ABSTRACT
ABSTRACT This study aimed to determine the histological features of the endometrium of bitches, as well as the cell proliferation at specific moments of diestrus, 10, 20, 30, 40, 50 and 60 days post ovulation, correlating the endometrial thickness with the uterine cell proliferation and the metabolic state (weight, blood glucose and plasma cholesterol) of the animals. Therefore, the right and left uterine horns of 26 clinically healthy bitches submitted to ovariohysterectomy were histologically analyzed 10, 20, 30, 40, 50 and 60 days post ovulation. The hematoxylin-eosin and AgNOR staining techniques were performed. All parameters were evaluated by ANOVA and post-hoc Tukey test (p<0.05). The correlation between endometrial thickness and uterine cell proliferation, weight, blood glucose and plasma cholesterol of animals was observed using the Pearson method (p<0.05). In the present study, it is concluded that endometrial thickness does not differ at any of the moments analyzed in diestrus. The endometrial thickness is not influenced by hormones, weight, blood glucose or serum cholesterol of bitches in this phase of the estrous cycle. However, there is greater cell proliferation in the endometrium at day 40 compared to day 60 post ovulation under the influence of the endocrine profile.
Subject(s)
Animals , Female , Dogs , Diestrus/physiology , Cholesterol/blood , Cell Proliferation/physiology , Endometrium/cytology , Glucose/analysis , Time Factors , Diestrus/metabolism , Endometrium/physiologyABSTRACT
No ciclo estral de cadelas a fase luteínica, denominada diestro, compreende um período que varia de 60 a 100 dias em animais não-prenhes, caracterizado pela elevação plasmática de progesterona nos primeiros 20 dias pós ovulação (p.o). A adiponectina é a mais abundante proteína secretada pelo tecido adiposo, porém sua concentração plasmática diminui significativamente em alterações metabólicas como resistência insulínica e Diabetes mellitus tipo2, alterações descritas como relacionadas em algumas cadelas com o período de diestro. O objetivo do estudo foi determinar a expressão e imunolocalização do sistema adiponectina (adiponectina e seus receptores, adipoR1 e adipoR2) no corpo lúteo de cadelas ao longo do diestro, correlacionando-o ao perfil hormonal de 17β-estradiol e progesterona, assim como à expressão de um dos genes alvo do sistema, o PPAR-γ. Para realização do estudo foram coletados corpos lúteos de 28 cadelas durante ovariosalpingohisterectomia de eleição nos dias 10, 20, 30, 40, 50, 60 e 70 pós ovulação (o dia zero da ovulação foi considerado aquele no qual a concentração plasmática de progesterona atingiu 5ng/mL). Os corpos lúteos foram avaliados por imunohistoquímica para adiponectina e seus receptores e a expressão do RNAm do PPAR-γ por PCR em tempo real. A análise estatística da avaliação gênica foi realizada com o teste ANOVA, seguido por comparação múltipla Newman-Keuls. O sinal da adiponectina apresentou-se mais intenso até os primeiros 20 dias p.o, momento de regência da progesterona; houve queda gradativa após este período, coincidindo com a ascensão do 17β-estradiol, cujo pico foi notado próximo do dia 40 p.o. A queda marcante da adiponectina ocorreu após 50 dias p.o. O sinal do adipoR1 mostrou-se bem evidente até os 40 dias p.o e o do adipoR2 até os 50 dias p. o, decaindo posteriormente. Foi observada maior expressão do gene PPAR-γ aos 10, 30 e 70 dias p.o. Estes resultados mostram que a expressão protéica da adiponectina e de seus receptores se altera ao longo do diestro e que estas alterações podem estar relacionados às alterações hormonais e expressão do PPAR- γ, participando do mecanismo fisiológico de desenvolvimento, manutenção, atividade e regressão luteínica em cadelas.
