Equine blastocyst development after intracytoplasmic injection of sperm subjected to two freeze-thaw cycles

This study was conducted to evaluate the effects of thawing, division into aliquots and refreezing on fertilizing capacity (ability to support embryo development after intracytoplasmic sperm injection; ICSI) of frozen stallion semen. Frozen semen from a fertile stallion was thawed, diluted 1:100 with freezing extender, and refrozen (2F treatment). Control semen was frozen only once. In vitro matured equine oocytes were injected with: (1) motile control spermatozoa; (2) motile 2F spermatozoa; (3) non-motile 2F spermatozoa; or (4) non-motile 2F spermatozoa, followed by injection of sperm extract. Blastocyst development after ICSI was equivalent between control spermatozoa and motile 2F spermatozoa (27 and 23%, respectively). Blastocyst development after injection of non-motile 2F spermatozoa (13%) tended (P=0.07) to be lower than that for control spermatozoa. Injection of sperm extract into oocytes that received non-motile 2F spermatozoa resulted in a significant decrease in blastocyst development (to 2%) compared with injection of non-motile 2F spermatozoa alone. Spermatozoa from a subfertile stallion was similarly processed and used for ICSI; blastocyst development for both motile control (once frozen) spermatozoa and motile 2F spermatozoa was 9%. In conclusion, frozen stallion semen may be thawed, diluted, and refrozen without effect on the ability of motile spermatozoa to initiate embryo development after ICSI. Non-motile spermatozoa from reprocessed semen may also achieve embryo development after ICSI. To our knowledge, this is the first report evaluating the ability of refrozen spermatozoa to produce embryos by ICSI in any species.     

Use of frozen-thawed oocytes for efficient production of normal offspring from cryopreserved mouse spermatozoa showing low fertility

Freezing of spermatozoa and unfertilized oocytes is a useful tool for the conservation of mouse genetic resources. However, the proportion of frozen-thawed oocytes fertilized with spermatozoa in vitro is low because spermatozoa, especially those frozen-thawed, can not penetrate into oocytes because of hardening of the zona pellucida following premature release of cortical granules. To produce offspring efficiently from cryopreserved transgenic mouse gametes, we fertilized frozen-thawed gametes by using intracytoplasmic sperm injection (ICSI) and assessed pre- and postimplantation development of embryos. Compared with fresh unfertilized oocytes, frozen-thawed unfertilized oocytes were highly tolerant to damage by injection, as the survival rates after injection of frozen spermatozoa were 51 and 78%, respectively. Frozen-thawed oocytes that survived after sperm injection developed normally to the blastocyst stage and gave rise to offspring. Moreover, offspring with transgenes also were obtained from frozen gametes fertilized by ICSI. These results demonstrate that ICSI is an efficient technique for producing offspring from transgenic spermatozoa showing low fertility and that use of frozen-thawed oocytes leads to conservation of genetic resources because suboptimally preserved gametes are not wasted.     

Chromosome analysis by spectral karyotyping of spermatozoa from an oligoasthenozoospermic carrier of a 10; 21 reciprocal translocation

Cytogenetic analysis of germ-line cells prior to intracytoplasmic sperm injection (ICSI) treatment is thought to be necessary for infertile males with an identified chromosomal abnormality. We analyzed the chromosomal karyotype of human spermatozoa from an oligoasthenozoospermic carrier of a reciprocal translocation t(10; 21). Cytogenetic analysis of 39 spermatozoa was performed by spectral karyotyping (SKY) and by ICSI into mouse oocytes. The motile morphologically normal spermatozoa were injected into mouse oocytes. Of these spermatozoa, 38 (97.4%) were activated. Twenty-one (53.8%) of the activated oocytes formed two pronuclei. Metaphase chromosome spreads from 13 spermatozoa were analyzed. Only one spermatozoon was normal and 2 spermatozoa exhibited balanced translocation. Nine and one spermatozoa showed abnormalities related and unrelated to the translocation, respectively. The numbers of normal/balanced spermatozoa were lower than those in previous reports analyzing reciprocal translocations using a previously described technique involving penetrated golden hamster oocytes. After genetic counseling with the carrier and his partner, ICSI treatment was performed. Healthy female and male infants were delivered at 37 weeks gestation via a Caesarean section. The female infant was a carrier of the reciprocal translocation and the male infant was confirmed normal on prenatal diagnosis at 16 weeks gestation. For genetic counseling prior to ICSI treatment, the incidence of unbalanced type spermatozoa after swim-up or Percoll gradient treatment should be investigated and discussed with couples having fertility problems related to oligozoospermia autosomal structural abnormalities.     

