Involvement of mouse and porcine PLCζ-induced calcium oscillations in preimplantation development of mouse embryos.

In mammals, phospholipase Cζ (PLCζ) has the ability to trigger calcium (Ca(2+)) oscillations in oocytes, leading to oocyte activation. Although there is a species-specific difference in the PLCζ-induced Ca(2+) oscillatory pattern, whether PLCζ-induced Ca(2+) oscillations affect preimplantation embryonic development remains unclear. Here, we show that Ca(2+) oscillations in mouse PLCζ cRNA-injected oocytes stopped just before pronuclear formation, while that in porcine PLCζ cRNA-injected oocytes continued for several hours after pronuclei had been formed. This difference of Ca(2+) oscillations in oocytes after pronuclear formation was dependent on the difference in the nuclear localization signal (NLS) sequence of PLCζ between the mouse and pig. However, mouse and porcine PLCζ cRNA-injected oocytes parthenogenetically developed to blastocysts regardless of the absence or presence of Ca(2+) oscillations after pronuclear formation. Furthermore, the developmental rate of mouse or porcine PLCζ-activated oocytes injected with round spermatids to the blastocyst stage was not significantly different from that of strontium-activated oocytes injected with round spermatids. These results suggest that the PLCζ-induced Ca(2+) oscillatory pattern in mouse oocytes is dependent on the NLS sequence of PLCζ and injection of PLCζ may be a useful method for activation of round spermatid-injected and somatic nuclear transferred oocytes.

A single nucleotide polymorphism of porcine MX2 gene provides antiviral activity against vesicular stomatitis virus.

The objective was to determine if single nucleotide polymorphisms (SNPs) in porcine MX2 gene affect its antiviral potential. MX proteins are known to suppress the multiplication of several viruses, including influenza virus and vesicular stomatitis virus (VSV). In domestic animals possessing highly polymorphic genome, our previous research indicated that a specific SNP in chicken Mx gene was responsible for its antiviral function. However, there still has been no information about SNPs in porcine MX2 gene. In this study, we first conducted polymorphism analysis in 17 pigs of MX2 gene derived from seven breeds. Consequently, a total of 30 SNPs, of which 11 were deduced to cause amino acid variations, were detected, suggesting that the porcine MX2 is very polymorphic. Next, we classified MX2 into eight alleles (A1-A8) and subsequently carried out infectious experiments with recombinant VSVΔG*-G to each allele. In A1-A5 and A8, position 514 amino acid (514 aa) of MX2 was glycine (Gly), which did not inhibit VSV multiplication, whereas in A6 and A7, 514 aa was arginine (Arg), which exhibited the antiviral ability against VSV. These results demonstrate that a SNP at 514 aa (Gly-Arg) of porcine MX2 plays a pivotal role in the antiviral activity as well as that at 631 aa of chicken Mx.

Dynamics of intracellular phospholipid membrane organization during oocyte maturation and successful vitrification of immature oocytes retrieved by ovum pick-up in cattle.

The objective was to determine if immature bovine oocytes with cumulus cells at the germinal vesicle (GV) stage could be vitrified by aluminum sheets (AS; pieces of sheet-like aluminum foil). Cleavage rates in fertilized oocytes previously vitrified by the AS procedure were higher than those vitrified by a nylon-mesh holder (NM) procedure (89.3 ± 2.1% vs. 65.0 ± 3.7%). Cleaved embryos derived from the AS but not from the NM procedures developed to blastocysts. Furthermore, to investigate the effects of vitrifying GV oocytes on cytoplasmic structure and on the ability to undergo cytoplasmic changes, the intracellular phospholipid membrane (IM) was stained with the lipophilic fluorescent dye, 3,3'-dioctadecyloxa-carbocyanine perchlorate. After vitrification by AS, the IM remained intact relative to that of oocytes vitrified by NM. During in vitro maturation, reorganization of the IM was also undamaged in oocytes vitrified by AS before oocyte maturation, and the IM within oocytes vitrified by the NM procedure was evidently impaired. Finally, vitrification (AS) was used for GV oocytes collected using the ovum pick-up method. A bull calf was born after in vitro production and subsequent embryo transfer. The vitrification techniques described herein should facilitate generation of viable in vitro production bovine blastocysts using oocytes recovered using the ovum pick-up method.

