Your search keyword '"Han, Xuexiang"' showing total 21 results

1. Placenta-tropic VEGF mRNA lipid nanoparticles ameliorate murine pre-eclampsia

Author

Swingle, Kelsey L., Hamilton, Alex G., Safford, Hannah C., Geisler, Hannah C., Thatte, Ajay S., Palanki, Rohan, Murray, Amanda M., Han, Emily L., Mukalel, Alvin J., Han, Xuexiang, Joseph, Ryann A., Ghalsasi, Aditi A., Alameh, Mohamad-Gabriel, Weissman, Drew, and Mitchell, Michael J.

Published

2025

2. High-throughput barcoding of nanoparticles identifies cationic, degradable lipid-like materials for mRNA delivery to the lungs in female preclinical models

Author

Xue, Lulu, Hamilton, Alex G., Zhao, Gan, Xiao, Zebin, El-Mayta, Rakan, Han, Xuexiang, Gong, Ningqiang, Xiong, Xinhong, Xu, Junchao, Figueroa-Espada, Christian G., Shepherd, Sarah J., Mukalel, Alvin J., Alameh, Mohamad-Gabriel, Cui, Jiaxi, Wang, Karin, Vaughan, Andrew E., Weissman, Drew, and Mitchell, Michael J.

Published

2024

3. In situ combinatorial synthesis of degradable branched lipidoids for systemic delivery of mRNA therapeutics and gene editors

Author

Han, Xuexiang, Xu, Junchao, Xu, Ying, Alameh, Mohamad-Gabriel, Xue, Lulu, Gong, Ningqiang, El-Mayta, Rakan, Palanki, Rohan, Warzecha, Claude C., Zhao, Gan, Vaughan, Andrew E., Wilson, James M., Weissman, Drew, and Mitchell, Michael J.

Published

2024

4. Publisher Correction: Placenta-tropic VEGF mRNA lipid nanoparticles ameliorate murine pre-eclampsia

Author

Swingle, Kelsey L., Hamilton, Alex G., Safford, Hannah C., Geisler, Hannah C., Thatte, Ajay S., Palanki, Rohan, Murray, Amanda M., Han, Emily L., Mukalel, Alvin J., Han, Xuexiang, Joseph, Ryann A., Ghalsasi, Aditi A., Alameh, Mohamad-Gabriel, Weissman, Drew, and Mitchell, Michael J.

Published

2025

5. Ligand-tethered lipid nanoparticles for targeted RNA delivery to treat liver fibrosis

Author

Han, Xuexiang, Gong, Ningqiang, Xue, Lulu, Billingsley, Margaret M., El-Mayta, Rakan, Shepherd, Sarah J., Alameh, Mohamad-Gabriel, Weissman, Drew, and Mitchell, Michael J.

Published

2023

6. Upregulation of exosome secretion from tumor-associated macrophages plays a key role in the suppression of anti-tumor immunity

Author

Zhong, Wenqun, Lu, Youtao, Han, Xuexiang, Yang, Jingbo, Qin, Zhiyuan, Zhang, Wei, Yu, Ziyan, Wu, Bin, Liu, Shujing, Xu, Wei, Zheng, Cathy, Schuchter, Lynn M., Karakousis, Giorgos C., Mitchell, Tara C., Amaravadi, Ravi, Flowers, Ahron J., Gimotty, Phyllis A., Xiao, Min, Mills, Gordon, Herlyn, Meenhard, Dong, Haidong, Mitchell, Michael J., Kim, Junhyong, Xu, Xiaowei, and Guo, Wei

Published

2023

7. Doxorubicin-conjugated siRNA lipid nanoparticles for combination cancer therapy

Author

Butowska, Kamila, Han, Xuexiang, Gong, Ningqiang, El-Mayta, Rakan, Haley, Rebecca M., Xue, Lulu, Zhong, Wenqun, Guo, Wei, Wang, Karin, and Mitchell, Michael J.

Published

2023

8. Branched endosomal disruptor (BEND) lipids mediate delivery of mRNA and CRISPR-Cas9 ribonucleoprotein complex for hepatic gene editing and T cell engineering.

