Your search keyword '"Xie, Yuji"' showing total 3 results

1. Biomimetic Glucan Particles with Aggregation-Induced Emission Characteristics for Noninvasive Monitoring of Transplant Immune Response

Author

Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, Xie, Mingxing, Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, and Xie, Mingxing

Abstract

Real-time monitoring of post-transplant immune response is critical to prolong the survival of grafts. The current gold standard for assessing the immune response to graft is biopsy. However, such a method is invasive and prone to false negative results due to limited tissue size available and the heterogeneity of the rejection site. Herein, we report biomimetic glucan particles with aggregation-induced emission (AIE) characteristics (HBTTPEP/GPs) for real-time noninvasive monitoring of post-transplant immune response. We have found that the positively charged near-infrared AIEgens can effectively aggregate in the confined space of glucan particles (GPs), thereby turning on the fluorescence emission. HBTTPEP/GPs can track macrophages for 7 days without hampering the bioactivity. Oral administration of HBTTPEP/GPs can specially target macrophages by mimicking yeast, which then migrate to the transplant rejection site. The fluorescence emitted from HBTTPEP/GPs correlated well with the infiltration of macrophages and the degree of allograft rejection. Furthermore, a single oral HBTTPEP/GPs dose can dynamically evaluate the therapeutic response to immunosuppressive therapy. Consequently, the biomimetic AIE-active glucan particles can be developed as a promising probe for immune-monitoring in solid organ transplantation. © 2021 American Chemical Society.

Published

2021

2. Biomimetic Glucan Particles with Aggregation-Induced Emission Characteristics for Noninvasive Monitoring of Transplant Immune Response

Author

Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, Xie, Mingxing, Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, and Xie, Mingxing

Abstract

Real-time monitoring of post-transplant immune response is critical to prolong the survival of grafts. The current gold standard for assessing the immune response to graft is biopsy. However, such a method is invasive and prone to false negative results due to limited tissue size available and the heterogeneity of the rejection site. Herein, we report biomimetic glucan particles with aggregation-induced emission (AIE) characteristics (HBTTPEP/GPs) for real-time noninvasive monitoring of post-transplant immune response. We have found that the positively charged near-infrared AIEgens can effectively aggregate in the confined space of glucan particles (GPs), thereby turning on the fluorescence emission. HBTTPEP/GPs can track macrophages for 7 days without hampering the bioactivity. Oral administration of HBTTPEP/GPs can specially target macrophages by mimicking yeast, which then migrate to the transplant rejection site. The fluorescence emitted from HBTTPEP/GPs correlated well with the infiltration of macrophages and the degree of allograft rejection. Furthermore, a single oral HBTTPEP/GPs dose can dynamically evaluate the therapeutic response to immunosuppressive therapy. Consequently, the biomimetic AIE-active glucan particles can be developed as a promising probe for immune-monitoring in solid organ transplantation. © 2021 American Chemical Society.

Published

2021

3. Biomimetic Glucan Particles with Aggregation-Induced Emission Characteristics for Noninvasive Monitoring of Transplant Immune Response

Author

Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, Xie, Mingxing, Gao, Tang, Wu, Ya, Wang, Wenyuan, Deng, Cheng, Chen, Yihan, Yi, Luyang, Song, Yishu, Li, Wenqu, Xu, Lingling, Xie, Yuji, Fang, Lingyun, Jin, Qiaofeng, Zhang, Li, Tang, Benzhong, and Xie, Mingxing

Abstract

Real-time monitoring of post-transplant immune response is critical to prolong the survival of grafts. The current gold standard for assessing the immune response to graft is biopsy. However, such a method is invasive and prone to false negative results due to limited tissue size available and the heterogeneity of the rejection site. Herein, we report biomimetic glucan particles with aggregation-induced emission (AIE) characteristics (HBTTPEP/GPs) for real-time noninvasive monitoring of post-transplant immune response. We have found that the positively charged near-infrared AIEgens can effectively aggregate in the confined space of glucan particles (GPs), thereby turning on the fluorescence emission. HBTTPEP/GPs can track macrophages for 7 days without hampering the bioactivity. Oral administration of HBTTPEP/GPs can specially target macrophages by mimicking yeast, which then migrate to the transplant rejection site. The fluorescence emitted from HBTTPEP/GPs correlated well with the infiltration of macrophages and the degree of allograft rejection. Furthermore, a single oral HBTTPEP/GPs dose can dynamically evaluate the therapeutic response to immunosuppressive therapy. Consequently, the biomimetic AIE-active glucan particles can be developed as a promising probe for immune-monitoring in solid organ transplantation. © 2021 American Chemical Society.

Published

2021