Intraportal autotransplantation of cryopreserved porcine islets of Langerhans

Mechanically prepared isolated islets of Langerhans were cryopreserved in liquid nitrogen for a period of 4 days. Intraportal autotransplantation studies were performed on two groups of six pigs rendered diabetic by total pancreatectomy (group 2) or by partial pancreatectomy combined with streptozotocin (group 4) and compared with two control groups (groups 1 and 3, respectively). The pigs were assessed for survival, weight gain, glycosuria, polyuria, systemic blood sugar and insulin, and, in selected pigs, intravenous glucose tolerance tests. Results showed that partial pancreatectomy with streptozotocin was the better tolerated experimental diabetes. Variable control of hyperglycemia was obtained over an experimental period of 3 months. Random blood glucose returned to normal in one of six pigs in the totally pancreatectomized group and three of six pigs in the partial pancreatectomy and streptozotocin group. Despite these normal circulating glucose levels, imperfect glucose homeostasis was achieved as shown by the response to glucose tolerance testing. These results report blood glucose control after cryopreserved islet autotransplants in diabetic pigs but further study is still necessary to achieve consistency.     

Functionality of cryopreserved juvenile ovaries from mutant mice in different genetic background strains after allotransplantation

The rapid expansion of mutant mouse colonies for biomedical research has resulted in lack of space at laboratory animal facilities and increasing risks of losing precious lines. These challenges require cheap and effective methods in addition to freezing embryos and sperm to archive the expanding mutant mouse lines. Cryopreservation of mouse ovarian tissue has been reported, but the application in the diverse mutant lines and genetic backgrounds has not yet been studied. In this study, juvenile ovaries (10-day-old) collected from genetically modified mouse lines were cryopreserved using high concentrations of cryoprotectants (dimethyl sulfoxide (Me₂SO) and ethylene glycol (EG)) and instrumented ultra-rapid freezing. The validation of the frozen ovary batches was assessed by orthotopically transplanting a thawed ovary into a nearly completely ovariectomized mature female (congenic with the ovary donor). After 2 weeks of recovery, the ovary recipient was continuously paired with a male (congenic with the ovary donor) to evaluate the fertility of the recipient and delivered offspring were genotyped to evaluate the continued functionality of the grafted ovary. The recipient females delivered genetically modified offspring starting 6 weeks after ovary transplantation and lasting up to 6 months. The presented cryopreservation and transplantation protocols enabled retrieval of the genetic modification in 20 (from 22) genetically modified mutant mouse models on a C57BL/6 (17), FVB (2), or BALB/c (1) background. The thawed ovaries functioned after successful orthotopic allotransplantation to congenic wild-type recipients and produced mutant offspring, which allowed recreation of the desired genotype as a heterozygote on the proper genetic background. The results indicate that cryopreservation of mouse ovaries is a promising method to preserve genetic modification of the increasing number of mutant mouse models and can be used as a model for ovary cryopreservation using a variety of mouse mutants.     

Reproduction and fertility in wild-type and transgenic mice after orthotopic transplantation of cryopreserved ovaries from 10-d-old mice

Ovary cryopreservation and subsequent transplantation can enable researchers to preserve valuable transgenic animal strains. Some studies have indicated, however, that this process may impair ovary viability and recipient fertility. The authors investigated the effects of ovary vitrification followed by orthotopic transplantation in five strains of mice. They grafted fresh and frozen ovaries of 10-d-old mice into 4-week-old ovariectomized recipients. In addition to using wild-type strains (BALB/cAn and ICR/JCL), the authors used a transgene system that enabled them to identify whether offspring derived from the ovary of the recipient or that of the donor: they transplanted ovaries from one transgenic strain (LAP/rtTA) into wild-type C57BL/6J mice and into mice from a second transgenic strain (pTet/Cd226). The authors then determined the origin of the offspring born to these recipients using PCR. Ovary cryopreservation seemed to have no effect on the long-term fertility and reproductive characteristics of recipients and their offspring.     

