Mutation rate and predicted phenotypic target sizes in ethylnitrosourea-treated mice

Chemical mutagenesis of the mouse is ongoing in several centers around the world, with varying estimates of mutation rate and number of sites mutable to phenotype. To address these questions, we sequenced approximately 9.6 Mb of DNA from G1 progeny of ethylnitrosourea-treated mice in a large, broad-spectrum screen. We identified 10 mutations at eight unique sites, including six nonsynonymous coding substitutions. This calibrates the nucleotide mutation rate for two mutagenesis centers, implies significance criteria for positional cloning efforts, and provides working estimates of effective genetic target sizes for selected phenotypes.     

An evaluation of heterologous antibodies to lactate dehydrogenase-C in the detection of mutations

We report that we are unable to repeat consistently the results published by Ansari et al. (1980) using antibodies to detect mutations in lactate dehydrogenase-C (LDH-C, previously called LDH-X) directly in sperm of mice exposed to the mutagen procarbazine. The approach made use of the interspecies differences in the antigenic sites between the LDH-C of the rat and mouse in sperm. The visualization of mutations in mouse LDH-C was based on the detection of alterations in antigenic sites of mouse LDH-C such that mouse sperm would bind the antibody that was specific for rat LDH-C (presumptive mutants); the antibody was termed specific when it immunofluorescently labeled rat sperm but not mouse sperm. The original work reported increases in the frequency of occurrence of mouse sperm that would bind rat-specific antibody from mice treated with procarbazine as compared control mice; a single absorbed antiserum was used throughout the experiments. In this study, we found that there is too much variation in the frequency of mouse sperm that react with rabbit antibodies to purified rat LDH-C for the system to be useful in mutagenesis studies. The fundamental criterion of antibody specificity was maintained as in the original work. The frequency of labeled mouse sperm depended on the absorption of the antibody on mouse proteins, indicating that the factors denoting a presumptive mutant were associated with the mouse proteins. In some experiments, the frequency of labeled mouse sperm was higher among sperm from procarbazine-treated mice than among sperm from control mice. This increase, however, was not consistently reproducible. After extensive absorption of the antibody on mouse proteins, no presumptive mutants were observed in sperm from treated and control animals; these antibodies continued to immunofluorescently label rat sperm. The absence of presumptive mutants with highly absorbed antibody suggests that natural variation between species may not be appropriate as markers for the detection of mutations without a thorough knowledge of the number of independent events at the DNA level required to produce a change in antigenic recognition.     

Oocyte activation after intracytoplasmic injection with sperm frozen without cryoprotectants results in live offspring from inbred and hybrid mouse strains

Re-establishment of mouse strains used for mutagenesis and transgenesis has been hindered by difficulties in freezing sperm. The use of intracytoplasmic sperm injection (ICSI) enables the production of embryos for the restoration of mouse lines using sperm with reduced quality. By using ICSI, simplified sperm-freezing methods such as snap freezing can be explored. We examined the capacity of embryos from the inbred C57Bl/6J and 129Sv/ImJ mouse strains, commonly used for transgenic and N-ethyl-N-nitrosourea mutagenesis purposes to develop to blastocysts in vitro and to term following ICSI with sperm frozen without cryoprotectant. The results were compared to F1 (C57BlxCBA) hybrid embryos. Following freezing, sperm were immotile but could fertilize oocytes at similar rates to fresh sperm. However, embryo development in vitro to the blastocyst stage was reduced in all three strains. No pups were born from C57Bl/6J or 129Sv/ImJ embryos obtained from frozen sperm following transfer to foster females, and only a limited number of F1 embryos developed to term. Activation of oocytes injected with frozen sperm with 1.7 mM Sr2+ (SrCl2) did result in the birth of pups in all three strains. We conclude that the inability of sperm frozen without cryoprotectants to effectively activate oocytes may affect embryo development to term and can be overcome by strontium activation. This may become an effective strategy for sperm preservation and the restoration of most popular strains used for genetic modifications.     

