Resumo
A análise da expressão das diversas proteínas relacionadas a foliculogênese e oogênese in vivo e in vitro, através da proteômica, tem demonstrado possíveis biomarcadores celulares. A descoberta desses biomarcadores pode ajudar na elucidação de mecanismos complexos como a foliculogênese (entendimento sobre o crescimento folicular e maturação oocitária), no tratamento de doenças relacionadas a infertilidade feminina, bem como, no aprimoramento de biotécnicas reprodutivas como a manipulação de oócitos inclusos em folículos pré-antrais. Desta forma, a presente revisão abordou as principais proteínas relatadas nos mais novos trabalhos referentes aos estudos proteômicos visando melhores esclarecimentos referentes ao desenvolvimento folicular e oocitário in vivo e in vitro. A escolha dos artigos foi realizada com base nas descobertas mais atuais e do impacto que determinadas proteínas poderiam trazer para melhorar o entendimento da foliculogênese e oogênese nas diferentes espécies de animais mamíferos.(AU)
The analysis of the expression of several proteins related to folliculogenesis and oogenesis in vivo and in vitro, through proteomics, has demonstrated possible cellular biomarkers. The discovery of these biomarkers may help in the elucidation of complex mechanisms such as folliculogenesis (understanding of follicular growth and oocyte maturation), in the treatment of diseases related to female infertility, as well as in the improvement of reproductive biotechniques such as the manipulation of oocytes enclosed in preantral follicles. Thus, the present review addressed the main proteins reported in the newest works related to proteomic studies aiming at better clarifications regarding follicular and oocyte development in vivo and in vitro. The choice of articles was based on the most current discoveries and the impact that certain proteins could bring to improve the understanding of folliculogenesis and oogenesis in different species of mammalian animals.(AU)
Assuntos
Animais , Feminino , Biomarcadores , Proteômica/tendências , Mamíferos/fisiologia , Oogênese/fisiologia , Técnicas de Maturação in Vitro de Oócitos/tendências , Folículo Ovariano/fisiologiaResumo
Abstract Wild large Japanese field mice (Apodemus speciosus) responses to cyclic seasonal changes are associated with physiological and behavioral changes. However, the detailed regulation of oogenesis in the ovary during the seasonal reproductive cycle in wild large Japanese field mice has not been studied. We assessed the dynamics and changes in ovarian morphology and hormone concentrations associated with reproductive seasonality throughout the year. The stages of the ovarian morphological breeding cycle of wild large Japanese field mice were classified as breeding, transition, and non-breeding periods during the annual reproductive cycle. Measurement of blood estradiol concentrations throughout the year showed that the levels in September and October were higher than those in other months. It is presumed that follicle development starts from a blood estradiol concentration of 38.4 ± 27.1 pg/mL, which marks a shift from the transitional season to the breeding season, followed by the transition to the non-breeding season at 26.1 ± 11.6 pg/mL. These results suggest that seasonal follicle development in wild rodents is correlated with estradiol regulation. We consider this species to be an alternative animal model for studying seasonal reproductive changes and the effects of environmental changes.
Resumo
Wild large Japanese field mice (Apodemus speciosus) responses to cyclic seasonal changes are associated with physiological and behavioral changes. However, the detailed regulation of oogenesis in the ovary during the seasonal reproductive cycle in wild large Japanese field mice has not been studied. We assessed the dynamics and changes in ovarian morphology and hormone concentrations associated with reproductive seasonality throughout the year. The stages of the ovarian morphological breeding cycle of wild large Japanese field mice were classified as breeding, transition, and non-breeding periods during the annual reproductive cycle. Measurement of blood estradiol concentrations throughout the year showed that the levels in September and October were higher than those in other months. It is presumed that follicle development starts from a blood estradiol concentration of 38.4 ± 27.1 pg/mL, which marks a shift from the transitional season to the breeding season, followed by the transition to the non-breeding season at 26.1 ± 11.6 pg/mL. These results suggest that seasonal follicle development in wild rodents is correlated with estradiol regulation. We consider this species to be an alternative animal model for studying seasonal reproductive changes and the effects of environmental changes.(AU)
Assuntos
Animais , Camundongos , Murinae/anatomia & histologia , Murinae/fisiologia , Folículo Ovariano , Hormônios , Oogênese , Estações do AnoResumo