In vitro development of domestic cat embryos following intra-cytoplasmic sperm injection with testicular spermatozoa

The objective was to assess the ability of testicular spermatozoa to fertilize in vitro matured domestic cat oocytes and support blastocyst formation in vitro following intra-cytoplasmic sperm injection (ICSI). After IVM, oocytes were randomly and equally allocated among treatment groups (ICSI with testicular spermatozoa, ICSI with ejaculated spermatozoa, sham ICSI, and control IVF). At 18 h after either injection or insemination, the percentage of fertilized oocytes (per total metaphase II oocytes) was approximately 65% after ICSI with testicular or ejaculated spermatozoa (P > 0.05), which was less (P < 0.05) than control IVF (approximately 90%). On Day 7, the percentage of cleaved embryos (per total metaphase II oocytes) was approximately 60% after ICSI with testicular or ejaculated spermatozoa (P > 0.05), which also was less (P < 0.05) than control IVF (approximately 85%). After ICSI with testicular spermatozoa, the percentage of blastocysts (per total cleaved embryos) was approximately 11.0%, which was less (P < 0.05) than ICSI with ejaculated spermatozoa (approximately 21.0%); the latter was less (P < 0.05) than control IVF (approximately 43.0%). No blastocyst formation was observed after sham ICSI. For the first time in the domestic cat, this study demonstrated the fertilizing ability and developmental potential of intra-testicular spermatozoa delivered directly into intra-ovarian oocytes matured in vitro.     

Les spermatozoïdes immobiles frais ou décongelés en fécondation assistée

Contrasting with sperm count or morphology, complete lack of mobile sperm may seriously impair ICSI fertilization and pergnancy rate. In three cases with flagellar skeleton abnormalities [dynein arm absence] only immobile sperm were found in the ejaculate. Following repeated ejaculations, higher rates of viable spermatozoa and even some motile spermatozoa could be found. Some times, in nonobstructive azoospermia, extensive sperm search didn't allow us to find but immobile sperm mostly, with very few motile sperm cells, not enough for the microinjection of all oocytes. The third group of immobile sperm is iatrogenic, following freezing and thawing surgically retrieved, testicular or epididymal spermatozoa in order to avoid repeated surgical retrieval. Following thawing, one find frequently very few motile spermatozoa that may be not enough for all retrieved oocytes and it might be necessary to inject some eggs with immobile spermatozoa. The outcome of ICSI using mobile and immobile sperm was compared in the three above mentioned groups: 1-immobile ejaculated sperm with flagellar defects, 2-immobile sperm discovered in the ejaculate after extensive sperm search and 3- immobile frozen-thawed testicular or epididymal spermatozoa. The results of ICSI in these groups show that fertilizing ability of fresh or frozenthawed immobile spermatozoa is not significantly different from ICSI with mobile sperm from the same origin. More over, in the first group with flagellar abnormalities, repeated ejaculations allowed us significantly increase sperm viability and fertilization ability. Finding only immobile fresh or frozen-thawed sperm the day of egg retrieval should not lead us to ICSI cancellation. Pregnancies may occur with such immobile sperm.     

