In vitro production of embryos in South American camelids

Studies in reproductive biotechnology techniques have been minimal in South American camelids (SAC). Complex reproductive characteristics of these species contribute to slow progress. Nevertheless, some techniques, such as in vitro fertilization, intracytoplasmic sperm injection and nuclear transfer have been applied and have produced advances in knowledge on embryo environment and in vitro conditions necessary for development. Embryo production may have a high impact in both domestic and wild camelids population. Studies addressed to improve in vitro embryo production and oocyte collection could be a potential key to develop IVF and embryo production as a routine procedure in camelids.     

Semen preservation and artificial insemination in domesticated South American camelids

Semen preservation and artificial insemination in South American camelids are reviewed giving emphasis to work done in Peru and by the authors. Reports on semen evaluation and the preservation process indicate that semen of alpacas and llamas can be manipulated by making it liquid first. Collagenase appears to be the best enzyme to eliminate viscosity. Tris buffer solution maintains a higher motility than egg-yolk citrate, phosphate buffered saline (PBS), Triladyl, and Merck-I extenders. Cooling of semen took 1 h after collected, and equilibrated with 7% glycerol presented a better motility and spermatozoa survival at 1, 7, 15 and 30 days after being slowly frozen in 0.25 mL plastic straws. Trials of artificial insemination with freshly diluted semen and frozen–thawed semen are encouraging and needs to be tested extensively under field conditions. Recently, fertility rates varied from 3 to 67%. Semen preservation and most important, artificial insemination appear to be a reality, and could be used to improve the genetic quality of alpacas and llamas.     

Induction of superovulation in South American camelids

The development of assisted reproductive technologies such as embryo transfer (ET), artificial insemination (AI) and in vitro fertilization (IVF) in South American camelids is considerably behind that of other livestock species. Poor success of the embryo transfer technique has been related to a lack of an effective superstimulatory treatment, low embryo recovery rate, and the recovery of hatched blastocysts that are not conducive to the cryopreservation process. Superstimulation has been attempted using equine chorionic gonadotropin (eCG) and follicle stimulating hormone (FSH) during the luteal, or the sexually receptive phase, sometimes given at follicular wave emergence. The rationale for inducing a luteal phase prior to or during superstimulation in camelids is not clearly understood, but it may simply reflect an empirical bias to conventional methods used in other ruminants. The number of ovulations or CL varies widely among studies, ranging from 2 to more than 15 per animal, with the number of transferable embryos ranging from 0 to 4 per animal. The control of follicular growth combined with superstimulatory protocols has resulted in a more consistent ovarian response and a greater number of follicles available for aspiration and oocyte collection. Recent studies in llamas have demonstrated that the use of ovulation inducing treatments or follicle ablation can synchronize follicular wave emergence allowing the initiation of gonadotropin treatment in the absence of a dominant follicle resulting in a more consistent ovulatory response. Few studies in alpacas have been reported, but it appears from recent field studies that the ovarian response is more variable and that there is a greater number of poor responders than in llamas. A review of superstimulation protocols that have been used in llamas and alpacas in the last 15 years is provided, including a discussion of the potential of protocols designed to initiate treatment at specific stages of follicular growth.     

Factors influencing embryo transfer success in alpacas—A retrospective study

Embryo transfer offers great advantages to South American camelid farmers to reach their breeding goals but the technology still plays a relatively minor role in comparison to other domestic farm animals like cattle. The aim of the present study was to analyse a data set of 5547 single or multiple ovulation embryo transfers performed in commercial alpaca farms in Australia to determine the factors that influence number and quality of embryos produced, embryo transfer success (percentage of crias born) and gestation length following transfer. Logistic binary regression identified the variables day of flushing after mating, embryo diameter, embryo quality, day of transfer after GnRH, and the age of the recipient to have significant impact on the outcome measure embryo transfer success. Transfer of smaller embryos or lower quality embryos resulted in decreased transfer success rates. Optimal days for obtaining embryos from donors were Days 8 and 9 after mating, optimal days for transfer into recipients were Days 7 and 8 after GnRH treatment. Age (>15 years) and body condition of recipients <2 also lowered transfer success rates, while the summer heat had no adverse impact. However, season did influence gestation length, while cria gender did not. In conclusion, results from the analysis of this very large dataset can underpin new recommendations to improve embryo transfer success in alpacas.     

