Potential relationship between Tourette syndrome and gut microbiome

Abstract Objective: In this article, the author aims to discuss and review the relationship between gut microbiota and Tourette syndrome, and whether the change in gut microbiota can affect the severity of Tourette syndrome. Sources: Literature from PubMed, Google Scholar, and China National Knowledge Infrastructure was mainly reviewed. Both original studies and review articles were discussed. The articles were required to be published as of May 2022. Summary of the findings: Current studies on the gut microbiome have found that the gut microbiome and brain seem to interact. It is named the brain-gut-axis. The relationship between the brain-gut axis and neurological and psychiatric disorders has been a topic of intense interest. Tourette syndrome is a chronic neurological disease that seriously affects the quality of life of children, and there appears to be an increase in Ruminococcaceae and Bacteroides in the gut of patients with Tourette syndrome. After clinical observation and animal experiments, there appear to be particular gut microbiota changes in Tourette syndrome. It provides a new possible idea for the treatment of Tourette syndrome. Probiotics and fecal microbial transplantation have been tried to treat Tourette syndrome, especially Tourette syndrome which is not sensitive to drugs, and some results have been achieved. Conclusions: The relationship between gut microbiota and Tourette syndrome and how to alleviate Tourette syndrome by improving gut microbiota are new topics, more in-depth and larger sample size research is still needed.

Tumor-killing effects of CD19 and CD22 bi-specific CAR-T cells on tumor cells / 中国肿瘤生物治疗杂志

@#[摘 要] 目的：设计并制备一种分别靶向B细胞表面抗原CD19和CD22的CAR-T细胞，检测其对肿瘤细胞的体内外杀伤效果。方法：将含有人源化 CD19 ScFv的二代CAR分子和带有CD3ε链作为共刺激结构域的CD22 ScFv CAR分子以P2A自剪切肽连接，序列连接于慢病毒载体pLTR-CMV-MCS中，以HEK-293T细胞包装相应的慢病毒载体，感染健康志愿者提供的T细胞制备CAR-19-22-T细胞，同时以相同二代结构分别构建单靶向CAR-T细胞作为参照。构建表达荧光素酶、CD19和/或CD22的前列腺癌3M细胞（靶细胞）。将各种CAR-T细胞与靶细胞共同培养，采用荧光素酶化学发光法和ELISA法检测其对靶细胞的杀伤能力和细胞因子的分泌水平。通过尾静脉注射Raji-Luc细胞构建NOD-SCID免疫缺陷小鼠白血病模型，分别注射各组CAR-T细胞进行治疗并评估其疗效。结果：培养7 d的CAR-19-22-T细胞的CAR-19表达率为13.7%，CAR-22表达率为14.3%。CAR-19-22-T细胞在10∶1效靶比时，对3M-CD19-Luc、3M-CD22-Luc和3M-CD19-CD22-Luc细胞的杀伤率均显著高于T细胞[（78.1±14.4）% vs （11.1±4.3）%、（46.7±10.7）% vs （12.4±2.7）%、（90.5±4.3）% vs （14.3±3.7）%，均P<0.01]；与3M-CD19-Luc、3M-CD22-Luc、3M-CD19-CD22-Luc靶细胞共培养后，CAR-19-22-T细胞IFN-γ、TNF-α和IL-2水平均显著低于CAR-19-T和CAR-22-T细胞（P<0.05或P<0.01）。CAR-19-22-T细胞对移植Raji-Luc细胞模型小鼠治疗效果明显，其生存期显著长于T细胞组（P<0.01），与CAR-19-T组和CAR-22-T组荷瘤小鼠比较差异均无统计学意义（均P>0.05）。结论：成功设计并制备了一种双靶点CAR-19-22-T细胞，其能够有效杀伤表达CD19和/或CD22抗原的肿瘤细胞，对Raji-Luc细胞的白血病模型小鼠有显著的治疗效果。