A reprodução animal incide diretamente na eficiência e rentabilidade econômica de um rebanho, sendo considerada um dos fatores de maior importância para os sistemas de produção. Consequentemente, o desenvolvimento e a utilização de biotecnologia são indispensáveis para o aumento da eficiência reprodutiva, do melhoramento genético, da produção de alimentos e geração de riquezas. Nas últimas décadas várias foram as biotécnicas associadas à reprodução animal que apresentaram um grande potencial para a geração de genética, especialmente, ao que se referem aos avanços da reprodução assistida. Estes progressos possibilitaram a utilização de folículos pré-antrais como fonte de oócitos para biotecnologias reprodutivas. Deste modo, a técnica de cultivo in vitro proporciona a retomada do desenvolvimento dos folículos presente na reserva ovariana pela ativação in vitro forçada simulando a ocorrência de distúrbios na foliculogênesse. Até então, apenas a especie murina obteve descendentes vivos através dos folículos primordiais cultivados in vitro. Infelizmente, não há relatos de sucesso em outras espécies, tornando o desenvolvimento de sistemas ideias de cultivo in vitro um desafio. Portanto, o objetivo desta revisão é descrever e discutir os principais avanços da situação atual da pesquisa com folículos pré-antrais inclusos em folículos ovarianos.(AU)
Animal reproduction directly affects the efficiency and economic profitability of a herd, being considered one of the most important factors for production systems. Consequently, the development and use of biotechnology are indispensable for increasing reproductive efficiency, genetic improvement, food production and wealth generation. In the last few decades, biotechnologies associated with animal reproduction have shown great potential for the generation of genetics, especially with regard to advances in assisted reproduction. These advances have enabled the use of pre-antral follicles as a source of oocytes for reproductive biotechnologies. Thus, the in vitro culture technique provides the resumption of the development of follicles present in the ovarian reserve by forced in vitro activation, simulating the occurrence of disturbances in folliculogenesis. Until then, only the murine species obtained living descendants through primordial follicles cultivated in vitro. Unfortunately, there are no reports of success in other species, making the development of ideal in vitro culture systems a challenge.Therefore, the purpose of this review is to describe and discuss the main advances in the current research situation with preantral follicles included in ovarian follicles.(AU)
Assuntos
Animais , Feminino , Bovinos , Bovinos , Folículo Ovariano , Técnicas In Vitro/veterinária , BiotecnologiaResumo
A reprodução animal incide diretamente na eficiência e rentabilidade econômica de um rebanho, sendo considerada um dos fatores de maior importância para os sistemas de produção. Consequentemente, o desenvolvimento e a utilização de biotecnologia são indispensáveis para o aumento da eficiência reprodutiva, do melhoramento genético, da produção de alimentos e geração de riquezas. Nas últimas décadas várias foram as biotécnicas associadas à reprodução animal que apresentaram um grande potencial para a geração de genética, especialmente, ao que se referem aos avanços da reprodução assistida. Estes progressos possibilitaram a utilização de folículos pré-antrais como fonte de oócitos para biotecnologias reprodutivas. Deste modo, a técnica de cultivo in vitro proporciona a retomada do desenvolvimento dos folículos presente na reserva ovariana pela ativação in vitro forçada simulando a ocorrência de distúrbios na foliculogênesse. Até então, apenas a especie murina obteve descendentes vivos através dos folículos primordiais cultivados in vitro. Infelizmente, não há relatos de sucesso em outras espécies, tornando o desenvolvimento de sistemas ideias de cultivo in vitro um desafio. Portanto, o objetivo desta revisão é descrever e discutir os principais avanços da situação atual da pesquisa com folículos pré-antrais inclusos em folículos ovarianos.
Animal reproduction directly affects the efficiency and economic profitability of a herd, being considered one of the most important factors for production systems. Consequently, the development and use of biotechnology are indispensable for increasing reproductive efficiency, genetic improvement, food production and wealth generation. In the last few decades, biotechnologies associated with animal reproduction have shown great potential for the generation of genetics, especially with regard to advances in assisted reproduction. These advances have enabled the use of pre-antral follicles as a source of oocytes for reproductive biotechnologies. Thus, the in vitro culture technique provides the resumption of the development of follicles present in the ovarian reserve by forced in vitro activation, simulating the occurrence of disturbances in folliculogenesis. Until then, only the murine species obtained living descendants through primordial follicles cultivated in vitro. Unfortunately, there are no reports of success in other species, making the development of ideal in vitro culture systems a challenge.Therefore, the purpose of this review is to describe and discuss the main advances in the current research situation with preantral follicles included in ovarian follicles.
