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Your search keyword '"Chai, Renjie"' showing total 18 results
Start Over Author "Chai, Renjie" Journal advanced science
18 results on '"Chai, Renjie"'

1. FOXO1‐NCOA4 Axis Contributes to Cisplatin‐Induced Cochlea Spiral Ganglion Neuron Ferroptosis via Ferritinophagy.

Author

Wang, Xue, Xu, Lei, Meng, Yu, Chen, Fang, Zhuang, Jinzhu, Wang, Man, An, Weibin, Han, Yuechen, Chu, Bo, Chai, Renjie, Liu, Wenwen, and Wang, Haibo

Subjects
SPIRAL ganglion, SENSORINEURAL hearing loss, TRANSMISSION of sound, COCHLEAR implants, HEARING disorders, FORKHEAD transcription factors
Abstract

Mammalian cochlea spiral ganglion neurons (SGNs) are crucial for sound transmission, they can be damaged by chemotherapy drug cisplatin and lead to irreversible sensorineural hearing loss (SNHL), while such damage can also render cochlear implants ineffective. However, the mechanisms underlying cisplatin‐induced SGNs damage and subsequent SNHL are still under debate and there is no currently effective clinical treatment. Here, this study demonstrates that ferroptosis is triggered in SGNs following exposure to cisplatin. Inhibiting ferroptosis protects against cisplatin‐induced SGNs damage and hearing loss, while inducing ferroptosis intensifies these effects. Furthermore, cisplatin prompts nuclear receptor coactivator 4 (NCOA4)‐mediated ferritinophagy in SGNs, while knocking down NCOA4 mitigates cisplatin‐induced ferroptosis and hearing loss. Notably, the upstream regulator of NCOA4 is identified and transcription factor forkhead box O1 (FOXO1) is shown to directly suppress NCOA4 expression in SGNs. The knocking down of FOXO1 amplifies NCOA4‐mediated ferritinophagy, increases ferroptosis and lipid peroxidation, while disrupting the interaction between FOXO1 and NCOA4 in NCOA4 knock out mice prevents the cisplatin‐induced SGN ferroptosis and hearing loss. Collectively, this study highlights the critical role of the FOXO1‐NCOA4 axis in regulating ferritinophagy and ferroptosis in cisplatin‐induced SGNs damage, offering promising therapeutic targets for SNHL mitigation. [ABSTRACT FROM AUTHOR]

Published
2024
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2. Structural Color Colloidal Photonic Crystals for Biomedical Applications.

Author

Zhang, Wenhui, Hu, Yangnan, Feng, Pan, Li, Zhe, Zhang, Hui, Zhang, Bin, Xu, Dongyu, Qi, Jieyu, Wang, Huan, Xu, Lei, Li, Zhou, Xia, Ming, Li, Jilai, Chai, Renjie, and Tian, Lei

Subjects
PHOTONIC crystals, STRUCTURAL colors, COLLOIDAL crystals, OPTICAL materials, DIELECTRIC materials
Abstract

Photonic crystals are a new class of optical microstructure materials characterized by a dielectric constant that varies periodically with space and features a photonic bandgap. Inspired by natural photonic crystals such as butterfly scales, a series of artificial photonic crystals are developed for use in integrated photonic platforms, biosensing, communication, and other fields. Among them, colloidal photonic crystals (CPCs) have gained widespread attention due to their excellent optical properties and advantages, such as ease of preparation and functionalization. This work reviews the classification and self‐assembly principles of CPCs, details some of the latest biomedical applications of large‐area, high‐quality CPCs prepared using advanced self‐assembly methods, summarizes the existing challenges in CPC construction and application, and anticipates future development directions and optimization strategy. With further advancements, CPCs are expected to play a more critical role in biosensors, drug delivery, cell research, and other fields, bringing significant benefits to biomedical research and clinical practice. [ABSTRACT FROM AUTHOR]

Published
2024
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4. Integration of Functional Human Auditory Neural Circuits Based on a 3D Carbon Nanotube System.

