Supplementation with autologous adipose stem cell-derived mitochondria can be a safe and promising strategy for improving oocyte quality.

PURPOSE: In our previous study, we confirmed that the supplementation of vitrified-warmed murine oocytes with autologous adipose stem cell (ASC)-derived mitochondria during intracytoplasmic sperm injection enhances post-fertilization developmental competence in mice. To ensure the safety of this technology, we conducted a thorough study in mice to investigate the potential presence of specific malformations in offspring developed from this approach. METHODS: A transgenerational comparative analysis was conducted on founder mice from embryos that developed after mitochondrial supplementation, and two subsequent generations. Reproductive performance, body growth rate, histopathological parameters, hematological parameters, daily activity patterns, and daily body temperature changes in male and female mice across these three generations were assessed in comparison to wild-type mice of the same age. RESULTS: Both male and female animals in all three generations showed comparable reproductive performance to the control group. Additionally, body growth rate by the age of 8 weeks were found to be comparable to controls across all three generations. Notably, no significant histopathological abnormalities were detected in vital organs, including the brain, heart, liver, kidneys, lungs, ovaries, and testes, in any individuals from the studied cohorts. The blood parameters were consistent with the control data. The continuous monitoring of activity and body temperature changes (both day and night) over a 1-week period revealed a pattern closely resembling that observed in the control animals. CONCLUSION: Injection of ASC-mitochondria into oocytes may be a promising technique to support developmental potential without causing adverse epigenetic events in the offspring in mice. However, before considering clinical application, additional safety screening using larger animals or non-human primates is essential.

Mitochondrial Transfer into Human Oocytes Improved Embryo Quality and Clinical Outcomes in Recurrent Pregnancy Failure Cases.

One of the most critical issues to be solved in reproductive medicine is the treatment of patients with multiple failures of assisted reproductive treatment caused by low-quality embryos. This study investigated whether mitochondrial transfer to human oocytes improves embryo quality and provides subsequent acceptable clinical results and normality to children born due to the use of this technology. We transferred autologous mitochondria extracted from oogonia stem cells to mature oocytes with sperm at the time of intracytoplasmic sperm injection in 52 patients with recurrent failures (average 5.3 times). We assessed embryo quality using the following three methods: good-quality embryo rates, transferable embryo rates, and a novel embryo-scoring system (embryo quality score; EQS) in 33 patients who meet the preset inclusion criteria for analysis. We also evaluated the clinical outcomes of the in vitro fertilization and development of children born using this technology and compared the mtDNA sequences of the children and their mothers. The good-quality embryo rates, transferable embryo rates, and EQS significantly increased after mitochondrial transfer and resulted in 13 babies born in normal conditions. The mtDNA sequences were almost identical to the respective maternal sequences at the 83 major sites examined. Mitochondrial transfer into human oocytes is an effective clinical option to enhance embryo quality in recurrent in vitro fertilization-failure cases.

Mitochondria Transfer from Adipose Stem Cells Improves the Developmental Potential of Cryopreserved Oocytes.

Although it is not a well-established technology, oocyte cryopreservation is becoming prevalent in assisted reproductive technologies in response to the growing demands of patients' sociological and pathological conditions. Oocyte cryopreservation can adversely affect the developmental potential of oocytes by causing an increase in intracellular oxidative stresses and damage to the mitochondrial structure. In this study, we studied whether autologous adipose stem cell (ASC) mitochondria supplementation with vitrified and warmed oocytes could restore post-fertilization development that decreased due to mitochondrial damage following cryopreservation. ASC mitochondria showed similar morphology to oocytes' mitochondria and had a higher ATP production capacity. The vitrified-warmed oocytes from juvenile mice were supplemented with ASC mitochondria at the same time as intracellular sperm injection (ICSI), after which we compared their developmental capacity and the mitochondria quality of 2-cell embryos. We found that, compared to their counterpart, mitochondria supplementation significantly improved development from 2-cell embryos to blastocysts (56.8% vs. 38.2%) and ATP production in 2-cell embryos (905.6 & 561.1 pmol), while reactive oxygen species levels were comparable. With these results, we propose that ASC mitochondria supplementation could restore the quality of cryopreserved oocytes and enhance the embryo developmental capacity, signifying another possible approach for mitochondrial transplantation therapy.