Both antiviral activity and intracellular localization of chicken Mx protein depend on a polymorphism at amino acid position 631.

The Mx protein is known to inhibit the multiplication of several RNA viruses. In chickens, a polymorphism at amino acid position 631 (631 aa) of Mx protein has been suggested to be involved in the antiviral ability against vesicular stomatitis virus (VSV) and influenza virus, indicating that a Ser-to-Asn substitution at 631 aa is the source of this antiviral ability. However, how the substitution at 631 aa contributes to the antiviral activity remains to be clarified. In this study, we investigated differences in antiviral activity against VSV and intracellular localization between Ser and Asn types at 631 aa of the chicken Mx protein. The results showed that chicken Mx protein with an Asn at 631 aa inhibited VSV multiplication and Mx distribution in a granular-like pattern in the cytoplasm. However, Mx carrying the Ser type did not inhibit viral growth and homogenous spread throughout the cytoplasm. Furthermore, we found that replacing Ser with Asn at 631 aa provided Mx with antiviral activity against VSV, with Mx showing granular-like distribution in the cytoplasm. These results demonstrated that a single amino acid polymorphism at 631 aa of the chicken Mx protein altered both the antiviral activity and intracellular localization.

Specific intracellular localization and antiviral property of genetic and splicing variants in bovine Mx1.

In bovine Mx1, only an amino acid substitution between Ile and Met at position 120 was detected by the nucleotide sequence and mismatched PCR-RFLP technique. The Ile variant was assumed to distribute mainly in the bovine population since the gene frequency was 79.3%. Furthermore, we cloned water buffalo Mx1 cDNA, which showed 51 nucleotide and 20 amino acid substitutions in comparison with that of the cow. Another kind of Mx1 cDNA, bovine Mx1B cDNA, was found and it was deduced to cause 27 amino acid substitutions at the N-terminus compared to the original Mx1 by alternative splicing. However, no variation was detected in 27 amino acids specific for Mx1B among 29 cows and a water buffalo. We established four kinds of mRNA-expressing 3T3 cells and Vero cells. When infection experiments were performed using recombinant vesicular stomatitis virus (VSVDeltaG*-G), bovine Ile and Met types and water buffalo Mx1 mRNA-expressing cell lines showed equally positive antiviral activities (p < 0.05). On the other hand, bovine Mx1B mRNA-expressing cell lines did not have activity against VSVDeltaG*-G. Intracellular localization of bovine Mx1 and Mx1B proteins was examined by a transiently GFP-fused expression system in 3T3 cells. Bovine Mx1 was localized in the cytoplasm, while bovine Mx1B was mainly localized in the nucleus. An arginine-rich nuclear localization signal was found in 27 amino acids specific for Mx1B. N-terminus-deleted Mx1B was only localized in the cytoplasm, and the deleted Mx1B-expressing cell lines showed significantly positive antiviral activities (p < 0.05) against VSVDeltaG*-G.

A PCR-based protocol for the generation of a recombinant West Nile virus.

Viral reverse genetics, particularly infectious cloning, is a valuable tool with applications to many areas of viral research including the generation of vaccine candidates. However, this technology is sometimes insufficient for the construction cDNA clones as the genome sequences and/or encoding proteins of some viral agents may be toxic to the host cells used for cloning. To circumvent this problem, we developed a polymerase chain reaction (PCR)-based protocol for generating a complete West Nile virus (WNV) cDNA. The fragmented cDNAs were synthesized from WNV RNA by reverse transcription-PCR, and subsequently cloned into plasmids for use as templates for WNV cDNA synthesis. The fragmented cDNAs were amplified and assembled by PCR to generate a full-length WNV cDNA. Using this cDNA as a template, WNV RNA was synthesized in vitro and transfected into mammalian cells. We also examined the generation of a mutant recombinant WNV containing a site-directed mutation within the viral genome sequence. Here, we discuss the possibility of developing a method for the generation of recombinant WNVs.

Structural and functional analysis of the bovine Mx1 promoter.

