回顾与癌症儿童精神神经症状相关的微生物组和代谢途径

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-18 DOI:10.1016/j.apjon.2024.100535
Caitlin I. Webster , Janice S. Withycombe , Jessica Sheth Bhutada , Jinbing Bai
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引用次数: 0

摘要

癌症患儿经常会出现一系列精神神经症状(PNS),包括疼痛、疲劳、认知障碍、焦虑、抑郁症状和睡眠障碍。尽管这些症状普遍存在,但其潜在的病理生理学仍不清楚。鉴于肠道微生物组和功能代谢组对免疫、神经和炎症的影响,有推测认为它们之间存在相互作用。本微型综述旨在概述研究癌症患儿的微生物组-代谢组途径与 PNS 之间关系的文献,并在适用时借鉴成人人群的见解。虽然对儿科人群的微生物组研究有限,但对成年癌症患者的研究结果令人鼓舞,其中包括较低的微生物多样性与成分变化之间的关系,包括有益微生物Fusicatenibacter、Ruminococcus和Odoribacter的丰度降低与更多的PNS之间的关系。在儿科患者中,发现了肽、色氨酸、肉碱穿梭和肠道微生物代谢途径与 PNS 结果之间的关联。利用多组学方法结合微生物组和代谢组分析,可以深入了解微生物组及其相关微生物代谢物的功能能力。在接受化疗的癌症患儿中,肠杆菌和Megasphaera丰度的增加与六种代谢途径相关,尤其是肉碱穿梭和色氨酸代谢。针对微生物组-代谢组通路的干预措施可能会有效降低 PNS,包括使用益生菌、粪便微生物组移植、饮食调整和增加体育锻炼。未来需要开展多组学研究,以证实儿科肿瘤人群中微生物组、代谢组和 PNS 结果之间的关联。
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Review of the microbiome and metabolic pathways associated with psychoneurological symptoms in children with cancer

Children with cancer often endure a range of psychoneurological symptoms (PNS), including pain, fatigue, cognitive impairment, anxiety, depressive symptoms, and sleep disturbance. Despite their prevalence, the underlying pathophysiology of PNS remains unclear. Hypotheses suggest an interplay between the gut microbiome and the functional metabolome, given the immune, neurological, and inflammatory influences these processes exert. This mini-review aims to provide a synopsis of the literature that examines the relationship between microbiome–metabolome pathways and PNS in children with cancer, drawing insights from the adult population when applicable. While there is limited microbiome research in the pediatric population, promising results in adult cancer patients include an association between lower microbial diversity and compositional changes, including decreased abundance of the beneficial microbes Fusicatenibacter, Ruminococcus, and Odoribacter, and more PNS. In pediatric patients, associations between peptide, tryptophan, carnitine shuttle, and gut microbial metabolism pathways and PNS outcomes were found. Utilizing multi-omics methods that combine microbiome and metabolome analyses provide insights into the functional capacity of microbiomes and their associated microbial metabolites. In children with cancer receiving chemotherapy, increased abundances of Intestinibacter and Megasphaera correlated with six metabolic pathways, notably carnitine shuttle and tryptophan metabolism. Interventions that target the underlying microbiome–metabolome pathway may be effective in reducing PNS, including the use of pre- and probiotics, fecal microbiome transplantation, dietary modifications, and increased physical activity. Future multi-omics research is needed to corroborate the associations between the microbiome, metabolome, and PNS outcomes in the pediatric oncology population.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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