AP2/ERF Transcription Factor NbERF-IX-33 Is Involved in the Regulation of Phytoalexin Production for the Resistance of Nicotiana benthamiana to Phytophthora infestans.

Plants recognize molecular patterns unique to a certain group of microbes to induce effective resistance mechanisms. Elicitins are secretory proteins produced by plant pathogenic oomycete genera including Phytophthora and Pythium. Treatment of INF1 (an elicitin produced by P. infestans) induces a series of defense responses in Nicotiana species, including reactive oxygen species (ROS) production, transient induction of ethylene production, hypersensitive cell death and accumulation of the sesquiterpenoid phytoalexin capsidiol. In this study, we analyzed the expression profiles of N. benthamiana genes after INF1 treatment by RNAseq analysis. Based on their expression patterns, N. benthamiana genes were categorized into 20 clusters and 4,761 (8.3%) out of 57,140 genes were assigned to the clusters for INF1-induced genes. All genes encoding enzymes dedicated to capsidiol production, 5-epi-aristolochene (EA) synthase (NbEAS, 10 copies) and EA dehydrogenase (NbEAH, 6 copies), and some genes for ethylene production, such as 1-aminocyclopropane 1-carboxylate (ACC) synthase (NbACS) and ACC oxidase (NbACO), were significantly upregulated by INF1 treatment. Analysis of NbEAS1 and NbEAS4 promoters revealed that AGACGCC (GCC box-like motif) is the essential cis-element required for INF1-induced expression of NbEAS genes. Given that the GCC box is known to be targeted by ERF (ethylene-responsive factor) transcription factors, we created a complete list of N. benthamiana genes encoding AP2/ERF family transcription factors, and identified 45 out of 337 AP2/ERF genes in the clusters for INF1-induced genes. Among INF1-induced NbERF genes, silencing of NbERF-IX-33 compromised resistance against P. infestans and INF1-induced production of capsidiol. Recombinant NbERF-IX-33 protein can bind to the promoter sequence of NbEAS4, suggesting that NbERF-IX-33 is a transcription factor directly regulating the expression of genes for phytoalexin production.

Contribution of nucleus accumbens core (AcbC) to behavior control during a learned resting period: introduction of a novel task and lesion experiments.

In recent years, the study of resting state neural activity has received much attention. To better understand the roles of different brain regions in the regulation of behavioral activity in an arousing or a resting period, we developed a novel behavioral paradigm (8-arm food-foraging task; 8-arm FFT) using the radial 8-arm maze and examined how AcbC lesions affect behavioral execution and learning. Repetitive training on the 8-arm FFT facilitated motivation of normal rats to run quickly to the arm tips and to the center platform before the last-reward collection. Importantly, just after this point and before confirmation of no reward at the next arm traverse, locomotor activity decreased. This indicates that well-trained rats can predict the absence of the reward at the end of food seeking and then start another behavior, namely planned resting. Lesions of the AcbC after training selectively impaired this reduction of locomotor activity after the last-reward collection without changing activity levels before the last-reward collection. Analysis of arm-selection patterns in the lesioned animals suggests little influence of the lesion in the ability to predict the reward absence. AcbC lesions did not change exploratory locomotor activity in an open-field test in which there were no rewards. This suggests that the AcbC controls the activity level of planned resting behavior shaped by the 8-arm FFT. Rats receiving training after AcbC lesioning showed a reduction in motivation for reward seeking. Thus, the AcbC also plays important roles not only in controlling the activity level after the last-reward collection but also in motivational learning for setting the activity level of reward-seeking behavior.

Dynamic mobility of immunological cells expressing S100A8 and S100A9 in vivo: a variety of functional roles of the two proteins as regulators in acute inflammatory reaction.