The bovine Mx1 promoter region was found to contain 4 IFN-stimulated response elements (ISREs), 7 GC boxes, 2 IL-6 responsive elements, 2 NFκB-binding sites and 2 AP-1-binding sites. Among Holstein, Charolai, and Brahman breeds, 5 nucleotide substitutions were detected in the promoter region. After the Mx1 promoter region from Holstein had been constructed with pGL-basic expression vector, the transfected cells showed promoter activity after IFN induction. Several artificial deletion mutants were prepared to determine the important regulatory elements responsible for the promoter activity, and it was found that ISRE has a key function in IFN response. The proximal ISRE1 showed potential induction by IFN. Furthermore, the proximal GC boxes were found to be essential for IFN response in the bovine Mx1 promoter with the deletion mutants. In this case, the 2 GC boxes exhibited a synergistic activation in the IFN response. Mithramycin A, an agent that inhibits gene expression selectively by coating GC boxes, was used, and Mx mRNA expression in MDBK cells was suppressed by this chemical. Therefore, GC boxes were also shown to be essential for IFN response in the bovine Mx1 gene.

Molecular cloning and characterization of porcine Mx2 gene.

Mx, an interferon-inducible protein, is found in various vertebrates and confers resistance to several RNA viruses. At least two Mx proteins occur in vertebrates, and these proteins are key components of innate defense against viral infection. In mice and humans, the two Mx genes have different antiviral activities. Both Mx1 and Mx2 have also been detected in pigs, although only a partial sequence of porcine Mx2 has been reported, and there is no information on its antiviral activity. Here, we report the structure of the intact porcine Mx2 gene having an open reading frame of 2136 bp. We also determined the sequence of the genomic region containing the entire porcine Mx2 gene in addition to Mx1 gene. A weak constitutive expression of porcine Mx2 mRNA and endogenous Mx2 protein was observed in interferon-untreated cells. Porcine endogenous Mx2 protein showed nuclear localization. Furthermore, assays using NIH3T3 cells transfected with Mx genes showed that porcine Mx2 possessed antiviral activity against influenza, although this activity was lower than that of human MxA. This report is the first to describe the intact porcine Mx2 gene, which is a functional gene that may play a key role in the clearance of viruses in pigs.

Improvement in the in vitro maturation rate of porcine oocytes vitrified at the germinal vesicle stage by treatment with a mitochondrial permeability transition inhibitor.

In this study, we examined the effects of inhibitors of mitochondrial permeability transition (MPT), caspase activity, intracellular Ca(2+) chelator and mitochondrial Ca(2+) uniporter on survival assessed by morphological observation and in vitro maturation (IVM) of porcine vitrified germinal vesicle (GV) oocytes. When vitrified GV oocytes were matured only present in the IVM medium with an MPT inhibitor, cyclosporin A (CsA), the survival and IVM rates (36.1% and 26.8%, respectively) were significantly higher (P<0.05) than those in the other vitrified groups (10.3-12.3% and 6.2-10.3%, respectively). However, Z-VAD-fmk (Z-VAD), a caspase inhibitor, did not improve the survival and IVM rates (11.7-21.6% and 8.5-155%, respectively). When BAPTA-AM, an intracellular Ca(2+) chelator, was present in the IVM medium, the survival and IVM rates of vitrified GV oocytes (34.5-36.2% and 25.0-26.9%, respectively) were significantly higher (P<0.05) than those in the absent vitrified groups (17.2-24.2% and 12.9-19.3%, respectively). When ruthenium red (RR), an inhibitor of mitochondrial Ca(2+) uniporter, was present only in the IVM medium, the survival and IVM rates (54.5% and 39.4%, respectively) were significantly higher than those in the other vitrified groups (25.8-38.4% and 14.4-24.2%, respectively). Furthermore, blastocysts were successfully produced using porcine vitrified GV oocytes matured in the IVM medium with RR after in vitro fertilization. These results suggested that CsA, BAPTA-AM and RR but not Z-VAD have improved the survival and IVM rates of porcine vitrified GV oocytes.

A naturally occurring variant of porcine Mx1 associated with increased susceptibility to influenza virus in vitro.