Screen for alterations of iron related parameters in N-ethyl-N-nitrosourea-treated mice identified mutant lines with increased plasma ferritin levels

Iron is essential for numerous cellular processes. For diagnostic purposes iron-related parameters in patients are assessed by clinical chemical blood analysis including the analysis of ferritin, transferrin and iron levels. Here, we retrospectively evaluated the use of these parameters in the phenotype-driven Munich N-ethyl-N-nitrosourea mouse mutagenesis project for the generation of novel animal models for human diseases. The clinical chemical blood analysis was carried out on more than 10,700 G1 and G3 offspring of chemically mutagenized inbred C3H mice to detect dominant and recessive mutations leading to deviations in the plasma levels of iron-related plasma parameters. We identified animals consistently exhibiting altered plasma ferritin or transferrin values. Transmission of the phenotypic deviations to the subsequent generations led to the successful establishment of three mutant lines with increased plasma ferritin levels. For two of these lines the causative mutations were identified in the Fth1gene and the Ireb2 gene, respectively. Thus, novel mouse models for the functional analysis of iron homeostasis were established by a phenotype-driven screen for mutant mice.     

Large numbers of mice established by in vitro fertilization with cryopreserved spermatozoa: implications and applications for genetic resource banks, mutagenesis screens, and mouse backcrosses

Recent advances in the methodologies for cryopreservation of mouse spermatozoa have opened up a number of opportunities for mouse geneticists. We have investigated various applications for this relatively new technology and have explored the potential of sperm freezing coupled with IVF for archiving, stock building, and the rapid establishment of backcrosses. Firstly, we investigated the use of sperm freezing for the archiving of (C3H/HeH × BALB/c)F₁ progeny from a large-scale mutagenesis program. We have demonstrated that it is possible to establish efficient, comprehensive, and deep archives and that potentially thousands of offspring can be derived from the frozen spermatozoa of a single mutant male mouse. Secondly, we examined the efficacy of sperm freezing for a number of other genotypes. For at least some genotypes, frozen spermatozoa can be utilized to rapidly build stock far more quickly than by conventional methods. Finally, we demonstrated that it is feasible to use frozen spermatozoa from the mouse mutant archive for the rapid generation of mutant backcross progeny. Received: 8 February 1999 / Accepted: 5 May 1999     

A gene-driven ENU-based approach to generating an allelic series in any gene

N-ethyl-N-nitrosourea (ENU) introduces mutations throughout the mouse genome at relatively high efficiency. Successful high-throughput phenotype screens have been reported and alternative screens using sequence-based approaches have been proposed. For the purpose of generating an allelic series in selected genes by a sequence-based approach, we have constructed an archive of over 4000 DNA samples from individual F₁ ENU-mutagenized mice paralleled by frozen sperm samples. Together with our previously reported archive, the total size now exceeds 6000 individuals. A gene-based screen of 27.4 Mbp of DNA, carried out using denaturing high-performance liquid chromatography (DHPLC), found a mutation rate of 1 in 1.01 Mbp of which 1 in 1.82 Mbp were potentially functional. Screening of whole or selected regions of genes on subsets of the archive has allowed us to identify 15 new alleles from 9 genes out of 15 tested. This is a powerful adjunct to conventional mutagenesis strategies and has the advantage of generating a variety of alleles with potentially different phenotypic outcomes that facilitate the investigation of gene function. It is now available to academic collaborators as a community resource.     