Author

Padilla, Marshall S., Mrksich, Kaitlin, Wang, Yiming, Haley, Rebecca M., Li, Jacqueline J., Han, Emily L., El-Mayta, Rakan, Kim, Emily H., Dias, Sofia, Gong, Ningqiang, Teerdhala, Sridatta V., Han, Xuexiang, Chowdhary, Vivek, Xue, Lulu, Siddiqui, Zain, Yamagata, Hannah M., Kim, Dongyoon, Yoon, Il-Chul, Wilson, James M., and Radhakrishnan, Ravi

Subjects

GENOME editing, LIVER cells, DRUG carriers, T cells, MESSENGER RNA, CATIONIC lipids, GENE transfection

Abstract

Lipid nanoparticles (LNPs) are the preeminent non-viral drug delivery vehicle for mRNA-based therapies. Immense effort has been placed on optimizing the ionizable lipid (IL) structure, which contains an amine core conjugated to lipid tails, as small molecular adjustments can result in substantial changes in the overall efficacy of the resulting LNPs. However, despite some advancements, a major barrier for LNP delivery is endosomal escape. Here, we develop a platform for synthesizing a class of branched ILs that improve endosomal escape. These compounds incorporate terminally branched groups that increase hepatic mRNA and ribonucleoprotein complex delivery and gene editing efficiency as well as T cell transfection compared to non-branched lipids. Through an array of complementary experiments, we determine that our lipid architecture induces greater endosomal penetration and disruption. This work provides a scheme to generate a class of ILs for both mRNA and protein delivery. Lipid nanoparticles (LNPs) are the preeminent drug delivery vehicle for mRNA therapies, partially due to the ionizable lipid (IL) components that facilitate endosomal escape. Here, authors devise terminally branched ILs that enhance endosome escape, resulting in increased liver and T cell delivery. [ABSTRACT FROM AUTHOR]

Published

2025

9. Platelet-Mimicking Nanosponges for Functional Reversal of Antiplatelet Agents

Author

Xu, Junchao, Yan, Na, Wang, Chunling, Gao, Chao, Han, Xuexiang, Yang, Chengzhi, Xu, Jiaqi, Wang, Kun, Mitchell, Michael J., Zhang, Yinlong, and Nie, Guangjun

Published

2023

10. Nanomaterials for Therapeutic RNA Delivery

Author

Han, Xuexiang, Mitchell, Michael J., and Nie, Guangjun

Published

2020

11. Emerging nanomedicines for anti-stromal therapy against desmoplastic tumors

Author

Han, Xuexiang, Xu, Ying, Geranpayehvaghei, Marzieh, Anderson, Gregory J., Li, Yiye, and Nie, Guangjun

Published

2020

12. An ionizable lipid toolbox for RNA delivery

Author

Han, Xuexiang, Zhang, Hanwen, Butowska, Kamila, Swingle, Kelsey L., Alameh, Mohamad-Gabriel, Weissman, Drew, and Mitchell, Michael J.

Published

2021

13. Bioengineered bacteria-derived outer membrane vesicles as a versatile antigen display platform for tumor vaccination via Plug-and-Display technology

Author

Cheng, Keman, Zhao, Ruifang, Li, Yao, Qi, Yingqiu, Wang, Yazhou, Zhang, Yinlong, Qin, Hao, Qin, Yuting, Chen, Long, Li, Chen, Liang, Jie, Li, Yujing, Xu, Jiaqi, Han, Xuexiang, Anderson, Gregory J., Shi, Jian, Ren, Lei, Zhao, Xiao, and Nie, Guangjun

Published

2021

14. Say No to Tumors: NO Matters

Author

Han, Xuexiang and Nie, Guangjun

Published

2019

15. Delivery of small interfering RNA against Nogo-B receptor via tumor-acidity responsive nanoparticles for tumor vessel normalization and metastasis suppression

Author

Wang, Bin, Ding, Yanping, Zhao, Xiaozheng, Han, Xuexiang, Yang, Na, Zhang, Yinlong, Zhao, Ying, Zhao, Xiao, Taleb, Mohammad, Miao, Qing Robert, and Nie, Guangjun