Assuntos
Feminino , Animais , Bovinos , Biotecnologia , Bovinos , Folículo Ovariano , Técnicas In Vitro/veterináriaResumo
O cultivo in vitro de folículos (CIVF), também conhecido como Ovário Artificial, representa uma excelente ferramenta para aumentar nossa compreensão a respeito do controle da foliculogênese inicial, que é crucial para otimizar o uso futuro de um grande número de oócitos imaturos inclusos em folículos pré-antrais (FPs) (principalreserva ovariana) em técnicas de reprodução assistida em humanos, bem como em outras espécies de mamíferos, incluindo os ruminantes. Até o momento, os melhores resultados de CIVF foram relatados em camundongos com a produção de crias vivas a partir de folículos primordiais cultivados in vitro. No entanto, em outras espécies como os ruminantes, esses resultados têm se limitado à produção de um número variável de oócitos maturos e baixas porcentagens de embriões após o cultivo in vitro de folículos pré-antrais secundários tardios isolados de ovários de cabras, búfalas e ovelhas. A presente revisão apresenta e discute os principais achados, limitações e perspectivas da foliculogênese in vitro em ruminantes com foco nas espécies bovinas, caprinas e ovinas.
The in vitro follicle culture (IVFC), also known as artificial ovary, represents an outstanding tool to increase our understanding of the control of early folliculogenesis which is crucial to optimize the future use of a large, number of immature oocytes enclosed in preantral follicles (PFs) (main ovarian reserve) in assisted reproductive techniques in humans as well as in others mammalian species including the ruminants. To date, the best results of IVFC were reported from mice with the production of live offspring from primordial follicles cultured in vitro. However, in other ruminant species, these results have been limited to the production of a variable number of mature oocytes and low percentages of embryos after in vitro culture of goat, buffalo and sheep isolated late secondary preantral follicles. The present review presents and discusses the main findings, limitations, and prospects of in vitro folliculogenesis in ruminants focusing on bovine, caprine, and ovine species.
Assuntos
Feminino , Animais , Folículo Ovariano/fisiologia , Reprodução/fisiologia , Ruminantes/embriologiaResumo
O cultivo in vitro de folículos (CIVF), também conhecido como Ovário Artificial, representa uma excelente ferramenta para aumentar nossa compreensão a respeito do controle da foliculogênese inicial, que é crucial para otimizar o uso futuro de um grande número de oócitos imaturos inclusos em folículos pré-antrais (FPs) (principalreserva ovariana) em técnicas de reprodução assistida em humanos, bem como em outras espécies de mamíferos, incluindo os ruminantes. Até o momento, os melhores resultados de CIVF foram relatados em camundongos com a produção de crias vivas a partir de folículos primordiais cultivados in vitro. No entanto, em outras espécies como os ruminantes, esses resultados têm se limitado à produção de um número variável de oócitos maturos e baixas porcentagens de embriões após o cultivo in vitro de folículos pré-antrais secundários tardios isolados de ovários de cabras, búfalas e ovelhas. A presente revisão apresenta e discute os principais achados, limitações e perspectivas da foliculogênese in vitro em ruminantes com foco nas espécies bovinas, caprinas e ovinas.(AU)
The in vitro follicle culture (IVFC), also known as artificial ovary, represents an outstanding tool to increase our understanding of the control of early folliculogenesis which is crucial to optimize the future use of a large, number of immature oocytes enclosed in preantral follicles (PFs) (main ovarian reserve) in assisted reproductive techniques in humans as well as in others mammalian species including the ruminants. To date, the best results of IVFC were reported from mice with the production of live offspring from primordial follicles cultured in vitro. However, in other ruminant species, these results have been limited to the production of a variable number of mature oocytes and low percentages of embryos after in vitro culture of goat, buffalo and sheep isolated late secondary preantral follicles. The present review presents and discusses the main findings, limitations, and prospects of in vitro folliculogenesis in ruminants focusing on bovine, caprine, and ovine species.(AU)
Assuntos
Animais , Feminino , Folículo Ovariano/fisiologia , Reprodução/fisiologia , Ruminantes/embriologiaResumo
The in vitro follicle culture (IVFC) represents an outstanding tool to enhance our understanding of the control of folliculogenesis and to allow the future use of a large number of immature oocytes enclosed in preantral follicles (PFs) in assisted reproductive techniques in humans as well as in others mammalian species including the ruminants. So far, the best results of IVFC were reported from mice with the production of live offspring from primordial follicles cultured in vitro. Live birth has been obtained after the in vitro culture of bovine early antral follicles. However, in other ruminant species, these results have been limited to the production of a variable number of mature oocytes and low percentages of embryos after in vitro culture of goat, buffalo and sheep isolated secondary preantral follicles. The present review presents and discusses the main findings, limitations, and prospects of in vitro folliculogenesis in ruminants focusing on bovine, caprine, and ovine species.