Elevated presence of retrotransposons at sites of DNA double strand break repair in mouse models of metabolic oxidative stress and MYC-induced lymphoma

The chromosomally integrated shuttle vector pUR288 contains a lacZ reporter gene to study mutagenesis in vivo. We used pUR288 to compare patterns of genomic instability in two mouse models, lymphoma resulting from deregulated c-MYC expression (lambda-MYC), and endogenous oxidative stress caused by partial glucose 6-phosphate dehydrogenase (G6PD) deficiency. We found previously that spontaneous mutations in both models were predominantly genomic rearrangements of lacZ with mouse sequences, while most mutations in controls were point mutations. Here, we characterized the fine structure of 68 lacZ/mouse rearrangements from lambda-MYC lymphomas and G6PD deficient mice by sequencing breakpoint junctions and determining the origin of recombining mouse sequences. Fifty-eight of 68 (85%) recombination partners were identified. The structure of rearrangements from both lambda-MYC and G6PD deficient mice were remarkably alike. Intra-chromosomal deletions and inversions were common, occurring in 41% (24/58) of rearrangements, while 59% (34/58) were random translocations between lacZ and other chromosomes. Signatures of double strand break repair by nonhomologous end joining were observed at breakpoint junctions; 37% (25/68) contained 1-4 bp microhomologies, while the remaining breakpoints had no sequence homology. Long interspersed nuclear element-1 (LINE-1 or L1) retrotransposons, which constitute approximately 10% of the mouse genome, were present at 25% (17/68) of breakpoints, suggesting their participation in rearrangements. The similarity in the structure of rearrangements is consistent with the hypothesis that genetic rearrangements in lambda-MYC lymphomas and G6PD deficient mice result from the same mechanism, mutagenic repair of DNA double strand breaks arising from oxidative damage.     

Current problems of estimation of genetic risk of human exposure to radiation

The methodology of assessing the genetic risk of radiation exposure is based on the concept of "hitting the target" in development of which N.V. Timofeeff-Ressovsky has played and important role. To predict genetic risk posed by irradiation, the UN Scientific Committee on the Effects of Atomic Radiation (UNSCEAR) has worked out direct and indirect methods of assessment, extrapolational, integral and populational criteria of risk analysis that together permit calculating the risk from human exposure on the basis of data obtained for mice. Laboratory mice are the main objects in studying radiation mutagenesis due to the fact that the data on the frequency of radiation-induced human mutations are rather scarce. The method of doubling dose based on the determination of a dose doubling the level of natural mutational process in humans is the main one used to predict the genetic risk. The evolution of views about the genetics risk of human exposure to radiation for last 40 years is considered. Till 1972 the main model for assessing the genetic risk was the "human/mouse" model (the use of data on the spontaneous human variability and data on the frequency of induced mutations in mice). In the period form 1972 till 1994 the "mouse/mouse" model was intensively elaborated in many laboratories. This model was also used in this period by UNSCEAR experts to analyze the genetic risk from human irradiation. Recent achievements associated with the study of the molecular nature of many hereditary human diseases as well as the criticism of number fundamental principles of the "mouse/mouse" model for estimating the genetic risk on a new basis. The estimates of risk for the different classes of genetic diseases have been obtained using the doubling-dose method. The estimate of doubling dose used in the calculations is 1 Gy for low dose/chronic low-LET radiation conditions.     

Random oligonucleotide mutagenesis: application to a large protein coding sequence of a major histocompatibility complex class I gene, H-2DP.

We have used random oligonucleotide mutagenesis (or saturation mutagenesis) to create a library of point mutations in the alpha 1 protein domain of a Major Histocompatibility Complex (MHC) molecule. This protein domain is critical for T cell and B cell recognition. We altered the MHC class I H-2DP gene sequence such that synthetic mutant alpha 1 exons (270 bp of coding sequence), which contain mutations identified by sequence analysis, can replace the wild type alpha 1 exon. The synthetic exons were constructed from twelve overlapping oligonucleotides which contained an average of 1.3 random point mutations per intact exon. DNA sequence analysis of mutant alpha 1 exons has shown a point mutant distribution that fits a Poisson distribution, and thus emphasizes the utility of this mutagenesis technique to "scan" a large protein sequence for important mutations. We report our use of saturation mutagenesis to scan an entire exon of the H-2DP gene, a cassette strategy to replace the wild type alpha 1 exon with individual mutant alpha 1 exons, and analysis of mutant molecules expressed on the surface of transfected mouse L cells.     