The in vitro and in vivo development of goat embryos produced by intracytoplasmic sperm injection using tail-cut spermatozoa

The objective of this study was to assess the efficacy of a novel intracytoplasmic sperm injection (ICSI) procedure, as well as the in vitro and in vivo developmental competence of goat embryos produced by ICSI. Oocyte-cumulus complexes recovered by LOPU from donors stimulated with gonadotrophins were matured in vitro. Fresh goat semen was used for ICSI following Percoll gradient washing. Tail-cut spermatozoa were microinjected into the ooplasm of goat oocytes using a piezo micropipette-driving system (PiezoDrill). In order to assess developmental competence, the ICSI-derived zygotes were cultured in one of two media systems (mTALP-mKSOM vs G1.3-G2.3) for in vitro development or were transferred into recipients for full-term development. The results suggest that cutting sperm tails using the oocyte-holding pipette coupled with the PiezoDrill is an efficient approach for goat ICSI in terms of oocyte survival, pronuclear development and initial cleavage. The mTALP-mKSOM culture system was more suitable for in vitro development of ICSI-derived goat embryos than G1.3-G2.3. This first report of full-term development of an ICSI-derived goat embryo suggests that ICSI can be applied to assisted reproduction in goats.     

Normospermic versus teratospermic domestic cat sperm chromatin integrity evaluated by flow cytometry and intracytoplasmic sperm injection

Teratospermia (>60% of morphologically abnormal spermatozoa) is well documented in felids. Even morphologically normal spermatozoa from teratospermic ejaculates have reduced ability to undergo tyrosine phosphorylation, acrosome react, and bind and penetrate oocytes compared with normospermic (<40% abnormal spermatozoa) counterparts. However, it is unknown whether fertilization deficiencies originate at a nuclear level. This study examined whether fertilization failure also was attributable to abnormal sperm chromatin, using the sperm chromatin structure assay (SCSA), in vitro fertilization (IVF), and intracytoplasmic sperm injection (ICSI). Aliquots of unprocessed and swim-up-processed (to isolate morphologically normal spermatozoa) spermatozoa from teratospermic and normospermic domestic cats were analyzed by the flow cytometric SCSA. Swim-up-processed sperm were incubated with in vivo-matured oocytes or used for ICSI. Teratospermic ejaculates expressed more (P < 0.05) chromatin heterogeneity (abnormal chromatin structure) than their normospermic counterparts, both in unprocessed and swim-up-processed samples. Fertilization success in vitro was higher (P < 0.05) from normo- compared with teratospermic inseminates. Similar (P > 0.05) proportions of oocytes fertilized after ICSI using spermatozoa from normo- and teratospermic cats. Results reveal that teratospermia in the cat is expressed at the nuclear level as increased sperm chromatin heterogeneity, but ICSI showed that this does not apparently affect fertilization rates if the zona pellucida and oolemma can be bypassed.     

Current trends in evaluation of sperm function: in vitro selection and manipulation of male gametes for assisted conception

With increasing medical utilization of assisted reproductive technology (ART), scientists and clinicians have been able to study extensively multiple cell functions operating synchronously and flawlessly during the events preceding, before and after fertilization. Critical evaluation of the functional status of spermatozoa for in vitro techniques such as sperm-mucus interaction, acrosome reaction status, sperm-zona pellucida binding and penetration tests, hyaluronic acid binding assay, and computer assisted semen analysis etc. can direct a male partner of an infertile couple to more aggressive forms of treatments. In vitro selection of functionally competent sperm cells is a pre-requisite for successful outcome in in vitro fertilization or in intracytoplasmic sperm injection (ICSI). Direct injections of acrosome-intact spermatozoa into oocyte during ICSI bypassing the normal events of sperm oocyte interaction and fusion events have raised concerns with regard to fertilization abnormalities and genetic issues. The present communication briefly reviews the sperm function tests with emphasis on its correlation with fertility outcome, and the currently employed sperm selection and manipulation procedures which may have implications in assisted conception programs.     