Assuntos
Feminino , Animais , Ruminantes/embriologia , Técnicas de Maturação in Vitro de Oócitos , Técnicas de Maturação in Vitro de Oócitos/veterináriaResumo
Fatores produzidos no ovário como os membros da família dos fatores de crescimento transformantes beta (TGFβ) e seus receptores, são essenciais durante o desenvolvimento folicular. Membros desta superfamília desempenham papel chave na fertilidade e diferenças espécie-específicas na regulação desses fatores têm sido descritas, envolvendo as funções ovarianas em condições fisiológicas ou patológicas. A proteína morfogenética óssea 15 (BMP15) e o fator de crescimento e diferenciação 9 (GDF9) destacam-se, pois desempenham papéis importantes na regulação do crescimento e da diferenciação folicular. Ainda, há evidências de que outras BMPs, ativinas, inibinas e seus receptores também possam estar envolvidos no controle da foliculogênese, ovulação/luteinização e luteólise. A maioria dos dados demostram que os TGFs atuam regulando negativamente a síntese de progesterona, o que sugere envolvimento na inibição da luteinização e promoção da luteólise. O avanço no entendimento das funções destes fatores locais poderá possibilitar o desenvolvimento tanto de novas estratégias contraceptivas, como também para controle do ciclo estral ou menstrual.(AU)
Factors produced in the ovary, such as transforming growth factors beta members (TGFβ) and their receptors, play a key role during follicular development. Members from this family have an important role in female fertility and species-specific differences in their regulation have been described, being involved in ovarian function regulation under both physiological and pathological conditions. Bone morphogenetic protein 15 (BMP15) and growth and differentiation factor 9 (GDF9) are the most studied factors due to their involvement in the regulation of follicular development and differentiation. Besides BMP15 and GDF9, other BMPs, activins, inhibins and their receptors may be involved in the control of folliculogenesis, ovulation/luteinization and luteolysis. Most studies demonstrate that TGFβ members negatively regulate progesterone synthesis, suggesting an involvement in luteolysis. The advance in the knowledge of the function of these local factors may allow the development of new contraceptive strategies as well as new approaches to control the estrous or menstrual cycle.(AU)
Assuntos
Animais , Feminino , Luteinização , Luteólise , Fatores de Crescimento Transformadores/análise , Fatores de Crescimento Transformadores/biossínteseResumo
The in vitro follicle culture (IVFC) represents an outstanding tool to enhance our understanding of the control of folliculogenesis and to allow the future use of a large number of immature oocytes enclosed in preantral follicles (PFs) in assisted reproductive techniques in humans as well as in others mammalian species including the ruminants. So far, the best results of IVFC were reported from mice with the production of live offspring from primordial follicles cultured in vitro. Live birth has been obtained after the in vitro culture of bovine early antral follicles. However, in other ruminant species, these results have been limited to the production of a variable number of mature oocytes and low percentages of embryos after in vitro culture of goat, buffalo and sheep isolated secondary preantral follicles. The present review presents and discusses the main findings, limitations, and prospects of in vitro folliculogenesis in ruminants focusing on bovine, caprine, and ovine species.(AU)
Assuntos
Animais , Feminino , Ruminantes/embriologia , Técnicas de Maturação in Vitro de Oócitos , Técnicas de Maturação in Vitro de Oócitos/veterináriaResumo
Fatores produzidos no ovário como os membros da família dos fatores de crescimento transformantes beta (TGFβ) e seus receptores, são essenciais durante o desenvolvimento folicular. Membros desta superfamília desempenham papel chave na fertilidade e diferenças espécie-específicas na regulação desses fatores têm sido descritas, envolvendo as funções ovarianas em condições fisiológicas ou patológicas. A proteína morfogenética óssea 15 (BMP15) e o fator de crescimento e diferenciação 9 (GDF9) destacam-se, pois desempenham papéis importantes na regulação do crescimento e da diferenciação folicular. Ainda, há evidências de que outras BMPs, ativinas, inibinas e seus receptores também possam estar envolvidos no controle da foliculogênese, ovulação/luteinização e luteólise. A maioria dos dados demostram que os TGFs atuam regulando negativamente a síntese de progesterona, o que sugere envolvimento na inibição da luteinização e promoção da luteólise. O avanço no entendimento das funções destes fatores locais poderá possibilitar o desenvolvimento tanto de novas estratégias contraceptivas, como também para controle do ciclo estral ou menstrual.
