Apr 2024, Volume 15 Issue 4
    

  • Select all
  • RECOLLECTION
    Ligang Wang, Tongqi Wei, Liang Wang
  • REVIEW
    Jia-Hao Dai, Xi-Rong Tan, Han Qiao, Na Liu

    The profound influence of microbiota in cancer initiation and progression has been under the spotlight for years, leading to numerous researches on cancer microbiome entering clinical evaluation. As promising biomarkers and therapeutic targets, the critical involvement of microbiota in cancer clinical practice has been increasingly appreciated. Here, recent progress in this field is reviewed. We describe the potential of tumor-associated microbiota as effective diagnostic and prognostic biomarkers, respectively. In addition, we highlight the relationship between microbiota and the therapeutic efficacy, toxicity, or side effects of commonly utilized treatments for cancer, including chemotherapy, radiotherapy, and immunotherapy. Given that microbial factors influence the cancer treatment outcome, we further summarize some dominating microbial interventions and discuss the hidden risks of these strategies. This review aims to provide an overview of the applications and advancements of microbes in cancer clinical relevance.

  • RESEARCH ARTICLE
    He-Zhou Huang, Wen-Qing Ai, Na Wei, Ling-Shuang Zhu, Zhi-Qiang Liu, Chao-Wen Zhou, Man-Fei Deng, Wen-Tao Zhang, Jia-Chen Zhang, Chun-Qing Yang, Ya-Zhuo Hu, Zhi-Tao Han, Hong-Hong Zhang, Jian-Jun Jia, Jing Wang, Fang-Fang Liu, Ke Li, Qi Xu, Mei Yuan, Hengye Man, Ziyuan Guo, Youming Lu, Kai Shu, Ling-Qiang Zhu, Dan Liu

    Sporadic or late-onset Alzheimer’s disease (LOAD) accounts for more than 95% of Alzheimer’s disease (AD) cases without any family history. Although genome-wide association studies have identified associated risk genes and loci for LOAD, numerous studies suggest that many adverse environmental factors, such as social isolation, are associated with an increased risk of dementia. However, the underlying mechanisms of social isolation in AD progression remain elusive. In the current study, we found that 7 days of social isolation could trigger pattern separation impairments and presynaptic abnormalities of the mossy fibre-CA3 circuit in AD mice. We also revealed that social isolation disrupted histone acetylation and resulted in the downregulation of 2 dentate gyrus (DG)-enriched miRNAs, which simultaneously target reticulon 3 (RTN3), an endoplasmic reticulum protein that aggregates in presynaptic regions to disturb the formation of functional mossy fibre boutons (MFBs) by recruiting multiple mitochondrial and vesicle-related proteins. Interestingly, the aggregation of RTN3 also recruits the PP2A B subunits to suppress PP2A activity and induce tau hyperphosphorylation, which, in turn, further elevates RTN3 and forms a vicious cycle. Finally, using an artificial intelligence-assisted molecular docking approach, we determined that senktide, a selective agonist of neurokinin3 receptors (NK3R), could reduce the binding of RTN3 with its partners. Moreover, application of senktide in vivo effectively restored DG circuit disorders in socially isolated AD mice. Taken together, our findings not only demonstrate the epigenetic regulatory mechanism underlying mossy fibre synaptic disorders orchestrated by social isolation and tau pathology but also reveal a novel potential therapeutic strategy for AD.

  • RESEARCH ARTICLE
    Yunuo Mao, Wei Wang, Jingwei Yang, Xin Zhou, Yongqu Lu, Junpeng Gao, Xiao Wang, Lu Wen, Wei Fu, Fuchou Tang

    Colorectal cancer (CRC) is a highly heterogeneous cancer and exploring novel therapeutic options is a pressing issue that needs to be addressed. Here, we established human CRC tumor-derived organoids that well represent both morphological and molecular heterogeneities of original tumors. To efficiently identify repurposed drugs for CRC, we developed a robust organoid-based drug screening system. By combining the repurposed drug library and computation-based drug prediction, 335 drugs were tested and 34 drugs with anti-CRC effects were identified. More importantly, we conducted a detailed transcriptome analysis of drug responses and divided the drug response signatures into five representative patterns: differentiation induction, growth inhibition, metabolism inhibition, immune response promotion, and cell cycle inhibition. The anticancer activities of drug candidates were further validated in the established patient-derived organoids-based xenograft (PDOX) system in vivo. We found that fedratinib, trametinib, and bortezomib exhibited effective anticancer effects. Furthermore, the concordance and discordance of drug response signatures between organoids in vitro and pairwise PDOX in vivo were evaluated. Our study offers an innovative approach for drug discovery, and the representative transcriptome features of drug responses provide valuable resources for developing novel clinical treatments for CRC.

  • LETTER
    Han Chen, Mehar Monga, Qinghua Fang, Loujin Slitin, Jakob Neef, Shashank S. Chepurwar, Regina Célia Mingroni Netto, Karina Lezirovitz, Alfredo Tabith,Jr., Fritz Benseler, Nils Brose, Kathrin Kusch, Carolin Wichmann, Nicola Strenzke, Barbara Vona, Julia Preobraschenski, Tobias Moser
  • CORRECTION