Fertility preservation after gonadotoxic treatments for cancer and autoimmune diseases.

BACKGROUND: The indications for fertility preservation (FP) have expanded. A few patients who underwent gonadotoxic treatment did not have the opportunity to receive FP, leading to concerns that these patients may develop premature ovarian insufficiency. However, the usefulness of FP in women with reduced ovarian reserve has also been questioned. Progestin-primed ovarian stimulation can improve the controlled ovarian stimulation (COS) protocol, but there is limited data on the efficacy of FP with progestin-primed ovarian stimulation. METHODS: We conducted a prospective study of 43 women with cancer or autoimmune diseases before and after gonadotoxic treatment at the reproductive unit of Keio University Hospital, counselled between 1 January 2018 and 31 December 2021. After counselling, informed consent was obtained for FP from 43 patients, with those who underwent gonadotoxic treatment of the primary disease being prioritised. Gonadotropin-releasing hormone analogue or progestin was used to suppress luteinising hormone in COS before or after gonadotoxic treatment. The number of cryopreserved mature oocytes was the primary outcome. RESULTS: Forty-three patients and 67 assisted reproductive technology cycles were included in the analysis. The median age at entry was 32 [inter quartile range (IQR), 29-37] years. All patients in the post-gonadotoxic treatment group had their oocytes frozen. Gonadotoxic treatment resulted in fewer oocytes [median 3 (IQR 1-4); pre-gonadotoxic treatment group: five patients, 13 cycles] vs. median 9 (IQR 5-14; pre-gonadotoxic treatment group: 38 patients, 54 cycles; P < 0.001). Although anti-Müllerian hormone levels were lower in the post-gonadotoxic treatment group (n = 5, 13 cycles, median 0.29 (IQR 0.15-1.04) pg/mL) than in the pre-gonadotoxic treatment group (n = 38, 54 cycles, median 1.89 (IQR 1.15-4.08) pg/mL) (P = 0.004), oocyte maturation rates were higher in the post-gonadotoxic treatment group [median 100 (IQR 77.5-100) %] than in the pre-gonadotoxic group [median 90.3 (IQR 75.0-100) %; P = 0.039]. Five patients in the pre-gonadotoxic treatment group had their cryopreserved embryos thawed, of which three had live births. CONCLUSIONS: Oocytes obtained for FP from women with cancer or autoimmune disease for FP are of satisfactory quality, regardless of whether they are obtained post-gonadotoxic treatment or COS protocols.

Fluctuations in the Number of Stores by Industry During the COVID-19 Pandemic Based on Japanese Phone Book Entries.

Currently in Japan, summaries of the number of bankruptcies due to the spread of COVID-19 can only be obtained from surveys conducted by a few research firms targeting particular companies. In this study, we used Japanese telephone directory data containing detailed information on the location and industrial category of stores/facilities nationwide in an effort to infer the influence of COVID-19 on businesses in Japan. We analyzed the temporal change in the number of stores before and after the COVID-19 outbreak. Among other findings, the analysis revealed that the number of travel agencies and facilities offering karaoke and other forms of entertainment declined significantly after the outbreak in some prefectures, with the largest declines in Ibaraki, Osaka, and Hyogo prefectures, and a relatively small decline in Tochigi prefecture. Among the stores and facilities categorized as restaurants and travel-related services, the decline was particularly significant in urban areas such as Tokyo and Osaka prefectures.

INT6/eIF3e represses E-cadherin expression through HIF2α in lung carcinoma A549 cells.

Hypoxia-inducible factor 2 α (HIF2α), a transcription factor playing a vital role in hypoxia, promotes cancer metastasis. We had previously reported that the cancer-related gene integration site 6/eukaryotic translation initiation factor 3 subunit e (INT6/eIF3e) negatively regulates the protein stability of HIF2α in an oxygen-independent manner. Presently, the downstream targets for INT6/eIF3e-regulated HIF2α are unknown. Given the roles of HIF2α and INT6/eIF3e in epithelial-mesenchymal transition (EMT) that promotes cancer metastasis, we hypothesized that INT6/eIF3e-regulated HIF2α controls EMT. This study shows that INT6/eIF3e knockdown in lung carcinoma A549 cells led to increased expression of HIF2α protein and an EMT-like phenotypic change. The increased HIF2α subsequently repressed the E-cadherin gene. Mechanistically, HIF2α interacts with the twist family bHLH transcription factor 1 (TWIST1) known to regulate EMT process, and binds to the proximal promoter region of E-cadherin, repressing it. Collectively, our work demonstrates that HIF2α, regulated by INT6/eIF3e, represses the E-cadherin gene through TWIST1 to enhance EMT, suggesting a role of the INT6/eIF3e-HIF2α axis in cancer metastasis.

Ex vivo reconstitution of fetal oocyte development in humans and cynomolgus monkeys.

In vitro oogenesis is key to elucidating the mechanism of human female germ-cell development and its anomalies. Accordingly, pluripotent stem cells have been induced into primordial germ cell-like cells and into oogonia with epigenetic reprogramming, yet further reconstitutions remain a challenge. Here, we demonstrate ex vivo reconstitution of fetal oocyte development in both humans and cynomolgus monkeys (Macaca fascicularis). With an optimized culture of fetal ovary reaggregates over three months, human and monkey oogonia enter and complete the first meiotic prophase to differentiate into diplotene oocytes that form primordial follicles, the source for oogenesis in adults. The cytological and transcriptomic progressions of fetal oocyte development in vitro closely recapitulate those in vivo. A comparison of single-cell transcriptomes among humans, monkeys, and mice unravels primate-specific and conserved programs driving fetal oocyte development, the former including a distinct transcriptomic transformation upon oogonia-to-oocyte transition and the latter including two active X chromosomes with little X-chromosome upregulation. Our study provides a critical step forward for realizing human in vitro oogenesis and uncovers salient characteristics of fetal oocyte development in primates.

