Zhifen Li scite author profile

Zhifen Li

4Publications

108Citation Statements Received

44Citation Statements Given

How they've been cited

206

How they cite others

Affiliations

Shanxi Datong University, Peking University, Beijing Normal University

Publications

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Photothermal Nanozymatic Nanoparticles Induce Ferroptosis and Apoptosis through Tumor Microenvironment Manipulation for Cancer Therapy

Yuan

Xia

Sun

et al. 2022

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It is highly desirable to design a single modality that can simultaneously trigger apoptosis and ferroptosis to efficiently eliminate tumor progression. Herein, a nanosystem based on the intrinsic properties of tumor microenvironment (TME) is designed to achieve tumor control through the simultaneous induction of ferroptosis and apoptosis. CuCP molecules are encapsulated in a liposome‐based nanosystem to assemble into biocompatible and stable CuCP nanoparticles (CuCP Lipo NPs). This nanosystem intrinsically possesses nanozymatic activity and photothermal characteristics due to the property of Cu atoms and the structure of CuCP Lipo NPs. It is demonstrated that the synergistic strategy increases the intracellular lipid‐reactive oxides species, induces the occurrence of ferroptosis and apoptosis, and completely eradicates the tumors in vivo. Proteomics analysis further discloses the key involved proteins (including Tp53, HMOX1, Ptgs2, Tfrc, Slc11a2, Mgst2, Sod1, and several GST family members) and pathways (including apoptosis, ferroptosis, and ROS synthesis). Conclusively, this work develops a strategy based on one nanosystem to synergistically induce ferroptosis and apoptosis in vivo for tumor suppression, which holds great potential in the clinical translation for tumor therapy.

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Partial molar volumes of some amino acids and a peptide in water, DMSO, NaCl, and DMSO/NaCl aqueous solutions

Shen

Wang

et al. 2000

The Journal of Chemical Thermodynamics

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Partial molar volumes of l-alanine, dl-serine, dl-threonine, l-histidine, glycine, and glycylglycine in water, NaCl, and DMSO aqueous solutions at T=298.15 K

Yuan

Wang

2006

The Journal of Chemical Thermodynamics

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New crystalline structure for nanometer-sized Ge microcrystallites prepared by plasma enhanced chemical vapor deposition

Jiang

Chen

Huang

et al. 1994

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Crystallized Ge films have been produced in a plasma enhanced chemical vapor deposition system by the decomposition of H2-diluted GeH4 gas source while using the H2 plasma treatment. Structural analyses of the films using x-ray diffraction and transmission electron microscopy techniques revealed a new crystalline structure in the Ge microcrystallites with a diameter of about 5 nm, which is different from the normal diamond structure of crystalline Ge. This new nanometer crystalline structure has been explained to be a metastable nanometer-sized atomic configuration formed in the film deposition process.

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Zhifen Li

Photothermal Nanozymatic Nanoparticles Induce Ferroptosis and Apoptosis through Tumor Microenvironment Manipulation for Cancer Therapy

Partial molar volumes of some amino acids and a peptide in water, DMSO, NaCl, and DMSO/NaCl aqueous solutions

Partial molar volumes of l-alanine, dl-serine, dl-threonine, l-histidine, glycine, and glycylglycine in water, NaCl, and DMSO aqueous solutions at T=298.15 K

New crystalline structure for nanometer-sized Ge microcrystallites prepared by plasma enhanced chemical vapor deposition

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