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Correction:Nanomaterial-Based Repurposing of Macrophage Metabolism and Its Applications 被引量:1
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作者 Tingting Meng Danfeng He +7 位作者 zhuolei han Rong Shi Yuhan Wang Bibo Ren Cheng Zhang Zhengwei Mao Gaoxing Luo Jun Deng 《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第12期357-357,共1页
Following publication of the original article[1],the authors reported an error in the last author’s name,it was mistakenly written as“Jun Den”.The correct author’s name“Jun Deng”has been updated in this Correction.
关键词 MISTAKE CORRECT CORRECTION
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Nanomaterial‑Based Repurposing of Macrophage Metabolism and Its Applications
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作者 Tingting Meng Danfeng He +7 位作者 zhuolei han Rong Shi Yuhan Wang Bibo Ren Cheng Zhang Zhengwei Mao Gaoxing Luo Jun Den 《Nano-Micro Letters》 SCIE EI CAS CSCD 2024年第11期494-528,共35页
Macrophage immunotherapy represents an emerging therapeutic approach aimed at modulating the immune response to alleviate disease symptoms.Nanomaterials(NMs)have been engineered to monitor macrophage metabolism,enabli... Macrophage immunotherapy represents an emerging therapeutic approach aimed at modulating the immune response to alleviate disease symptoms.Nanomaterials(NMs)have been engineered to monitor macrophage metabolism,enabling the evaluation of disease progression and the replication of intricate physiological signal patterns.They achieve this either directly or by delivering regulatory signals,thereby mapping phenotype to effector functions through metabolic repurposing to customize macrophage fate for therapy.However,a comprehensive summary regarding NM-mediated macrophage visualization and coordinated metabolic rewiring to maintain phenotypic equilibrium is currently lacking.This review aims to address this gap by outlining recent advancements in NM-based metabolic immunotherapy.We initially explore the relationship between metabolism,polarization,and disease,before delving into recent NM innovations that visualize macrophage activity to elucidate disease onset and fine-tune its fate through metabolic remodeling for macrophage-centered immunotherapy.Finally,we discuss the prospects and challenges of NM-mediated metabolic immunotherapy,aiming to accelerate clinical translation.We anticipate that this review will serve as a valuable reference for researchers seeking to leverage novel metabolic intervention-matched immunomodulators in macrophages or other fields of immune engineering. 展开更多
关键词 Immunomodulatory nanomaterial Macrophage polarization Macrophage metabolic reprogramming Immune engineering
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Hollow Bio-derived Polymer Nanospheres with Ordered Mesopores for Sodium-Ion Battery 被引量:4
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作者 Yan Ai Yuxiu You +13 位作者 Facai Wei Xiaolin Jiang zhuolei han Jing Cui Hao Luo Yucen Li Zhixin Xu Shunqi Xu Jun Yang Qinye Bao Chengbin Jing Jianwei Fu Jiangong Cheng Shaohua Liu 《Nano-Micro Letters》 SCIE EI CAS CSCD 2020年第3期1-11,共11页
Bio-inspired hierarchical self-assembly provides elegant and powerful bottom-up strategies for the creation of complex materials.However,the current self-assembly approaches for natural bio-compounds often result in m... Bio-inspired hierarchical self-assembly provides elegant and powerful bottom-up strategies for the creation of complex materials.However,the current self-assembly approaches for natural bio-compounds often result in materials with limited diversity and complexity in architecture as well as microstructure.Here,we develop a novel coordination polymerization-driven hierarchical assembly of micelle strategy,using phytic acid-based natural compounds as an example,for the spatially controlled fabrication of metal coordination bio-derived polymers.The resultant ferric phytate polymer nanospheres feature hollow architecture,ordered meso-channels of^12 nm,high surface area of 401 m2 g−1,and large pore volume of 0.53 cm3 g−1.As an advanced anode material,this bio-derivative polymer delivers a remarkable reversible capacity of 540 mAh g−1 at 50 mA g−1,good rate capability,and cycling stability for sodium-ion batteries.This study holds great potential of the design of new complex bio-materials with supramolecular chemistry. 展开更多
关键词 Self-assembly Biomimetic synthesis Mesoporous polymer Ferric phytate Sodium-ion battery
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Regulating the microenvironment with nanomaterials:Potential strategies to ameliorate COVID-19
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作者 Zhicheng Liu zhuolei han +6 位作者 Xin Jin Jusung An Jaewon Kim Wenting Chen Jong Seung Kim Ji Zheng Jun Deng 《Acta Pharmaceutica Sinica B》 SCIE CAS CSCD 2023年第9期3638-3658,共21页
COVID-19,caused by SARS-CoV-2,has resulted in serious economic and health burdens.Current treatments remain inadequate to extinguish the epidemic,and efficient therapeutic approaches for COVID-19 are urgently being so... COVID-19,caused by SARS-CoV-2,has resulted in serious economic and health burdens.Current treatments remain inadequate to extinguish the epidemic,and efficient therapeutic approaches for COVID-19 are urgently being sought.Interestingly,accumulating evidence suggests that microenvironmental disorder plays an important role in the progression of COVID-19 in patients.In addition,recent advances in nanomaterial technologies provide promising opportunities for alleviating the altered homeostasis induced by a viral infection,providing new insight into COVID-19 treatment.Most literature reviews focus only on certain aspects of microenvironment alterations and fail to provide a comprehensive overview of the changes in homeostasis in COVID-19 patients.To fill this gap,this review systematically discusses alterations of homeostasis in COVID-19 patients and potential mechanisms.Next,advances in nanotechnology-based strategies for promoting homeostasis restoration are summarized.Finally,we discuss the challenges and prospects of using nanomaterials for COVID-19 management.This review provides a new strategy and insights into treating COVID-19 and other diseases associated with microenvironment disorders. 展开更多
关键词 Coronavirus disease 19 Severe acute respiratory syndrome coronavirus 2 Therapeutic approaches Nanotechnology Nanomaterial technologies MICROENVIRONMENT Microenvironmental disorder Altered homeostasis
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