RESUMO

The establishment and maintenance of a pregnancy that goes to term is sine qua non for the long-term sustainability of dairy and beef cattle operations. The oocyte plays a critical role in providing the factors necessary for preimplantation embryonic development. Furthermore, the female, or maternal, environment where oocytes and embryos develop is crucial for the establishment and maintenance of a pregnancy to term. During folliculogenesis, the oocyte must sequentially acquire meiotic and developmental competence, which are the results of a series of molecular events preparing the highly specialized gamete to return to totipotency after fertilization. Given that folliculogenesis is a lengthy process in the cow, the occurrence of disease, metabolic imbalances, heat stress, or other adverse events can make it challenging to maintain oocyte quality. Following fertilization, the newly formed embryo must execute a tightly planned program that includes global DNA remodeling, activation of the embryonic genome, and cell fate decisions to form a blastocyst within a few days and cell divisions. The increasing use of assisted reproductive technologies creates an additional layer of complexity to ensure the highest oocyte and embryo quality given that in vitro systems do not faithfully recreate the physiological maternal environment. In this review, we discuss cellular and molecular factors and events known to be crucial for proper oocyte development and maturation, as well as adverse events that may negatively affect the oocyte; and the importance of the uterine environment, including signaling proteins in the maternal-embryonic interactions that ensure proper embryo development. We also discuss the impact of assisted reproductive technologies in oocyte and embryo quality and developmental potential, and considerations when looking into the prospects for developing systems that allow for in vitro gametogenesis as a tool for assisted reproduction in cattle.

RESUMO

The establishment and maintenance of a pregnancy that goes to term is sine qua non for the long-term sustainability of dairy and beef cattle operations. The oocyte plays a critical role in providing the factors necessary for preimplantation embryonic development. Furthermore, the female, or maternal, environment where oocytes and embryos develop is crucial for the establishment and maintenance of a pregnancy to term. During folliculogenesis, the oocyte must sequentially acquire meiotic and developmental competence, which are the results of a series of molecular events preparing the highly specialized gamete to return to totipotency after fertilization. Given that folliculogenesis is a lengthy process in the cow, the occurrence of disease, metabolic imbalances, heat stress, or other adverse events can make it challenging to maintain oocyte quality. Following fertilization, the newly formed embryo must execute a tightly planned program that includes global DNA remodeling, activation of the embryonic genome, and cell fate decisions to form a blastocyst within a few days and cell divisions. The increasing use of assisted reproductive technologies creates an additional layer of complexity to ensure the highest oocyte and embryo quality given that in vitro systems do not faithfully recreate the physiological maternal environment. In this review, we discuss cellular and molecular factors and events known to be crucial for proper oocyte development and maturation, as well as adverse events that may negatively affect the oocyte; and the importance of the uterine environment, including signaling proteins in the maternal-embryonic interactions that ensure proper embryo development. We also discuss the impact of assisted reproductive technologies in oocyte and embryo quality and developmental potential, and considerations when looking into the prospects for developing systems that allow for in vitro gametogenesis as a tool for assisted reproduction in cattle.(AU)

Assuntos

Animais , Feminino , Gravidez , Bovinos/embriologia , Colo do Útero/embriologia , Células Germinativas/citologia , Técnicas de Reprodução Assistida/veterinária , Desenvolvimento Embrionário

RESUMO

Cattle productivity in tropical and subtropical regions can be severely affected by the environment. Reproductive performance, milk and meat production are compromised by the heat stress imposed by the elevated temperature and humidity. The resulting low productivity contributes to reduce the farmer's income and to increase the methane emissions per unit of animal protein produced and the pressure on land usage. The introduction of highly productive European cattle breeds as well as crossbreeding with local breeds have been adopted as strategies to increase productivity but the positive effects have been limited by the low adaptation of European animals to hot climates and by the reduction of the heterosis effect in the following generations. Gene editing tools allow precise modifications in the animal genome and can be an ally to the cattle industry in tropical and subtropical regions. Alleles associated with production or heat tolerance can be shifted between breeds without the need of crossbreeding. Alongside assisted reproductive biotechnologies and genome selection, gene editing can accelerate the genetic gain of indigenous breeds such as zebu cattle. This review focuses on some of the potential applications of gene editing for cattle farming in tropical and subtropical regions, bringing aspects related to heat stress, milk yield, bull reproduction and methane emissions.

