Your search keyword '"Zhang, Husen"' showing total 3 results

1. Modeling human enteric dysbiosis and rotavirus immunity in gnotobiotic pigs

Author

Twitchell, Erica L., Tin, Christine, Wen, Ke, Zhang, Husen, Becker-Dreps, Sylvia, Azcarate-Peril, M. Andrea, Vilchez, Samuel, Li, Guohua, Ramesh, Ashwin, Weiss, Mariah, Lei, Shaohua, Bui, Tammy, Yang, Xingdong, Schultz-Cherry, Stacey, and Yuan, Lijuan

Subjects

Vaccines -- Usage, Dysbiosis -- Risk factors -- Care and treatment, Rotaviruses -- Risk factors -- Care and treatment, Health

Abstract

Background Rotavirus vaccines have poor efficacy in infants from low- and middle-income countries. Gut microbiota is thought to influence the immune response to oral vaccines. Thus, we developed a gnotobiotic (Gn) pig model of enteric dysbiosis to study the effects of human gut microbiota (HGM) on immune responses to rotavirus vaccination, and the effects of rotavirus challenge on the HGM by colonizing Gn pigs with healthy HGM (HHGM) or unhealthy HGM (UHGM). The UHGM was from a Nicaraguan infant with a high enteropathy score (ES) and no seroconversion following administration of oral rotavirus vaccine, while the converse was characteristic of the HHGM. Pigs were vaccinated, a subset was challenged, and immune responses and gut microbiota were evaluated. Results Significantly more rotavirus-specific IFN-[gamma] producing T cells were in the ileum, spleen, and blood of HHGM than those in UHGM pigs after three vaccine doses, suggesting HHGM induces stronger cell-mediated immunity than UHGM. There were significant correlations between multiple Operational Taxonomic Units (OTUs) and frequencies of IFN-[gamma] producing T cells at the time of challenge. There were significant positive correlations between Collinsella and CD8+ T cells in blood and ileum, as well as CD4+ T cells in blood, whereas significant negative correlations between Clostridium and Anaerococcus, and ileal CD8+ and CD4+ T cells. Differences in alpha diversity and relative abundances of OTUs were detected between the groups both before and after rotavirus challenge. Conclusion Alterations in microbiome diversity and composition along with correlations between certain microbial taxa and T cell responses warrant further investigation into the role of the gut microbiota and certain microbial species on enteric immunity. Our results support the use of HGM transplanted Gn pigs as a model of human dysbiosis during enteric infection, and oral vaccine responses. Keywords: Enteric dysbiosis, Gnotobiotic pig, Rotavirus, Vaccine, Enteric immunity, Author(s): Erica L. Twitchell[sup.1] , Christine Tin[sup.1] , Ke Wen[sup.1] , Husen Zhang[sup.2] , Sylvia Becker-Dreps[sup.3] , M. Andrea Azcarate-Peril[sup.4] , Samuel Vilchez[sup.5] , Guohua Li[sup.1] , Ashwin Ramesh[sup.1] , [...]

Published

2016

2. Probiotics and virulent human rotavirus modulate the transplanted human gut microbiota in gnotobiotic pigs

Author

Zhang, Husen, Wang, Haifeng, Shepherd, Megan, Wen, Ke, Li, Guohua, Yang, Xingdong, Kocher, Jacob, Giri-Rachman, Ernawati, Dickerman, Allan, Settlage, Robert, and Yuan, Lijuan

Subjects

Vaccination -- Analysis -- Health aspects -- Research, Health

Abstract

We generated a neonatal pig model with human infant gut microbiota (HGM) to study the effect of a probiotic on the composition of the transplanted microbiota following rotavirus vaccination and challenge. All the HGM-transplanted pigs received two doses of an oral attenuated rotavirus vaccine. The gut microbiota of vaccinated pigs were investigated for effects of Lactobacillus rhamnosus GG (LGG) supplement and homotypic virulent human rotavirus (HRV) challenge. High-throughput sequencing of V4 region of 16S rRNA genes demonstrated that HGM-transplanted pigs carried microbiota similar to that of the C-section delivered baby. Firmicutes and Proteobacteria represented over 98% of total bacteria in the human donor and the recipient pigs. HRV challenge caused a phylum-level shift from Firmicutes to Proteobacteria. LGG supplement prevented the changes in microbial communities caused by HRV challenge. In particular, members of Enterococcus in LGG-supplemented pigs were kept at the baseline level, while they were enriched in HRV challenged pigs. Taken together, our results suggested that HGM pigs are valuable for testing the microbiota's response to probiotic interventions for treating infantile HRV infection. Keywords: Microbiota, Gnotobiotic pigs, Rotavirus, Vaccine, Lactobacillus, Probiotics, Author(s): Husen Zhang[sup.1] , Haifeng Wang[sup.2,5] , Megan Shepherd[sup.3] , Ke Wen[sup.2] , Guohua Li[sup.2] , Xingdong Yang[sup.2] , Jacob Kocher[sup.2] , Ernawati Giri-Rachman[sup.2] , Allan Dickerman[sup.4] , Robert Settlage[sup.4] [...]

Published

2014

3. Modeling human enteric dysbiosis and rotavirus immunity in gnotobiotic pigs

Author

Twitchell, Erica L., Tin, Christine, Wen, Ke, Zhang, Husen, Becker-Dreps, Sylvia, Azcarate-Peril, M. Andrea, Vilchez, Samuel, Li, Guohua, Ramesh, Ashwin, Weiss, Mariah, Lei, Shaohua, Bui, Tammy, Yang, Xingdong, Schultz-Cherry, Stacey, and Yuan, Lijuan

Subjects

Rotavirus, Research, Enteric immunity, Enteric dysbiosis, Gnotobiotic pig, Vaccine

Abstract

Background Rotavirus vaccines have poor efficacy in infants from low- and middle-income countries. Gut microbiota is thought to influence the immune response to oral vaccines. Thus, we developed a gnotobiotic (Gn) pig model of enteric dysbiosis to study the effects of human gut microbiota (HGM) on immune responses to rotavirus vaccination, and the effects of rotavirus challenge on the HGM by colonizing Gn pigs with healthy HGM (HHGM) or unhealthy HGM (UHGM). The UHGM was from a Nicaraguan infant with a high enteropathy score (ES) and no seroconversion following administration of oral rotavirus vaccine, while the converse was characteristic of the HHGM. Pigs were vaccinated, a subset was challenged, and immune responses and gut microbiota were evaluated. Results Significantly more rotavirus-specific IFN-γ producing T cells were in the ileum, spleen, and blood of HHGM than those in UHGM pigs after three vaccine doses, suggesting HHGM induces stronger cell-mediated immunity than UHGM. There were significant correlations between multiple Operational Taxonomic Units (OTUs) and frequencies of IFN-γ producing T cells at the time of challenge. There were significant positive correlations between Collinsella and CD8+ T cells in blood and ileum, as well as CD4+ T cells in blood, whereas significant negative correlations between Clostridium and Anaerococcus, and ileal CD8+ and CD4+ T cells. Differences in alpha diversity and relative abundances of OTUs were detected between the groups both before and after rotavirus challenge. Conclusion Alterations in microbiome diversity and composition along with correlations between certain microbial taxa and T cell responses warrant further investigation into the role of the gut microbiota and certain microbial species on enteric immunity. Our results support the use of HGM transplanted Gn pigs as a model of human dysbiosis during enteric infection, and oral vaccine responses. Electronic supplementary material The online version of this article (doi:10.1186/s13099-016-0136-y) contains supplementary material, which is available to authorized users.