PPARα regulates the expression of human arylacetamide deacetylase involved in drug hydrolysis and lipid metabolism.

Human arylacetamide deacetylase (AADAC) hydrolyzes various drugs containing an acetyl group, such as ketoconazole and rifampicin. Knowledge about the role of human AADAC in drug metabolism is accumulating, but the regulatory mechanism of its expression has not been elucidated. In mice, it has been suggested that Aadac expression may be regulated by peroxisome proliferator-activated receptor α (Pparα). This study examined whether human AADAC is regulated by PPARα, which widely regulates the expression of lipid metabolism-related genes. In human hepatoma Huh-7 cells, AADAC mRNA and protein levels were significantly increased by treatment with fenofibric acid and WY-14643, PPARα ligands. Knockdown and overexpression of PPARα resulted in decreased and increased expression of AADAC, respectively. Luciferase assays revealed that the direct repeat 1 (DR1) at -193/-181 in the AADAC promoter region is responsible for transactivation by PPARα. Chromatin immunoprecipitation assays revealed the binding of PPARα to DR1. Thus, it was demonstrated that human AADAC is regulated by PPARα through binding to DR1. Oil red O staining showed that overexpression of AADAC in Huh-7 cells suppressed lipid accumulation after treatment with free fatty acids. The suppression was restored by treatment with diisopropyl fluorophosphate, an AADAC inhibitor. The WY-14643-mediated suppression of lipid accumulation was restored by AADAC knockdown. These results suggested that AADAC has a role in suppressing cellular lipid accumulation. In conclusion, this study demonstrated the regulation of human AADAC by PPARα and its significance in lipid accumulation.

Characterization of human UGT2A3 expression using a prepared specific antibody against UGT2A3.

UDP-Glucuronosyltransferase (UGT) 2A3 belongs to a UGT superfamily of phase II drug-metabolizing enzymes that catalyzes the glucuronidation of many endobiotics and xenobiotics. Previous studies have demonstrated that UGT2A3 is expressed in the human liver, small intestine, and kidney at the mRNA level; however, its protein expression has not been determined. Evaluation of the protein expression of UGT2A3 would be useful to determine its role at the tissue level. In this study, we prepared a specific antibody against human UGT2A3 and evaluated the relative expression of UGT2A3 in the human liver, small intestine, and kidney. Western blot analysis indicated that this antibody is specific to UGT2A3 because it did not cross-react with other human UGT isoforms or rodent UGTs. UGT2A3 expression in the human small intestine was higher than that in the liver and kidney. Via treatment with endoglycosidase, it was clearly demonstrated that UGT2A3 was N-glycosylated. UGT2A3 protein levels were significantly correlated with UGT2A3 mRNA levels in a panel of 28 human liver samples (r = 0.64, p < 0.001). In conclusion, we successfully prepared a specific antibody against UGT2A3. This antibody would be useful to evaluate the physiological, pharmacological, and toxicological roles of UGT2A3 in human tissues.

Eukaryotic translation initiation factor 3 (eIF3) subunit e is essential for embryonic development and cell proliferation.

Mammalian eukaryotic translation initiation factor 3 (eIF3) is the largest complex of the translation initiation factors. The eIF3 complex is comprised of thirteen subunits, which are named eIF3a to eIF3 m in most multicellular organisms. The eIF3e gene locus is one of the most frequent integration sites of mouse mammary tumor virus (MMTV), which induces mammary tumors in mice. MMTV-integration events result in the expression of C-terminal-truncated eIF3e proteins, leading to mammary tumor formation. We have shown that tumor formation can be partly caused by activation of hypoxia-inducible factor 2α. To investigate the function of eIF3e in mammals, we generated eIF3e-deficient mice. These eIF3e-/- mice are embryonically lethal, while eIF3e+/- mice are much smaller than wild-type mice. In addition, eIF3e+/- mouse embryonic fibroblasts (MEFs) contained reduced levels of eIF3a and eIF3c subunits and exhibited reduced cellular proliferation. These results suggest that eIF3e is essential for embryonic development in mice and plays a role in maintaining eIF3 integrity.

Metabolite Profiling of Root Exudates of Common Bean under Phosphorus Deficiency.

Root exudates improve the nutrient acquisition of plants and affect rhizosphere microbial communities. The plant nutrient status affects the composition of root exudates. The purpose of this study was to examine common bean (Phaseolus vulgaris L.) root exudates under phosphorus (P) deficiency using a metabolite profiling technique. Common bean plants were grown in a culture solution at P concentrations of 0 (P0), 1 (P1) and 8 (P8) mg P L-1 for 1, 10 and 20 days after transplanting (DAT). Root exudates were collected, and their metabolites were determined by capillary electrophoresis time-of-flight mass spectrometry (CE-TOF MS). The shoot P concentration and dry weight of common bean plants grown at P0 were lower than those grown at P8. One hundred and fifty-nine, 203 and 212 metabolites were identified in the root exudates, and 16% (26/159), 13% (26/203) and 9% (20/212) of metabolites showed a P0/P8 ratio higher than 2.0 at 1, 10 and 20 DAT, respectively. The relative peak areas of several metabolites, including organic acids and amino acids, in root exudates were higher at P0 than at P8. These results suggest that more than 10% of primary and secondary metabolites are induced to exude from roots of common bean by P deficiency.