Evaluation of chromosomal risk following intracytoplasmic sperm injection in the mouse

To investigate whether cytogenetic risks occur using the mouse intracytoplasmic sperm injection (ICSI) technique, the incidence of chromosome aberrations was compared in one-cell embryos produced by ICSI technique and those by conventional in vitro fertilization (IVF) technique. Spermatozoa were incubated in TYH medium for 1.5-2 h before IVF insemination. For the ICSI technique, spermatozoa were incubated in five different media: TYH, Hepes-buffered TYH (H-TYH), modified CZB (mCZB), Hepes-buffered mCZB (H-mCZB), and PB1 for 0.5 h, 2-2.5 h, and 6 h before injection into metaphase II oocytes. The incidence of IVF embryos with structural chromosome aberrations was 2%, whereas the occurrence of structural chromosome aberrations in ICSI embryos was dependent on the kind of medium and sperm incubation time. When spermatozoa were incubated in TYH medium for 2 h or more, the aberration rates in the resultant ICSI embryos (4%) were not significantly different from that of IVF embryos. However, there was a significant increase in aberration rates in ICSI embryos derived from spermatozoa that were incubated in other culture conditions (6%-28%). In addition, a time-dependent increase in aberration rates was found in ICSI embryos when H-TYH, H-mCZB, and PB1 were used for sperm incubation. There was no significant difference in incidence of aneuploidy between IVF and ICSI embryos. The chromosome analysis results of one-cell embryos were reflected by the performance of postimplantation embryo development. The causal mechanism of chromosome damage in ICSI embryos was discussed in relation to the plasma membrane cholesterol, the acrosome, and in vitro aging of spermatozoa.     

Utilisation des spermatozoïdes testiculaires en ICSI. Intérêt de la culture in vitro. Revue de la littérature

The number of ICSI cycles performed with testicular spermatozoa has increased dramatically over recent years. However, one of the technical limitations of this approach concerns the extremely reduced motility of testicular spermatozoa. However, increased sperm motility was observed after incubating testicular samples for several hours. Therefore, in order to improve ICSI success rates, several authors have tested the effect of previous in vitro culture. We present a review of the literature on this subject. In vitro culture does not appear to be very useful in cases of obstructive azoospermia, as, apart from possible sperm “maturation” during this culture phase, a high proportion of motile spermatozoa is usually already observed prior to in vitro culture. The benefits of in vitro culture appear to be greater in the case of non-obstructive azoospermia, as when spermatozoa are present on the biopsy, they are usually immobile. However, discordant results have been published: after in vitro culture, spermatozoa have been reported to be either motile or mostly dead. Regardless of the type of azoospermia, the best results are obtained after 3–4 days of in vitro culture. Addition of recombinant FSH to the culture medium also appears to be effective. Cryopreservation of testicular biopsies may also be associated with in vitro culture and the in vitro culture/freezing sequence appears to give better results than the freezing/in vitro culture sequence. Very few studies have reported the results of ICSI using frozen in vitro cultured spermatozoa, as most published studies concern fresh spermatozoa, used after 1–2 days of in vitro culture with satisfactory fertilization and pregnancy rates. In vitro culture of testicular spermatozoa may therefore constitute an interesting research approach to improve the results of ICSI when the number of spermatozoa and/or motility are very low. In addition, in vitro culture of testicular spermatozoa appears to be a good tool to study the mechanisms of acquisition of motility, which are still poorly understood.     

