Professor | Xiaolie He | Asia Growth Partners

Name

Xiaolie He

Contact Information

hxl@tongji.edu.cn

Language ability

Chinese, English

Province

Shanghai

University/Lab Affiliation and Title	Tongji University
Faculty	Life Sciences
Academic Background & Achievements	Bachelor's Degree: Nanjing Normal University, School of Life Sciences Master's and PhD: Tongji University, School of Life Sciences and Technology Doctoral Supervisor: Professor Rongrong Zhu Postdoctoral Research: Key Laboratory for Regeneration of Spinal Cord Injury, Ministry of Education, Tongji University, with Professor Liming Cheng
Work Experience	2020-09 - Present: Postdoctoral Researcher, Key Laboratory for Regeneration of Spinal Cord Injury, Ministry of Education, Tongji University 2023-10 - Present: Assistant Professor, School of Life Sciences and Technology, Tongji University

University/Lab Affiliation and Title

Tongji University

Faculty

Life Sciences

Academic Background & Achievements

Bachelor's Degree: Nanjing Normal University, School of Life Sciences
Master's and PhD: Tongji University, School of Life Sciences and Technology
Doctoral Supervisor: Professor Rongrong Zhu
Postdoctoral Research: Key Laboratory for Regeneration of Spinal Cord Injury, Ministry of Education, Tongji University, with Professor Liming Cheng

Work Experience

2020-09 - Present: Postdoctoral Researcher, Key Laboratory for Regeneration of Spinal Cord Injury, Ministry of Education, Tongji University
2023-10 - Present: Assistant Professor, School of Life Sciences and Technology, Tongji University

Areas of Focus	Biomaterials and stem cell fate regulation Spinal cord injury repair and neural regeneration mechanisms
Publications	Spinal cord injury: molecular mechanisms and therapeutic interventions, Xiaolie He et al., 2023 Combination therapy with ultrasound and 2D nanomaterials promotes recovery after spinal cord injury via Piezo1 downregulation, Xiaolie He et al., 2023 Bioactive 2D nanomaterials for neural repair and regeneration, Xiaolie He et al., 2022 Biocompatible exosome-modified fibrin gel accelerates the recovery of spinal cord injury by VGF-mediated oligodendrogenesis, Xiaolie He et al., 2022 MgFe-LDH Nanoparticles: A Promising Leukemia Inhibitory Factor Replacement for Self-Renewal and Pluripotency Maintenance in Cultured Mouse Embryonic Stem Cells, Xiaolie He et al., 2021 Solid lipid nanoparticles loading with curcumin and dexanabinol to treat major depressive disorder, Xiaolie He et al., 2021 Activation of CB2R with AM1241 ameliorates neurodegeneration via the Xist/miR-133b-3p/Pitx3 axis, Xiaolie He et al., 2020 Targeting the Endocannabinoid/CB1 Receptor System for Treating Major Depression Through Antidepressant Activities of Curcumin and Dexanabinol-Loaded Solid Lipid Nanoparticles, Xiaolie He et al., 2017 Antidepressant effects of curcumin and HU-211 coencapsulated solid lipid nanoparticles against corticosterone-induced cellular and animal models of major depression, Xiaolie He et al., 2016

Areas of Focus

Biomaterials and stem cell fate regulation
Spinal cord injury repair and neural regeneration mechanisms

Publications

Spinal cord injury: molecular mechanisms and therapeutic interventions, Xiaolie He et al., 2023
Combination therapy with ultrasound and 2D nanomaterials promotes recovery after spinal cord injury via Piezo1 downregulation, Xiaolie He et al., 2023
Bioactive 2D nanomaterials for neural repair and regeneration, Xiaolie He et al., 2022
Biocompatible exosome-modified fibrin gel accelerates the recovery of spinal cord injury by VGF-mediated oligodendrogenesis, Xiaolie He et al., 2022
MgFe-LDH Nanoparticles: A Promising Leukemia Inhibitory Factor Replacement for Self-Renewal and Pluripotency Maintenance in Cultured Mouse Embryonic Stem Cells, Xiaolie He et al., 2021
Solid lipid nanoparticles loading with curcumin and dexanabinol to treat major depressive disorder, Xiaolie He et al., 2021
Activation of CB2R with AM1241 ameliorates neurodegeneration via the Xist/miR-133b-3p/Pitx3 axis, Xiaolie He et al., 2020
Targeting the Endocannabinoid/CB1 Receptor System for Treating Major Depression Through Antidepressant Activities of Curcumin and Dexanabinol-Loaded Solid Lipid Nanoparticles, Xiaolie He et al., 2017
Antidepressant effects of curcumin and HU-211 coencapsulated solid lipid nanoparticles against corticosterone-induced cellular and animal models of major depression, Xiaolie He et al., 2016

Biomaterials Stem Cells Fate Regulation Spinal Cord Injury Repair Neural Regeneration Mechanisms Therapy Cellular Dynamics Molecular Pathways

Mian Wang - Tongji University

Yang Letao - Tongji University

Rongrong Zhu - Tongji University

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