Ultrastructural characterization of fresh and cryopreserved in vivo produced ovine embryos

Controlled slow freezing and vitrification have been successfully used for ovine embryo cryopreservation. Selection of embryos for transfer is based on stereomicroscopical embryo scoring after thawing, but the subjectivity inherent to this selection step has been demonstrated by ultrastructural studies of controlled slow frozen, in vivo produced ovine morulae and blastocysts. These studies have shown that certain abnormalities remain undetected by stereomicroscopy only. In the present study, using ovine in vivo produced morulae and blastocysts, we have studied the ultrastructural alterations induced by open pulled straw vitrification (OPS) and controlled slow freezing, compared stereomicroscopical embryo scoring with light microscopy evaluation of embryo's semithin sections, and related the ultrastructural cellular damage with the embryo classification by stereomicroscopical embryo scoring of embryos’ and semithin section evaluation by light microscopy. The ultrastructural lesions found for OPS-vitrified and controlled slow frozen embryos were similar, independently of embryo stage. A significant higher number of grade 3 embryos was found at stereomicroscopical scoring after controlled slow freezing (P = 0.02), and a significant higher number of grade 3 blastocysts was found at semithin sectioning after OPS vitrification (P = 0.037). The extension of ultrastructural damage, especially of mitochondria and cytoskeleton, was related to the semithin classification but not to stereomicroscopical scoring at thawing. This suggests that semithin scoring is a useful tool for predicting ultrastructural lesions and new improvements in cryopreservation and thawing methods of ovine embryos are still warranted, including in the case of blastocysts cryopreserved by OPS vitrification.     

Parathyroid autotransplantation: Use of cryopreserved glands in an investigation of hypocalcemia

Parathyroid glands were removed from 12 dogs, cryopreserved, and autotransplanted: one-half of these dogs were made eucalcemic with 1,25-(OH)₂-cholecalciferol during the peritransplant period while the other dogs were allowed to become hypocalcemic. The interval of hypocalcemia did not aid in autograft function success. Cryopreserved autotransplanted parathyroid glands can maintain calcium homeostasis in the dog.     

Bactericidal function of cryopreserved neutrophils

Human peripheral blood neutrophils preserved in 10% dimethyl sulfoxide and stored at ?70 °C retain their original bactericidal activity for prolonged periods of time, if not indefinitely. This is true of both normal neutrophils and those with the intrinsic defects in bactericidal capacity such as occur in the victims and carriers of chronic granulomatous disease.     

Isolated ovine primordial follicles cryopreserved in different concentrations of ethylene glycol

Cryopreservation of primordial follicles represents an opportunity to preserve female gametes, and consequently to protect the reproductive capacity of humans and animals, as well as to safeguard genetic material from endangered animal species or rare breeds. The aim of this work was to assess the toxicity of different concentrations of ethylene glycol (EG) to primordial follicles, and verify the viability of these follicles after the freezing-thawing procedure. Primordial follicles were isolated from ovine ovaries and exposed to different EG concentrations to evaluate the cryoprotectant (CPA) toxicity before and after cryopreservation. After isolation of primordial follicle (control), the number (mean+/-S.E.M.) of viable primordial follicles/ml was 3764+/-795.21. The number of viable follicles in the toxicity test using EG at 0, 0.5, 1.0, 1.5, 2.0, and 2.5 M was 1096+/-447.9, 960+/-446.67, 948+/-366.14, 832+/-313.59, 856+/-280.67, and 700+/-255.02, respectively. The number of viable follicles at concentrations of 2.5 M was less than for controls. After cryopreservation, the numbers decreased to 0+/-0, 148+/-85.46, 764+/-246.69, 824+/-291.9, 844+/-296.27, and 588+/-200.65, respectively for 0, 0.5, 1.0, 1.5, 2.0, and 2.5 M EG. The number of viable follicles at 0, 0.5, and 2.5 M was less than for controls. In conclusion, after the freezing and thawing procedure, concentrations of 1.0, 1.5, and 2.0 M EG can be successfully used for the cryopreservation of isolated follicles in sheep.     

