Yanyan Xing scite author profile

Yanyan Xing

3Publications

262Citation Statements Received

120Citation Statements Given

How they've been cited

286

250

How they cite others

115

Affiliations

Ministry of Education of the People's Republic of China, Jinan University, Georgia Institute of Technology

Publications

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Targeting FLT3 in acute myeloid leukemia using ligand-based chimeric antigen receptor-engineered T cells

Wang

et al. 2018

J Hematol Oncol

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BackgroundChimeric antigen receptor-engineered T (CAR-T) cells have extraordinary effect in treating lymphoblastic leukemia. However, treatment of acute myeloid leukemia (AML) using CAR-T cells remains limited to date. Leukemogenesis always relates with the abnormalities of cytogenetics, and nearly one third of AML patients have activating mutations in Fms-like tyrosine kinase 3 (FLT3) which reminded poor prognosis. Considering the FLT3 expressed in AML patients’ blast cells, it may be a new candidate target for CAR-T therapy to treat FLT3+ AML, especially patients harboring FLT3-ITD mutation.MethodsThe FLT3L CAR-T using FLT3 ligand as recognizing domain was constructed. The specific cytotoxicity against FLT3+ leukemia cell lines, primary AML cells, and normal hematopoietic progenitor stem cells (HPSCs) in vitro were evaluated. In addition, FLT3+ AML mouse model was used to assess the effect of FLT3L CAR-T therapy in vivo.ResultsFLT3L CAR-T cells could specifically kill FLT3+ leukemia cell lines and AML patients’ bone marrow mononuclear cells in vitro (with or without FLT3 mutation) and have more potent cytotoxicity to FLT3-ITD cells. In a human FLT3+ AML xenograft mouse model, FLT3L CAR-T cells could significantly prolong the survival of mice. Furthermore, it was found that FLT3L CAR-T cells could activate the FLT3/ERK signaling pathway of FLT3+ leukemia cells with wild-type FLT3; meanwhile, it had no inhibitory effects on the colony formation of CD34+ stem cells derived from normal human umbilical cord blood.ConclusionsThe ligand-based FLT3L CAR-T cells could be a promising strategy for FLT3+ AML treatment, especially those carried FLT3 mutation.Electronic supplementary materialThe online version of this article (10.1186/s13045-018-0603-7) contains supplementary material, which is available to authorized users.

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Cooperative Interactions of RNA and Thiostrepton Antibiotic with Two Domains of Ribosomal Protein L11

1996

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Ribosomal protein L11 interacts with a 58-nucleotide domain of large subunit ribosomal RNA; both the protein and its RNA target have been highly conserved. The antibiotic thiostrepton recognizes the same RNA domain, and binds to the ribosome cooperatively with L11. Experiments presented here show that RNA recognition and thiostrepton cooperativity can be attributed to C- and N-terminal domains of L11, respectively. Under trypsin digestion conditions that degrade Bacillus stearothermophilus L11 to small fragments, the target RNA protects the C-terminal 77 residues from digestion, and thiostrepton and RNA in combination protect the entire protein. A 76-residue C-terminal fragment of L11 was overexpressed and shown to fold into a stable structure binding ribosomal RNA with essentially the same properties as full-length L11. An L11.thiostrepton.RNA complex was 100-200-fold more stable than expected on the basis of L11-RNA and thiostrepton-RNA binding affinities; similar measurements with the C-terminal fragment detected no cooperativity with thiostrepton. L11 function is thus more complex than simple interaction with ribosomal RNA; we suggest that thiostrepton mimics some ribosomal component or factor that normally interacts with the L11 N-terminal domain.

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Curcumin Protects Microglia and Primary Rat Cortical Neurons against HIV-1 gp120-Mediated Inflammation and Apoptosis

et al. 2013

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Curcumin is a molecule found in turmeric root that has anti-inflammatory, antioxidant, and anti-tumor properties and has been widely used as both an herbal drug and a food additive to treat or prevent neurodegenerative diseases. To explore whether curcumin is able to ameliorate HIV-1-associated neurotoxicity, we treated a murine microglial cell line (N9) and primary rat cortical neurons with curcumin in the presence or absence of neurotoxic HIV-1 gp120 (V3 loop) protein. We found that HIV-1 gp120 profoundly induced N9 cells to produce reactive oxygen species (ROS), tumor necrosis factor-α (TNF-α) and monocyte chemoattractant protein-1 (MCP-1). HIV-1 gp120 also induced apoptosis of primary rat cortical neurons. Curcumin exerted a powerful inhibitory effect against HIV-1 gp120-induced neuronal damage, reducing the production of ROS, TNF-α and MCP-1 by N9 cells and inhibiting apoptosis of primary rat cortical neurons. Curcumin may exert its biological activities through inhibition of the delayed rectification and transient outward potassium (K+) current, as curcumin effectively reduced HIV-1 gp120-mediated elevation of the delayed rectification and transient outward K+ channel current in neurons. We conclude that HIV-1 gp120 increases ROS, TNF-α and MCP-1 production in microglia, and induces cortical neuron apoptosis by affecting the delayed rectification and transient outward K+ channel current. Curcumin reduces production of ROS and inflammatory mediators in HIV-1-gp120-stimulated microglia, and protects cortical neurons against HIV-1-mediated apoptosis, most likely through inhibition of HIV-1 gp120-induced elevation of the delayed rectification and transient outward K+ current.

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Yanyan Xing

Targeting FLT3 in acute myeloid leukemia using ligand-based chimeric antigen receptor-engineered T cells

Cooperative Interactions of RNA and Thiostrepton Antibiotic with Two Domains of Ribosomal Protein L11

Curcumin Protects Microglia and Primary Rat Cortical Neurons against HIV-1 gp120-Mediated Inflammation and Apoptosis

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