Fertilisability of ovine, bovine or minke whale (Balaenoptera acutorostrata) spermatozoa intracytoplasmically injected into bovine oocytes

This study was conducted to investigate the possibility of using bovine oocytes for a heterologous fertility test by intracytoplasmic sperm injection (ICSI) and to compare the pronuclear formation of ram, bull and minke whale spermatozoa after injection into bovine oocytes. Bovine oocytes were cultured in vitro for 24 h and those with a polar body were selected for ICSI. Frozen-thawed semen from the three species were treated with 5 mM dithiothreitol for 1 h and spermatozoa were killed by storing them in a -20 degrees C refrigerator before use. ICSI was performed using a Piezo system. Three experiments were designed. In experiment 1, a higher (p < 0.05) male pronuclear formation rate was found in the oocytes injected with ram (52.6%) or bull (53.4%) spermatozoa than with minke whale spermatozoa (39.1%). In experiment 2, sperm head decondensation was detected at 2 h after ICSI in the oocytes injected with a spermatozoon of each species. Male pronuclei were first observed at 4 h in the oocytes injected with ram or bull spermatozoa and at 6 h in oocytes injected with minke whale spermatozoa. The mean diameters of male pronuclei derived from both whale and bull spermatozoa were larger than those from ram spermatozoa (30.4 microm and 28.3 microm vs 22.4 microm, p < 0.005). The mean diameter of female pronuclei in the oocytes injected with whale spermatozoa was also larger than with ram spermatozoa (29.3 microm vs 24.7 microm, p < 0.05). The development of male and female pronuclei was synchronous. In experiment 3, ethanol-activated oocytes injected with a spermatozoon from any of the three species achieved significantly higher (p < 0.05-0.001) cleavage rates than control oocytes. Blastocyst formation was only observed when bull spermatozoa were used. The results of this study indicate that dead foreign spermatozoa can participate in fertilisation activities in bovine oocytes after ICSI.     

Evaluation of parental mitochondrial inheritance in neonates born after intracytoplasmic sperm injection.

Intracytoplasmic sperm injection (ICSI) is now used when severe male-factor infertility has been documented. Since defective mitochondrial functions may result in male hypofertility, it is of prime importance to evaluate the risk of paternal transmission of an mtDNA defect to neonates. DNA samples from the blood of 21 infertile couples and their 27 neonates born after ICSI were studied. The highly polymorphic mtDNA D-loop region was analyzed by four PCR-based approaches. With denaturing gradient gel electrophoresis (DGGE), which allows 2% of a minor mtDNA species to be detected, the 27 newborns had a DGGE pattern identical to that of their mother but different from that of their father. Heteroplasmy documented in several parents and children supported an exclusive maternal inheritance of mtDNA. The parental origin of the children's mtDNA molecules also was studied by more-sensitive assays: restriction-endonuclease analysis (REA) of alpha[32P]-radiolabeled PCR products; paternal-specific PCR assay; and depletion of maternal mtDNA, followed by REA. We did not detect paternal mtDNA in nine neonates, with a sensitivity level of 0.01% in five children, 0.1% in two children, and 1% in two children. The estimated ratio of sperm-to-oocyte mtDNA molecules in humans is 0.1%-1.5%. Thus, we conclude that, in these families, the ICSI procedure performed with mature spermatozoa did not alter the uniparental pattern of inheritance of mtDNA.     