The immunological properties of rat S100A8 (r-S100A8) and S100A9 (r-S100A9) in immune cells are poorly understood. Enzyme-linked immunosorbent assay (ELISA) for r-S100A9 enabled us to discuss the differential functional roles of the two proteins, and their localization in the cells was observed microscopically. Recombinant human S100A8 (rh-S100A8) or S100A9 (rh-S100A9) were intravenously administrated into rats with LPS-induced liver damage. ELISA was used to measure the serum concentration of S100A9 in the rats. Western blotting and a preparative ELISA were used to prove specificity and avidity of monoclonal antibodies for r-S100A8 and r-S100A9. Immunohistochemical staining was carried out to visualize intracellular localization of the two proteins in the immune cells using the antibodies. When rh-S100A8 was intravenously injected in the rats (B group), the serum concentration of r-S100A9 apparently decreased as compared with that of the positive control rats (A group). The activities of AST, ALT, and LD in the rat sera (B group) also significantly went down in comparison with those of the rats (A group). Although both the S100A8 and S100A9 were abundantly expressed in activated immune cells, quite difference of not only their intracellular localization but also distribution of the cells expressing the two proteins was microscopically observed. In the rats (B group), less number of the immune cells or less amount of r-S100A8 and r-S100A9 in the cells than those of the rats (A group) was also seen. The r-S100A8 could serve as a regulator of acute inflammatory reaction in the rats with LPS-induced damage.

[Possible mechanism for regulation of inflammatory responses with the S100A8/A9 protein].

We have described a possible mechanism for the regulation of excessive inflammatory responses with S100A8/A9 protein in damaged rat livers. Recombinant human S100A8(r-S100A8) and S100A9 (r-S100A9) were expressed in E. coli cells, and their heterodimer (r-S100A8/A9) with 90% approximate purity was also prepared successfully. The effect of the r-S100A8/A9 on suppression of acute inflammatory changes in rat livers with LPS-induced damage was microscopically observed. Indeed, the liver damage diminished as the dose of the r-S100A8/A9 increased, and the minimum requirement of the protein was estimated to be 1,000 microg/rat in this study. Observation of superoxide anions was positively observed in control rats treated with LPS alone, but almost not in the livers of rats treated with the r-S 100A8/A9 1h after injection of LPS. This fact strongly suggests that the r-S100A8/A9 could indirectly suppress production of such internal oxidants according to unknown pathway (s) in acute inflammation. Expression of mRNAs of several kinds of inflammatory cytokines, such as TNF-alpha, IL-6 and IL-1beta, was also significantly suppressed, which was of much note. Therefore, the possibility that the r-S100A8/A9 partly inhibits the process of signal transduction of inflammatory responses in the immunological cells leading to down regulation of inflammatory changes in vivo was suggested in this study. Conclusively, S100A8/A9 is not necessarily an inflammatory-induced factor, and preferably effective on suppression of excessive inflammatory reaction in vivo dose-dependently, although the mechanism is still unclear.

Identification of serum proteins that bind with S100A8, S100A9 and S100A8/A9: clinical significance of using proteins for monitoring the postoperative condition of liver recipients.

BACKGROUND: Serum proteins that non-specifically bind with human S100A8/A9 (h-S100A8/A9) have been proposed. Our aim was to isolate and identify these proteins, and verify their clinical significance for monitoring the postoperative condition of liver recipients, and further to discuss the transportation of human fibronectin (h-FN) with h-S100A8/A9 and its functional role in vivo. METHODS: To isolate the serum proteins, recombinant human S100A8, S100A9 and S100A8/A9 affinity columns were used. Proteins were identified by mass spectrometry. Two enzyme-linked immunosorbent assays (ELISA) were used to measure h-S100A8/A9 and h-FN in the sera of liver recipients. Flow cytometry was employed to detect h-S100A8/A9 and h-FN on immunological cells. Western blotting was used to confirm serum constituents using antibodies specific to each constituent. RESULTS: One of the proteins was identified with h-FN, and its fluctuation pattern in the serum of the recipient was in contrast to that of CRP. Flow cytometry showed a positive reaction for h-S100A8/A9 and h-FN on neutrophils and monocytes, indicating that both proteins exist on these cells. CONCLUSIONS: The h-FN could be transported with S100A8/A9 in blood and/or on immunological cells, and effectively prevent further attack by various internal oxidants or repair damaged liver tissue in vivo.

Interaction between methyl CpG-binding protein and ran GTPase during cell division in tobacco cultured cells.

