PESQUISA VETERINÁRIA BRASILEIRA

Abstract in English:

ABSTRACT.- Fonseca V.U., Papa P.C. & Campos D.B. 2012. [Potential involvement of adinopectin and its receptors in the modulation of steroidogenesis in corpus luteum of bitches during diestrus.] Potencial envolvimento da adiponectina e seus receptores na modulação da esteroidogênese em corpo lúteo de cadelas ao longo do diestro. Pesquisa Veterinária Brasileira 32(10):1055-1060. Setor de Anatomia, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques Paiva 87, SP 05508-270, Brazil. E-mail: uemura@usp.br 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.

• Corpus luteum adiponectin adipoR1 adipoR2 PPAR-γ Corpo lúteo adiponectina

Abstract in Portuguese:

RESUMO.- Fonseca V.U., Papa P.C. & Campos D.B. 2012. [Potential involvement of adinopectin and its receptors in the modulation of steroidogenesis in corpus luteum of bitches during diestrus.] Potencial envolvimento da adiponectina e seus receptores na modulação da esteroidogênese em corpo lúteo de cadelas ao longo do diestro. Pesquisa Veterinária Brasileira 32(10):1055-1060. Setor de Anatomia, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques Paiva 87, SP 05508-270, Brazil. E-mail: uemura@usp.br 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 tipo 2, 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.

Abstract in English:

ABSTRACT.- Machado A.S.D., Le Bas A., Miglino M.A., Leiser R. & Papa P.C. 2012. Genital morphology of the male South American fur seal (Arctocephalus australis) and biological implications. Pesquisa Veterinária Brasileira 32(Supl.1):67-78. Setor de Anatomia do Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: mamiferomarinho@gmail.com Male capacity for spreading genes to a great number of descendents and to determine population dynamics depend directly on the genital organs. Morphological studies in pinnipeds are scarce and the functional meaning of some characteristics has never been discussed. We hypothesized that Arctocephalus australis (A. australis) shows morphophysiological adaptations in order to guarantee the perpetuation of the species in the unique annual mating season. Seven males, dead from natural causes, had their genital organs collected and fixed for morphological description. Some features differ from other described mammalian males and are closely related to the biology and reproductive cycle of this species, as the scrotal epidermis, absence of glandular portion in the ductus deferens and spermatogenic epithelium suggest a recrudescent testis period. The corona glandis exhibits a singular arrangement: its erectile border looks like a formation of petals and its association with the os penis gives a “lily-flower” form to this region. We propose the name margo petaliformis to this particular erectile border of the corona glandis because of its similarity to a flower corola. The male genital organs of A. australis show morphological features compatible with adaptation to environment requirements and reproductive efficiency.

• Male genital organs South American fur seal Arctocephalus australis genital morphology órgãos genitais masculinos Lobo marinho sul Americano

Abstract in Portuguese:

RESUMO.- Machado A.S.D., Le Bas A., Miglino M.A., Leiser R. & Papa P.C. 2012. Genital morphology of the male South American fur seal (Arctocephalus australis) and biological implications. Pesquisa Veterinária Brasileira 32(Supl.1):67-78. Setor de Anatomia do Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques de Paiva 87, São Paulo, SP 05508-270, Brazil. E-mail: mamiferomarinho@gmail.com A capacidade do macho de espalhar seus genes a um grande número de descendentes e determinar a dinâmica populacional depende diretamente dos seus órgãos genitais. Estudos morfológicos em pinípedes são escassos e o significado funcional de algumas de suas características ecológicas ainda foi pouco discutido. Nossa hipótese é que Arctocephalus australis (A. australis) apresenta adaptações morfofisiológicas em seus órgãos genitais capazes de interagir com o meio e garantir a perpetuação da espécie que apresenta apenas uma época de acasalamento que ocorre uma vez a cada ano. Sete A. australis machos, mortos recentes por causas naturais, tiveram seus órgãos genitais coletados e fixados para a descrição macro, micro e ultraestrutural. Algumas características diferem de outros machos já descritos e estão intimamente relacionados com a biologia e ciclo reprodutivo da espécie, dentre elas podemos citar a alta queratinização da epiderme escrotal que pode se relacionar com as rotineiras lesões por atrito desta região nas pedras; a ausência da porção glandular do ducto deferente aqui descrita pela primeira vez, o epitélio espermatogênico sugere um período de testículo recrudescente. A glande apresenta um arranjo singular: a coroa da glande apresenta porção lateral de tecido esponjoso que são bordas livres com capacidade de intumescencia. O osso peniano se encontra no centro destas bordas e representa a extremidade mais distal do penis, levando consigo o óstio uretral externo. As bordas associadas ao osso peniano, dão uma forma de “Flor de lírio” a esta região. Utilizamos o nome margo petaliformis a margem erétil liliforme a particular morfologia da glande, pela sua semelhança a uma corola de flor. Os órgãos genitais masculinos de A. australis mostram características morfológicas compatíveis com uma adaptação aos requisitos ambientais e de eficiência reprodutiva.

