Publications by authors named "Takafumi Matsumura"

In mammals, females undergo reproductive cessation with age, whereas male fertility gradually declines but persists almost throughout life. However, the detailed effects of ageing on germ cells during and after spermatogenesis, in the testis and epididymis, respectively, remain unclear. Here we comprehensively examined the in vivo male fertility and the overall organization of the testis and epididymis with age, focusing on spermatogenesis, and sperm function and fertility, in mice.

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  • The study explored using a basic culture medium, MEMα, with bovine serum albumin (AlbuMAX) for in vitro spermatogenesis in mice but found it ineffective in other animals, prompting a search for alternatives.
  • Researchers identified essential components for a synthetic culture medium that promotes spermatogenesis, including antioxidants and lysophospholipids, in addition to known factors like retinoic acid and hormones.
  • They developed a new technique called the PDMS-ceiling method to optimize nutrient and oxygen supply, successfully achieving in vitro spermatogenesis in rats, which previously posed challenges, and aim to improve conditions for other animal species.
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  • A new method for in vitro spermatogenesis using rat testicular tissue has been developed, successfully reaching the haploid cell stage.
  • Transgenic acrosin-EGFP rats were used to track the production of these cells during the process, alongside a metabolic analysis of the culture environment.
  • The in vitro produced spermatids were able to produce healthy offspring through microinsemination, marking a significant advancement in sperm production techniques for species beyond mice.
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Mouse spermatogenesis, from spermatogonial stem cell proliferation to sperm formation, can be reproduced in vitro by culturing testis tissue masses of neonatal mice. However, it remains to be determined whether this method is also applicable when testis tissues are further divided into tiny fragments, such as segments of the seminiferous tubule (ST), a minimal anatomical unit for spermatogenesis. In this study, we investigated this issue using the testis of an Acrosin-GFP/Histone H3.

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  • Researchers used mice with Y chromosome deficiencies to investigate how the loss of Zfy1 and Zfy2 genes affects male fertility and sperm development.
  • By employing CRISPR/Cas9 techniques, they created knockout mice to analyze the specific contributions of these genes, finding that while Zfy1 knockouts remained fertile, Zfy2 knockouts experienced reduced litter size and sperm abnormalities.
  • The study reveals that both Zfy genes are crucial for normal sperm function and male fertility, with Zfy2 loss having a more significant negative impact on spermatogenesis compared to Zfy1.
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  • Fertilization in mammals involves sperm undergoing the acrosome reaction, allowing them to fuse with an egg after penetrating the zona pellucida.
  • The protein IZUMO1 is crucial for sperm-egg fusion, with knockout studies in mice showing that sperm can attach but not merge with the egg.
  • In contrast to mice, knockout rat sperm cannot even bind to the egg, indicating that IZUMO1 is essential for sperm binding before fusion in rats.
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Calcineurin is a calcium-dependent phosphatase that plays roles in a variety of biological processes including immune responses. In spermatozoa, there is a testis-enriched calcineurin composed of PPP3CC and PPP3R2 (sperm calcineurin) that is essential for sperm motility and male fertility. Because sperm calcineurin has been proposed as a target for reversible male contraceptives, identifying proteins that interact with sperm calcineurin widens the choice for developing specific inhibitors.

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Autophagy degrades unnecessary proteins or damaged organelles to maintain cellular function. Therefore, autophagy has a preventive role against various diseases including hepatic disorders, neurodegenerative diseases, and cancer. Although autophagy in germ cells or Sertoli cells is known to be required for spermatogenesis and male fertility, it remains poorly understood how autophagy participates in spermatogenesis.

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Spermatogenesis takes place in the seminiferous tubules, starting from the spermatogonial stem cell and maturing into sperm through multiple stages of cell differentiation. Sertoli cells, the main somatic cell constituting the seminiferous tubule, are in close contact with every germ cell and play pivotal roles in the progression of spermatogenesis. In this study, we developed an in vitro Sertoli cell replacement method by combining an organ culture technique and a toxin receptor-mediated cell knockout system.

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In vitro spermatogenesis (IVS) using air-liquid interphase organ culture method is possible with mouse testis tissues. The same method, however, has been hardly applicable to animals other than mice, only producing no or limited progression of spermatogenesis. In the present study, we challenged IVS of rats with modifications of culture medium, by supplementing chemical substances, including hormones, antioxidants, and lysophospholipids.

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  • The lumicrine system involves testis-derived factors that regulate sperm maturation in the male reproductive tract, but specific factors had not been identified until now.
  • Researchers discovered that a protein called NELL2 from testicular germ cells binds to the ROS1 receptor, influencing the maturation of a specific section of the epididymis.
  • The absence of ROS1 in male mice led to infertility, highlighting the importance of the NELL2-ROS1-OVCH2-ADAM3 signaling pathway for male fertility.
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In vitro mouse spermatogenesis using a classical organ culture method became possible by supplementing basal culture medium with only the product of bovine serum albumin purified by chromatography (AlbuMAX), which indicated that AlbuMAX contained every chemical factor necessary for mouse spermatogenesis. However, since the identity of these factors was unclear, improvements in culture media and our understanding of the nutritional and signal substances required for spermatogenesis were hindered. In the present study, chemically defined media (CDM) without AlbuMAX was used to evaluate each supplementary factor and their combinations for the induction of spermatogenesis.