Mx1 has been implicated in resistance to the influenza virus. We have now identified four alleles of the Mxl gene in domesticated breeds of pigs. Two of the alleles encode deletion variants (a 3-bp deletion in exon 13 and an 11-bp deletion in exon 14), which might be expected to interfere with Mx activity. The porcine Mxl genes corresponding to wild type, the 3-bp deletion mutant, and the 11-bp deletion mutant were cloned and expressed in NIH3T3 cells, and the antiviral activity for influenza virus was assayed. Virus yield was observed to be 10-100-fold greater with the 11-bp deletion allele than that for wild type and the 3-bp deletion alleles. The results suggest that the 11-bp deletion type is lacking antiviral activity able to contribute to the interference of influenza virus replication.

Molecular cloning, testicular postnatal expression, and oocyte-activating potential of porcine phospholipase Czeta.

The molecular mechanism by which sperm triggers Ca2+ oscillation, oocyte activation, and early embryonic development has not been clarified. Recently, oocyte activation has been shown to be induced by sperm-specific phospholipase Czeta (PLCzeta). The ability of PLCzeta to induce oocyte activation is highly conserved across vertebrates. In the present study, porcine PLCzeta cDNA was identified and the nucleotide sequence was determined. The expression pattern of porcine PLCzeta mRNA during the period of postnatal testicular development was shown to be similar to that of mouse PLCzeta. PLCzeta mRNA expression in the pig and mouse was detected only in the testes when the elongated spermatids had differentiated, and was detected from day 96 after birth in the pig. Histological examination of porcine testis during the period of postnatal development revealed the presence of spermatozoa from day 110 after birth. These findings suggest that the synthesis of PLCzeta mRNA starts when spermiogenesis is initiated. Microinjection of porcine PLCzeta complementary RNA into porcine oocytes demonstrated that porcine PLCzeta has the ability to trigger repetitive Ca2+ transients in porcine oocytes similar to that observed during fertilization. It was also found that porcine PLCzeta cRNA has the potential to induce oocyte activation and initiate embryonic development up to the blastocyst stage.

Analysis of specific factors generating 2-cell block in AKR mouse embryos.

The phenomenon of the developmental arrest at the 2-cell stage of 1-cell embryos from some mouse strains during in vitro culture is known as the 2-cell block. We investigated the specific factors involved in the 2-cell block of AKR embryos by means of a modified culture system, the production of reconstructed embryos by pronuclear exchange and a cross experiment. In a culture medium with phosphate, 94.6% of 1-cell embryos from the C57BL mouse strain developed to the blastocyst stage, but 95.7% of embryos from the AKR mouse strain showed 2-cell block. Phosphate-free culture medium rescued the 2-cell block of AKR embryos and accelerated the first cell cycle of the embryos. Co-culture with BRL cells and a BRL-conditioned medium fractionated below 30 kDa also rescued the 2-cell block of AKR embryos. Examinations of in vitro development of reconstructed embryos and of embryos from F1 females between AKR and C57BL strains clearly demonstrated that the AKR cytoplast caused the 2-cell block. In the backcrossed female progeny between (AKR x C57BL) F1 males and AKR females, about three-quarters of the embryos were of the 2-cell blocking phenotype and about one-quarter were of the non-blocking phenotype. These results suggest that two genes are responsible for the 2-cell block of AKR embryos.

Examination of the Lunatic fringe and Uncx4.1 expression by whole-mount in situ hybridization in the embryo of the CKH-Jsr (jumbled spine and ribs) mouse.

The CKH-Jsr (jumbled spine and ribs) mouse was found as a spontaneous mutant with malformation of vertebrae, that is, a short trunk and kinky tail. We examined Lunatic Fringe (Lfng) and Uncx4.1 expression in the presomitic mesoderm (PSM) and somites of Jsr-mutant (CKH-Jsr/+) embryos to elucidate pathogenesis of the Jsr mutation. Expression pattern of Lfng in the PSM of Jsr-mutant embryos was similar to that of the normal (C57BL/6) embryos. However, expression pattern of Uncx4.1 in the somites of Jsr-mutant embryos was impaired to be irregular and mosaic, suggesting that the anterior-posterior (A-P) polarity is disordered in the Jsr mutant. These results indicate that the Jsr mutation disrupts the A-P polarity of somites during the somitogenesis without altering Lfng expression pattern in the PSM.