Abstract in English:

ABSTRACT.- Miranda-Moura M.T.M., Fonseca V.U., Silva N.B., Freitas M.L., Almeida O.B., Rocha H.A.O., Papa P.C. & Moura C.E.B. 2010. Morphological features and vascularization study of caprine cyclic corpus luteum. Pesquisa Veterinária Brasileira 30(4):351-357. Departamento de Morfologia, Centro de Biociências, Universidade Federal do Rio Grande do Norte, Av. Salgado Filho s/n, Campus Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: mouraeduard@cb.ufrn.br Corpus luteum is a temporary endocrine gland that regulates either the estrous cycle and pregnancy. It presents extreme dependency on the adequate blood supply. This work aims to evaluate goat corpus luteum (CL) vascular density (VD) over the estrous cycle. For that purpose, 20 females were submitted to estrus synchronization/ovulation treatment using a medroxyprogesterone intra-vaginal sponge as well as intramuscular (IM) application of cloprostenol and equine chorionic gonadotrophine (eCG). After sponge removal, estrus was identified at about 72hs. Once treatment was over, female goats were then subdivided into 4 groups (n=5 each) and slaughtered on days 2, 12, 16 and 22 after ovulation (p.o). Ovaries were collected, withdrawn and weighted. CL and ovaries had size and area recorded. Blood samples were collected and the plasma progesterone (P4) was measured through RIA commercial kits. The VD was 24.42±6.66, 36.26±5.61, 8.59±2.2 and 3.97±1.12 vessels/mm2 for days 2, 12, 16 and 22 p.o, respectively. Progesterone plasma concentrations were 0.49±0.08, 2.63±0.66, 0.61±0.14 and 0.22±0.04ng/ml for days 2, 12, 16 e 22 p.o, respectively. Studied parameters were affected by the estrous cycle phase. Values greater than 12 p.o were observed. In the present work we observed that ovulation occurred predominantly in the right ovary (70% of the animals), which in turn presented bigger measures than the contra lateral one. There is a meaningful relationship between the weight and size of the ovary and these of CL (r=0.87, r=0.70, respectively, p<0.05). It is possible to conclude that morphology of goat’s ovaries and plasma progesterone concentration changed according to estrous cycle stages. We propose these parameters can be used as indicators of CL functional activity.

• Corpus luteum progesterone corpo luteo progesterona

Abstract in Portuguese:

RESUMO.- Miranda-Moura M.T.M., Fonseca V.U., Silva N.B., Freitas M.L., Almeida O.B., Rocha H.A.O., Papa P.C. & Moura C.E.B. 2010. Morphological features and vascularization study of caprine cyclic corpus luteum. Pesquisa Veterinária Brasileira 30(4):351-357. Departamento de Morfologia, Centro de Biociências, Universidade Federal do Rio Grande do Norte, Av. Salgado Filho s/n, Campus Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: mouraeduard@cb.ufrn.br O corpo lúteo é uma glândula endócrina temporária que regula tanto o ciclo estral quanto a prenhez, apresentando extrema dependência de aporte sanguíneo adequado. Objetivaram-se avaliar mudanças morfométricas dos ovários e densidade vascular (DV) dos corpos lúteos (CL) de cabras ao longo do ciclo estral (AOLC). Vinte animais foram submetidos ao tratamento para indução/sincronização do estro, usando esponjas intravaginais com medroxiprogesterona, associadas a aplicações intramusculares de cloprostenol e gonadotrofina coriônica eqüina. Após remoção das esponjas, o estro foi identificado em aproximadamente de 72h. Concluído o tratamento, as cabras foram subdivididas em 4 grupos (n=5 cada) para abate nos dias 2, 12, 16 e 22 após ovulação (p.o.). Posteriormente, foram retirados os ovários e realizadas as mensurações de peso, tamanho e área do órgão e dos CL. Amostras de sangue foram coletadas e a progesterona sérica (P4) mensurada utilizando-se RIA convencional. A DV média dos CL AOLC foi 24,42±6,66; 36,26±5,61; 8,59±2,2 e 3,97±1,12 vasos/mm2 para os dias 2, 12, 16 e 22 p.o., respectivamente. A concentração média de P4 foi de 0,49±0,08; 2,63±0,66; 0,61±0,14 e 0,22±0,04ng/ml para os dias 2, 12, 16 e 22 p.o., respectivamente. Os parâmetros em estudo também se mostraram afetados pela fase do ciclo estral, sendo observados os maiores (p < 0,05) valores no dia 12 p.o. Neste experimento, a ovulação ocorreu predominantemente no ovário direito (70% dos animais), o qual apresentou medidas maiores que o contralateral. Observou-se ainda alta correlação significativa entre o peso do ovário e o do CL (r=0,87; p<0,05) e entre o tamanho destes órgãos (r=0,70; p<0,05). Conclui-se que, a morfologia dos ovários de cabras e a concentração sérica de progesterona variam em função da fase do ciclo estral e podem ser utilizadas como parâmetro na avaliação funcional do órgão.

Abstract in English:

ABSTRACT.- Moura C.E.B., Albuquerque J.F.G., Magalhães M.S., Silva N.B., Oliveira M.F. & Papa P.C. 2007. [Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu).] Análise comparativa da origem do plexo braquial de catetos (Tayassu tajacu). Pesquisa Veterinária Brasileira 27(9):357-362. Departamento de Morfologia, Universidade Federal do Rio Grande do Norte, Cx. Postal 1524, Campus Universitário Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: cadumoura@ufrnet.br Collared peccary (Tayassu tajacu) belongs to the Tayassuidae family, characterized by a “collar” of white hairs that cross behind the neck and extend bilaterally in front of the shoulders. It can be found from south-western United States to Argentina. In the literature a shortage of data is verified regarding the functional anatomy of the collared peccaries, especially of studies that involve the anatomy of the brachial plexus. To elucidate the behavior of this plexus of collared peccaries and with the purpose to contribute for the development of compared anatomy, this study was accomplished. Thirty animals of different ages were used (17 males and 13 females) coming from the Wild Animal Multiplication Center of the “Universidade Federal Rural do Semi-árido” Mossoró, Rio Grande do Norte, Brazil. After slaughter bilateral dissection of the brachial plexuses took place, and the results were registered in schematic drawings and the dispositions grouped in tables for subsequent statistical analysis based on the percentile frequency. It was found that the Plexus brachialis of collared peccaries is the result of established communications, mainly among the Rami ventrales of the last three cervical nerves and of the first two thoracic nerves, having a contribution of the fourth and fifth cervical nerves in 16.67% and 50.00% of the cases, respectively. In 40.00% of the dissections the most frequent plexus was of the type C6, C7, C8, T1 and T2. The main nerves derived from brachial plexus of the collared peccaries and its respective origins had been: Nervus suprascapularis (C6, C7), Nn. subscapulares (C5, C6 e C7 or C6 e C7), N. axillaris (C6, C7), N. musculocutaneus (C7, C8), N. medianus (C7, C8, T1, T2), N. radialis (C8, T1, T2), N. ulnaris (C8, T1, T2), cranialis (C7), and caudalis (C7, C8) Nn. pectorales, N. thoracodorsalis (C6, C7, C8), N. thoracicus longus (C7, C8), and N. thoracicus lateralis (C8, T1, T2).