Factors produced in the ovary, such as transforming growth factors beta members (TGFβ) and their receptors, play a key role during follicular development. Members from this family have an important role in female fertility and species-specific differences in their regulation have been described, being involved in ovarian function regulation under both physiological and pathological conditions. Bone morphogenetic protein 15 (BMP15) and growth and differentiation factor 9 (GDF9) are the most studied factors due to their involvement in the regulation of follicular development and differentiation. Besides BMP15 and GDF9, other BMPs, activins, inhibins and their receptors may be involved in the control of folliculogenesis, ovulation/luteinization and luteolysis. Most studies demonstrate that TGFβ members negatively regulate progesterone synthesis, suggesting an involvement in luteolysis. The advance in the knowledge of the function of these local factors may allow the development of new contraceptive strategies as well as new approaches to control the estrous or menstrual cycle.
Assuntos
Feminino , Animais , Fatores de Crescimento Transformadores/análise , Fatores de Crescimento Transformadores/biossíntese , Luteinização , LuteóliseResumo
The regulation of folliculogenesis involves a complex interaction among endocrine, paracrine and autocrine factors. The mechanisms involved in the initiation of the growth of the primordial follicle, i.e., follicular activation and the further growth of primary follicles up to the pre-ovulatory stage, are not well understood at this time. The present review focuses on the regulation and development of early stage (primordial, primary, and secondary) folliculogenesis highlighting the mechanisms of primordial follicle activation, growth of primary and secondary follicles and finally transition from secondary to tertiary follicles. We also discuss the importance of in vitro follicle culture for the understanding of folliculogenesis during the preantral phase. Studies suggest that follicular development from primordial to early antral stages is primarily controlled by intra-ovarian ligands but it can also be influenced by many extra-ovarian factors. The control of early folliculogenesis is, therefore, extremely complex because several ligands act through distinct signaling pathways that form sophisticated information networks responding to multiple, often opposing, stimuli. The balance among different stimuli determines follicular survival or death as well as quiescence or activation (growth). The distribution of the ligands and their corresponding receptors varies among follicular compartments and species, and significant changes in gene expression pattern among follicular categories have been reported. Knowing that follicular requirements during early folliculogenesis can be stage-specific and speciesspecific, in vitro culture studies offer an alternative to evaluate single and combined factors during a specific period of follicular development. Herewith we summarize the main findings obtained in vitro together with the mechanisms regulating folliculogenesis.(AU)
Assuntos
Animais , Folículo Ovariano/crescimento & desenvolvimento , Folículo Ovariano/enzimologia , Folículo Ovariano/fisiologiaResumo
The regulation of folliculogenesis involves a complex interaction among endocrine, paracrine and autocrine factors. The mechanisms involved in the initiation of the growth of the primordial follicle, i.e., follicular activation and the further growth of primary follicles up to the pre-ovulatory stage, are not well understood at this time. The present review focuses on the regulation and development of early stage (primordial, primary, and secondary) folliculogenesis highlighting the mechanisms of primordial follicle activation, growth of primary and secondary follicles and finally transition from secondary to tertiary follicles. We also discuss the importance of in vitro follicle culture for the understanding of folliculogenesis during the preantral phase. Studies suggest that follicular development from primordial to early antral stages is primarily controlled by intra-ovarian ligands but it can also be influenced by many extra-ovarian factors. The control of early folliculogenesis is, therefore, extremely complex because several ligands act through distinct signaling pathways that form sophisticated information networks responding to multiple, often opposing, stimuli. The balance among different stimuli determines follicular survival or death as well as quiescence or activation (growth). The distribution of the ligands and their corresponding receptors varies among follicular compartments and species, and significant changes in gene expression pattern among follicular categories have been reported. Knowing that follicular requirements during early folliculogenesis can be stage-specific and speciesspecific, in vitro culture studies offer an alternative to evaluate single and combined factors during a specific period of follicular development. Herewith we summarize the main findings obtained in vitro together with the mechanisms regulating folliculogenesis.