Mouse Sperm Cryopreservation and Recovery using the I·Cryo Kit

Thousands of new genetically modified (GM) strains of mice have been created since the advent of transgenesis and knockout technologies. Many of these valuable animals exist only as live animals, with no backup plan in case of emergency. Cryopreservation of embryos can provide this backup, but is costly, can be a lengthy procedure, and generally requires a large number of animals for success. Since the discovery that mouse sperm can be successfully cryopreserved with a basic cryoprotective agent (CPA) consisting of 18% raffinose and 3% skim milk, sperm cryopreservation has become an acceptable and cost-effective procedure for archiving, distributing and recovery of these valuable strains.Here we demonstrate a newly developed I•Cryo kit for mouse sperm cryopreservation. Sperm from five commonly-used strains of inbred mice were frozen using this kit and then recovered. Higher protection ratios of sperm motility (> 60%) and rapid progressive motility (> 45%) compared to the control (basic CPA) were seen for sperm frozen with this kit in 5 inbred mouse strains. Two cell stage embryo development after IVF with the recovered sperm was improved consistently in all 5 mouse strains examined. Over a 1.5 year period, 49 GM mouse lines were archived by sperm cryopreservation with the I•Cryo kit and later recovered by IVF.     

Tumor-associated E-cadherin mutations affect binding to the killer cell lectin-like receptor G1 in humans

The killer cell lectin-like receptor G1 (KLRG1) is expressed by NK cells and memory T cells in man and mice. Cadherins were recently identified as ligands for mouse KLRG1 but ligands for human KLRG1 have not yet been defined. In this study, we first demonstrate that human E-cadherin is a ligand for human KLRG1. This finding is remarkable because human and mouse KLRG1 show only an intermediate degree of homology (57% aa identity). In addition, we show that E-cadherin, expressed on K562 target cells, inhibited polyclonal human NK cells. Inhibition of NK cell function was observed consistently in three independent functional assays but the extent of inhibition was modest and required high expression of E-cadherin on target cells. E-cadherin function is often inactivated during development of human carcinomas and splice-site mutations resulting in in-frame loss of exon 8 or 9 occur frequently in diffuse type gastric carcinomas. Our experiments further revealed that interaction of human KLRG1 to E-cadherin was susceptible to these tumor-associated mutations and that KLRG1(+) NK cells were triggered more easily by K562 target cells carrying these mutations in comparison to target cells expressing wild-type E-cadherin. These results also indicate that the E-cadherin binding sites important for homophilic interaction are also involved in KLRG1 binding. Taken together, these data demonstrate that the main adhesion molecule of epithelial tissue, E-cadherin, is involved in regulation of NK cells in both humans and mice.     

Ethylnitrosourea-induced mutation and molecular analysis of transgenic mice containing the gpt shuttle vector