Embryo quality and transcervical technique are not the limiting factors in donkey embryo transfer outcome

Embryo transfer (ET) in the donkey resulted in a very low recipient pregnancy rates. The aim of these studies was to investigate if nonsurgical transfer techniques or donkey embryo quality affect donkey recipient pregnancy failure. In Study 1, the impact of transfer technique was investigated by evaluating if cervical catheterization is associated with prostaglandin release and suppression of luteal function and if donkey recipients would become pregnant after nonsurgical transfer of horse embryos. Four jennies, from 5 to 8 d after ovulation, were submitted to a sham transcervical ET and to evaluation of PGFM and progesterone plasma concentrations. Five 8 d horse embryos were nonsurgically transferred into synchronized donkey recipients (HD). Cervical stimulation caused a transient PGF_2α release in two of four jennies in the absence of a significant decrease in progesterone plasma concentration. All transferred horse embryos resulted in pregnancies in the jenny recipients. In Study 2, donkey embryo viability was investigated by 1.2 meters, 6-diamidino-2-phenylindole (DAPI) staining of 10 embryos and by the transfer of 6 and 12 donkey embryos in synchronized mare (DH) and donkey (DD) recipients, respectively, of known fertility. The estimated proportion of dead cells in DAPI stained embryos was 0.9% (range 0-3.9%) and below what is considered normal (20%) for horse embryos. Three of six and six of 12 of the DH and DD ETs, respectively resulted in pregnancies at 14 and 25 d (50%), a higher pregnancy rate than previously reported after DD ET. The overall results of this study suggest that the transcervical technique for ET and donkey embryo viability are not the reasons for the low pregnancy rates that have previously been described in donkey recipients, and that nonsurgical ET in donkeys can result in acceptable results.     

Blood typing South American camelids

Preliminary blood typing tests were made on New World camelids, guanacos, llamas, and two hybrids. Erythrocyte samples were tested against a battery of cattle blood typing reagents. Three different reagents were prepared from rabbit anti-erythrocyte sera. Transferrin variation and lectin polymorphism also were observed. No naturally occurring isoantibodies were found. Blood typing tests of New World camelids were shown to be feasible for studies of taxonomic relationships.     

A review on reproduction in South American camelids

In this paper, aspects of reproductive physiology and endocrinology, as well as sexual behaviour in South American camelids are reviewed. Because of the many unique features of reproduction in these animals, the application of advanced breeding techniques that are routinely used in other domestic species has been slow and, in some cases, are not applicable. Relatively high embryonic loss and the capacity to carry only one offspring at a time limit production in females. Furthermore, some 20% of females do not conceive following mating. Research is needed to elucidate the causes of embryonic loss, particularly in relation to the preferential location of embryos in the left uterine horn and the apparent differential luteolytic activity of the two uterine horns. A fuller understanding of the endocrine changes and mechanisms accompanying folliculogenesis, estrus, induction of ovulation and luteal regression may led to treatments that provide better control of ovulation and enhance the quality and viability of eggs shed. In the male, the hormonal interactions involved in facilitating libido need to be established and the underlying causes of declining libido resulting from continued exposure to estrous females, identified. More importantly, there is a need to develop a routine method to collect semen from animals on farm, or in studs. Deficiencies in this area have long hampered the evaluation of sires through proper assessment of their semen quality and in the application of artificial insemination. In addition, establishment of techniques to freeze semen from these species has obvious advantages for breeding, including crossbreeding between species to improve products such as fibre and to assist in preservation of some of the more endangered New World camelids.     

小鼠胚胎徒手分割技术的研究

目的　研究不同分割液和分割前胚胎去致密化与否对昆明白系小鼠的桑椹胚和囊胚的徒手分割以及分割后胚胎移植的影响。方法　在mPBS、1 2 5 %蔗糖液和进口分割液三种不同分割液中对桑椹胚和囊胚进行徒手分割。结果和结论　在蔗糖液与进口分割液中分割桑椹胚 ,成功率显著高于mPBS处理组 (6 9 5 3%、77 4 0 %vs5 6 82 % ) (P <0 0 5 ) ,而半胚的囊胚发育率及囊胚细胞数三组差异均无显著性 (P >0 0 5 ) ;在蔗糖液与进口分割液中分割囊胚 ,分割后半胚培养的囊胚发育率显著高于mPBS处理组 (72 38%、74 2 9%vs 5 6 2 0 % ) (P <0 0 1 ) ,而分割成功率及囊胚细胞数三组差异均无显著性 (P >0 0 5 ) ;各处理组半胚的囊胚发育率及囊胚细胞数都显著低于对照组体外培养桑椹胚的囊胚发育率 (98 70 % )和囊胚细胞数 (6 3 6 7± 5 78) (P <0 0 1 ) ;桑椹胚经去致密化处理后分割 ,其分割成功率显著高于未处理组 (82 90 %vs 5 6 6 0 % ) (P <0 0 1 ) ,处理组半胚培养的囊胚发育率也显著高于未处理组 (73 80 %vs 4 6 80 % ) (P <0 0 1 ) ;共移植 1 4 2枚 2分胚形成的囊胚移植于 1 1只受体 ,其中 3只妊娠 ,分别产仔 2只、3只和 4只     