RESUMO

Cattle productivity in tropical and subtropical regions can be severely affected by the environment. Reproductive performance, milk and meat production are compromised by the heat stress imposed by the elevated temperature and humidity. The resulting low productivity contributes to reduce the farmer's income and to increase the methane emissions per unit of animal protein produced and the pressure on land usage. The introduction of highly productive European cattle breeds as well as crossbreeding with local breeds have been adopted as strategies to increase productivity but the positive effects have been limited by the low adaptation of European animals to hot climates and by the reduction of the heterosis effect in the following generations. Gene editing tools allow precise modifications in the animal genome and can be an ally to the cattle industry in tropical and subtropical regions. Alleles associated with production or heat tolerance can be shifted between breeds without the need of crossbreeding. Alongside assisted reproductive biotechnologies and genome selection, gene editing can accelerate the genetic gain of indigenous breeds such as zebu cattle. This review focuses on some of the potential applications of gene editing for cattle farming in tropical and subtropical regions, bringing aspects related to heat stress, milk yield, bull reproduction and methane emissions.(AU)

Assuntos

Animais , Masculino , Bovinos/embriologia , Transtornos de Estresse por Calor , Edição de Genes/tendências , Criação de Animais Domésticos/tendências

RESUMO

A identificação das ondas foliculares ovarianas e de seu padrão hormonal revelou que os folículos ovarianos dominantes da onda ovulatória (FDOO) crescem em ambiente hormonal com predominância crescente de estradiol, diferentemente daqueles da primeira (FDPO) e das ondas foliculares intermediárias (FDOI), que crescem sob forte impacto da progesterona (P4). O hormônio luteinizante (LH) é considerado o hormônio gonadotrófico decisivo para direcionar se um folículo dominante ovulará (↑ LH) ou não (↓ LH). Estratégias foram desenvolvidas para aumentar o LH endógeno (administração de GnRH) ou fornecer LH exógeno de origem suína (pLH) ou, ainda, gonadotrofinas semelhantes ao LH, como gonadotrofina coriônica humana (hCG). Estas medidas são capazes de disponibilizar LH para maturação final, ovulação e/ou luteinização de FDPO ou FDOI, formando corpos lúteos acessórios (CLa). Como consequência, a P4 aumenta e favorece o estabelecimento da gestação, sobretudo em condições em que a P4 for o fator limitante para a implantação e manutenção embrionária. Em ovelhas e cabras, em diferentes estudos, a hCG foi administrada de cinco a sete dias após o início do estro e revelou que o FDPO responde positivamente à administração de hCG, formando CLa e/ou promovendo a hipertrofia do CL formado originalmente, aumentando a área luteal. O incremento da P4 normalmente acompanha o aumento de área do tecido luteal. Como efeito final e mais desejável, a gestação e o nascimento de cordeiros/cabritos também aumentam. Esses conceitos serão discutidos na presente revisão sobre indução de CLa em ovinos e caprinos.