Author

Lou, Yiyun, Ma, Jiaoyao, Hu, Yangnan, Yao, Xiaoying, Liu, Yaoqian, Wu, Mingxuan, Jia, Gaogan, Chen, Yan, Chai, Renjie, Xia, Mingyu, and Li, Wenyan

Subjects
NEURAL circuitry, CARBON nanotubes, NEURAL pathways, AUDITORY cortex, AUDITORY neurons, AUDITORY pathways, SENSORINEURAL hearing loss
Abstract

The physiological interactions between the peripheral and central auditory systems are crucial for auditory information transmission and perception, while reliable models for auditory neural circuits are currently lacking. To address this issue, mouse and human neural pathways are generated by utilizing a carbon nanotube nanofiber system. The super‐aligned pattern of the scaffold renders the axons of the bipolar and multipolar neurons extending in a parallel direction. In addition, the electrical conductivity of the scaffold maintains the electrophysiological activity of the primary mouse auditory neurons. The mouse and human primary neurons from peripheral and central auditory units in the system are then co‐cultured and showed that the two kinds of neurons form synaptic connections. Moreover, neural progenitor cells of the cochlea and auditory cortex are derived from human embryos to generate region‐specific organoids and these organoids are assembled in the nanofiber‐combined 3D system. Using optogenetic stimulation, calcium imaging, and electrophysiological recording, it is revealed that functional synaptic connections are formed between peripheral neurons and central neurons, as evidenced by calcium spiking and postsynaptic currents. The auditory circuit model will enable the study of the auditory neural pathway and advance the search for treatment strategies for disorders of neuronal connectivity in sensorineural hearing loss. [ABSTRACT FROM AUTHOR]

Published
2024
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5. PEDOT‐Integrated Fish Swim Bladders as Conductive Nerve Conduits.

Author

Zhang, Hui, Xu, Dongyu, Zhang, Bin, Li, Xiaofan, Li, Minli, Zhang, Chen, Wang, Huan, Zhao, Yuanjin, and Chai, Renjie

Subjects
NERVOUS system regeneration, FISH locomotion, NEURAL stimulation, DORSAL root ganglia, NERVES, BLADDER
Abstract

Advanced artificial nerve conduits offer a promising alternative for nerve injury repair. Current research focuses on improving the therapeutic effectiveness of nerve conduits by optimizing scaffold materials and functional components. In this study, a novel poly(3,4‐ethylenedioxythiophene) (PEDOT)‐integrated fish swim bladder (FSB) is presented as a conductive nerve conduit with ordered topology and electrical stimulation to promote nerve regeneration. PEDOT nanomaterials and adhesive peptides (IKVAV) are successfully incorporated onto the decellularized FSB substrate through pre‐coating with polydopamine. The obtained PEDOT/IKVAV‐integrated FSB substrate exhibits outstanding mechanical properties, high electrical conductivity, stability, as well as excellent biocompatibility and bioadhesive properties. In vitro studies confirm that the PEDOT/IKVAV‐integrated FSB can effectively facilitate the growth and directional extension of pheochromocytoma 12 cells and dorsal root ganglion neurites. In addition, in vivo experiments demonstrate that the proposed PEDOT/IKVAV‐integrated FSB conduit can accelerate defective nerve repair and functional restoration. The findings indicate that the FSB‐derived conductive nerve conduits with multiple regenerative inducing signals integration provide a conducive milieu for nerve regeneration, exhibiting great potential for repairing long‐segment neural defects. [ABSTRACT FROM AUTHOR]

Published
2024
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6. AAV‐Mediated Gene Therapy Restores Hearing in Patients with DFNB9 Deafness

Author

Qi, Jieyu, primary, Tan, Fangzhi, additional, Zhang, Liyan, additional, Lu, Ling, additional, Zhang, Shanzhong, additional, Zhai, Yabo, additional, Lu, Yicheng, additional, Qian, Xiaoyun, additional, Dong, WenXiu, additional, Zhou, Yinyi, additional, Zhang, Ziyu, additional, Yang, Xuehan, additional, Jiang, Lulu, additional, Yu, Chaorong, additional, Liu, Jiancheng, additional, Chen, Tian, additional, Wu, Lianqiu, additional, Tan, Chang, additional, Sun, Sijie, additional, Song, Huaien, additional, Shu, Yilai, additional, Xu, Lei, additional, Gao, Xia, additional, Li, Huawei, additional, and Chai, Renjie, additional

Published
2024
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7. Preclinical Efficacy And Safety Evaluation of AAV‐OTOF in DFNB9 Mouse Model And Nonhuman Primate

Author

Qi, Jieyu, primary, Zhang, Liyan, additional, Tan, Fangzhi, additional, Zhang, Yang, additional, Zhou, Yinyi, additional, Zhang, Ziyu, additional, Wang, Hongyang, additional, Yu, Chaorong, additional, Jiang, Lulu, additional, Liu, Jiancheng, additional, Chen, Tian, additional, Wu, Lianqiu, additional, Zhang, Shanzhong, additional, Sun, Sijie, additional, Sun, Shan, additional, Lu, Ling, additional, Wang, Qiuju, additional, and Chai, Renjie, additional

Published
2023
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9. Preclinical Efficacy And Safety Evaluation of AAV‐OTOF in DFNB9 Mouse Model And Nonhuman Primate.