Novel transgenic mice were developed in order to study the in vivo mutagenesis. The transgenic mice carried pCGK shuttle vector, which contained the Escherichia coli gpt gene as a mutational target, the kanamycin-resistant gene (Kanr) and cos region derived from bacteriophage lambda. The shuttle vector can be recovered from the transgenic mouse genome into the gpt-deficient E. coli by an in vitro packaging method and is selectable as a Kanr phenotype. Mutations induced at the gpt gene can be easily detected with a selective agent, 6-thioguanine (6-TG). In the previous study, the pCGK shuttle vector was incorporated into Chinese hamster CHL/IU cells and the resultant transgenic cell line was shown to be a useful system to study in vitro mutagenesis at the gpt gene. Therefore, an advantage of the shuttle vector is that in vivo mutational data obtained from the transgenic mouse can be compared with those of transgenic cell line in vitro. A transgenic CD-1 mouse line, designated as #128, that carried approximately 50 copies of pCGK shuttle vectors, was selected among 4 transgenic mouse lines. To investigate the sensitivity of the #128 line, the transgenic mice were treated with a single intraperitoneal injection of 250 mg/kg of N-ethyl-N-nitrosourea (ENU) or with 50 mg kg-1 day-1 of ENU for 5 consecutive days, and bone marrow, spleen and liver were dissected to investigate their mutational responses. The background mutant frequency was between 18x10(-6) and 75x10(-6) among all tissues tested. ENU induced significant increases in the mutant frequency above the background level in all three tissues at 14 days after single or 5-day treatment with the chemical. The increases in the mutant frequencies in bone marrow, spleen and liver were 6.4- to 6.8-fold, 3.0- to 5.6-fold and 3.0- to 3.3-fold, respectively. The shuttle vector DNA was recovered from the bone marrow of both spontaneous and ENU-treated mice and the gpt gene was amplified by polymerase chain reaction. The amplified DNA was subject to DNA sequence analysis. Out of 79 spontaneous and 52 ENU-induced mutants, the gpt gene could be amplified from 28 spontaneous and 46 ENU-induced mutants. DNA sequence analysis showed that predominant mutations were identified as A:T to T:A transversions (22 out of 46 sequenced mutants) and G:C to A:T transitions (9/46) in ENU-induced mutants, whereas G:C to T:A transversions (7 out of 28 sequenced mutants) were predominant in spontaneous mutants. These results demonstrate that this transgenic mouse, in combination with the transgenic CHL/IU cell line, is a useful system to study in vivo and in vitro mutational events at the same target gene.     

Inhibition of in vitro fertilization by mouse anti-mouse sperm sera and preliminary antigen identification

Antisperm antibodies are implicated as one causative factor of infertility, but the target antigens have not been identified. Immune responses to sperm antigens are qualitatively variable even within a single mouse strain. We took advantage of this variability and immunized individual female mice to allogeneic sperm to reflect their natural exposure during mating. We determined the ability of the individual sera to inhibit in vitro fertilization and to bind to sperm antigens separated by electrophoresis. Compared to preimmune sera, four of five immune sera significantly inhibited in vitro fertilization. The serum from individual mice bound variable panels of sperm antigens. By comparing the panels, we identified two polypeptides with molecular weights of 40,000 and 44,000 that were bound by all sera. We propose that these molecules may be good candidates for further investigation of the immunoprophylaxis of pregnancy.     

Cryopreservation of murine spermatozoa

Cryopreservation of mouse sperm provides an economic option for preserving the large number of mouse strains now being generated by transgenic and targeted mutation methodologies. The ability of a spermatozoan cell to survive cryobiological preservation depends on general biophysical constraints that apply to all cells, such as the avoidance or minimization of the formation of intracellular ice during cooling. This action is typically achieved by use of cryoprotectant substances and by controlled, slow rates of cooling. Superimposed on those general constraints may be special characteristics of mouse spermatozoa, such as more narrow, osmotically driven volume tolerance limits and the fact that relatively successful freezing can be obtained without the use of a permeating cryoprotective agent. The lack of important information regarding sperm cells fundamental cryobiological properties, including their osmotic and membrane permeability characteristics, has hindered progress in developing anything but empirically derived methods. Genetic differences between inbred mouse strains are reflected in motility and fertility characteristics of mouse sperm and contribute to the difficulty of developing successful cryopreservation methods. Recovery of live young from frozen sperm has been much more successful with sperm from hybrid mice than from most inbred strains. There have been no published reports of successful cryopreservation of rat sperm. Nevertheless, in mice, success in deriving live young from intracytoplasmic sperm injection using sperm frozen under suboptimal conditions raises the possibility of using this technique for the ultimate rescue of sperm regardless of the success of cryopreservation. This technique, however, requires additional development and verification of its efficacy before it will be suitable for general laboratory use. Although cryopreservation of mouse sperm is not yet universally successful, it can be used reliably to supplement cryopreservation of embryos and other germline cells or tissues for preserving biomedically important strains of mice for research.     