• Brachial plexus neuroanatomy wild animals

Abstract in Portuguese:

ABSTRACT.- Moura C.E.B., Albuquerque J.F.G., Magalhães M.S., Silva N.B., Oliveira M.F. & Papa P.C. 2007. [Comparative analysis of the origin of the brachial plexus of the collared peccary (Tayassu tajacu).] Análise comparativa da origem do plexo braquial de catetos (Tayassu tajacu). Pesquisa Veterinária Brasileira 27(9):357-362. Departamento de Morfologia, Universidade Federal do Rio Grande do Norte, Cx. Postal 1524, Campus Universitário Lagoa Nova, Natal, RN 59072-970, Brazil. E-mail: cadumoura@ufrnet.br Collared peccary (Tayassu tajacu) belongs to the Tayassuidae family, characterized by a “collar” of white hairs that cross behind the neck and extend bilaterally in front of the shoulders. It can be found from south-western United States to Argentina. In the literature a shortage of data is verified regarding the functional anatomy of the collared peccaries, especially of studies that involve the anatomy of the brachial plexus. To elucidate the behavior of this plexus of collared peccaries and with the purpose to contribute for the development of compared anatomy, this study was accomplished. Thirty animals of different ages were used (17 males and 13 females) coming from the Wild Animal Multiplication Center of the “Universidade Federal Rural do Semi-árido” Mossoró, Rio Grande do Norte, Brazil. After slaughter bilateral dissection of the brachial plexuses took place, and the results were registered in schematic drawings and the dispositions grouped in tables for subsequent statistical analysis based on the percentile frequency. It was found that the Plexus brachialis of collared peccaries is the result of established communications, mainly among the Rami ventrales of the last three cervical nerves and of the first two thoracic nerves, having a contribution of the fourth and fifth cervical nerves in 16.67% and 50.00% of the cases, respectively. In 40.00% of the dissections the most frequent plexus was of the type C6, C7, C8, T1 and T2. The main nerves derived from brachial plexus of the collared peccaries and its respective origins had been: Nervus suprascapularis (C6, C7), Nn. subscapulares (C5, C6 e C7 or C6 e C7), N. axillaris (C6, C7), N. musculocutaneus (C7, C8), N. medianus (C7, C8, T1, T2), N. radialis (C8, T1, T2), N. ulnaris (C8, T1, T2), cranialis (C7), and caudalis (C7, C8) Nn. pectorales, N. thoracodorsalis (C6, C7, C8), N. thoracicus longus (C7, C8), and N. thoracicus lateralis (C8, T1, T2).

Abstract in English:

ABSTRACT.- La Paz M.N., Fonseca V.U., Campos D.B., Artoni L.P., Sousa L.M.M.C. & Papa P.C. 2007. [In vitro progesterone production from bovine corpus luteum throughout gestation.] Produção de progesterona in vitro pelas células do corpo lúteo bovino ao longo da gestação. Pesquisa Veterinária Brasileira 27(9):370376. Setor de Anatomia, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques Paiva, 87, SP 05508-270, Brazil. E-mail: ppapa@usp.br The aim was to test the hypothesis that cultivated bovine luteal cells from three different thirds of pregnancy behave the same way as in vivo luteal cells relative to P4 production. Corpus luteum samples from days 90 (n=3), 150 (n=3) and 210 (n=3) of pregnancy were obtained at a local slaughterhouse. Under aseptic conditions cells were mechanically dispersed and cultivated in a 96 wells-plate. After 24 hours of culture, cells were washed and the precursor pregnenolone was added. Experiments were conducted eight times for each studied time period (24, 48 and 96 h) and three times for each gestational age. Culture medium and cells were collected after 24, 48 and 96 hours of precursor addition and kept frozen at -20oC until processing. Progesterone was measured by RIA and protein content by Lowry’s method. Results were statistically analyzed and considered different when p <0.05. A higher P4 production was observed on day 90 of gestation (35.277±0.075), then this production was decreased at day 150 (28.820±0.231) and increased again at day 210 (32.777±0.099). After 24 hours of culture, luteal cells P4 production reached maximum values in the group of 90 days (2.912±0.047) when compared to 150 (2.669±0.137) and 210 days (2.741±0.088). At 48 and 96 hours of culture, bovine luteal cells from day 90 of gestation produced more P4 than cells from day 210 (2.934±0.029 and 2.976±0.121 respectively x 2.760±0.059 and 2.695±0.149, respectively; p<0.05), which in turn, produced more P4 than cells from day 150 (2.334±0.084 for 48 h and 2.205±0.136 for 96 h). Luteal cells from day 150 of gestation presented a decreasing P4 production throughout the 96 hours of culture. These differences could be explained by differential gene expression of enzymes and/or factors belonging to the esteroidogenic cascade in accordance to the gestational period. The established luteal cell culture model could be used for further functional studies once P4 secretion pattern in vitro resembled what occurs in vivo.

• Corpus luteum gestation progesterone cell culture

Abstract in Portuguese:

ABSTRACT.- La Paz M.N., Fonseca V.U., Campos D.B., Artoni L.P., Sousa L.M.M.C. & Papa P.C. 2007. [In vitro progesterone production from bovine corpus luteum throughout gestation.] Produção de progesterona in vitro pelas células do corpo lúteo bovino ao longo da gestação. Pesquisa Veterinária Brasileira 27(9):370376. Setor de Anatomia, Departamento de Cirurgia, Faculdade de Medicina Veterinária e Zootecnia, Universidade de São Paulo, Av. Prof. Dr. Orlando Marques Paiva, 87, SP 05508-270, Brazil. E-mail: ppapa@usp.br The aim was to test the hypothesis that cultivated bovine luteal cells from three different thirds of pregnancy behave the same way as in vivo luteal cells relative to P4 production. Corpus luteum samples from days 90 (n=3), 150 (n=3) and 210 (n=3) of pregnancy were obtained at a local slaughterhouse. Under aseptic conditions cells were mechanically dispersed and cultivated in a 96 wells-plate. After 24 hours of culture, cells were washed and the precursor pregnenolone was added. Experiments were conducted eight times for each studied time period (24, 48 and 96 h) and three times for each gestational age. Culture medium and cells were collected after 24, 48 and 96 hours of precursor addition and kept frozen at -20oC until processing. Progesterone was measured by RIA and protein content by Lowry’s method. Results were statistically analyzed and considered different when p <0.05. A higher P4 production was observed on day 90 of gestation (35.277±0.075), then this production was decreased at day 150 (28.820±0.231) and increased again at day 210 (32.777±0.099). After 24 hours of culture, luteal cells P4 production reached maximum values in the group of 90 days (2.912±0.047) when compared to 150 (2.669±0.137) and 210 days (2.741±0.088). At 48 and 96 hours of culture, bovine luteal cells from day 90 of gestation produced more P4 than cells from day 210 (2.934±0.029 and 2.976±0.121 respectively x 2.760±0.059 and 2.695±0.149, respectively; p<0.05), which in turn, produced more P4 than cells from day 150 (2.334±0.084 for 48 h and 2.205±0.136 for 96 h). Luteal cells from day 150 of gestation presented a decreasing P4 production throughout the 96 hours of culture. These differences could be explained by differential gene expression of enzymes and/or factors belonging to the esteroidogenic cascade in accordance to the gestational period. The established luteal cell culture model could be used for further functional studies once P4 secretion pattern in vitro resembled what occurs in vivo.