Intracellular localization and antiviral property of canine Mx proteins.

Mx is an interferon (IFN)-induced protein that shows antiviral activities against RNA viruses. We examined an expression of mRNA, an intracellular localization of protein, and an antiviral property of canine Mx1 and Mx2. Both Mx1 and Mx2 mRNAs were induced in a canine kidney cell line Madin-Darby canine kidney (MDCK), stimulated with an IFN-inducer, poly(I) x poly(C) for 12 h, suggesting the presence of regulatory mechanisms consistent with Mx genes in other species. By immunostaining BALB/3T3 fibroblasts transiently transfected FLAG epitope-tagged canine Mx1 and Mx2 cDNAs with an anti-FLAG tag, it was revealed that both Mx1 and Mx2 proteins are localized in cytoplasm. BALB/3T3 fibroblasts expressing stably Mx2 but not Mx1 had an antiviral activity against recombinant vesicular stomatitis virus (VSV). This is the first report demonstrating the functional analysis of canine Mx proteins.

A functional truncated form of c-kit tyrosine kinase is produced specifically in the testis of the mouse but not the rat, pig, or human.

The complete nucleotide sequence of mouse-truncated mRNA of c-kit, tr-kit, has been determined using the CD1 strain. In this study, the nucleotide sequences of tr-kit from AKR/N, C57BL/6, and ICR strains of mice were determined and found to be identical, although many silent variations were found compared with the sequence in a database for CD1. Tr-kit protein consists of 12 amino acids encoded by the 16th intron and the following 190 amino acids of c-kit. In the sequences of tr-kit encoding 12 specific amino acids, no substitution was detected among the three strains and CD1. Furthermore, RT-PCR analysis clearly showed that tr-kit mRNA expression was present only in testis. No nucleotide mutation in two important regions of the presumptive promoter for tr-kit mRNA was detected within the 16th intron of the mouse strains examined. However, no functional form of tr-kit was found in the rat, pig, or human by sequence analysis and homology testing.

Effects of oxygen concentration and antioxidants on the in vitro developmental ability, production of reactive oxygen species (ROS), and DNA fragmentation in porcine embryos.

After in vitro maturation and fertilization of porcine oocytes, the fertilized embryos were cultured under 5 or 20% oxygen (O2) for 7 days. In embryos cultured under 5% O2 versus 20% O2, development to the blastocyst stage was higher (36.3% versus 22.5%, P < 0.05); the hydrogen peroxide (H2O2) content as a reactive oxygen species was lower (92 pixels versus 111 pixels, P < 0.05); and fragmentation of DNA in 8- to 16-cell stage embryos (estimated by the comet assay) resulted in a shorter (P < 0.05) DNA tail (36 microm versus 141 microm). Antioxidants such as beta-mercaptoethanol (beta-ME) and Vitamin-E (Vit-E) suppressed oxidative damage in the embryos and improved their developmental ability. For embryos cultured under 20% O2, there were the following differences (P < 0.05) between embryos exposed to 0 microM versus 50 microM beta-ME: 28% versus 57% developed to the blastocyst stage; 125 pixels versus 98 pixels per embryo in H2O2 content; and a DNA tail of 209 microm versus 105 microm. In addition, for embryos cultured under 20% O2, there were also differences (P < 0.05) between those exposed to 0 microM versus 50 microM of Vit-E: 28% versus 40% rate of development to the blastocyst stage; 28.9 cells versus 35.9 cells in the expanded blastocyst; 122 pixels versus 95 pixels per embryo (H2O2 content); and 215 microm versus 97 microm length of the DNA tail. Therefore, a low O2 concentration during in vitro culture of porcine embryos decreased the H2O2 content and, as a consequence, reduced DNA fragmentation, and, thereby, improved developmental ability.

Effects of delipidation and oxygen concentration on in vitro development of porcine embryos.