Artificial insemination in South American camelids and wild equids

An overview of the present status of the use of artificial insemination (AI) in South American camelids and wild equids is offered. Technical aspects of semen collection, dilution and cryopreservation have limited the development and use of AI in camelid and equid species. To-date, efficiency is low but progress has been made and viable offspring have been produced through the use of AI in domestic South American camelids using both fresh and frozen semen. The origin, composition, and function of the viscous component of camelid seminal plasma remain a mystery and an obvious area for future research. A better understanding of the normal constituents of seminal plasma will enable the rational design of semen extenders suitable for camelids. Post-thaw sperm viability is very low, and studies are needed to address questions of optimal freezing and thawing procedures as well as the insemination dose. The basis for differences in reported pregnancy rates with sexed and frozen semen in domestic equids, and the ultimate success of AI in wild equids will require continued research into the "stallion effect", extenders and cryoprotectants, optimal volume and number of spermatozoa, temperatures during handling, processing an transport, and insemination techniques. In both camelids and equids, research on domestic species under controlled conditions provides and excellent opportunity to develop effective semen handling techniques for application in wild and endangered species of the respective families.     

哺乳动物胚胎分割研究进展及应用前景

胚胎分割是研究细胞分化、早期胚胎发育、胚胎细胞全能性的有力手段。采用不同的分割方法可对不同时期的胚胎进行分割。有多方面因素影响分割胚胎的成活率。将胚胎分割技术与细胞核移植、临床诊断等相结合,将具有更为广阔的应用前景。     

Laparoscopic embryo transfer in domestic sheep: A preliminary study

An effective, minor-invasive technique for embryo transfer in sheep was developed using a laparoscopic transabdominal approach. Twelve recipient ewes received embryos either by conventional laparotomy or by laparoscopy. The estrous cycle of recipient ewes was synchronized using a progestagen-impregnated vaginal pessary/pregnant mares' serum gonadotropin treatment regimen. Donor ewes were superovulated with follicle stimulating hormone or human menopausal gonadotropin, bred with a ram of one breed and laparoscopically inseminated $\text{in}$$\text{utero}$ with semen from a different sheep breed. Five to six days after estrus, embryos were transferred laparoscopically into the terminal one-half of the recipient's uterine horn ipsilateral to the ovary with prominent corpus luteum development. Pregnancy was diagnosed by transrectal ultrasonic procedures, and by direct laparoscopic examination of the uterus. Of six laparoscopic transfers, three resulted in single births; one of six laparotomy transfers resulted in a live birth. Breed appearances of the four lambs born indicated that two of the offspring resulted from laparoscopic artificial insemination of the donor ewe. The results demonstrated that laparoscopic transfer of embryos was a rapid and safe procedure, easily applied to an ovine embryo transfer program and with potential for similiar studies in other species.     

Embryo transfer in two-year-old donor mares

Embryos were collected from two-year-old donor mares and transferred surgically during 1983 and 1984. The overall embryo recovery rate from two-year-old donors was 36.3%. Over both years, 71.4% of the donors ($\text{30}\text{42}$) provided at least one embryo. There was a trend both years for slightly higher embryo recovery rates prior to August 1 (47.7%), as compared to after August 1 (31.1%). Pregnancy rates in recipient mares after surgical embryo transfer were not affected by month of the breeding season. However, there was a trend for improved pregnancy rates when embryos were transferred after August 1 (87.5%), as compared to before August 1 (70.0%). There was a 8.3% incidence of fetal loss between Days 15 and 35 of gestation in recipients. The incidence of fetal loss between Days 35 and 60 of gestation was 2.7%. Based on these data, the chance of obtaining a pregnancy from a two-year-old mare is 28.2% (36.3% recovery × 77.7% pregnancy rate). Thus embryo transfer may prove to be a beneficial tool for obtaining foals from two-year-old donor mares.     