Assuntos
Animais , Folículo Ovariano/crescimento & desenvolvimento , Folículo Ovariano/enzimologia , Folículo Ovariano/fisiologiaResumo
A maioria dos oócitos imaturos nos ovários encontra-se armazenada nos folículos pré-antrais, sendo este a principal reserva ovariana. Entretanto, durante o desenvolvimento folicular uma pequena proporção (0,1%) destes folículos chega ao estágio pré-ovulatório sendo o restante eliminado por atresia. A tecnologia de cultivo folicular in vitro, denominada ovário artificial, representa uma excelente ferramenta para desvendar o controle da foliculogênese nos estágios iniciais de desenvolvimento, bem como poderá assegurar no futuro a utilização de um grande número de oócitos imaturos, previamente crescidos in vitro, em técnicas de reprodução assistida em humanos e em outras espécies, incluindo os ruminantes. Os melhores resultados da tecnologia do ovário artificial foram relatados em camundongos, com a produção de crias vivas a partir de folículos primordiais crescidos in vitro. Entretanto, em outras espécies, incluindo os ruminantes, os resultados têm sido restritos à produção de um pequeno e variável número de oócitos maturos e uma baixa taxa de produção de embriões após o cultivo in vitro de folículos secundários isolados. A presente revisão discute as aplicações, critérios para avaliação de eficiência, estado atual, limitações e perspectivas da tecnologia do ovário artificial em ruminantes, com ênfase nas espécies bovina, caprina e ovina.(AU)
Most immature oocytes in the ovaries are stored in the preantral follicles, which represent the main ovarian reserve. However, during follicular development, a small proportion (0.1%) of these follicles reaches the preovulatory stage, the rest being eliminated by atresia. The in vitro follicle culture technology, called artificial ovary, represents an excellent tool to understand the control of folliculogenesis in the early stages of development, as well as to ensure in the future the use of a large number of immature oocytes, previously grown in vitro, in assisted reproductive technologies in humans and other species, including ruminants. The best results from artificial ovary technology so far were reported in mice, with the production of live offspring from primordial follicles grown in vitro. However, in other species, including ruminants, the results have been limited to the production of a small and variable number of mature oocytes and a low rate of embryo production after in vitro culture of isolated secondary follicles. The present review discusses the applications, criteria for evaluating efficiency, current status, limitations and perspectives of artificial ovary technology in ruminants, with emphasis on bovine, caprine, and ovine species.(AU)
Assuntos
Animais , Oócitos , Técnicas Reprodutivas/veterinária , RuminantesResumo
A maioria dos oócitos imaturos nos ovários encontra-se armazenada nos folículos pré-antrais, sendo este a principal reserva ovariana. Entretanto, durante o desenvolvimento folicular uma pequena proporção (0,1%) destes folículos chega ao estágio pré-ovulatório sendo o restante eliminado por atresia. A tecnologia de cultivo folicular in vitro, denominada ovário artificial, representa uma excelente ferramenta para desvendar o controle da foliculogênese nos estágios iniciais de desenvolvimento, bem como poderá assegurar no futuro a utilização de um grande número de oócitos imaturos, previamente crescidos in vitro, em técnicas de reprodução assistida em humanos e em outras espécies, incluindo os ruminantes. Os melhores resultados da tecnologia do ovário artificial foram relatados em camundongos, com a produção de crias vivas a partir de folículos primordiais crescidos in vitro. Entretanto, em outras espécies, incluindo os ruminantes, os resultados têm sido restritos à produção de um pequeno e variável número de oócitos maturos e uma baixa taxa de produção de embriões após o cultivo in vitro de folículos secundários isolados. A presente revisão discute as aplicações, critérios para avaliação de eficiência, estado atual, limitações e perspectivas da tecnologia do ovário artificial em ruminantes, com ênfase nas espécies bovina, caprina e ovina.
Most immature oocytes in the ovaries are stored in the preantral follicles, which represent the main ovarian reserve. However, during follicular development, a small proportion (0.1%) of these follicles reaches the preovulatory stage, the rest being eliminated by atresia. The in vitro follicle culture technology, called artificial ovary, represents an excellent tool to understand the control of folliculogenesis in the early stages of development, as well as to ensure in the future the use of a large number of immature oocytes, previously grown in vitro, in assisted reproductive technologies in humans and other species, including ruminants. The best results from artificial ovary technology so far were reported in mice, with the production of live offspring from primordial follicles grown in vitro. However, in other species, including ruminants, the results have been limited to the production of a small and variable number of mature oocytes and a low rate of embryo production after in vitro culture of isolated secondary follicles. The present review discusses the applications, criteria for evaluating efficiency, current status, limitations and perspectives of artificial ovary technology in ruminants, with emphasis on bovine, caprine, and ovine species.