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The identification of ovarian follicular waves and associated hormonal milieux has revealed that dominant follicles of the ovulatory wave (OWDF) grow in a hormonal environment where there is an increasing predominance of estradiol, unlike first-wave dominant follicles (FWDF) and intermediatewave dominant follicles (IWDF), which grow under increasing progesterone (P4) concentrations. The luteinizing hormone (LH) is considered the decisive gonadotropic hormone to direct whether a dominant follicle will (↑ LH) or will not (↓ LH) ovulate. Based on this, strategies have been developed to either increase endogenous LH (GnRH administration) or provide exogenous LH of porcine origin (pLH) or LH-like gonadotropins, such as human chorionic gonadotropin (hCG). Such strategies are able to provide LH for final maturation, ovulation, and/or luteinization of the FWDF or IWDF, forming accessory corpora lutea (aCL). As a consequence, P4 increases and favors the establishment of pregnancy, particularly when P4 is the limiting factor for the success of the conceptus implantation and maintenance. In sheep and goats, previous studies have administered hCG five to seven days after the onset of estrus and revealed that FWDF positively respond to hCG administration by either forming aCLs and/or promoting hypertrofia of the original CL which, in turn, increases its luteal tissue area. Normally, P4 synthesis increases along with the increase in luteal tissue area. As a final and most desirable outcome, pregnancy and the birth of lambs/kids also increase. These concepts will be discussed in this review, focusing on aCL induction in sheep and goats.

Assuntos

Feminino , Animais , Corpo Lúteo/fisiologia , Fenômenos Reprodutivos Fisiológicos , Ovinos/fisiologia , Ruminantes/fisiologia

RESUMO

The aim of the present study was to evaluate the likelihood of pregnancy of in vitro-produced (IVP) embryos from batches with distinct relative efficiencies. Data were retrospectively analyzed from 605 transvaginal ultrasonic-guided follicle aspiration sessions (OPU) followed by in vitro embryo production (IVEP) and 2456 fresh embryo transfers (ET), performed between 2008 and 2012 in individuals of the Gir (dairy Bos indicus) breed. The OPU and IVEP were performed using standard procedures by a single group of technicians at the same laboratory facility. Records were stratified into quartiles (I to IV) according to the total of cumulus-oocytes complexes (COC) produced per donor, or in percentile ranges (0%-25%, 26%-50%, 51%-75%, and 76%-100%) for endpoints related to COC quality or efficiency of embryo production. Pregnancy per embryo transfer (P/ET) was compared among quartiles or ranges using the chi-squared test. Donors producing a greater number of total COC (quartile I) also had more viable and grade I COC, and a greater number of embryos than donors ranked in quartiles II, III or IV, respectively (P < 0.0001). Nevertheless, P/ET did not differ (P > 0.05) among embryos produced by donors ranked in Quartiles I to IV. Similarly, there was no difference (P > 0.05) in P/ET for embryos derived from OPU sessions with a relatively greater or lesser percentage of viable or Grade I COC. Cleavage and blastocyst rates within each IVEP batch had no effect (P > 0.05) on P/ET. In conclusion, data suggest that there is no relationship among oocyte yield after OPU, or efficiency of IVEP, and the likelihood of pregnancy after ET of fresh IVP embryos.

Assuntos

Bovinos , Técnicas de Cultura Embrionária , Transferência Embrionária , Fertilização in vitro , Recuperação de Oócitos , Taxa de Gravidez , Animais , Bovinos/embriologia , Bovinos/fisiologia , Células Cultivadas , Técnicas de Cultura Embrionária/métodos , Técnicas de Cultura Embrionária/veterinária , Transferência Embrionária/métodos , Transferência Embrionária/veterinária , Feminino , Fertilização in vitro/métodos , Fertilização in vitro/veterinária , Técnicas de Maturação in Vitro de Oócitos/veterinária , Masculino , Recuperação de Oócitos/métodos , Recuperação de Oócitos/veterinária , Gravidez , Resultado da Gravidez/epidemiologia , Resultado da Gravidez/veterinária , Estudos Retrospectivos , Resultado do Tratamento

RESUMO

Livestock production is of great importance for the economy of most South American countries, a region that accounts for 23.0% of the world cattle population (Food Agriculture Organization - FAO, 2017). Not surprisingly, the embryo industry is historically very active in this region, particularly in Argentina and Brazil. The field of bovine embryo transfer underwent a remarkable change in the past two decades in Brazil, mainly due to in vitro embryo production (IVEP). Total embryo production increased dramatically, along with constant changes in the main features of the embryo industry - from market niches to mass production, from beef to the dairy sector, from zebu to European breeds. Recently, IVEP has also emerged in other South American countries. This review summarizes and describes factors driving the changes in the Brazilian embryo industry and discusses some of the impacts upon other embryo-related technologies.