The treatment of obstructive azoospermia by intracytoplasmic sperm injection

Intracytoplasmic sperm injection (ICSI) allows the treatment of virtually every type of male infertility. Unlike in vitro fertilization (IVF), its success does not depend on sperm concentration, motility or morphology and most of the physical barriers to fertilisation are by-passes. Since ICSI does not require strongly motile sperm, its use has now been expanded to incorporate immature sperm from the testes and epididymides. Successful fertilisation, pregnancies and healthy babies have all been reported. However, concerns about the safety of ICSI remain due to its short clinical history and the lack of testing on animal models. Male fertility potential for assisted reproduction by ICSI cannot be measured by conventional parameters. Sperm DNA integrity is increasingly recognised as a more useful indicator. Studies have shown that sperm with higher levels of DNA damage have lower fertilisation rates after IVF and ICSI. Sperm with DNA damage above a certain threshold are associated with a longer time to conceive in otherwise apparently fertile couples and a higher miscarriage rate. DNA damage has been shown to be associated with impaired embryo cleavage. Our group has shown that sperm DNA from testicular sperm is less fragmented than that from epididymal sperm and suggest its preferred use in ICSI. In addition to nuclear (n) DNA we also assessed the quality of mitochondrial (mt) DNA from testicular sperm from men with obstructive azoospermia undergoing ICSI. We observed that couples achieving a pregnancy had both less mtDNA deletions and less nDNA fragmentation. We found inverse relationships between pregnancy and sperm mtDNA deletion numbers, size and nDNA fragmentation. No relationships were observed with fertilisation rates. With this knowledge, we designed an algorithm for the prediction of pregnancy based on the quality of sperm nDNA and mtDNA. Each year 40,000 men have a vasectomy in the UK but every year 2500 request a reversal to begin a second family. For such men, vasectomy reversal has recently been replaced in part by testicular biopsy via fine-needle testicular sperm aspiration (TESA) or percutaneous epididymal sperm aspiration (PESA) performed at an outpatient clinic and subsequently used in ICSI. Since these were previously fertile men it has been assumed that they had ‘fertile’ sperm. However the assited conception success rates of these mens partners has not been assessed until recently. We have shown a significant reduction in the clinical pregnancy rates in the partners of men who had had a vasectomy ≥10yrs previously. There is also evidence to suggest that spermatogenesis is significantly impaired in vasectomised men. Marked decreases in spermatocytes, spermatids and spermatozoa have been observed. We have found this to be associated with concomitant increases in apoptotic markers, such as Fas, FasL and Bax. The quality of the remaining sperm is also compromised. Sperm DNA from vasectomized men shows substantial damage which increases with time after surgery. This new use of ICSI will be discussed.     

The birth of mice from testicular spermatozoa retrieved from frozen testicular sections

Male gamete cryopreservation has been widely used for both human reproduction and animal breeding. We investigated whether testicular spermatozoa retrieved from frozen testicular sections (10 or 25 mum thick) could support the full-term development of normal progeny. For this purpose, frozen testicular sections were prepared from two genetic backgrounds (BDF1 or B6 GFP transgenic mice), and the functional ability of testicular spermatozoa after preservation for 1 day, 1 mo, and 3 mo was assessed by intracytoplasmic sperm injection (ICSI). Testicular spermatozoa were successfully retrieved from frozen testicular sections for the use of ICSI, regardless of the preservation period. The ICSI technique revealed that oocytes (BDF1 or B6 background) injected with testicular spermatozoa prepared from frozen testicular sections developed into normal progeny, even though the sections had been cryopreserved for 3 mo at -30 degrees C. Approximately 15% and 5% of the embryos preserved for 3 mo developed to full term if the testicular spermatozoa were prepared from the 25- and 10-mum sections, respectively. These results clearly indicate that male gametes can be viably preserved in frozen testicular sections. The technique described herein will allow the preservation of male gametes in the form of a "book" or "file" by mounting the sections on a paper-thin sheet. Furthermore, this technique may be of value in the clinical treatment of severe male infertility, since testicular spermatozoa can easily be found through examination of testicular cross sections rather than by attempts to identify them in testicular cell suspension.     

Analyse chromosomique des œufs humains non clivés après injection intracytoplasmique de spermatozoïde

The results of intracytoplasmic sperm injection still need to be assessed concerning both its efficiency and its possible risks for the children to be born. Cytogenetical analysis of uncleaved oocytes after ICSI can give different types of information. It can help in determining the cause of the failure, checking the injection and specifying the development stage of the spermatozoa and its possible abnormalities. It also allows an evaluation of the possible chromosome abnormalities induced in the oocyte and subsequently of the safety of the procedure for the oocyte itself. After conventional in vitro fertilization (IVF) the main cause of the lack of cleavage is the total absence of fertilization but the premature condensation of the spermatozoa chromosomes (PCC) is observed in about 10% of the cases. This might be different after ICSI because of the procedure itself or because of the sperm defect which requires ICSI to achieve fertilization. We studied ICSI failures during two periods: the first one started at the beginning of the use of the technique in our laboratory and the second one followed, using a different technique (pushing the spermatozoa further in the oocyte by aspirating more vigourously oocyte cytoplasm). The fertilization rates were 15% and 54% in the two periods. In the first period the main cause of the failure was the total absence of evolution of the spermatozoa in the oocyte and it represented only 33% of the cases of the second period. In the second period the incidence of PCC increased and the total absence of evolution was less frequent while the incidence of chromosome fragmentation in the oocyte remained high. Our results suggest that the technique used for ICSI is very important to avoid the secondary extrusion of the spermatozoa. A possible increase of oocyte chromosome breakage has to be confirmed.     

