Huang Chin-Lin, Chu Hsu-Feng, Wu Chien-Chen, Deng Fu-Sheng, Wen Pei-Jun, Chien Shao-Ping, Chao Chi-Hsein, Chen Ying-Tsong, Lu Mei-Kuang, Tsai Ying-Chieh
Biomedical Industry Ph.D. Program, National Yang Ming Chiao Tung University, Taipei, Taiwan.
Bened Biomedical Co., Ltd., Taipei, Taiwan.
Front Microbiol. 2023 Jul 3;14:1209067. doi: 10.3389/fmicb.2023.1209067. eCollection 2023.
Psychobiotics are a class of probiotics that confer beneficial effects on the mental health of the host. We have previously reported hypnotic effects of a psychobiotic strain, PS150 (PS150), which significantly shortens sleep latency in experimental mice, and effectively ameliorate sleep disturbances caused by either caffeine consumption or a novel environment. In the present study, we discovered a strain, GR1009, isolated from the same source of PS150, and found that GR1009 is phenotypically distinct but genetically similar to PS150. Compared with PS150, GR1009 have no significant hypnotic effects in the pentobarbital-induced sleep test in mice. In addition, we found that heat-killed PS150 exhibited hypnotic effects and altered the gut microbiota in a manner similar to live bacteria, suggesting that a heat-stable effector, such as exopolysaccharide (EPS), could be responsible for these effects. Our comparative genomics analysis also revealed distinct genetic characteristics in EPS biosynthesis between GR1009 and PS150. Furthermore, scanning electron microscopy imaging showed a sheet-like EPS structure in PS150, while GR1009 displayed no apparent EPS structure. Using the phenol-sulfate assay, we found that the sugar content value of the crude extract containing EPS (C-EPS) from PS150 was approximately five times higher than that of GR1009, indicating that GR1009 has a lower EPS production activity than PS150. Through the pentobarbital-induced sleep test, we confirmed the hypnotic effects of the C-EPS isolated from PS150, as evidenced by a significant reduction in sleep latency and recovery time following oral administration in mice. In summary, we utilized a comparative approach to delineate differences between PS150 and GR1009 and proposed that EPS may serve as a key factor that mediates the observed hypnotic effect.
精神益生菌是一类对宿主心理健康具有有益作用的益生菌。我们之前报道过一种精神益生菌菌株PS150(PS150)具有催眠作用,它能显著缩短实验小鼠的睡眠潜伏期,并有效改善因摄入咖啡因或新环境引起的睡眠障碍。在本研究中,我们从与PS150相同的来源中分离出一种菌株GR1009,发现GR1009在表型上与PS150不同,但在基因上相似。与PS150相比,GR1009在小鼠戊巴比妥诱导的睡眠试验中没有显著的催眠作用。此外,我们发现热灭活的PS150表现出催眠作用,并以类似于活细菌的方式改变肠道微生物群,这表明一种热稳定效应物,如胞外多糖(EPS),可能是这些作用的原因。我们的比较基因组学分析还揭示了GR1009和PS150在EPS生物合成方面的不同遗传特征。此外,扫描电子显微镜成像显示PS150中有片状EPS结构,而GR1009没有明显的EPS结构。使用苯酚 - 硫酸法,我们发现来自PS150的含有EPS的粗提物(C - EPS)的糖含量值大约是GR1009的五倍,这表明GR1009的EPS生产活性低于PS150。通过戊巴比妥诱导的睡眠试验,我们证实了从PS150中分离出的C - EPS的催眠作用,小鼠口服给药后睡眠潜伏期和恢复时间显著缩短证明了这一点。总之,我们采用比较方法来描述PS150和GR1009之间的差异,并提出EPS可能是介导观察到的催眠作用的关键因素。
