👤 Ryuta Fujimura

Theogallin, a tea-derived polyphenol enriched in newly developed cultivars such as MK5601, has been shown to have cognitive benefits. However, its biological and mechanistic effects of theogallin remain unclear. Herein, we investigated the transcriptomic profiles of six mouse tissues after oral theogallin administration. Theogallin induced tissue-enriched transcriptional responses, particularly in the brain, where it activated memory-related and neuronal activity-related pathways through the upregulation of immediate-early genes (IEGs). These transcriptional changes closely resembled brain-derived neurotrophic factor (BDNF)-induced neuronal activation and contrasted with gene expression patterns associated with Alzheimer's disease. In aged mice, theogallin improved recognition memory and increased the expression of IEGs-associated proteins, while reducing neurodegeneration-linked markers. Theogallin also enhanced neuronal gene expression in SH-SY5Y cells, supporting a direct neuromodulatory role and further promoting neurite outgrowth. Therefore, theogallin is a functional enhancer of neuronal activation with potential therapeutic relevance for age-related cognitive decline and neurodegenerative disorders. Show less

Background Prism adaptation (PA) is a classical paradigm known to induce sensorimotor plasticity, and accumulating evidence suggests that it may also influence language networks. In particular, leftward prism adaptation (L-PA) has been proposed to modulate language-related functions through alterations in motor cortical excitability and interhemispheric inhibition. However, its effects on native Japanese speakers remain unclear. Objective This study aimed to investigate the effects of L-PA on performance in phonemic fluency tasks (PFT) and category fluency tasks (CFT) in healthy adults whose native language is Japanese. Methods A randomized controlled trial was conducted on 57 right-handed healthy adults, who were undergraduate or graduate students at Kumamoto Health Science University (Kumamoto, Japan) and volunteered without financial compensation. Participants were assigned to one of three groups using a virtual reality-based prism adaptation system (VRPA): the L-PA group, in which visual space was shifted leftward; the R-PA group, in which visual space was shifted rightward; or the control group, with no visual displacement. Both PFT and CFT were administered before and after the intervention. The dependent variable was the number of correct words generated within one minute. The primary analysis tested the interaction between group (L-PA/R-PA/control) and time (pre-/post-intervention) using split-plot ANOVA. Results In total, nine participants who failed to exhibit an aftereffect were excluded, leaving 48 for analysis. No significant differences were observed among groups at baseline. In the L-PA group, performance significantly improved after the intervention in both PFT (p = 0.0065) and CFT (p = 0.0404). No significant changes were found in the R-PA or control group. Conclusion These findings suggest that L-PA may transiently enhance both phonemic and semantic verbal fluency in Japanese speakers. This study provides preliminary evidence that L-PA can modulate language functions through plasticity of language networks. Future research should address the underlying neural mechanisms, the durability of the effects, and validation in larger clinical trials. Show less

Targeting the drug tolerant persister (DTP) state in cancer cells should prevent further development of resistance mechanisms. This study explored combination therapies to inhibit alectinib-induced DTP cell formation from anaplastic lymphoma kinase-positive non-small cell lung cancer (ALK + NSCLC) patient-derived cells. After drug-screening 3114 compounds, pan-HER inhibitors (ErbB pathway) and tankyrase1/2 inhibitors (Wnt/β-catenin signaling) emerged as top candidates to inhibit alectinib-induced DTP cells growth. We confirmed knockdown of both TNKS1/2 in DTP cells recovered the sensitivity to alectinib. Further, our study suggested knockdown of TNKS1/2 increased stability of Axin1/2, which induced β-catenin degradation and decreased its nuclear translocation, thereby suppressing transcription of antiapoptotic and proliferation-related genes (survivin, c-MYC). Targeting both pathways with alectinib+pan-HER inhibitor and alectinib+TNKS1/2 inhibitor suppressed alectinib-induced DTP cells, and the triple combination almost completely prevented the appearance of DTP cells. In conclusion, combination with ALK-TKI, pan-HER and TNKS1/2 inhibitors has the potential to prevent the emergence of DTP in ALK + NSCLC. Show less

Cancer cell resistance arises when tyrosine kinase inhibitor (TKI)-targeted therapies induce a drug-tolerant persister (DTP) state with growth via genetic aberrations, making DTP cells potential therapeutic targets. We screened an anti-cancer compound library and identified fibroblast growth factor receptor 1 (FGFR1) promoting alectinib-induced anaplastic lymphoma kinase (ALK) fusion-positive DTP cell's survival. FGFR1 signaling promoted DTP cell survival generated from basal FGFR1- and fibroblast growth factor 2 (FGF2)-high protein expressing cells, following alectinib treatment, which is blocked by FGFR inhibition. The hazard ratio for progression-free survival of ALK-TKIs increased in patients with ALK fusion-positive non-small cell lung cancer with FGFR1- and FGF2-high mRNA expression at baseline. The combination of FGFR and targeted TKIs enhanced cell growth inhibition and apoptosis induction in basal FGFR1- and FGF2-high protein expressing cells with ALK-rearranged and epidermal growth factor receptor (EGFR)-mutated NSCLC, human epidermal growth factor receptor 2 (HER2)-amplified breast cancer, or v-raf murine sarcoma viral oncogene homolog B1 (BRAF)-mutated melanoma by preventing compensatory extracellular signal-regulated kinase (ERK) reactivation. These results suggest that a targeted TKI-induced DTP state results from an oncogenic switch from activated oncogenic driver signaling to the FGFR1 pathway in basal FGFR1- and FGF2-high expressing cancers and initial dual blockade of FGFR and driver oncogenes based on FGFR1 and FGF2 expression levels at baseline is a potent treatment strategy to prevent acquired drug resistance to targeted TKIs through DTP cells regardless of types of driver oncogenes. Show less

Macroautophagy/autophagy is a lysosomal degradation system which plays a protective role against kidney injury. RUBCN/Rubicon (RUN domain and cysteine-rich domain containing, Beclin 1-interacting protein) inhibits the fusion of autophagosomes and lysosomes. However, its physiological role in kidney proximal tubular epithelial cells (PTECs) remains uncertain. In the current study, we analyzed the phenotype of newly generated PTEC-specific Show less

Saccharomyces cerevisiae FUS3/DAC2 protein kinase, a homolog of mammalian mitogen-activated protein (MAP) kinase, inactivates a G1 cyclin encoded by the CLN3 gene to arrest cell division in the G1 phase and activates a transcriptional factor STE12 in response to mating pheromone during sexual conjugation. To elucidate the role of the FUS3/DAC2 gene product in the mating process, I constructed and characterized dac2 cln3 double mutants. Here, I show that FUS3/DAC2 is required for completion of cell fusion even in the dac2 cln3 double mutants in which the pheromone response is restored, suggesting that FUS3/DAC2 plays a positive role in cell fusion during conjugation. In addition, the cdc dac2 and cdc37 ste double mutants were constructed and investigated for their phenotypes to clarify the relationship between FUS3/DAC2, STE7 or STE11 and CDC gene products (CDC28, 36, 37 and 39). The results indicate that FUS3/DAC2 may act upstream of CDC28 and provide evidence that the G1 arrest and morphological changes conferred by the cdc37 mutation may require FUS3/DAC2 (MAP kinase), STE7(MEK) and STE11 (MEK kinase). Show less