Luoping Zhai scite author profile

Luoping Zhai

3Publications

40Citation Statements Received

111Citation Statements Given

How they've been cited

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110

Affiliations

Active Medicine (United Kingdom), Peking University

Publications

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^99mTc-HisoDGR as a Potential SPECT Probe for Orthotopic Glioma Detection via Targeting of Integrin α₅β₁

et al. 2016

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Integrins, a large family of cell adhesion receptors, have been shown to play an important role for glioma proliferation and invasion. Several integrin receptors, including αvβ3, αvβ5, and α5β1, have generated clinical interest for glioma diagnosis and antitumor therapy. Integrin α5β1 has been highlighted as a prognostic and diagnostic marker in glioma, and its expression is correlated with a worse prognosis in high-grade glioma. However, unlike extensively studied integrins αvβ3 and αvβ5, very few integrin α5β1-specific radiotracers have been reported. Developing α5β1-specific radiotracers may provide alternative diagnosis and evaluation options in addition to well-studied αvβ3/αvβ5-specific tracers, and they may add new documents for profiling tumor progression. Here, a novel integrin α5β1-specific probe (99m)Tc-HisoDGR was fabricated for SPECT (single-photon emission computed tomography) imaging of glioma. To confirm its selective targeting of integrin α5β1 in vivo, the mouse models of α5β1-positive U87MG human glioma were subjected to SPECT/CT scans, and biodistribution experiments and blocking studies were performed. Small-animal SPECT/CT imaging experiments demonstrated that the tumors were clearly visualized in both subcutaneous and orthotopic glioma tumor models with clear background at 0.5, 1, and 2 h p.i. The tumor accumulation of (99m)Tc-HisoDGR showed significant reduction when excess cold isoDGR peptide was coinjected, suggesting that the tumor uptake was specifically mediated. Our work revealed that (99m)Tc-HisoDGR represented a powerful molecular probe for integrin α5β1-positive cancer imaging; moreover, it might be a promising tool for evaluating malignancy, predicting prognosis, selecting subpopulations of patients who might be sensitive to integrin α5β1-targeted drugs, and assessing and monitoring the response to integrin α5β1-targeted drugs in clinical trials.

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A Dual pH-Responsive DOX-Encapsulated Liposome Combined with Glucose Administration Enhanced Therapeutic Efficacy of Chemotherapy for Cancer

Zhai¹,

Luo²,

Gao³

et al. 2021

IJN

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Background:The acidic microenvironment of cancer can promote tumor metastasis and drug resistance. Acidic tumor microenvironment-targeted therapy is currently an important means for treating tumors, inhibiting metastasis, and overcoming drug resistance. In this study, a dual pH-responsive DOX-encapsulated liposome (DOPE-DVar7-lip@DOX) was designed and fabricated for targeting the acidic tumor microenvironment. On the one hand, the response of acid-sensitive peptide (DVar7) to the acidic tumor microenvironment increased the uptake of liposomes in tumors and prolonged the retention time; on the other hand, the response of acid-sensitive phospholipid (DOPE) to the acidic tumor microenvironment improved the controlled release of DOX in tumors. Methods: The acid-sensitive peptide DVar7 modified liposomes can be obtained by simple incubation of DSPE-DVar7 with DOX-loaded DOPE liposomes (DOPE-lip@DOX). The tumor targeting of the dual pH-responsive liposome was investigated in vitro and in vivo by near-infrared fluorescence imaging. The tumor therapeutic efficacy of DOPE-DVar7lip@DOX was evaluated in breast cancer mouse model using the traditional liposome as a control. Moreover, we regulated the tumor microenvironment acidity by injecting glucose to further enhance the therapeutic efficacy of cancer. Results: DVar7 can allosterically insert into the tumor cell membrane in the acidic tumor microenvironment to enhance the tumor uptake of liposomes and prolong the retention time of liposomes in tumor. In addition, the therapeutic efficacy of pH-responsive liposomes can be further enhanced by glucose injection regulating the acidity of tumor microenvironment. Discussion: DVar7 modified acid-sensitive nanocarriers combined with acidity regulation have great potential to improve drug resistance in clinical practice, thus improving the response rate and therapeutic effect of chemotherapy.

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18F-FDG PET/CT Findings in a Patient With Neutrophilic Leukemoid Reaction Associated With Multiple Myeloma

Zhai

Geng

et al. 2020

Clin Nucl Med

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18F-FDG PET/CT was performed on a 48-year-old woman with leukocytosis (white blood cell count 57.10 × 109/L, 84.0% neutrophils) and monoclonal gammopathy to investigate the possibility of reactive neutrophilia secondary to plasmacytoma. On the background of skeletal “superscan,” the maximum intensity projection image of PET demonstrated the highest metabolic region in the left sacrum, which was confirmed as an osteolytic lesion by CT. Biopsy of the sacral lesion revealed a plasma cell myeloma, indicating the diagnosis of neutrophilic leukemoid reaction associated with multiple myeloma. The white blood cell counts dramatically dropped to the normal level after 1 cycle of chemotherapy for multiple myeloma.

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Luoping Zhai

^99mTc-HisoDGR as a Potential SPECT Probe for Orthotopic Glioma Detection via Targeting of Integrin α₅β₁

A Dual pH-Responsive DOX-Encapsulated Liposome Combined with Glucose Administration Enhanced Therapeutic Efficacy of Chemotherapy for Cancer

18F-FDG PET/CT Findings in a Patient With Neutrophilic Leukemoid Reaction Associated With Multiple Myeloma

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Luoping Zhai

99mTc-HisoDGR as a Potential SPECT Probe for Orthotopic Glioma Detection via Targeting of Integrin α5β1

A Dual pH-Responsive DOX-Encapsulated Liposome Combined with Glucose Administration Enhanced Therapeutic Efficacy of Chemotherapy for Cancer

18F-FDG PET/CT Findings in a Patient With Neutrophilic Leukemoid Reaction Associated With Multiple Myeloma

Contact Info

Product

Resources

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^99mTc-HisoDGR as a Potential SPECT Probe for Orthotopic Glioma Detection via Targeting of Integrin α₅β₁