicles become ripe, progesterone production is resumed, and it increases in young postovulatory follicles. This is in line with the functions assigned to the hormone at that phase of the sexual cycle, i.e., the induction of oocyte maturation and the regulation of egg retention in the oviduct. Postovulatory follicles can also synthetize 17β‐estradiol. After oviposition, this hormone, which is secreted by the old postovulatory follicles, can reinitiate vitellogenin synthesis, allowing the development of a new oocyte set. Our data confirm that active, although ephemeral, corpora lutea are also formed in oviparous species. A limited contribution to ovarian sex steroid production derives also from atretic follicles, at least at the early stages of the breeding cycle. © 1993 Wiley‐Liss, Inc. Copyright © 1993 Wiley‐Liss, Inc.

Published

1993

2. Mifepristone affects fertility and development in the sea urchin Paracentrotus lividus.

Author

Fabbrocini A, Coccia E, D'Adamo R, Faggio C, and Paolucci M

Subjects

Animals, Embryo, Nonmammalian drug effects, Female, Male, Ovum drug effects, Paracentrotus embryology, Paracentrotus growth & development, Paracentrotus physiology, Receptors, Progesterone metabolism, Reproduction drug effects, Sperm Motility drug effects, Spermatozoa drug effects, Fertility drug effects, Mifepristone toxicity, Paracentrotus drug effects

Abstract

Drugs such as oral contraceptives and hormone replacement therapies are known to find their way into rivers, lakes and seas, and have the potential to affect reproduction and development of the wildlife. The knowledge of the reproductive mechanisms and their regulation in aquatic species is of fundamental importance for predicting and preventing the damage by the increasing release of such chemicals in the environment. Mifepristone, a synthetic steroid used as a drug for chemical abortion, works by blocking the effects of progesterone. Its presence in fresh and salt water has been reported, representing a danger for aquatic species. In this frame, we evaluated in both acute and chronic exposures, the effects of mifepristone on the reproductive performance of the sea urchin P. lividus. In both acute and chronic exposures, mifepristone did not affect the histological structure of the gonads. However, mifepristone administered to females caused the decrease of the percentage of normal developed plutei larvae compared with the control, whereas it did not alter sperm motility parameters and fertilization success in males. The immunohistological localization of progesterone receptor-like immunoreactivity on the plasma membrane of oocytes and ova and the molecular weight of a progesterone receptor-like immunoband identified by western blotting, are in agreement with a membrane progesterone receptor deducted from the genome sequence of the sea urchin Strongylocentrotus purpuratus and suggest that in P. lividus mifepristone actions may be mediated by a progesterone receptor., (© 2019 Wiley Periodicals, Inc.)

Published

2019

3. Immunological evidence for progesterone and estradiol receptors in the freshwater crayfish Austropotamobius pallipes.

Author

Paolucci M, Di Cristo C, and Di Cosmo A

Subjects

Animals, Blotting, Western, Female, Immunoenzyme Techniques, Liver chemistry, Male, Organ Specificity, Ovary chemistry, Pancreas chemistry, Astacoidea chemistry, Receptors, Estradiol analysis, Receptors, Progesterone analysis

Abstract

In this article, we present evidence for progesterone and estradiol receptors (PR and ER, respectively) in the female of the crayfish Austropotamobius pallipes. To our knowledge, this is the first report of sex steroid receptors in crustaceans. By using immunohistochemistry and Western blotting approaches and employing three different antibodies against PR (human PR, chicken PR-hinge region, and chicken PR A/B domain) and antibodies against human ER, we showed the presence of PR in the ovary and hepatopancreas and ER in the hepatopancreas of the freshwater crayfish A. pallipes. The immunological characteristics and the tissue localization suggest a relatedness with both PR and ER in vertebrates along with their involvement in the modulation of reproductive functions in this crustaceans., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

4. A estradiol-17beta receptor in the reproductive system of the female of Octopus vulgaris: characterization and immunolocalization.

Author

Di Cosmo A, Di Cristo C, and Paolucci M

Subjects

Animals, Blotting, Western, Chromatography, Affinity, DNA, Female, Immunohistochemistry, Oocytes metabolism, Organ Specificity, Receptors, Estradiol immunology, Sensitivity and Specificity, Cellulose analogs & derivatives, Estradiol metabolism, Octopodiformes metabolism, Ovary metabolism, Oviducts metabolism, Receptors, Estradiol metabolism

Abstract

In this study, for the first time we have identified an estradiol-17beta receptor (ER) in the reproductive system of the female of Octopus vulgaris. Scatchard analysis revealed that one binding component with high affinity and low capacity for the ligand was present in the cytosol, but not in the nuclear extract of the ovary and the oviduct. A steroid specificity competition assay showed that 3H-estradiol-17beta binding activity showed a preference for estradiol-17beta. DNA-cellulose chromatography confirmed the presence of one 3H-estradiol-17beta binding component. By using antibodies anti ER (578-595), we have localized by Western blotting one band of about 70 kDa. ER immunoreactivity has been localized in the nuclei of the follicle cells of the ovary, in the nuclei of the epithelium lining the proximal portion of the oviduct and in the nuclei, and in the cytoplasm of the inner region of the oviducal gland and in the cytoplasm of the outer region of the oviducal gland. These data, taken together, provide evidence that in Octopus vulgaris the ER has biochemical and immunohistochemical characteristics resembling those of ER in vertebrates., (Copyright 2002 Wiley-Liss, Inc.)