BACKGROUND AND AIMS: Methyl CpG-binding proteins are considered to play critical roles in epigenetic control of gene expression by recognizing and interacting with 5-methylcytosine (m(5)C) in eukaryotes. However, among 13 corresponding genes in Arabidopsis thaliana, designated as featuring a methyl-binding domain (MBD), only four have so far been shown actually to bind to m(5)C. One example, AtMBD5, was selected here to screen for interacting proteins. METHODS: Yeast two-hybrid assays were used for screening, and physical interaction was confirmed by pull-down and bimolecular fluorescence complementation (BiFC) assays. Cellular localization was analysed by fluorescence-tagged fusion proteins using tobacco (Nicotiana tabacum) cultured bright yellow 2 cells. KEY RESULTS: A gene finally identified was found to encode AtRAN3, a protein that belongs to the Ran GTPase family, which plays a critical role in nucleocytoplasmic transport and spindle bipolarization during cell division. AtMBD5 and AtRAN3 were clearly shown to interact in the nucleus by BiFC. On co-expression of AtMBD5-cyan fluorescence protein and yellow fluorescence protein-AtRAN3 in tobacco cells, both localized to the nucleus in the resting stage, migrating to the cytoplasm, primarily around chromatin, during mitosis, particularly at metaphase. CONCLUSIONS: These results suggest that AtMBD5 becomes localized to the vicinity of chromosomes with the aid of AtRAN3 during cell division, and may play an important role not only in maintenance of chromatin structures by binding to m(5)C, but also in progress through mitosis by detaching from m(5)C. The present findings also shed light on the physiological function of Ran GTPases, direct target proteins of which have not thus far been well defined, suggesting their key role in chromatin movements in plant cells.

Genome-wide searching of single-nucleotide polymorphisms among eight distantly and closely related rice cultivars (Oryza sativa L.) and a wild accession (Oryza rufipogon Griff.).

We searched the genomes of eight rice cultivars (Oryza sativa L. ssp. japonica and ssp. indica) and a wild rice accession (Oryza rufipogon Griffith) for nucleotide polymorphisms, and identified 7805 polymorphic loci, including single-nucleotide polymorphisms (SNPs) and insertions/deletions (InDels), in predicted intergenic regions. Polymorphisms are useful as DNA markers for genetic analysis or positional cloning with segregating populations of crosses. Pairwise comparison between cultivars and a neighbor-joining tree calculated from SNPs agreed very well with relationships between rice strains predicted from pedigree data or calculated with other DNA markers such as p-SINE1 and simple sequence repeats (SSRs), suggesting that whole-genome SNP information can be used for analysis of evolutionary relationships. Using multiple SNPs to identify alleles, we drew a map to illustrate the alleles shared among the eight cultivars and the accession. The map revealed that most of the genome is mono- or di-allelic among japonica cultivars, whereas alleles well conserved among modern japonica paddy rice cultivars were often shared with indica cultivars or wild rice, suggesting that the genome structure of modern cultivars is composed of chromosomal segments from various genetic backgrounds. Use of allele-sharing analysis and association analysis were also tested and are discussed.

Methylated DNA-binding proteins from Arabidopsis.

The 5-methylcytosines (m5C) play a critical role in epigenetic control, often being recognized by proteins containing a methyl-CpG-binding domain (MBD). Database screening has identified at least 12 putative methyl-CpG-binding proteins from Arabidopsis; we have isolated corresponding cDNAs for seven of them. Despite variation in size and amino acid sequence, all seven proteins exclusively migrate into the nucleus as revealed by green fluorescent protein fusion protein assay, suggesting a relationship with chromatin structure. However, DNA-binding assays using bacterially expressed proteins and synthetic oligonucleotides containing m5C in CpGs showed only one to specifically bind, designated AtMBD5. Further analysis showed that AtMBD5 efficiently binds to m5C in CpNpN (N is A, T, or C) but not in CpNpG sequences, both frequently found in plant DNA. The other six proteins showed either nonspecific DNA binding or no ability to recognize m5C. RNA-blot hybridization and immunoblot analysis indicated AtMBD5 to be present essentially in all tissues. Using green fluorescent protein driven by the authentic promoter, AtMBD5 was found to be actively expressed in pistils and root tips. Because m5Cs in CpG and CpNpN are considered to function in gene expression and gene silencing, respectively, the present results suggest that AtMBD5 may have distinct functions in regulation and/or self defense of genes in actively proliferating cells.