In the estrous cycle of bitches, the luteal phase or diestrus includes a period ranging from 60 to 100 days in non-pregnant animals, characterized by elevated serum progesterone during the first 20 days post-ovulation (p.o). Adiponectin is the most abundant protein secreted by adipose tissue, but plasma concentration decreases significantly in metabolic disorders like insulin resistance and diabetes mellitus type 2, described as related changes in some bitches in diestrus. The aim of this study was to determine the expression and immunolocalization of the adiponectin system (adiponectin, and adipoR1 adipoR2) in the corpus luteum during diestrus, and correlate it to hormonal profile of 17β-estradiol and progesterone, as well as the expression of a gene target of the system, the PPAR-γ. For the study, corpora lutea were collected from 28 dogs during ovariosalpingohysterectomy on days 10, 20, 30, 40, 50, 60 and 70 post ovulation (day zero of ovulation was considered the day when the plasma progesterone concentration reached 5ng/mL). The corpora lutea were evaluated by immunohistochemistry for adiponectin, adipoR1 and adipoR2 and mRNA expression of PPAR-γ by real-time PCR. Statistical analysis of gene expression was performed with ANOVA followed by Newman-Keuls multiple comparisons. Adiponectin positive signal was stronger during the first 20 days p.o, time of the regency of progesterone; there was a gradual adiponectin and progesterone decline after this period, coinciding with the rise of 17β-estradiol, whose peak was near the 40 days p.o. The markedly adiponectin decrease occurred after 50 days p.o. The signal of adipoR1 was markedly evident at 40 days p.o and that of adipoR2 up to 50 days p.o, declining afterwards. We observed higher expression of PPAR-γ gene at 10, 30 and 70 days p.o. These results show that adiponectin and its receptors protein expression is altered during the diestrus and that these changes may be related to hormonal changes and expression of PPAR-γ, participating in the physiological mechanism of development, maintenance, activity and luteal regression in bitches.
Subject(s)
Animals , Female , Dogs , Adiponectin/biosynthesis , Diestrus/metabolism , Corpus Luteum Hormones/metabolism , PPAR gamma/metabolism , Adipose Tissue, White/metabolism , In Situ Nick-End Labeling , Receptors, AdiponectinABSTRACT
As a step towards the identification of genes preferentially expressed in the oviduct during early rat embryo development, we isolated a cDNA fragment (Pr14) by using RNA arbitrarily primed PCR (RAP-PCR), being its expression restricted to oviduct and uterus; its mRNA is mainly expressed in oviduct during late luteal phase and early pregnancy. This fragment is 100 per cent identical to a rat DNA sequence (Accession No. NW_047400)downstream the terminal exon of a Ratturs norvegicus gene (Locus Link Accession No. LOC289316) similar to ebaf (endometrial bleeding-associated factor), a novel member of the Transforming Growth Factor superfamily. Northern analyses showed that this sequence hybridizes with 2.9 kb and 4.1 kb mRNAs in early pregnant rat oviducts. However, only the 4.1 kb mRNA was detected in the oviduct of non-pregnant rats, showing an increase from proestrus to diestrus. The expression of this oviduct-uterus specific mRNA suggests that the products of this gene may play a role in the oviductal reproductive process.
Subject(s)
Female , Rats , RNA, Messenger/genetics , RNA, Messenger/metabolism , Fallopian Tubes , Transcription Factors/genetics , Transcription Factors/metabolism , Gene Expression Profiling , DNA, Complementary/genetics , Base Sequence , Blotting, Northern , Estrous Cycle/genetics , Estrous Cycle/metabolism , Diestrus/genetics , Diestrus/metabolism , Gene Expression/genetics , Molecular Sequence Data , Ovariectomy , Pregnancy , Rats, Wistar , Reverse Transcriptase Polymerase Chain Reaction , Uterus/metabolismABSTRACT
The activity of the gonadotropin-releasing hormone (GnRH) pulse generator during lactation was assessed by direct determination of GnRH levels impinging upon the pituitary gland. Sprague-Dawley rats were implanted on day 15 of pregnancy with a push-pull perfusion cannula directed to the anterior pituitary. All implanted animals showed normal parturition, maternal behavior and lactation. Push-pull perfusions were performed in 15 rats suckling 11.0 +/- 0.8 pups (range 4-15) on day 7-20 of lactation and repeated on diestrous 1 after weaning in some of the same animals. GnRH content of the samples was assayed by RIA. GnRH pulses were clearly detected during lactation. Mean GnRH secretion rate was 1.9 +/- 0.3 pg/10 min (chi +/- SE, range between 0.5 and 3 pg/10 min) and interpulse interval was 37.5 +/- 1.7 min (range between 27 and 50 min). There was a significant decrease of about 19 percent in the interpulse interval after weaning. There was no significant difference in GnRH pulse amplitude nor in GnRH secretion rate between lactation and diestrous. These results demonstrate that nursing does not suppress the GnRH pulse generator in the rat