Differences in the rate of establishment of permanent estrus in rats after autotransplantation of the ovaries and as affected by other conditions

In adult female rats, constant light leads to the cessation of the sexual cycle and formation of permanent estrus after 6 to 7 days. In young animals, the sexual cycle was retained despite constant light and only after 3 months when the body weight of the rats reached 200-220 g the estrus became permanent. This happened earlier than in animals with the ovaries autotransplanted to the ears. The combination of constant light and autotransplantation of the ovaries caused an earlier formation of permanent estrus. It is marked that the same mechanism (the age-associated decrease of the cyclic center sensitivity to estrogen) underlies permanent estrus of various etiology.     

Return to partial function of rabbit ovaries after cryopreservation in liquid nitrogen

Half of each ovary of seven rabbits was removed and deep-frozen in liquid nitrogen for two to three months before being thawed and reimplanted in the original animal. Three of the animals with cryopreserved demi-ovaries bred but did not conceive and these three plus one other had surviving ovarian tissue and normal uterine morphology at autopsy. In one of these cases the ovaries were smooth surfaced but, in two animals, follicles were present, and, in one, corpora haemoragica were observed. The three remaining rabbits would not breed after their frozen-thawed demi-ovaries were reimplanted and their uteri were atrophied at autopsy. No surviving ovarian tissue was detected. In the four cases where the organs survived cryopreservation, three sets of demi-ovaries were fast-frozen by a series of three plunges, respectively, into alcohol baths at ?7° C and ?38° C and then into liquid nitrogen at ?196° C. The fourth set was frozen at slower rates of 1° C per minute to ?7° C and then at 0.3° C per minute to ?38° C before being plunged into liquid nitrogen. One set of demi-ovaries was intact and the other three had the medulla cored out before freezing.We conclude that several protocols suffice to deep-freeze rabbit ovaries and permit the organs to return to partial function when reimplanted.     

Viability and Morphology of rat heart cells after freezing and thawing of the whole heart

Intact adult rat hearts were cooled in the presence of 10% DMSO according to an external cooling program which approximated the optimal external three-step cooling program for the isolated adult heart cells: 20 min at ?20 °C, 0.2 °C/min from ?20 to ?25, ?30, or ?50 °C, and rapid cooling to ?196 °C. Following rapid thawing, cells were isolated after perfusion with a 0.1% collagenase solution. Only cells which originated from the free wall of the right ventricle could be isolated, even after cooling to ?20 °C. Most cells from hearts cooled to ?196 °C did not survive. When the third cooling step was omitted and the end temperature of the second cooling step was ?30 °C, 38% of the cells excluded trypan blue, 29% were morphologically intact, and 30% showed spontaneous contractions after thawing, expressed as percentages of the control, A much lower survival was found after cooling to ?50 °C.Histological and electron microscopical study of the heart immediately after thawing revealed no differences between hearts cooled to ?20, ?30, or ?196 °C. Also no marked differences were observed between the morphological integrity after freezing and thawing of the atrium, the left and right ventricle walls, and the ventricular septum. The survival data suggest the presence of nonmorphologically detectable alterations in cells frozen to ?196 °C, compared to cells frozen to ?30 °C. The morphological investigations indicate no essential differences in resistance of atrial and ventricular cells to the freezing process.Experiments involving neonatal rat hearts cooled to ?196 °C, according to the method which gave optimal preservation of the isolated cells, revealed that after thawing cells are present from which growing and contracting cultures can be derived. It appears that cells in the neonatal rat heart are more resistant to freezing to ?196 °C than cells in the adult rat heart.     