Published

2018

16. Precision design of nanomedicines to restore gemcitabine chemosensitivity for personalized pancreatic ductal adenocarcinoma treatment

Author

Zhao, Xiao, Wang, Xiuchao, Sun, Wei, Cheng, Keman, Qin, Hao, Han, Xuexiang, Lin, Yu, Wang, Yongwei, Lang, Jiayan, Zhao, Ruifang, Zheng, Xiaowei, Zhao, Ying, shi, Jian, Hao, Jihui, Miao, Qing Robert, Nie, Guangjun, and Ren, He

Published

2018

17. Throughput-scalable manufacturing of SARS-CoV-2 mRNA lipid nanoparticle vaccines

Author

Shepherd, Sarah J., primary, Han, Xuexiang, additional, Mukalel, Alvin J., additional, El-Mayta, Rakan, additional, Thatte, Ajay S., additional, Wu, Jingyu, additional, Padilla, Marshall S., additional, Alameh, Mohamad-Gabriel, additional, Srikumar, Neha, additional, Lee, Daeyeon, additional, Weissman, Drew, additional, Issadore, David, additional, and Mitchell, Michael J., additional

Published

2023

18. Reversal of pancreatic desmoplasia by re-educating stellate cells with a tumour microenvironment-activated nanosystem

Author

Han, Xuexiang, Li, Yiye, Xu, Ying, Zhao, Xiao, Zhang, Yinlong, Yang, Xiao, Wang, Yongwei, Zhao, Ruifang, Anderson, Gregory J., Zhao, Yuliang, and Nie, Guangjun

Published

2018

19. An Extendable Star-Like Nanoplatform for Functional and Anatomical Imaging-Guided Photothermal Oncotherapy

Author

Han, Xuexiang, Xu, Ying, Li, Yiye, Zhao, Xiao, Zhang, Yinlong, Min, Huan, Qi, Yingqiu, Anderson, Gregory J., You, Linhao, Zhao, Yuliang, Nie, Guangjun, Han, Xuexiang, Xu, Ying, Li, Yiye, Zhao, Xiao, Zhang, Yinlong, Min, Huan, Qi, Yingqiu, Anderson, Gregory J., You, Linhao, Zhao, Yuliang, and Nie, Guangjun

Published

2019

20. Inhibition of platelet function using liposomal nanoparticles blocks tumor metastasis

Author

Zhang, Yinlong, primary, Wei, Jingyan, additional, Liu, Shaoli, additional, Wang, Jing, additional, Han, Xuexiang, additional, Qin, Hao, additional, Lang, Jiayan, additional, Cheng, Keman, additional, Li, Yiye, additional, Qi, Yingqiu, additional, Anderson, Greg J, additional, Sukumar, Saraswati, additional, Li, Suping, additional, and Nie, Guangjun, additional

Published

2017

21. Solid tumor growth depends on an intricate equilibrium of malignant cell states.

Author

Torborg SR, Grbovic-Huezo O, Singhal A, Holm M, Wu K, Han X, Ho YJ, Haglund C, Mitchell MJ, Lowe SW, Dow LE, Pitter KL, Sanchez-Rivera FJ, Levchenko A, and Tammela T

Abstract

Control of cell identity and number is central to tissue function, yet principles governing organization of malignant cells in tumor tissues remain poorly understood. Using mathematical modeling and candidate-based analysis, we discover primary and metastatic pancreatic ductal adenocarcinoma (PDAC) organize in a stereotypic pattern whereby PDAC cells responding to WNT signals (WNT-R) neighbor WNT-secreting cancer cells (WNT-S). Leveraging lineage-tracing, we reveal the WNT-R state is transient and gives rise to the WNT-S state that is highly stable and committed to organizing malignant tissue. We further show that a subset of WNT-S cells expressing the Notch ligand DLL1 form a functional niche for WNT-R cells. Genetic inactivation of WNT secretion or Notch pathway components, or cytoablation of the WNT-S state disrupts PDAC tissue organization, suppressing tumor growth and metastasis. This work indicates PDAC growth depends on an intricately controlled equilibrium of functionally distinct cancer cell states, uncovering a fundamental principle governing solid tumor growth and revealing new opportunities for therapeutic intervention.

Published

2023