Author

Qi, Jieyu, Zhang, Liyan, Tan, Fangzhi, Zhang, Yang, Zhou, Yinyi, Zhang, Ziyu, Wang, Hongyang, Yu, Chaorong, Jiang, Lulu, Liu, Jiancheng, Chen, Tian, Wu, Lianqiu, Zhang, Shanzhong, Sun, Sijie, Sun, Shan, Lu, Ling, Wang, Qiuju, and Chai, Renjie

Subjects
MICE, PRIMATES, ANIMAL disease models, LABORATORY mice, GENE therapy, CLINICS, AUDITORY neuropathy, HEARING protection
Abstract

OTOF mutations are the principal causes of auditory neuropathy. There are reports on Otof‐related gene therapy in mice, but there is no preclinical research on the drug evaluations. Here, Anc80L65 and the mouse hair cell‐specific Myo15 promoter (mMyo15) are used to selectively and effectively deliver human OTOF to hair cells in mice and nonhuman primates to evaluate the efficacy and safety of OTOF gene therapy drugs. A new dual‐AAV‐OTOF‐hybrid strategy to transfer full‐length OTOF is generated, which can stably restore hearing in adult OTOFp.Q939*/Q939* mice with profound deafness, with the longest duration being at least 150 days, and the best therapeutic effect without difference in hearing from wild‐type mice. An AAV microinjection method into the cochlea of cynomolgus monkeys without hearing impairment is further established and found the OTOF can be safely and effectively driven by the mMyo15 promoter in hair cells. In addition, the therapeutic dose of AAV drugs has no impact on normal hearing and does not cause significant systemic toxicity both in mouse and nonhuman primates. In summary, this study develops a potential gene therapy strategy for DFNB9 patients in the clinic and provides complete, standardized, and systematic research data for clinical research and application. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Natural Multifunctional Silk Microcarriers for Noise‐Induced Hearing Loss Therapy.

Author

Zhang, Hui, Chen, Hong, Lu, Ling, Wang, Huan, Zhao, Yuanjin, and Chai, Renjie

Subjects
NOISE-induced deafness, INNER ear, REACTIVE oxygen species, BIOMATERIALS, SILK, GUINEA pigs
Abstract

Noise‐induced hearing loss (NIHL) is a common outcome of excessive reactive oxygen species in the cochlea, and the targeted delivery of antioxidants to the inner ear is a potential therapeutic strategy. In this paper, a novel natural biomaterials‐derived multifunctional delivery system using silk fibroin‐polydopamine (PDA)‐composited inverse opal microcarriers (PDA@SFMCs) is presented for inner ear drug delivery and NIHL therapy. Due to their large specific surface area and interpenetrating nanochannels, PDA@SFMCs can rapidly load active biomolecules making them a convenient medium for the storage and delivery of such molecules. In addition, surface modification of PDA enables the microcarriers to remain in the round window niche, thus facilitating the precise local and directed delivery of loaded drugs. Based on these features, it is demonstrated here that n‐acetylcysteine‐loaded silk microcarriers have satisfactory antioxidant properties on cells and can successfully prevent NIHL in guinea pigs. These results indicate that the natural multifunctional silk microcarriers are promising agents for local inner ear drug delivery in the clinic. [ABSTRACT FROM AUTHOR]

Published
2024
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11. Peroxisome Deficiency in Cochlear Hair Cells Causes Hearing Loss by Deregulating BK Channels

Author

Fu, Xiaolong, primary, Wan, Peifeng, additional, Lu, Ling, additional, Wan, Yingcui, additional, Liu, Ziyi, additional, Hong, Guodong, additional, Cao, Shengda, additional, Bi, Xiuli, additional, Zhou, Jing, additional, Qiao, Ruifeng, additional, Guo, Siwei, additional, Xiao, Yu, additional, Wang, Bingzheng, additional, Chang, Miao, additional, Li, Wen, additional, Li, Peipei, additional, Zhang, Aizhen, additional, Sun, Jin, additional, Chai, Renjie, additional, and Gao, Jiangang, additional

Published
2023
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12. Dyslexia‐Related Hearing Loss Occurs Mainly through the Abnormal Spontaneous Electrical Activity of Spiral Ganglion Neurons