Naissance après ICSI réalisée avec sperme éjaculé, congelé, chez un jeune patient de 21 ans porteur d’un syndrome de Klinefelter homogène

Klinefelter’s syndrome is one of the main genetic causes of male infertility, as it is diagnosed in 11% of patients with azoospermia and 4% of infertile men. This study reports a birth after ICSI performed with ejaculated sperm from a 21-year-old man with homogeneous nonmosaic Klinefelter’s syndrome discovered during assessment of infertility for severe oligozoospermia. Three ICSI were performed for this couple over an 18-month period. Pregnancy was not achieved after the first and second ICSI with fresh ejaculated sperm. At the third ICSI, the patient presented proven azoospermia on the day of the attempt, and frozen-thawed ejaculated spermatozoa were therefore used. A pregnancy was obtained after the transfer of 3 grade A embryos with the birth of a healthy girl. The authors highlight the value of repeated preventive sperm cryopreservation when ejaculated spermatozoa are available in all cases of severe oligozoospermia or cryptozoospermia. They also evaluated the quality (DNA fragmentation, ploidy) of the frozen/thawed spermatozoa.     

Evaluation of fertilization capability of frozen-thawed completely immotile spermatozoa collected from a white bengal tiger after interspecific ICSI with bovine oocytes

The objective of this study was to evaluate the fertilization capability of White Bengal Tiger frozen-thawed completely immotile spermatozoa after interspecific intracytoplasmic sperm injection (ICSI) with bovine oocytes. The fertilization status of presumptive zygotes was assessed 18 h after ICSI by immunofluorescence staining and confocal microscopy. The fertilization rate was 34.8% (8/23), as confirmed by the extrusion of two polar bodies, or male and female pronuclei formation. For unfertilized oocytes (65.2%, 15/23), one activated oocyte had an activated spermatozoon but most were unactivated oocytes with unactivated spermatozoa (1/15, 6.7% vs 10/15, 66.7%, respectively, p < 0.05). These results showed that White Bengal Tiger frozen-thawed completely immotile spermatozoa retained the capacity to fertilize bovine oocytes after interspecific ICSI. This is the first report of in vitro produced zygotes using tiger immotile sperm with bovine oocytes by interspecific ICSI technique, which provides an efficient and feasible method for preservation and utilization of endangered feline animals.     

Poor centrosomal function of cat testicular spermatozoa impairs embryo development in vitro after intracytoplasmic sperm injection