Methyl-beta-cyclodextrin improves fertilizing ability of C57BL/6 mouse sperm after freezing and thawing by facilitating cholesterol efflux from the cells

Sperm cryopreservation provides an economical means of storing genetically engineered mouse strains in resource facilities. In general, relatively high fertilization rates are obtained for frozen/thawed sperm of the CBA/JN, DBA/2N, and C3H inbred strains and some F1 hybrid strains. However, the fertilization rate for frozen/thawed sperm of C57BL/6, which is the main strain of genetically engineered mice, remains very low. Therefore, it is necessary to establish an in vitro fertilization (IVF) method for cryopreserved C57BL/6 sperm that can obtain a high rate of fertilization after thawing. In the present study, we focused on the effects of methyl-beta-cyclodextrin (MBCD) on the fertilizing ability of frozen/thawed C57BL/6 sperm. Our results have shown that the highest fertilization rate for frozen/thawed sperm was obtained with MBCD at 1.0 mM for 30 min (63.7% +/- 11.0%), but the effects were attenuated by long-term incubation for 120 min at 1.0 or 2.0 mM. The embryos with frozen/thawed sperm showed good developmental potential, and the offspring had normal fertility. The efflux of cholesterol from frozen/thawed sperm was increased by MBCD in a dose-dependent manner and occurred much earlier and to a greater extent than bovine serum albumin. The localization of cholesterol labeled by filipin in the sperm plasma membrane was drastically decreased by MBCD. In summary, we suggest that MBCD is useful for developing an IVF method for frozen/thawed C57BL/6 mouse sperm achieving a high fertilization rate, being involved in the capacity to sequester cholesterol from sperm membrane.     

Efficient and fast targeted production of murine models based on ENU mutagenesis

Mice with targeted genetic alterations are the most effective tools for deciphering organismal gene function. We generated an ENU-based parallel C3HeB/FeJ sperm and DNA archive characterized by a high probability to identify allelic variants of target genes as well as high efficiencies in allele retrieval and model revitalization. Our archive size of over 17,000 samples contains approximately 340,000 independent alleles (20 functional mutations per individual sample). Based on an estimated number of approximately 30,000 mouse genes, the parallel sperm/DNA archive should permit the identification and recovery of ten or more alleles per average target gene which translates to a calculated 99% success rate in the discovery of five allelic variants for any given average gene. The low rate of unrelated ENU-induced passenger mutations has no practical impact on the analysis of the allele-specific phenotype at the G3 generation because of dilution and free segregation of such unrelated passenger mutations. To date 39 mouse models representing 33 different genes have been recovered from our archive using in vitro fertilization techniques. The generation time for a murine model heterozygous for a mutation in a gene of interest is less than 2 months, i.e., three to four times faster compared with current embryonic stem-cell–based technologies. We conclude that ENU-based targeted mutagenesis is a powerful tool for the fast and high-throughput production of murine gene-specific models for biomedical research.M. Augustin and R. Sedlmeier contributed equally to this work.M. Nehls and S. Wattler are Co-senior authors.TGCE, temperature gradient capillary electrophoresis; ENU, N-ethyl-N-nitrosurea; SNP, single nucleotide polymorphism; IVF, in vitro fertilization     

Genome-Wide ENU Mutagenesis in Combination with High Density SNP Analysis and Exome Sequencing Provides Rapid Identification of Novel Mouse Models of Developmental Disease

Background

Mice harbouring gene mutations that cause phenotypic abnormalities during organogenesis are invaluable tools for linking gene function to normal development and human disorders. To generate mouse models harbouring novel alleles that are involved in organogenesis we conducted a phenotype-driven, genome-wide mutagenesis screen in mice using the mutagen N-ethyl-N-nitrosourea (ENU).

Methodology/Principal Findings

ENU was injected into male C57BL/6 mice and the mutations transmitted through the germ-line. ENU-induced mutations were bred to homozygosity and G3 embryos screened at embryonic day (E) 13.5 and E18.5 for abnormalities in limb and craniofacial structures, skin, blood, vasculature, lungs, gut, kidneys, ureters and gonads. From 52 pedigrees screened 15 were detected with anomalies in one or more of the structures/organs screened. Using single nucleotide polymorphism (SNP)-based linkage analysis in conjunction with candidate gene or next-generation sequencing (NGS) we identified novel recessive alleles for Fras1, Ift140 and Lig1.