Assuntos
Animais , Oócitos , Ruminantes , Técnicas Reprodutivas/veterináriaResumo
The oocyte undergoes a remarkably long andelaborated journey within the follicle before becomingfully equipped to sustain embryonic development. Itsability to support early embryonic development relieslargely on the maternal transcripts accumulated duringits growth and maturation. However, it is still not clearwhat transcriptome blueprint composes a competentoocyte. A number of extensive studies provided adetailed characterization of the mRNA molecules thatare gradually accumulated in the oocyte cytoplasm. Thedetail of our knowledge has gradually increased throughthe years also thanks to the development andimprovement of the analytical techniques. From realtimePCR analysis of single transcripts, to the wholetranscriptome approach of gene arrays and newgenereation sequencing, scientists accumulated anexponentially growing amount of new information.More recently, the discovery of non-coding RNAsrevealed a new layer of complexity in the mechanismsthat modulate gene expression at the mRNA level, infolliculogenesis and oogenesis. In particular, data areemerging on the potential role of microRNAs incontrolling ovarian function, oocyte maturation and theoocyte-somatic cell cross talk. This review will try tosummarize the vast amount of data currently available onthe mRNAs and microRNAs associated with the ovarianfunction and to find their biological significance.
Assuntos
Feminino , Animais , Folículo Ovariano/embriologia , Folículo Ovariano/química , Oócitos/citologia , Oócitos/química , TranscriptomaResumo
The aims of this study were to verify the effects of Epidermal Growth Factor (EGF) on the morphology, primordial follicle activation, growth and proliferation of granulosa cells of ovine follicles cultured in situ, as well as the effect of a PI3K inhibitor on the follicular activation. Ten ovine ovaries were divided into fragments, being one fixed for histological analysis (fresh control). The remaining fragments were cultured for 7 days in control medium (α-MEM+) alone or supplemented with EGF (1, 10, 50, 100 or 200 ng/mL). Follicles were classified as normal or atretic, as primordial or growing, and the oocyte and follicle diameters were measured. PCNA immunohistochemistry was performed in the fresh control and in treatment that showed the bestresults for follicular activation. Pharmacologic inhibition of PI3K activity was performed through pretreatment in media added with 50 μMLY294002 for 1 h. The percentage of normal follicles decreased (P 0.05). In conclusion, PI3K pathway mediates the in vitrospontaneous activation of sheep primordial follicles. Moreover, EGF may act indirectly on follicular activation by promoting granulosa cell proliferation at 1 ng/mL, and EGF inhibited follicle activation in concentrations similar or higher than 10 ng/mL.
Assuntos
Animais , Fator de Crescimento Epidérmico/análise , Fator de Crescimento Epidérmico/efeitos adversos , Ovinos/crescimento & desenvolvimento , Ovinos/fisiologia , Células-TroncoResumo
The oocyte undergoes a remarkably long andelaborated journey within the follicle before becomingfully equipped to sustain embryonic development. Itsability to support early embryonic development relieslargely on the maternal transcripts accumulated duringits growth and maturation. However, it is still not clearwhat transcriptome blueprint composes a competentoocyte. A number of extensive studies provided adetailed characterization of the mRNA molecules thatare gradually accumulated in the oocyte cytoplasm. Thedetail of our knowledge has gradually increased throughthe years also thanks to the development andimprovement of the analytical techniques. From realtimePCR analysis of single transcripts, to the wholetranscriptome approach of gene arrays and newgenereation sequencing, scientists accumulated anexponentially growing amount of new information.More recently, the discovery of non-coding RNAsrevealed a new layer of complexity in the mechanismsthat modulate gene expression at the mRNA level, infolliculogenesis and oogenesis. In particular, data areemerging on the potential role of microRNAs incontrolling ovarian function, oocyte maturation and theoocyte-somatic cell cross talk. This review will try tosummarize the vast amount of data currently available onthe mRNAs and microRNAs associated with the ovarianfunction and to find their biological significance.(AU)
Assuntos
Animais , Feminino , Oócitos/química , Oócitos/citologia , Folículo Ovariano/química , Folículo Ovariano/embriologia , TranscriptomaResumo
