Your search keyword '"Ziyu Zhang"' showing total 5 results

1. AAV‐mediated Gene Cocktails Enhance Supporting Cell Reprogramming and Hair Cell Regeneration

Author

Liyan Zhang, Xin Chen, Xinlin Wang, Yinyi Zhou, Yuan Fang, Xingliang Gu, Ziyu Zhang, Qiuhan Sun, Nianci Li, Lei Xu, Fangzhi Tan, Renjie Chai, and Jieyu Qi

Subjects

AAV, hair cell regeneration, multi‐gene co‐regulation, Science

Abstract

Abstract Mammalian cochlear hair cells (HCs) are essential for hearing, and damage to HCs results in severe hearing impairment. Damaged HCs can be regenerated by neighboring supporting cells (SCs), thus the functional regeneration of HCs is the main goal for the restoration of auditory function in vivo. Here, cochlear SC trans‐differentiation into outer and inner HC by the induced expression of the key transcription factors Atoh1 and its co‐regulators Gfi1, Pou4f3, and Six1 (GPAS), which are necessary for SCs that are destined for HC development and maturation via the AAV‐ie targeting the inner ear stem cells are successfully achieved. Single‐cell nuclear sequencing and lineaging tracing results showed that the majority of new Atoh1‐derived HCs are in a state of initiating differentiation, while GP (Gfi1, Pou4f3) and GPS (Gfi1, Pou4f3, and Six1) enhanced the Atoh1‐induced new HCs into inner and outer HCs. Moreover, the patch‐clamp analysis indicated that newborn inner HCs induced by GPAS forced expression have similar electrophysiological characteristics to those of native inner HCs. Also, GPAS can induce HC regeneration in the HC‐damaged mice model. In summary, the study demonstrates that AAV‐mediated co‐regulation of multiple genes, such as GPAS, is an effective means to achieve functional HC regeneration in the mouse cochlea.

Published

2024

2. Design and Synthesis of Transferrable Macro‐Sized Continuous Free‐Standing Metal‐Organic Framework Films for Biosensor Device

Author

Zhe Zhao, Xinyi Ke, Jiayuan Huang, Ziyu Zhang, Yue Wu, Gaoshan Huang, Ji Tan, Xuanyong Liu, Yongfeng Mei, and Junhao Chu

Subjects

formation mechanism, free‐standing metal organic framework film, glucose sensor, molecular adsorption, transferred device, Science

Abstract

Abstract Metal organic framework (MOF) films have attracted abundant attention due to their unique characters compared with MOF particles. But the high‐temperature reaction and solvent corrosion limit the preparation of MOF films on fragile substrates, hindering further applications. Fabricating macro‐sized continuous free‐standing MOF films and transferring them onto fragile substrates are a promising alternative but still challenging. Here, a universal strategy to prepare transferrable macro‐sized continuous free‐standing MOF films with the assistance of oxide nanomembranes prepared by atomic layer deposition and studied the growth mechanism is developed. The oxide nanomembranes serve not only as reactant, but also as interfacial layer to maintain the integrality of the free‐standing structure as the stacked MOF particles are supported by the oxide nanomembrane. The centimeter‐scale free‐standing MOF films can be transferred onto fragile substrates, and all in one device for glucose sensing is assembled. Due to the strong adsorption toward glucose molecules, the obtained devices exhibit outstanding performance in terms of high sensitivity, low limit of detection, and long durability. This work opens a new window toward the preparation of MOF films and MOF film‐based biosensor chip for advantageous applications in post‐Moore law period.

Published

2024

3. Mitochondria‐Modulating Liposomes Reverse Radio‐Resistance for Colorectal Cancer

Author

Junmei Li, Yuhong Wang, Wenhao Shen, Ziyu Zhang, Zhiyue Su, Xia Guo, Pei Pei, Lin Hu, Teng Liu, Kai Yang, and Lingchuan Guo

Subjects

fractionated radiotherapy, iMOMP, liposome, radio‐resistance, T cell exhaustion, Science

Abstract

Abstract Complete remission of colorectal cancer (CRC) is still unachievable in the majority of patients by common fractionated radiotherapy, leaving risks of tumor metastasis and recurrence. Herein, clinical CRC samples demonstrated a difference in the phosphorylation of translation initiation factor eIF2α (p‐eIF2α) and the activating transcription factor 4 (ATF4), whose increased expression by initial X‐ray irradiation led to the resistance to subsequent radiotherapy. The underlying mechanism is studied in radio‐resistant CT26 cells, revealing that the incomplete mitochondrial outer membrane permeabilization (iMOMP) triggered by X‐ray irradiation is key for the elevated expression of p‐eIF2α and ATF4, and therefore radio‐resistance. This finding guided to discover that metformin and 2‐DG are synergistic in reversing radio resistance by inhibiting p‐eIF2α and ATF4. Liposomes loaded with metformin and 2‐DG (M/D‐Lipo) are thus prepared for enhancing fractionated radiotherapy of CRC, which achieved satisfactory therapeutic efficacy in both local and metastatic CRC tumors by reversing radio‐resistance and preventing T lymphocyte exhaustion.

Published

2024

4. AAV‐Mediated Gene Therapy Restores Hearing in Patients with DFNB9 Deafness

Author

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

Subjects

AAV, biosafety, clinical trial, hearing recovery, OTOF gene therapy, Science

Abstract

Abstract Mutations in OTOFERLIN (OTOF) lead to the autosomal recessive deafness 9 (DFNB9). The efficacy of adeno‐associated virus (AAV)‐mediated OTOF gene replacement therapy is extensively validated in Otof‐deficient mice. However, the clinical safety and efficacy of AAV‐OTOF is not reported. Here, AAV‐OTOF is generated using good manufacturing practice and validated its efficacy and safety in mouse and non‐human primates in order to determine the optimal injection dose, volume, and administration route for clinical trials. Subsequently, AAV‐OTOF is delivered into one cochlea of a 5‐year‐old deaf patient and into the bilateral cochleae of an 8‐year‐old deaf patient with OTOF mutations. Obvious hearing improvement is detected by the auditory brainstem response (ABR) and the pure‐tone audiometry (PTA) in these two patients. Hearing in the injected ear of the 5‐year‐old patient can be restored to the normal range at 1 month after AAV‐OTOF injection, while the 8‐year‐old patient can hear the conversational sounds. Most importantly, the 5‐year‐old patient can hear and recognize speech only through the AAV‐OTOF‐injected ear. This study is the first to demonstrate the safety and efficacy of AAV‐OTOF in patients, expands and optimizes current OTOF‐related gene therapy and provides valuable information for further application of gene therapies for deafness.

Published

2024

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

Author

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

Subjects

gene therapy, nonhuman primate, OTOF, preclinical research, Science

Abstract

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.

Published

2024