Your search keyword '"Bohrer R"' showing total 3 results

1. Natriuretic peptide system regulation in granulosa cells during follicle deviation and ovulation in cattle.

Author

De Cesaro MP, Dos Santos JT, Ferst JG, Nóbrega JE Jr, Rosa P, Rovani MT, Ilha GF, Bohrer RC, Ferreira R, Gasperin BG, Bordignon V, and Gonçalves P

Subjects

Animals, Female, Furin genetics, Furin metabolism, Gene Expression Regulation, Gonadotropin-Releasing Hormone pharmacology, Granulosa Cells metabolism, Natriuretic Peptides genetics, Ovulation physiology, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Estrogen, Cattle physiology, Natriuretic Peptides metabolism, Ovarian Follicle physiology

Abstract

Natriuretic peptides (NPs) are known to regulate reproductive events in polyovulatory species, but their function and regulation in monovulatory species remain to be fully characterized. Using a well-established in vivo model, we found that bovine granulosa cells from follicles near the deviation stage express mRNA for the three NP receptors (NPR1, NPR2 and NPR3), but not for NP precursors (NPPA, NPPB and NPPC). The abundance of NPR3 mRNA was higher in dominant compared to subordinate follicles at the expected time of follicular deviation. After deviation, mRNA for all NP receptors was significantly more abundant in the dominant follicle. Intrafollicular inhibition of oestrogen receptors downregulated NPR1 mRNA in dominant follicles. In granulosa cells from preovulatory follicles, NPPC mRNA increased at 3 and 6 h after systemic GnRH treatment, but decreased at 12 and 24 h to similar levels observed in samples collected at 0 h. After GnRH treatment, NPR1 mRNA was upregulated at 24 h, NPR3 mRNA gradually decreased after 3 h, while NPR2 mRNA was not regulated. The mRNA expression of the enzyme FURIN increased at 24 h after GnRH treatment. These findings revealed that the expression of mRNA encoding important components of the NP system is regulated in bovine granulosa cells during follicular deviation and in response to GnRH treatment, which suggests a role of NP system in the modulation of these processes in monovulatory species., (© 2018 Blackwell Verlag GmbH.)

Published

2018

2. Grb14 mRNA levels during follicular deviation in cattle are higher in granulosa cells of subordinate compared to dominant follicles.

Author

Bohrer RC, Rosa PR, Ferreira R, Bordignon V, Oliveira JF, and Gonçalves PB

Subjects

Adaptor Proteins, Signal Transducing genetics, Animals, Female, Ovarian Follicle cytology, RNA, Messenger genetics, RNA, Messenger metabolism, Adaptor Proteins, Signal Transducing metabolism, Cattle physiology, Gene Expression Regulation physiology, Ovarian Follicle growth & development, Ovarian Follicle metabolism

Abstract

The growth factor receptor-bound protein 14 (Grb14) is a cellular adapter protein belonging to the Grb7 family of proteins. Studies with human and rodent cells have demonstrated that Grb14 acts as a negative regulator of tyrosine kinase receptor signalling through the MAPK and PI3K pathways. In cattle, tyrosine kinase receptors are activated during follicular development but the role of Grb14 in this process has not yet been investigated. Therefore, the aim of the present study was to characterize Grb14 mRNA expression in ovarian somatic cells during follicular growth and deviation in cattle. We found Grb14 mRNA expressed in both granulosa and theca cells derived from follicles at different stages of development (3-5 , 6-8, >8 mm in diameter). The abundance of mRNA for Grb14 was higher in granulosa cells of subordinate compared with those from dominant follicles at days 3 and 4 of the follicular wave (p < 0.05). Further, there was a negative correlation between the abundance of mRNA for Grb14 and P450Arom in granulosa cells (R(2)  = 0.367; p < 0.05) and between the abundance of mRNA for Grb14 in granulosa cells and concentration of oestradiol in follicular fluid (R(2)  = 0.545; p < 0.05). In theca cells, the expression of Grb14 mRNA did not differ between dominant and subordinate follicles (p > 0.05). These findings suggest that Grb14 may play a regulatory role in granulosa cells during follicular deviation in cattle., (© 2012 Blackwell Verlag GmbH.)

Published

2013

3. Angiotensin II signaling promotes follicle growth and dominance in cattle.

Author

Ferreira R, Gasperin B, Rovani M, Santos J, Barreta M, Bohrer R, Price C, and Gonçalves PB

Subjects

Angiotensin II administration & dosage, Angiotensin II physiology, Angiotensin II Type 1 Receptor Blockers, Animals, Aromatase, Cattle, Cell Differentiation, Cell Proliferation, Estradiol, Female, Gene Expression Regulation, Granulosa Cells cytology, Granulosa Cells drug effects, Ovarian Follicle drug effects, Saralasin administration & dosage, Saralasin pharmacology, Angiotensin II pharmacology, Ovarian Follicle growth & development, Signal Transduction drug effects

Abstract

It is generally understood that angiotensin II (AngII) promotes follicle atresia in rats, although recent data suggested that this may not be true in cattle. In this study, we aimed to determine in vivo whether AngII alters follicle development in cattle, using intrafollicular injection of AngII or antagonist into the growing dominant follicle or the second largest subordinate follicle. Injection of saralasin, an AngII antagonist, into the growing dominant follicle inhibited follicular growth, and this inhibitory effect was overcome by systemic FSH supplementation. Injection of AngII into the dominant follicle did not affect follicular growth, whereas injection of AngII into the second largest follicle prevented the expected atresia of this subordinate follicle, and the treated follicle grew at the same rate as the dominant follicle for the next 24 h. Inhibition of AngII action in the dominant follicle decreased estradiol concentrations in follicular fluid and the abundance of mRNA encoding aromatase, 3β-hydroxysteroid dehydrogenase, LH receptor, and cyclinD2 in granulosa cells, with minimal effects on theca cells. The effect of AngII on aromatase mRNA levels was confirmed using an in vitro granulosa cell culture system. In conclusion, these data suggest that AngII signaling promotes follicle growth in cattle and does so by regulating genes involved in estradiol secretion and granulosa cell proliferation and differentiation.

Published

2011