Xunbin Wei scite author profile

We describe a new method for selective cell targeting based on the use of light-absorbing microparticles and nanoparticles that are heated by short laser pulses to create highly localized cell damage. The method is closely related to chromophore-assisted laser inactivation and photodynamic therapy, but is driven solely by light absorption, without the need for photochemical intermediates (particularly singlet oxygen). The mechanism of light-particle interaction was investigated by nanosecond time-resolved microscopy and by thermal modeling. The extent of light-induced damage was investigated by cell lethality, by cell membrane permeability, and by protein inactivation. Strong particle size dependence was found for these interactions. A technique based on light to target endogenous particles is already being exploited to treat pigmented cells in dermatology and ophthalmology. With exogenous particles, phamacokinetics and biodistribution studies are needed before the method can be evaluated against photodynamic therapy for cancer treatment. However, particles are unique, unlike photosensitizers, in that they can remain stable and inert in cells for extended periods. Thus they may be particularly useful for prelabeling cells in engineered tissue before implantation. Subsequent irradiation with laser pulses will allow control of the implanted cells (inactivation or modulation) in a noninvasive manner.

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Single cell analysis of PKC activation during proliferation and apoptosis induced by laser irradiation

Gao

Chen

Xing

et al. 2005

Journal Cellular Physiology

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Laser irradiation has been shown to trigger cellular proliferation and apoptosis in various cell types. Studying the signaling pathways involved in the laser irradiation is important for understanding these processes. In present study, to monitor the protein kinase Cs (PKCs) activity in living cells in real time, we transfected and screened human lung adenocarcinoma cells (ASTC-a-1) stably expressing C kinase activity reporter (CKAR) constructed based on fluorescence resonance energy transfer (FRET) technique. The CKAR is a specific, reversible reporter of phosphorylation by PKCs and it can monitor the ongoing balance between PKCs and phosphatases. The increasing dynamics of PKCs activity is monitored during cell proliferation induced by low-power laser irradiation (LPLI) (0.8 J/cm2) in serum-starved ASTC-a-1 cells stably expressing CKAR reporter using FRET imaging on laser scanning confocal microscope and using spectrofluorometric analysis on a luminescence spectrometer, respectively. However, the decreasing dynamics of PKCs activity has been monitored in real time using FRET imaging for the cells treated with high fluence LPLI (60 J/cm2), which was previously found to induce cell apoptosis. Taken together, LPLI induces the ASTC-a-1 cell proliferation by specifically activating PKCs. However, PKCs activity decreases during cell apoptosis induced by high fluence LPLI. Our results indicate that PKCs play an important role in the laser irradiation-induced biological effects.

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Phototherapy of Neurodegenerative Diseases: Mechanism, Application, and Prospect

Wei¹,

Zhou²,

Tao³

et al. 2020

Chinese Journal of Engineering Science

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Neurodegenerative diseases are a heterogeneous group of irreversible illnesses caused by the progressive loss of neuronal structure or function, leading to cognitive and movement disorders, without safe and effective treatments. Exploring the application potential of non-invasive physical therapy for neurodegenerative diseases is of great significance for disease remission and effective control. Phototherapy is a method that uses the interaction of light and tissue to treat diseases and promote the rehabilitation of the body through photochemical or photophysical reactions, with precise and minimally invasive features. Low-light therapy is a type of non-invasive phototherapy that is used in promoting wound healing, pain relief, inflammation regression, and tissue regeneration. Clinical studies have also confirmed that low-light therapy can effectively improve the pathological symptoms of patients with neurodegenerative diseases. Thus, as a non-invasive physical therapy, low-light therapy provides a promising new direction for the 2020-03-25； 2020-04-28

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Advanced flow cytometry for biomedical applications

Pang

Dong

Zhu

et al. 2023

Journal of Biophotonics

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Flow cytometry (FC) is a versatile tool with excellent capabilities to detect and measure multiple characteristics of a population of cells or particles. Notable advancements in in vivo photoacoustic FC, coherent Raman FC, microfluidic FC, and so on, have been achieved in the last two decades, which endows FC with new functions and expands its applications in basic research and clinical practice. Advanced FC broadens the tools available to researchers to conduct research involving cancer detection, microbiology (COVID‐19, HIV, bacteria, etc.), and nucleic acid analysis. This review presents an overall picture of advanced flow cytometers and provides not only a clear understanding of their mechanisms but also new insights into their practical applications. We identify the latest trends in this area and aim to raise awareness of advanced techniques of FC. We hope this review expands the applications of FC and accelerates its clinical translation.

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Mechanism of Perillyl Alcohol Induced Immunosuppression: Ras Inhibitors as a New Class of Immunosuppressive Agents.

Si¹,

Imagawa²,

Wei³

et al. 2000

Transplantation

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A phase change material packaged multifunctional nanoplatform integrating hydrogen peroxide self-supply and photothermal response for boosting synergistic chemodynamic and photothermal therapy

Pang¹,

Pidamaimaiti²,

Zhu³

et al. 2023

New J. Chem.

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Xunbin Wei

Selective Cell Targeting with Light-Absorbing Microparticles and Nanoparticles

Single cell analysis of PKC activation during proliferation and apoptosis induced by laser irradiation

Phototherapy of Neurodegenerative Diseases: Mechanism, Application, and Prospect

Advanced flow cytometry for biomedical applications

Mechanism of Perillyl Alcohol Induced Immunosuppression: Ras Inhibitors as a New Class of Immunosuppressive Agents.

A phase change material packaged multifunctional nanoplatform integrating hydrogen peroxide self-supply and photothermal response for boosting synergistic chemodynamic and photothermal therapy

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