Published

2002

5. Progesterone receptor in the reproductive system of the female of Octopus vulgaris: characterization and immunolocalization.

Author

Di Cosmo A, Paolucci M, Di Cristo C, Botte V, and Ciarcia G

Subjects

Animals, Female, Fluorescent Antibody Technique, Indirect, Octopodiformes chemistry, Ovary chemistry, Oviducts chemistry, Receptors, Progesterone analysis

Abstract

In this study for the first time we have characterized a progesterone receptor in the reproductive system of the female of Octopus vulgaris. Scatchard analysis revealed that one binding component with high affinity and low capacity for the ligand was present only in the nuclear extract. Competition experiments showed that the progesterone receptor was strictly specific for progesterone. DNA-cellulose binding and DEAE-Sephacel both confirmed the presence of one 3H-progesterone binding component which eluted at a salt concentration of 0.14 +/- 0.05 M NaCl and 0.15 +/- 0.05 M NaCl respectively. By using monoclonal antibodies against chicken progesterone receptor (subunits A and B), we have localized on Western Blot one band of about 70 kDa. Immunoreactivity for progesterone binding molecules has been localized in the nuclei of the follicle cells of the ovary, of the proximal portion of the oviduct and of the outer region of the nidimental gland. These data, taken together, provide evidence that in Octopus vulgaris the progesterone receptor has biochemical and immunohistochemical characteristics resembling those of progesterone receptor in vertebrates.

Published

1998

6. In vitro effects of beta-endorphin on testicular release of androgens in the lizard Podarcis sicula Raf.

Author

Ciarcia G, Cardone A, Paolucci M, and Botte V

Subjects

Animals, In Vitro Techniques, Lizards, Male, Pituitary Gland metabolism, Testis drug effects, Androgens biosynthesis, Naloxone pharmacology, Narcotic Antagonists pharmacology, Narcotics pharmacology, Testis metabolism, beta-Endorphin pharmacology

Abstract

The effects of the proopiomelanocortin-derived opioid peptide, beta-endorphin (beta-EP), and of the opioid antagonist, naloxone (NAL), on both basal and pituitary-stimulated androgen secretion from superfused quiescent and active testes were assessed in the adult lizard, Podarcis sicula. In the absence of the homologous pituitary, in vitro treatment with beta-EP and/or NAL did not affect basal secretion of androgens from quiescent and active testes. Conversely, in the presence of the homologous pituitary, treatment with beta-EP brought about a decrease in androgen secretion in active testes, but no effect on quiescent ones. Naloxone counteracted the inhibitor effect of beta-EP in active testes, and enhanced maximal pituitary-stimulated secretion of androgens in quiescent but not in active testes. The effects produces by beta-endorphin and naloxone were reversible. These results suggest that, in this lizard, opioids might be involved in the control of androgen release. The lack of effect of beta-EP and naloxone when added directly to the testes seems to suggest that the opioid agonist and antagonist act on androgen release by modulating pituitary gonadotrophin output.

Published

1996

7. Changes in ovarian follicles and in vitro sex hormone release in the lizard Podarcis sicula sicula.

Author

Ciarcia G, Paolucci M, and Di Fiore MM

Subjects

Animals, Estradiol metabolism, Female, In Vitro Techniques, Ovarian Follicle physiology, Ovulation physiology, Perfusion, Progesterone metabolism, Gonadal Steroid Hormones metabolism, Lizards physiology, Ovarian Follicle metabolism

Abstract

An in vitro superfusion method was used to test sex hormone release from different kinds of ovarian follicle (growing follicles, postovulatory follicles, and atretic follicles) in the lizard Podarcis sicula sicula. Sex hormone output changes with the stage of follicle evolution and sexual cycle. Previtellogenetic follicles prevail in early-spring quiescent ovaries and secrete mainly progesterone, which is probably utilized at that phase to delay ovarian resumption. In the acute ovary, progesterone output from previtellogenetic follicles decreases, whereas vitellogenetic follicles produce a significant amount of 17 beta-estradiol, which is necessary for sustaining vitellogenin synthesis by the liver and oviduct growth. As follicles become ripe, progesterone production is resumed, and it increases in young postovulatory follicles. This is in line with the functions assigned to the hormone at that phase of the sexual cycle, i.e., the induction of oocyte maturation and the regulation of egg retention in the oviduct. Postovulatory follicles can also synthetize 17 beta-estradiol. After oviposition, this hormone, which is secreted by the old postovulatory follicles, can reinitiate vitellogenin synthesis, allowing the development of a new oocyte set. Our data confirm that active, although ephemeral, corpora lutea are also formed in oviparous species. A limited contribution to ovarian sex steroid production derives also from atretic follicles, at least at the early stages of the breeding cycle.

Published

1993