The effects of delipidation and the oxygen (O(2)) concentration in the atmosphere during culture on in vitro development and H(2)O(2) content were investigated in porcine in vivo fertilized embryos and embryos after in vitro maturation and in vitro fertilization (IVM/IVF embryos). There was no significant difference in the developmental rates to the blastocyst stage between the intact and delipidated IVM/IVF embryos. However, the mean number of cells in blastocysts derived from delipidated IVM/IVF embryos (19.8 +/- 0.8 cells) was significantly smaller than that from intact embryos (24.2 +/- 1.2 cells). Although there were no significant differences in the developmental rates to the blastocyst stage of intact and delipidated IVM/IVF embryos between the cultures under 5% O(2) and 20% O(2), the developmental rate of intact IVM/IVF embryos cultured under 5% O(2) (27.1%) was significantly higher than that of the delipidated embryos cultured under 20% O(2) (19.3%). On the other hand, there was no difference in the developmental rate to the blastocyst stage between in vivo fertilized embryos cultured under 5% O(2) and 20% O(2). Hydrogen peroxide (H(2)O(2)), one of the reactive oxygen species (ROS), is thought to cause damage to embryos. The H(2)O(2) content per embryo derived from oocytes cultured under 5% O(2) (in vivo fertilized, 58.0 +/- 2.5 pixels; IVM/IVF, 79.6 +/- 3.2 pixels) was significantly lower than that (in vivo fertilized, 100.2 +/- 3.8 pixels; IVM/IVF, 103.9 +/- 3.2 pixels) under 20% O(2). Furthermore, the level of H(2)O(2) in delipidated IVM/IVF embryos (94.7 +/- 3.9 pixels) was significantly lower than that in intact embryos (103.9 +/- 3.2 pixels) cultured under 20% O(2). The present results indicate that the delipidation of porcine IVM/IVF embryos and reduction of the O(2) concentration decreased the H(2)O(2) level rather than the in vitro developmental rate to the blastocyst stage.

Characterization of the chicken PKR: polymorphism of the gene and antiviral activity against vesicular stomatitis virus.

The double-stranded RNA-dependent protein kinase (PKR) is induced in mouse and human cells on treatment with interferon. In this study, we have cloned and determined the nucleotide sequences of chicken PKR cDNA in various chicken breeds. Chicken PKR was a 550-amino-acid protein as deduced from the cDNA open reading frame (ORF), and there were specific domains (two double-stranded RNA binding domains (DRBDs) and numerous kinase subdomains) characterized in RNA binding proteins and kinase families. Furthermore, it was suggested that chicken PKR was polymorphic. Transfected cell clones expressing chicken PKR mRNA were demonstrated to confer antiviral responses to vesicular stomatitis virus, except for Koshamo type-3 (KS-3). KS-3 PKR, which has an amino acid substitution at position 507 (Arg to Gln), showed amphibious antiviral responses. This specific amino acid substitution was considered to determine the antiviral function of chicken PKR in addition to essential domains as DRBDs and kinase subdomains.

Mouse Mx2 gene: organization, mRNA expression and the role of the interferon-response promoter in its regulation.

Mx is an interferon (IFN)-inducible intracellular protein found in various vertebrates that mediates resistance against negative-strand RNA viruses. We have demonstrated previously that feral mouse strains are able to express a functional Mx2 mRNA, while that of the inbred laboratory strains was non-functional because of a single nucleotide insertion in the open reading frame, and under the detectable level. In the present study, we examined the regulation of Mx2 expression in vivo using a congenic mouse carrying Mx1 and Mx2 genes derived from feral strain SPR. Mx2 mRNA was induced strongly in the spleen, ovary and white adipose tissue after the treatment with IFNalpha/beta. Furthermore, we identified the structure of the Mx2 gene. It consists of 14 exons, greatly homologous to the Mx1 gene. The promoter region of Mx2 contained two putative IFN-stimulated response elements (ISREs). We found that the proximal ISRE site positioned between -69 and -55 was essential to IFNalpha/beta-induced transcription by transient transfection assay using reporter gene constructs with mutants of the Mx2 promoter. These results indicate the similarity of the mechanisms of mRNA induction among Mx genes.