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  • Mammalian sperm develop in the testis through a process called spermatogenesis and gain fertilizing ability in the epididymis before being ejaculated and moving to the oviducts to fertilize eggs.
  • The study investigates two specific genes, Prss51 and Prss55, in mice, finding that double knockout (DKO) mice lacking both genes are sterile due to impaired sperm migration and binding to eggs.
  • Prss55 is crucial for male fertility as it stabilizes a key sperm protein, ADAM3, whereas Prss51 alone does not affect fertility, highlighting its potential significance in understanding male infertility issues and contraceptive development.*
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  • Kinesin is a molecular motor that travels along microtubules, and KIF9, a member of this family, is crucial for sperm function in mice.
  • Researchers used CRISPR/Cas9 to create Kif9 mutants in mice, which displayed reduced sperm motility and fertility issues.
  • The absence of KIF9 led to an abnormal flagellar movement pattern, causing circular swimming of sperm; KIF9 appears to be linked to central pair microtubules involved in regulating flagellar motion.
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  • - Flagella and cilia are important cell structures that, when formed or move abnormally, can lead to diseases known as ciliopathies; they have a central component called the axoneme, which includes a specific microtubule structure and regulatory complex.
  • - Research has found that a part of the axoneme called TCTE1 (or DRC5) is crucial for sperm movement and male fertility in mice, interacting with other components such as FBXL13 and DRC7, although the roles of the latter two in mammals remain unclear.
  • - In studies, mice lacking Drc7 were found to be infertile due to disorganized axonemes and immotile sperm, highlighting that D
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The proteasome is a protein-degrading molecular complex that is necessary for protein homeostasis and various biological functions, including cell cycle regulation, signal transduction, and immune response. Proteasome activity is finely regulated by a variety of proteasome-interacting molecules. PITHD1 is a recently described molecule that has a domain putatively capable of interacting with the proteasome.

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  • Genetic lineage-tracing techniques help researchers study specific cell types in development and disease, but past methods were limited to tracking single genes.
  • The new TRiCK (TRiple Coloured germ layer Knock-in) mice use advanced genetic tools to label all three germ layers with different fluorescent proteins during embryonic development, allowing for better comparison of cell contributions.
  • Findings suggest that certain lineage markers were misinterpreted, and stem cells commit to specific fates without fluctuating, while a new tissue-clearing method (IMES) enhances the ability to analyze these cell layer contributions using the TRiCK system.
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  • The study examined the impact of living in space on male reproductive health by observing mice in both artificial gravity and microgravity environments for 35 days on the ISS.
  • Mice showed a decrease in accessory gland weight, but no significant changes in reproductive organs, sperm functionality, or gene expression were found.
  • Fertilized eggs from mice in both space conditions resulted in similar numbers of healthy pups as those from ground control mice, suggesting short-term space exposure doesn't harm male fertility.
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  • CRISPR/Cas9 technology was used to create knockout mice for genes related to male reproduction to identify proteins essential for fertility.
  • The study focused on deleting genes from specific clusters, including cystatin and PATE proteins, as well as other gene families that are important for sperm function.
  • Findings revealed that certain gene disruptions led to male sterility or fertility issues, highlighting the critical roles of specific proteins in sperm migration and fertilization processes.
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More than 1000 genes are predicted to be predominantly expressed in mouse testis, yet many of them remain unstudied in terms of their roles in spermatogenesis and sperm function and their essentiality in male reproduction. Since individually indispensable factors can provide important implications for the diagnosis of genetically related idiopathic male infertility and may serve as candidate targets for the development of nonhormonal male contraceptives, our laboratories continuously analyze the functions of testis-enriched genes in vivo by generating knockout mouse lines using the CRISPR/Cas9 system. The dispensability of genes in male reproduction is easily determined by examining the fecundity of knockout males.

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About 10% of male infertile patients show abnormalities in spermatogenesis. The microdeletion of azoospermia factor a (AZFa) region of the Y chromosome is thought to be a cause of spermatogenic failure. However, candidate gene responsible for the spermatogenic failure in AZFa deleted patients has not been elucidated yet.

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Seminal vesicle secretions (SVSs), together with spermatozoa, are ejaculated into the female reproductive tract. SVS7, also known as PATE4, is one of the major SVS proteins found in the seminal vesicle, copulatory plug, and uterine fluid after copulation. Here, we generated Pate4 knockout (-/-) mice and examined the detailed function of PATE4 on male fecundity.

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  • The flagellum is a vital structure for movement and sensing, with its core, the axoneme, containing proteins like radial spokes that help regulate its function.
  • Disruptions in axoneme formation can lead to diseases such as primary ciliary dyskinesia (PCD) and male infertility.
  • The study shows that RSPH6A, a protein in the radial spoke, is critical for proper sperm flagellum assembly and that its absence leads to infertility in mice due to short, non-motile sperm.
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The CRISPR/Cas9 system can efficiently introduce biallelic mutations in ES cells (ESCs), and its application with fluorescently-tagged ESCs enables phenotype analysis in chimeric mice. We have utilized ESCs that express EGFP in the cytosol and acrosome [EGR-G101 129S2 × (CAG/Acr-EGFP) B6] in previous studies; however, the EGFP signal in the sperm cytosol is weak and the signal in the acrosome is lost after the acrosome reaction, precluding analysis between wild type and ESC derived spermatozoa. In this study, we established an ESC line from RBGS (Red Body Green Sperm) transgenic mice [B6D2-Tg (CAG/Su9-DsRed2, Acr3-EGFP) RBGS002Osb] whose spermatozoa exhibit green fluorescence in the acrosome and red fluorescence in the mitochondria within the flagellar midpiece that is retained after the acrosome reaction.

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Oesophageal squamous cell carcinoma (ESCC) is an aggressive cancer that resulted in ~400,000 mortalities worldwide in 2012. It was reported previously that fibroblast growth factor receptor-like 1 (FGFRL1) is highly expressed in ESCC patients with lymph node metastasis and poor prognosis accordingly. FGFRL1 is an FGFR that lacks tyrosine kinase activity, whereas the activity is critical for other FGFRs to activate intracellular signalling.

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