Author

Hong, Guodong, primary, Fu, Xiaolong, additional, Chen, Xin, additional, Zhang, Liyan, additional, Han, Xuan, additional, Ding, Shuqin, additional, Liu, Ziyi, additional, Bi, Xiuli, additional, Li, Wen, additional, Chang, Miao, additional, Qiao, Ruifeng, additional, Guo, Siwei, additional, Tu, Hailong, additional, and Chai, Renjie, additional

Published
2023
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13. Tryptophan Metabolism Acts as a New Anti‐Ferroptotic Pathway to Mediate Tumor Growth

Author

Liu, Dong, primary, Liang, Chun‐hui, additional, Huang, Bin, additional, Zhuang, Xiao, additional, Cui, Weiwei, additional, Yang, Li, additional, Yang, Yinghong, additional, Zhang, Yudan, additional, Fu, Xiaolong, additional, Zhang, Xiaoju, additional, Du, Lutao, additional, Gu, Wei, additional, Wang, Xiangdong, additional, Yin, Chengqian, additional, Chai, Renjie, additional, and Chu, Bo, additional

Published
2023
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14. Compact SchCas9 Recognizes the Simple NNGR PAM

Author

Wang, Shuai, primary, Mao, Huilin, additional, Hou, Linghui, additional, Hu, Ziying, additional, Wang, Yao, additional, Qi, Tao, additional, Tao, Chen, additional, Yang, Yuan, additional, Zhang, Chengdong, additional, Li, Miaomiao, additional, Liu, Huihui, additional, Hu, Shijun, additional, Chai, Renjie, additional, and Wang, Yongming, additional

Published
2021
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16. Compact SchCas9 Recognizes the Simple NNGR PAM.

Author

Wang, Shuai, Mao, Huilin, Hou, Linghui, Hu, Ziying, Wang, Yao, Qi, Tao, Tao, Chen, Yang, Yuan, Zhang, Chengdong, Li, Miaomiao, Liu, Huihui, Hu, Shijun, Chai, Renjie, and Wang, Yongming

Subjects
GENOME editing, CELL lines, CRISPRS, CLINICAL medicine
Abstract

Clustered regularly interspaced short palindromic repeat (CRISPR)/SaCas9 is the most popular tool for in vivo genome editing due to its high efficiency and small genome. The authors previously developed four SaCas9 orthologs as genome‐editing tools. Here, to expand the targeting scope, they investigate the diversity of protospacer adjacent motifs (PAMs) by screening a list of 16 SaCas9 orthologs, twelve of which display editing activity in mammalian cells. They recognize five types of PAMs: NNGRRT, NNGRRR, NNGRC, NNGA, and NNGR. Importantly, SchCas9 recognizes the simple NNGR PAM, representing the most relaxed PAM preference of compact Cas9s to date. It is further demonstrated that SchCas9 enables efficient genome editing in multiple human cell lines. Altogether, these compact Cas9 tools offer a new option for both basic research and clinical applications. [ABSTRACT FROM AUTHOR]

Published
2022
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17. Suction‐Cup‐Inspired Adhesive Micromotors for Drug Delivery.

Author

Cai, Lijun, Zhao, Cheng, Chen, Hanxu, Fan, Lu, Zhao, Yuanjin, Qian, Xiaoyun, and Chai, Renjie

Subjects
MICROMOTORS, GASTRIC juice, COLLOIDAL crystals, SOLVENT extraction, STOMACH ulcers, ADHESIVES, HYDROGELS
Abstract

Micromotors have opened novel avenues for drug delivery due to their capacity for self‐propelling. Attempts in this field trend towards ameliorating their functions to promote their clinical applications. In this paper, an ingenious suction‐cup‐inspired micromotor is presented with adhesive properties for drug delivery in the stomach. The micromotors are fabricated by using hydrogel replicating the structure of suction‐cup‐like microparticles, which derive from self‐assembly of colloidal crystals under rapid solvent extraction, followed by loading magnesium (Mg) in the bottom spherical surface. The Mg‐loaded micromotors can realize spontaneous movement due to the continual generation of hydrogen bubbles in gastric juice. The combination of unique suction‐cup‐like structure with excellent motion performance makes the micromotor an ideal carrier for drug delivery as they can efficiently adhere to the tissue. Moreover, benefiting from the porous structure, the hydrogel micromotors exhibit a high volume‐surface ratio, which enables efficient drug loading. It is demonstrated that the suction‐cup‐inspired micromotors can adhere efficiently to the ulcer‐region in the stomach and release drugs due to their distinctive architecture and spontaneous motion, exhibiting desirable curative effect of gastric ulcer. Thus, the suction‐cup‐inspired micromotors with adhesive properties are expected to advance the development of micromotor in clinical applications. [ABSTRACT FROM AUTHOR]

Published
2022
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