Traversing the ovine cervix - a challenge for cryopreserved semen and creative science

This review brings together research findings on cervical relaxation in the ewe and its pharmacological stimulation for enhancement of the penetration needed for transcervical insemination and embryo transfer. On the basis that the success of artificial insemination is the percentage of ewes lambing, a review is made of recent research aimed at understanding and minimising the sub-lethal effects of freezing and thawing on the viability of spermatozoa, their membrane integrity and their ability to migrate through cervical mucus, as these characteristics have a major influence on fertility, particularly when semen is deposited, artificially, in the os cervix. Milestones of achievement are given for transcervical intrauterine insemination, embryo recovery and transfer and the birth of lambs of pre-determined sex, firstly following intracytoplasmic sperm injection, then laparoscopic intrauterine insemination using highly diluted flow-cytometrically sorted fresh semen and subsequently by os cervix insemination using sexed semen that had been frozen and thawed. Diversity of research endeavour (applied, cellular, molecular), research discipline (anatomy, histology, immunology, endocrinology) and research focus (cell, tissue, organ, whole animal) is embraced within the review as each has significant contributions to make in advancing recent scientific findings from the laboratory into robust on-farm transcervical insemination and embryo transfer techniques.     

Cryogenic effect of antifreeze protein on transgenic mouse ovaries and the production of live offspring by orthotopic transplantation of cryopreserved mouse ovaries

The purpose of the present study was to evaluate the cryogenic effect of antifreeze protein (AFP) on transgenic mouse ovaries which is expressed AFP type III from Ocean pout and the production of live offspring by orthotopic transplantation of cryopreserved mouse ovaries. In this study, whole transgenic and nontransgenic mouse ovaries were vitrified with 20% DMSO and 20% EG in M2 medium supplemented with 0.5 M sucrose. All vitrified and toxicity control and fresh ovaries were transplanted orthotopically into ovariectomized recipients bilaterally. For fresh ovaries transplantation, 5 mice delivered litters of 18 and 19 live pups in first and second matings, respectively. For toxicity control of chemicals, 6 mice delivered litters of 22 and 23 live pups. For nontransgenic mouse ovaries (vitrified) transplantation, 7 mice delivered litters of 22 and 23 live pups. For transgenic mouse ovaries (vitrified) transplantation, 10 mice delivered litters of 35 and 37 live pups. Litter sizes from pups of freshly transplanted ovaries were not significantly different from AFP-transplanted transgenic ovaries but those from nontransgenic-transplanted ovaries were significantly different from the AFP-transplanted transgenic ovaries group (P < 0.05). In this study, for the first time, it was shown that the ovarian tissue of AFP transgenic mice was protected from cryopreservation by vitrification. These results demonstrate that a normal reproductive lifespan can be restored by orthotopic transplantation of AFP transgenic-vitrified ovary.     

In vitro growth of preantral follicles isolated from cryopreserved ovine ovarian tissue

In the present study, we compared the in vitro development of sheep preantral follicles obtained from unfrozen or frozen ovarian cortex. After thawing, follicles stored by a slow-freezing protocol with dimethyl sulfoxide (DMSO) or ethylene glycol (EG) were mechanically isolated and cultured for 10 days. After 1 day, approximately 50% and 34% of the DMSO and EG follicles, respectively, showed overt signs of degeneration, as confirmed by histological analysis. Follicles that survived thawing grew and formed antral-like cavities, without significant differences among experimental groups. However, the percentages of healthy oocyte-cumulus cell complexes (OCCs) retrieved from in vitro-grown follicles, as well as estradiol, were lower in DMSO than in EG or unfrozen follicles. Although cryopreservation did not cause appreciable differences in follicle morphological aspects, frozen OCCs showed lower metabolic cooperativity levels, as determined by [3H]uridine uptake. During culture, oocytes increased in diameter, but the percentage of germinal vesicle stage-arrested oocytes showing a rimmed chromatin configuration was significantly lower in the frozen groups. Our results indicate that cryopreserved sheep preantral follicles underwent growth in vitro but that freezing/thawing specifically affected gap junctional permeability and impaired the progression of regulative processes, such as the acquisition of a specific oocyte chromatin configuration. Moreover, because the cryoprotectant toxicity test excluded the occurrence of direct cellular damage, this method allowed us to discriminate the effects exerted by different cryoprotectants during the cryopreservation procedure on whole-follicular development.     