In the domestic cat, morula-blastocyst formation in vitro is compromised after intracytoplasmic sperm injection (ICSI) with testicular compared to ejaculated spermatozoa. The aim of this study was to determine the cellular basis of the lower developmental potential of testicular spermatozoa. Specifically, we examined the influence of sperm DNA fragmentation (evaluated by TUNEL assay) and centrosomal function (assessed by sperm aster formation after ICSI) on first-cleavage timing, developmental rate, and morula-blastocyst formation. Because the incidences of DNA fragmentation were not different between testicular and ejaculated sperm suspensions, DNA integrity was not the origin of the reduced developmental potential of testicular spermatozoa. After ICSI, proportions of fertilized and cleaved oocytes were similar and not influenced by sperm source. However, observations made at 5 h postactivation clearly demonstrated that 1) zygotes generally contained a large sperm aster after ICSI with ejaculated spermatozoa, a phenomenon never observed with testicular spermatozoa, and 2) proportions of zygotes with short or absent sperm asters were higher after ICSI with testicular spermatozoa than using ejaculated spermatozoa. The poor pattern of aster formation arose from the testicular sperm centrosome, which contributed to a delayed first cleavage, a slower developmental rate, and a reduced formation of morulae and blastocysts compared to ejaculated spermatozoa. When a testicular sperm centrosome was replaced by a centrosome from an ejaculated spermatozoon, kinetics of first cell cycle as well as embryo development quality significantly improved and were comparable to data from ejaculated spermatozoa. Results demonstrate for the first time in mammals that maturity of the cat sperm centrosome (likely via epididymal transit) contributes to an enhanced ability of the spermatozoon to produce embryos that develop normally to the morula and blastocyst stages.     

Intracytoplasmic sperm injection is more efficient than in vitro fertilization for generating mouse embryos from cryopreserved spermatozoa

Efficient and dependable mouse cryopreservation methods are urgently needed because the production of mice with transgenes and disrupted and mutant genes is now commonplace. Preservation of these unique genomes provides an essential safeguard for future research. Unfortunately, mouse spermatozoa appear more vulnerable to freezing than other species, e.g., bovine and human. In this study, we examined the efficiency of intracytoplasmic sperm injection (ICSI) and in vitro fertilization (IVF) in generating embryos from mouse spermatozoa frozen with 18% raffinose and 3% skim milk for cryoprotection. A comparison was made between the inbred strain C57BL/6J, commonly used in mutagenic and transgenic studies, and a hybrid strain B6D2F1 (C57BL/6J x DBA/2J). C57BL/6J spermatozoa are known to be more sensitive to freezing than B6D2F1. Fertilization of oocytes after IVF was significantly lower with C57BL/6J spermatozoa when compared with B6D2F1 spermatozoa for both fresh and frozen spermatozoa (fresh, 89 vs. 55%; frozen, 56 vs. 9%). Freezing also reduced the fertility of B6D2F1 spermatozoa (89 vs. 56%). Fertilization improved dramatically after ICSI with fresh and frozen C57BL/6J spermatozoa (90 and 85%) and also with frozen B6D2F1 spermatozoa (87%). The development of two-cell embryos to the blastocyst stage was lower for C57BL/6J than B6D2F1 (42-61% and 84-98%) in all treatments but similar for embryos within each strain. The normality of chromosomes from fresh and frozen spermatozoa was assessed in oocytes prior to first cleavage. The majority of oocytes had normal chromosomes after IVF (98-100%) and ICSI (87-95%), indicating that chromosomal abnormalities were not responsible for the poorer development in vitro of C57BL/6J embryos. In conclusion, our data show that ICSI is a more efficient and effective technique than IVF for generating embryos from frozen spermatozoa. More important, ICSI is especially valuable for strains where IVF with fresh spermatozoa produces few or no embryos.     

In vitro fertilization by intracytoplasmic sperm injection

Intracytoplasmic sperm injection (ICSI) is the latest, and by far the most efficient, variant of micromanipulation-assisted fertilization, whereby a single spermatozoon is selected, aspirated into a microinjection needle and injected to the oocyte cytoplasm. The development of this technique is mainly linked to application in human assisted reproduction for which it enables fertilization with defective spermatozoa that would not otherwise be able to penetrate an oocyte by their proper means. Because ICSI by-passes many steps of the natural fertilization process, it offers an extremely interesting model for the study of basic mechanisms underlying fertilization. This is particularly true for oocyte activation, whose mechanism needs to be revisited in light of the current ICSI research. The massive application of ICSI in human infertility treatment also represents a huge laboratory in which the impact of different genetic and epigenetic anomalies of the male gamete on fertilization and embryonic development can be studied. BioEssays 21:791–801, 1999. © 1999 John Wiley & Sons, Inc.