Birth of domestic cat kittens of predetermined sex after transfer of embryos produced by in vitro fertilization of oocytes with flow-sorted sperm

Our goals were to: (1) determine if domestic cat sperm could be sorted to high purity by flow cytometry after overnight shipment of cooled samples; (2) evaluate the efficiency with which sorted sperm could be used to generate cat embryos in vitro; and (3) determine if live kittens of predetermined sex could be produced after transfer of embryos derived by IVF using sorted sperm. Semen samples (n = 5) from one male were extended in electrolyte-free solution and shipped overnight at 4 °C to the sorting facility. Samples were adjusted to 75 × 10⁶ sperm/mL and stained with Hoechst 33342. After 1 h at 34.5 °C, samples were adjusted to 50 × 10⁶ sperm/mL with 4% egg yolk TALP + 0.002% food dye and sorted by high-speed flow cytometry. Later resort analysis confirmed purities of 94% and 83% for X- and Y-chromosome bearing sperm, respectively. Sorted sperm were centrifuged, re-suspended in TEST yolk buffer and shipped overnight to the IVF laboratory. After IVF of in vivo matured oocytes with X-chromosome bearing sperm, cleavage frequency was 62% (54/87). After IVF of IVM oocytes with control, X- or Y-chromosome bearing sperm, the incidence of cleavage was 42% (48/115), 33% (40/120), and 35% (52/150), respectively, and blastocyst development was 53% (21/40), 50% (11/22), and 55% (23/42), respectively (P > 0.05). On Day 2, 45 embryos produced by IVF of in vivo matured oocytes with X-chromosome bearing sperm were transferred to the oviduct of four Day 1 recipients, three of which subsequently delivered litters of one, four, and seven female kittens, respectively. In conclusion, we confirmed that sperm sorting technology can be applied to domestic cats and established that kittens of predetermined sex can be produced.     

In vivo survival of domestic cat oocytes after vitrification, intracytoplasmic sperm injection and embryo transfer

We evaluated: (1) cleavage rate after IVF or intracytoplasmic sperm injection (ICSI) of in vivo- and in vitro-matured oocytes after vitrification (experiment 1); and (2) fetal development after transfer of resultant ICSI-derived embryos into recipients (experiment 2). In vivo-matured cumulus-oocyte complexes (COCs) were recovered from gonadotropin-treated donors at 24 h after LH treatment. In vitro-matured oocytes were obtained by mincing ovaries (from local veterinary clinics) and placing COCs into maturation medium for 24 h. Mature oocytes were denuded and cryopreserved in a vitrification solution of 15% DMSO, 15% ethylene glycol, and 18% sucrose. In experiment 1, for both in vivo- and in vitro-matured oocytes, cleavage frequencies after IVF of control and vitrified oocytes and after ICSI of vitrified oocytes were not different (P > 0.05). After vitrification, blastocyst development occurred only in IVF-derived, in vitro-matured oocytes. In experiment 2, 18 presumptive zygotes and four two-cell embryos derived by ICSI of vitrified in vitro-matured oocytes and 19 presumptive zygotes produced from seven in vivo- and 12 in vitro-matured oocytes were transferred by laparoscopy into the oviducts of two recipients, respectively. On Day 21, there were three fetuses in one recipient and one fetus in the other. On Days 63 and 66 of gestation, four live kittens were born. In vivo viability of zygotes and/or embryos produced via ICSI of vitrified oocytes was established by birth of live kittens after transfer to recipients.     

Intergeneric somatic cell nucleus transfer in marbled cat and flat-headed cat

Intergeneric nucleus transfer (ig-NT) is a promising technique to produce offspring of endangered species. The objectives of this study were to (1) investigate the in vitro development of marbled cat (MC; Pardofelis marmorata) and flat-headed cat (FC; Prionailurus planiceps) ig-NT embryos reconstructed from domestic cat (DC; Felis catus) oocytes (Experiment 1), (2) evaluate the effect of individual FC donor cell lines on NT success (Experiment 2), and (3) assess the developmental ability of FC-cloned and DC-IVF embryos in vitro and in vivo after oviductal transfer (Experiment 3). In Experiment 1, the morula rate of FC-reconstructed embryos was significantly higher than those of MC and DC embryos but lower than that of parthenogenic DC embryos. However, blastocyst rate was not different. In Experiment 2, FC-ig-NT embryos reconstructed from female muscular tissue had significantly higher morula rate in comparison with those derived from other donor cell lines. However, there was no difference in blastocyst rate among cell lines. In Experiment 3, in vitro development of FC-ig-NT embryos was lower than that of DC-IVF embryos. The competency of in vivo development of FC-ig-NT and/or DC-IVF embryos was investigated by assessing pregnancy rate after their transfer into DC recipients. Domestic cat recipients receiving only FC-ig-NT embryos, FC-ig-NT embryos in one side of the oviduct and DC-IVF embryos contralaterally (co-transfer), and only DC-IVF embryos were observed. No pregnancy was detected in all recipients receiving FC-ig-NT embryos. One recipient receiving co-transferred embryos became pregnant, then delivered DC-IVF dead fetuses (n = 2) and live kittens (n = 6). All recipients receiving DC-IVF embryos became pregnant, and three of six recipients delivered five DC-IVF kittens. These results illustrate the developmental capacity of MC- and FC-ig-NT embryos up to the blastocyst stage. Individual donor cell line affects the developmental success up to the morula stage of FC-ig-NT embryos. Improving the developmental competence and quality of FC-ig-NT embryos may be required for implantation and development to term of FC-ig-NT offspring.     

