Emerging evidence suggests that microbial dysbiosis plays vital roles in many human cancers.However,knowledge of whether the microbial community in thyroid tumor is related to tumorigenesis remains elusive.In this stu...Emerging evidence suggests that microbial dysbiosis plays vital roles in many human cancers.However,knowledge of whether the microbial community in thyroid tumor is related to tumorigenesis remains elusive.In this study,we aimed to explore the microbial community in thyroid tissues and its contribution to papillary thyroid cancer(PTC).In parallel,we performed microbial profiling and transcriptome sequencing in the tumor and adjacent normal tissues of a large cohort of 340 PTC and benign thyroid nodule(BTN)patients.Distinct microbial signatures were identified in PTC,BTN,and their adjacent nontumor tissues.Intra-thyroid tissue bacteria were verified by means of bacteria staining,fluorescence in situ hybridization,and immunoelectron microscopy.We found that 17 bacterial taxa were differentially abundant in PTC compared with BTN,which included enrichment in PTC of the pathobionts Rhodococcus,Neisseria,Streptococcus,Halomonas,and Devosia,and depletion of the beneficial bacteria Amycolatopsis.These differentially abundant bacteria could differentiate PTC tumor tissues(PTC-T)from BTN tissues(BTN-T)with an area under the curve(AUC)of 81.66%.Microbial network analysis showed increased correlation strengths among the bacterial taxa in PTC-T in comparison with BTN-T.Immunefunction-corresponding bacteria(i.e.,Erwinia,Bacillus,and Acinetobacter)were found to be enriched in PTC with Hashimoto’s thyroiditis.Moreover,our integrative analysis revealed that the PTC-enriched bacteria had a positive association with key PTC-oncogenic pathway-related genes,including BRAF,KRAS,IRAK4,CTNNB1,PIK3CA,MAP3K7,and EGFR.In conclusion,our results suggest that intratumor bacteria dysbiosis is associated with the thyroid tumorigenesis and oncogenic signaling pathways of PTC.展开更多
To the Editor:Coronavirus disease 2019(COVID-19)has evolved into a global pandemic,with over 700 million confirmed cases worldwide and still mounting.^([1])The clinical impact of this pandemic is immense,given the wid...To the Editor:Coronavirus disease 2019(COVID-19)has evolved into a global pandemic,with over 700 million confirmed cases worldwide and still mounting.^([1])The clinical impact of this pandemic is immense,given the wide spectrum of disease manifestation,ranging from mild respiratory symptoms to severe pulmonary infections.Identifying high-risk individuals,especially during their initial encounters in clinics and hospital emergency services,is crucial to provide timely effective treatment.Therefore,the timely risk stratification of COVID-19 patients in the emergency room can greatly benefit both infected individuals and healthcare professionals.^([2])This study aims to identify features of serious COVID-19 infection at presentation that may lead to mortality of the patients.展开更多
基金supported by the National Natural Science Foundation of China(81772850 and 82273300)。
文摘Emerging evidence suggests that microbial dysbiosis plays vital roles in many human cancers.However,knowledge of whether the microbial community in thyroid tumor is related to tumorigenesis remains elusive.In this study,we aimed to explore the microbial community in thyroid tissues and its contribution to papillary thyroid cancer(PTC).In parallel,we performed microbial profiling and transcriptome sequencing in the tumor and adjacent normal tissues of a large cohort of 340 PTC and benign thyroid nodule(BTN)patients.Distinct microbial signatures were identified in PTC,BTN,and their adjacent nontumor tissues.Intra-thyroid tissue bacteria were verified by means of bacteria staining,fluorescence in situ hybridization,and immunoelectron microscopy.We found that 17 bacterial taxa were differentially abundant in PTC compared with BTN,which included enrichment in PTC of the pathobionts Rhodococcus,Neisseria,Streptococcus,Halomonas,and Devosia,and depletion of the beneficial bacteria Amycolatopsis.These differentially abundant bacteria could differentiate PTC tumor tissues(PTC-T)from BTN tissues(BTN-T)with an area under the curve(AUC)of 81.66%.Microbial network analysis showed increased correlation strengths among the bacterial taxa in PTC-T in comparison with BTN-T.Immunefunction-corresponding bacteria(i.e.,Erwinia,Bacillus,and Acinetobacter)were found to be enriched in PTC with Hashimoto’s thyroiditis.Moreover,our integrative analysis revealed that the PTC-enriched bacteria had a positive association with key PTC-oncogenic pathway-related genes,including BRAF,KRAS,IRAK4,CTNNB1,PIK3CA,MAP3K7,and EGFR.In conclusion,our results suggest that intratumor bacteria dysbiosis is associated with the thyroid tumorigenesis and oncogenic signaling pathways of PTC.
基金supported by the grant from Guangdong Provincial Key R&D Program for COVID-19(No.232020012620600001)
文摘To the Editor:Coronavirus disease 2019(COVID-19)has evolved into a global pandemic,with over 700 million confirmed cases worldwide and still mounting.^([1])The clinical impact of this pandemic is immense,given the wide spectrum of disease manifestation,ranging from mild respiratory symptoms to severe pulmonary infections.Identifying high-risk individuals,especially during their initial encounters in clinics and hospital emergency services,is crucial to provide timely effective treatment.Therefore,the timely risk stratification of COVID-19 patients in the emergency room can greatly benefit both infected individuals and healthcare professionals.^([2])This study aims to identify features of serious COVID-19 infection at presentation that may lead to mortality of the patients.