The aims of this study were to verify the effects of Epidermal Growth Factor (EGF) on the morphology, primordial follicle activation, growth and proliferation of granulosa cells of ovine follicles cultured in situ, as well as the effect of a PI3K inhibitor on the follicular activation. Ten ovine ovaries were divided into fragments, being one fixed for histological analysis (fresh control). The remaining fragments were cultured for 7 days in control medium (α-MEM+) alone or supplemented with EGF (1, 10, 50, 100 or 200 ng/mL). Follicles were classified as normal or atretic, as primordial or growing, and the oocyte and follicle diameters were measured. PCNA immunohistochemistry was performed in the fresh control and in treatment that showed the bestresults for follicular activation. Pharmacologic inhibition of PI3K activity was performed through pretreatment in media added with 50 μMLY294002 for 1 h. The percentage of normal follicles decreased (P < 0.05) after 7 days of culture in all treatments compared to the fresh control. A significantreduction in the percentage of primordial follicles and an increase (P < 0.05) in the growing ones were observed in all treatments compared to fresh control. Furthermore, both the control medium and 1 ng/mL EGF promoted an increase (P < 0.05) in follicular activation compared to other EGF treatments. The PCNA-positive cells in the EGF treatment were higher (P < 0.05) than in fresh control and α-MEM+. Pretreatment of ovarian tissue with PI3K inhibitor significantly inhibited (P < 0.05) α-MEM+-stimulated primordial follicle activation, but had no effect on EGF-stimulated activation (P > 0.05). In conclusion, PI3K pathway mediates the in vitrospontaneous activation of sheep primordial follicles. Moreover, EGF may act indirectly on follicular activation by promoting granulosa cell proliferation at 1 ng/mL, and EGF inhibited follicle activation in concentrations similar or higher than 10 ng/mL.(AU)
Assuntos
Animais , Ovinos/crescimento & desenvolvimento , Ovinos/fisiologia , Fator de Crescimento Epidérmico/efeitos adversos , Fator de Crescimento Epidérmico/análise , Células-TroncoResumo
O hormônio antimülleriano (AMH) nas fêmeas é produzido especificamente pelas células da granulosa dos folículos em crescimento e controla a velocidade do crescimento folicular ao inibir a enzima aromatase. Este hormônio tem sido explorado em várias aplicações biotecnológicas, sendo a mais bem estudada a relação positiva entre a sua concentração circulante e a população folicular antral (PFA) no ovário, tornando o AMH um indicador confiável desta característica em humanos e em outras espécies. O AMH também mostrou ser um indicador prognóstico positivo do rendimento de embriões em programas de ovulação múltipla e transferência de embriões (MOET) em bovinos, porém sua utilidade para identificar fêmeas doadoras de oócitos para produção de embriões in vitro (IVEP) ainda está em discussão. Em búfalos, apenas poucos estudos foram realizados até o momento, porém devido a baixa reserva folicular ovariana na espécie e a grande variabilidade individual, que criam um desafio para ART (Assisted Reproduction Technology) na espécie, o AMH surge com grande potencial de se tornar alternativa eficiente para a identificação precoce de doadores de oócitos para IVEP. Estudos sobre AMH demonstraram claramente sua utilidade como parte do "pacote de biotecnologia reprodutiva" em algumas espécies, especialmente em seres humanos. Em animais de produção, como bovinos, e principalmente no búfalo, estudos adicionais são necessários para definir a utilidade da AMH não apenas como um bom preditor da AFP, mas também como uma ferramenta chave em programas de biotecnologia reprodutiva em todo o mundo.(AU)
The antimüllerian hormone (AMH) in females ias specifically produced by the granulosa cells of growing follicles and controls the speed of follicular growth by inhibit the enzyme aromatase. This has been recently explored in several biotechnological applications with the most well studied being the positive relationship between circulating concentration of circulating AMH and the antral follicular population (PFA) in the ovary,where AMH is becoming accepted as a reliable indicator of this characteristic in both humans and other species. AMH has also been shown to be a positive prognostic indicator of embryo yield in multiple ovulation and embryo transfer (MOET) in cattle, however its utility for identifying good oocyte donors for in vitro embryo production (IVEP) in bovines is still under debate. In buffaloes, only limited studies have been completed, however with the low ovarian follicular reserve in the species and the great individual variability creating a challenge for ART (Assisted Reproduction Technology) the enormous potential of AMH as an efficient alternative of early identification of oocyte donors for IVEP has been suggested. In summary, studies on AMH have clearly demonstrated its utility as part of the "reproductive biotechnology package" in some species, especially in humans and in farm animals such as cattle. In the buffalo, further studies are needed to define the usefulness of AMH not only as a good predictor of AFP but also as a key tool in buffalo reproductive biotechnology programs worldwide.(AU)