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Chunyan Fu

ORCID: 0000-0003-3258-1914
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About
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A5032499409
Research Areas
  • Autophagy in Disease and Therapy
  • Spinal Cord Injury Research
  • Mesenchymal stem cell research
  • Toxoplasma gondii Research Studies
  • Child Nutrition and Water Access
  • Neurogenesis and neuroplasticity mechanisms
  • Infant Nutrition and Health
  • Cerebrospinal fluid and hydrocephalus
  • Neurogenetic and Muscular Disorders Research
  • Neonatal Respiratory Health Research
  • Ubiquitin and proteasome pathways
  • Nerve injury and regeneration
  • Spinal Dysraphism and Malformations
  • Gut microbiota and health
  • Advanced battery technologies research
  • Calcium signaling and nucleotide metabolism

Zhejiang University
 2022-2025

Sir Run Run Shaw Hospital
 2023-2025

Fujian Medical University
 2024

 Resveratrol suppresses microglial activation and promotes functional recovery of traumatic spinal cord via improving intestinal microbiota
OPENALEX - Publications 
Ning He Gerong Shen Xiaoqin Jin Heyangzi Li Jingyu Wang and 15 more Lintao Xu Jun Chen Xi Cao Chunyan Fu Dongling Shi Xinghui Song Shuangshuang Liu Yanwei Li Tengfei Zhao Jun Li Jinjie Zhong Yue‐Liang Shen Mingzhi Zheng Yingying Chen Linlin Wang

10.1016/j.phrs.2022.106377 article EN Pharmacological Research 2022-08-01
 Macrophage-targeted Mms6 mRNA-lipid nanoparticles promote locomotor functional recovery after traumatic spinal cord injury in mice
OPENALEX - Publications 
Chunyan Fu Xiaoqin Jin Kangfan Ji K. Nguyen Lan Xingjia Mao and 10 more Z. Josh Huang Jian Chen Fengdong Zhao Pengfei Li Xuefei Hu Liwen Sun Ning Lü Jinjie Zhong Yingying Chen Linlin Wang

Traumatic spinal cord injury (SCI) causes severe central nervous system damage. M2 macrophages within the lesion are crucial for SCI recovery. Our previous research revealed that transfected with magnetotactic bacteria–derived Mms6 gene can resist ferroptosis and enhance To address limitations of macrophage transplantation, we developed lipid nanoparticles (LNPs) encapsulating mRNA targeting ( mRNA-PS/LNPs). The efficiency therapeutic effect these LNPs in mice were evaluated. Intravenous...

10.1126/sciadv.ads2295 article EN Science Advances 2025-03-26
 UBC9‐mediated SUMOylation of Lamin B1 enhances DNA‐damage‐induced nuclear DNA leakage and autophagy after spinal cord injury
OPENALEX - Publications 
Yunpeng Fan Junsheng Lou Mengran Jin Conghui Zhou Honghao Shen and 6 more Chunyan Fu Xingjia Mao Ying‐ying Chen Jinjie Zhong Linlin Wang Junsong Wu

Abstract Recent studies have shown that nucleophagy can mitigate DNA damage by selectively degrading nuclear components protruding from the nucleus. However, little is known about role of in neurons after spinal cord injury (SCI). Western blot analysis and immunofluorescence were performed to evaluate leakage SCI vivo NSC34 expression primary cultured with oxygen–glucose deprivation (OGD) vitro, as well interaction colocalization autophagy protein LC3 lamina Lamin B1. The effect UBC9, a...

10.1002/jcp.31213 article EN Journal of Cellular Physiology 2024-02-03
 IFN-γ-STAT1-mediated CD8+ T-cell-neural stem cell cross talk controls astrogliogenesis after spinal cord injury
OPENALEX - Publications 
Jingyu Wang Lintao Xu Deqing Peng Yongjian Zhu Zhaowen Gu and 12 more Yao Ying Heyangzi Li Xi Cao Chunyan Fu Mingzhi Zheng Xinghui Song Yueming Ding Yue‐Liang Shen Jinjie Zhong Yingying Chen Jue Hu Linlin Wang

Spinal cord injury (SCI) causes nearly all patients to suffer from protracted disabilities. An emerging therapeutic strategy involving the recruitment of endogenous neural stem cells (NSCs) has been developed. However, NSCs in adult spinal differentiate into mostly astrocytes after traumatic injury, forming glial scars, which is a major cause regeneration failure SCI. Thus, understanding factors drive activation and differentiation SCI critical for developing drugs.The infiltration, state,...

10.1186/s41232-023-00263-9 article EN cc-by Inflammation and Regeneration 2023-02-13
 Ezrin inhibition alleviates oxidative stress and pyroptosis via regulating TRPML1-calcineurin axis mediated enhancement of autophagy in spinal cord injury
OPENALEX - Publications 
Junsheng Lou Mengran Jin Conghui Zhou Yunpeng Fan Libin Ni and 11 more Yiting Mao Honghao Shen Jiafeng Li Haojie Zhang Chunyan Fu Xingjia Mao Yingying Chen Jinjie Zhong Kailiang Zhou Linlin Wang Junsong Wu

10.1016/j.freeradbiomed.2023.12.020 article EN Free Radical Biology and Medicine 2023-12-23
 Magnetotactic Bacteria‐Derived Mms6 Gene Helps M2 Macrophages to Form Magnetic Bio‐Nanoparticles to Prevent Ferroptosis and Promote Locomotor Functional Recovery after Spinal Cord Injury in Mice
OPENALEX - Publications 
Chunyan Fu Xingjia Mao Xiaoqin Jin Tong Zuo Mingzhi Zheng and 8 more Jingyu Wang Yunpeng Fan Lintao Xu Junsheng Lou Dongling Shi Jinjie Zhong Yingying Chen Linlin Wang

Abstract Magnetotactic bacteria are microaerobic microorganisms that take up iron from solution and crystallize magnetite nanoparticles called magnetosomes, enclosed by membrane intracellularly mainly formed the magnetosome membrane‐specific 6 ( Mms6 ) gene. M2 macrophages transfected magnetotactic bacteria‐derived gene to form magnetic bio‐nanoparticles. Under myelin debris‐rich hypoxic stress in spinal cord injury (SCI) microenvironment, ‐transfected can antagonize ferroptosis. Meanwhile,...

10.1002/adfm.202305325 article EN cc-by-nc-nd Advanced Functional Materials 2023-09-01
 Bifidobacterium regulates premature infant gut metabolites, reducing serum inflammatory factors: a randomised controlled trial
OPENALEX - Publications 
Wang He Dongmei Chen Huamei Li Chunyan Fu Lingyu Fang and 2 more Ruiquan Wang Jinglin Xu

10.1038/s41390-024-03552-2 article EN Pediatric Research 2024-09-13
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