RESUMO

Livestock production is of great importance for the economy of most South American countries, a region that accounts for 23.0% of the world cattle population (Food Agriculture Organization - FAO, 2017). Not surprisingly, the embryo industry is historically very active in this region, particularly in Argentina and Brazil. The field of bovine embryo transfer underwent a remarkable change in the past two decades in Brazil, mainly due to in vitro embryo production (IVEP). Total embryo production increased dramatically, along with constant changes in the main features of the embryo industry from market niches to mass production, from beef to the dairy sector, from zebu to European breeds. Recently, IVEP has also emerged in other South American countries. This review summarizes and describes factors driving the changes in the Brazilian embryo industry and discusses some of the impacts upon other embryo-related technologies.(AU)

Assuntos

Animais , Bovinos , Superovulação , Fertilização in vitro/estatística & dados numéricos , Criação de Animais Domésticos/estatística & dados numéricos

RESUMO

Livestock production is of great importance for the economy of most South American countries, a region that accounts for 23.0% of the world cattle population (Food Agriculture Organization - FAO, 2017). Not surprisingly, the embryo industry is historically very active in this region, particularly in Argentina and Brazil. The field of bovine embryo transfer underwent a remarkable change in the past two decades in Brazil, mainly due to in vitro embryo production (IVEP). Total embryo production increased dramatically, along with constant changes in the main features of the embryo industry – from market niches to mass production, from beef to the dairy sector, from zebu to European breeds. Recently, IVEP has also emerged in other South American countries. This review summarizes and describes factors driving the changes in the Brazilian embryo industry and discusses some of the impacts upon other embryo-related technologies.

Assuntos

Animais , Bovinos , Criação de Animais Domésticos/estatística & dados numéricos , Fertilização in vitro/estatística & dados numéricos , Superovulação

RESUMO

The aim of this review is to provide a brief description of the current situation of the embryo industry in Brazil, in the context of the national and international livestock production scenario. Total number of embryos produced (375,894) declined in 2015 in comparison with the previous years. B. Taurus dairy breeds and crossbreds accounted for 51.8% of the total embryo production. Moreover, the percentage of frozen-tawed embryos transferred reached 22.8% in 2015, the highest value in a decade. A greater proportion of embryos were produced in vitro, both in dairy (97.2%) and beef (90.2%) breeds. The use of embryo technologies in Brazil has remarkably increased 726.5% in the past 20 years, but still represents only 0.33% of the number of cows and heifers at reproductive age. Nonetheless, embryo transfer (ET)accounted for an estimated 19.7% of all purebred calves born and registered by the Brazilian Zebu Cattle Breeders Association in the period 2005-2015, highlighting the importance of ET for animal breeding and genetic improvement of the herd. In the world ́s context, Brazil is the largest producer of bovine in vitro produced (IVP) embryos, but is ranked only 11th based on an index of intensity of use of embryo technologies, below Canada, USA and various European countries. This scenario demonstrates a potential for further increases in embryo production in Brazil, mainly associated with the expected adoption of new technologies by a large proportion of dairy and beef farms; the use of embryo technologies for large scale production of crossbreds; and to eventual increases in the international embryo import/export activity.

Assuntos

Indústria Agropecuária/economia , Indústria Agropecuária/história , Pesquisas com Embriões/ética , Pesquisas com Embriões/história , Transferência Embrionária/economia , Transferência Embrionária/história , Transferência Embrionária/tendências