Ag-NOR staining and in situ hybridization of rDNA in the chromosomes of the South American camelids

The location and frequency of Ag-stained NORs and sites of rDNA hybridization were studied in the chromosomes of the South American camelids. In the four camelids these regions occur distally on chromosomes 18, 21, and 27 and the smallest biarmed elements. Quantitative analysis of NOR distribution showed variations between both cells and species. In llama, guanaco and alpaca the NORs number averaged 6 per cell, this being higher than in vicuña where the average was 3. Relative frequencies of NOR-bearing chromosomes in the four camelids were similar. Yet, in vicuña the virtual absence of NOR sites on one of the smallest biarmed pairs was observed. The rDNA sites assessed in llama and vicuña by in situ hybridization with cloned 18S DNA were coincident with the NOR locations and with the frequencies characteristics for each species. Moreover, varying the exposure time of the autoradiographs, labeling patterns specific for each camelid were observed. Grain counts on individual chromosomes indicated that under our conditions one month exposure is enough to demonstrate all the rDNA sites available in the complement of llama. Conversely, at least two months are necessary to show the total sites existing in vicuña. Most probably this finding reflects the presence of variations in the amount of copies of the ribosomal genes per chromosome.     

Evaluation of insulin resistance in two kinds of South American camelids: llamas and alpacas

Insulin resistance was evaluated in South American camelids, llamas and alpacas, by use of the minimal model test and the insulin tolerance test. Animals were catheterized for long-term studies and tamed to minimize stress during evaluation. Results indicated a low insulin sensitivity index (SI) = 0 to 0.97, median = 0.39 x 10(-4) min/uIU x ml, about a fifth the value in other mammals and humans. The KITT was between 1.43 and 3.19 %/min, also significantly lower than that reported for humans. Glycosylated hemoglobin concentration was 6%, and HbAlc concentration was 5.5%; red blood cell lifetime, as measured by use of the 51Cr method, was 120 days, similar to the value in humans. We concluded that llamas and alpacas have naturally higher blood glucose concentration than do humans and other mammals during the glucose tolerance test. Using the same mathematical tools to evaluate glucose metabolism as those used in people, South American camelids appear to be resistant to insulin. Thus, the South American camelid may be a useful new animal model for the study of sugar metabolism and various facets of diabetes mellitus, especially protection from the deleterious effects of glycosylation.     

Forty years of embryo transfer in cattle: A review focusing on the journal Theriogenology, the growth of the industry in North America,and personal reminisces

After the first successful transfer of mammalian embryos in 1890, it was approximately 60 years before significant progress was reported in the basic technology of embryo transfer (ET) in cattle. Starting in the early 1970s, technology had progressed sufficiently to support the founding of commercial ET programs in several countries. Today, well-established and reliable techniques involving superovulation, embryo recovery and transfer, cryopreservation, and IVF are utilized worldwide in hundreds, if not thousands, of commercial businesses located in many countries. The mean number of embryos produced via superovulation has changed little in 40 years, but there have been improvements in synchrony and hormonal protocols. Cryopreservation of in vivo-derived embryos is a reliable procedure, but improvements are needed for biopsied and in vitro-derived embryos. High pregnancy rates are achieved when good quality embryos are transferred into suitable recipients and low pregnancy rates are often owing to problems in recipient management and not technology per se. In the future, unanticipated disease outbreaks and the ever-changing economics of cattle and milk prices will continue to influence the ET industry. The issue of abnormal pregnancies involving in vitro embryos has not been satisfactorily resolved and the involvement of abnormal epigenetics associate with this technology merits continued research. Last, genomic testing of bovine embryos is likely to be available in the foreseeable future. This may markedly decrease the number of embryos that are actually transferred and stimulate the evolution of more sophisticated ET businesses.