Effect of insulin-like growth factor-I on some quality traits and fertility of cryopreserved ovine semen

The objective was to evaluate the effects of insulin-like growth factor-I (IGF-I) on the quality and fertility of frozen/thawed ovine semen. Five rams (five ejaculates/ram) were used for evaluation of semen parameters. Before cryopreservation, ejaculates were divided into four aliquots and extended with Tris alone or supplemented with human IGF-I (50, 100, or 250 ng/mL). Semen was evaluated immediately after thawing (T0), after 1 h (T1) and 2 h (T2) post-incubation at 37 °C. The percentage of live cells (fluorescence analysis-calcein and ethidium), acrosome integrity (NAR) and motility were analyzed, and hypo-osmotic swelling tests (HOST) were used to evaluate membrane resistance. In addition, AI was performed using 121 ewes to compare the optimal concentration of IGF-I vs. Tris alone on pregnancy rates after laparoscopic insemination. Pregnancy diagnosis was performed by transrectal ultrasonography. After 1 and 2 h post-incubation, in every group, percentage motile sperm, NAR and HOST decreased compared to semen at T0. Motility was higher (P < 0.05) in the IGF-I 100 and IGF-I 250 groups when compared to the IGF-I 50 and Tris groups (76.2 and 74.4% vs. 66.2 and 64.4 percent, respectively) at T0, after 1 h (67 and 63.6% vs. 56.2 and 54.7%) and 2 h post-incubation (58.2 and 55.8% vs. 48 and 47.2%). Furthermore, viability was higher (P < 0.05) in the insulin-like growth factor-I (IGF-I) 100 and IGF-I 250 groups than in the IGF-I 50 and Tris groups (88.7 and 88.3% vs. 76.6 and 77.6%, respectively) at T0. There was no difference (P > 0.05) in NAR or hypo-osmotic swelling tests (HOST) among groups. There were no differences (P > 0.05) in fertility between the IGF-I 100 and Tris groups. In conclusion, IGF-I improved subjective sperm motility and structural integrity of the plasma membrane without a significant effect on 45-day pregnancy rates after laparoscopic insemination of ewes with frozen-thawed semen.     

In vitro growth of oocyte-granulosa cell complexes isolated from cryopreserved ovine tissue.

A culture system has been designed in which enzymatically isolated oocyte-granulosa cell complexes from fresh and frozen-thawed ovine ovarian tissue can be grown to antral size in vitro. Oocyte-granulosa complexes ranging from 100 to 240 microns in diameter were dissected from stromal tissue and grown individually in serum-free medium for 30 days. Complexes < 190 microns generally excluded their oocytes or lost three-dimensional structure early in the culture period. In contrast, complexes isolated from fresh or frozen-thawed tissue and measuring 190-240 microns on the day of isolation formed antral cavities in 25 +/- 9% and 18 +/- 6% (mean +/- SEM) of cases, respectively. The effect of gonadotrophin supplementation to the culture medium was tested on frozen-thawed oocyte-granulosa cell complexes only. In cultures supplemented with both FSH and LH or FSH alone, there was no significant difference in the number of oocyte-granulosa cell complexes that formed antral cavities (18 +/- 7%). However, antrum formation was significantly less frequent in cultures lacking gonadotrophin stimulation (7 +/- 4%). All oocyte-granulosa cell complexes maintained a three-dimensional structure throughout culture and developed a functional P450 aromatase enzyme complex, as revealed by the induction of oestradiol production during 8 days of culture after antrum formation in serum-free medium containing testosterone. Oocytes recovered after 30 days of culture were viable and had increased in diameter from 78 +/- 2 microns on the day of isolation, to 131 +/- 3 microns at the end of culture. These results show that oocyte-granulosa cell complexes isolated from cryopreserved ovarian tissue can be grown to antral size in vitro with similar efficiency to those isolated from fresh tissue.