Conclusions/Significance

In this study we have generated mouse models in which the anomalies closely mimic those seen in human disorders. The association between novel mutant alleles and phenotypes will lead to a better understanding of gene function in normal development and establish how their dysfunction causes human anomalies and disease.     

Reduced glutathione enhances fertility of frozen/thawed C57BL/6 mouse sperm after exposure to methyl-beta-cyclodextrin

Sperm cryopreservation is useful for the effective storage of genomic resources derived from genetically engineered mice. However, freezing the sperm of C57BL/6 mice, the most commonly used genetic background for genetically engineered mice, considerably reduces its fertility. We previously reported that methyl-beta-cyclodextrin dramatically improved the fertility of frozen/thawed C57BL/6 mouse sperm. Recently, it was reported that exposing sperm to reduced glutathione may alleviate oxidative stress in frozen/thawed mouse sperm, thereby enhancing in vitro fertilization (IVF); however, the mechanism underlying this effect is poorly understood. In the present study, we examined the combined effects of methyl-beta-cyclodextrin and reduced glutathione on the fertilization rate of IVF with frozen/thawed C57BL/6 mouse sperm and the characteristic changes in the zona pellucida induced by reduced glutathione. Adding reduced glutathione to the fertilization medium increased the fertilization rate. Methyl-beta-cyclodextrin and reduced glutathione independently increased fertilization rates, and their combination produced the strongest effect. We found that reduced glutathione increased the amount of free thiols in the zona pellucida and promoted zona pellucida enlargement. Finally, 2-cell embryos produced by IVF with the addition of reduced glutathione developed normally and produced live offspring. In summary, we have established a novel IVF method using methyl-beta-cyclodextrin during sperm preincubation and reduced glutathione during the IVF procedure to enhance fertility of frozen/thawed C57BL/6 mouse sperm.     

Comparison of permeating and nonpermeating cryoprotectants for mouse sperm cryopreservation

Mouse sperm has proven to be more difficult to cryopreserve than sperm of other mammalian species. Published reports show that only three cryoprotectant agents (CPAs), alone or combined, have been studied: glycerol and dimethyl sulfoxide (DMSO), as permeating agents, and raffinose, as a nonpermeating agent. To date, the most consistent results for mouse sperm cryopreservation have been achieved by use of raffinose/skim milk as cryoprotectant with rapid cooling at 20 degrees C per minute. In this study, we compared the cryoprotection provided by permeating (glycerol, formamide, propanediol, DMSO, adonitol) or nonpermeating (lactose, raffinose, sucrose, trehalose, d-mannitol) compounds for freezing mouse sperm. Different solutions were made using 3% skim milk solution as the buffer or extender in which all different cryoprotectant agents were dissolved at a concentration of 0.3 M, with a final osmolality of approx. 400 mOsm. Sperm samples from CB6F1 (hybrid) and C57BL/6J (inbred) mice collected directly into each CPA were frozen/thawed under identical conditions. After thawing and CPA elimination (centrifugation) raffinose (59%), trehalose (61%), and sucrose (61%) sustained the best motility (P = < 0.1) of the nonpermeating agents, whereas the best of the permeating agents was DMSO (42%). Membrane integrity was analyzed and showed that the simple exposure (prefreeze) to sugars was less harmful than the exposure to glycols. Coincidentally, sperm frozen in trehalose (41%), raffinose (40.5%), and sucrose (37.5%) were the samples less injured among all different postthawed CPA tested. The in vitro fertilization results demonstrated that hybrid mouse spermatozoa frozen with sugars (lactose 80%, raffinose 80%, trehalose 79% of two-cell embryos production) were more fertile than those frozen with glycols (glycerol 11%).