Tzu-Min Lin scite author profile

Macrophages have a pivotal role in chronic inflammatory diseases (CIDs), so imaging and controlling activated macrophage is critical for detecting and reducing chronic inflammation. In this study, photodynamic selenium nanoparticles (SeNPs) with photosensitive and macrophage-targeting bilayers were developed. The first layer of the photosensitive macromolecule was composed of a conjugate of a photosensitizer (rose bengal, RB) and a thiolated chitosan (chitosan-glutathione), resulting in a plasmonic coupling-induced red shift and broadening of RB absorption bands with increased absorption intensity. Electron paramagnetic resonance (EPR) and diphenylanthracene (DPA) quenching studies revealed that the SeNPs that were coated with the photosensitive layer were more effective than RB alone in producing singlet oxygen (O) under photoirradiation. The second layer of the activated macrophage-targetable macromolecule was synthesized by conjugation of hyaluronic acid with folic acid using an ethylenediamine linker. Proinflammatory-activated macrophages rapidly internalized the SeNPs that were covered with the targeting ligand, exhibiting a much stronger fluorescence signal of the SeNPs than did the nonactivated macrophages. Since proinflammatory-activated macrophage was known to generate a substantial amount of HO while the inflamed site generally caused inflammation-associated tissue hypoxia, the SeNPs were further modified with O self-sufficient function for photodynamic therapy. Catalase was immobilized on the SeNPs by the formation of disulfide bonds. Intracellular reduction of disulfide bonds induced the subsequent release of catalase, which catalyzed the decomposition of HO. The HO-depleting and O-generating photodynamic SeNPs efficiently killed activated macrophages and quenched the intracellular HO and NO that are associated with inflammation. The SeNPs may have potential as a theranostic nanomaterial to image and control the activation of macrophages.

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Lipopolysaccharide-promoted proliferation of Caco-2 cells is mediated by c-Src induction and ERK activation

Lin¹,

Fan²,

Maa³

et al. 2015

BioMed

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As a major component of the cell wall of Gram-negative bacteria, lipopolysaccharide (LPS) can be released into the bloodstream to cause a spectrum of pathophysiological reactions. Despite the fact that colon epithelium cells in situ are continuously exposed to LPS, their biological responses as provoked by LPS as well as the underlying mechanisms are poorly defined. In the present study, we observed that LPS directly stimulated growth of Caco-2 cells as well as enhanced the amounts of c-Src, which could be partly attributable to increased c-src transcript. Parallel to LPS-induced c-Src expression was FAK activation and ERK activation. Remarkably, activation of ERK and cellular proliferation by LPS could be inhibited by PP2, the specific Src inhibitor, implicating the essential role of c-Src in this process. To our knowledge, this is the first report indicating that LPS can increase cellular growth via upregulation of c-Src in colon epithelial cells.

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Multifunctions of Excited Gold Nanoparticles Decorated Artificial Kidney with Efficient Hemodialysis and Therapeutic Potential

Chen

Cheng

Lin

et al. 2016

ACS Appl. Mater. Interfaces

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Chronic kidney disease (CKD) is inflammation-related. Patients with chronic renal failure who undergo hemodialysis (HD) have some acute adverse effects caused by dialysis-induced oxidative stress, protein adsorption, platelet adhesion, and activation of coagulation and inflammation. Here, resonantly illuminated gold nanoparticles-modified artificial kidney (AuNPs@AK) for achieving high efficiency accompanying therapeutic strategy for CKD during HD is proposed. The efficiency in removing uremic toxins increased obviously, especially in the presence of protein (closer to the real blood). The excited AuNPs@AK expressed negatively charged surface reduced some acute adverse effects caused by dialysis-induced protein adsorption, platelet adhesion, and activation of coagulation, thus avoiding thrombosis during HD. Unlike to traditional HD which provides only one function of removing uremic toxins, the solution collected from the outlet of the sample channel of excited AuNPs@AK showed an efficient free radical scavenger that could decrease dialysis-induced oxidative stress. In the CKD mouse model, this antioxidative solution from excited AuNPs@AK further decreased fibronectin expression and attenuated renal fibrosis, suggesting a reduced inflammatory response. These successful in vitro and in vivo approaches suggest that resonantly illuminated AuNPs@AK in HD take multiadvantages in shortening treatment time and reducing risk of adverse effects, which promise trailblazing therapeutic strategies for CKD.

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Human lactoferrin exerts bi-directional actions on PC12 cell survival via ERK1/2 pathway

Lin

Chiou

Chen

et al. 2005

Biochemical and Biophysical Research Communications

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Tzu-Min Lin

Resveratrol enhances the therapeutic effect of temozolomide against malignant glioma in vitro and in vivo by inhibiting autophagy

H₂O₂-Depleting and O₂-Generating Selenium Nanoparticles for Fluorescence Imaging and Photodynamic Treatment of Proinflammatory-Activated Macrophages

Lipopolysaccharide-promoted proliferation of Caco-2 cells is mediated by c-Src induction and ERK activation

Multifunctions of Excited Gold Nanoparticles Decorated Artificial Kidney with Efficient Hemodialysis and Therapeutic Potential

Human lactoferrin exerts bi-directional actions on PC12 cell survival via ERK1/2 pathway

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Tzu-Min Lin

Resveratrol enhances the therapeutic effect of temozolomide against malignant glioma in vitro and in vivo by inhibiting autophagy

H2O2-Depleting and O2-Generating Selenium Nanoparticles for Fluorescence Imaging and Photodynamic Treatment of Proinflammatory-Activated Macrophages

Lipopolysaccharide-promoted proliferation of Caco-2 cells is mediated by c-Src induction and ERK activation

Multifunctions of Excited Gold Nanoparticles Decorated Artificial Kidney with Efficient Hemodialysis and Therapeutic Potential

Human lactoferrin exerts bi-directional actions on PC12 cell survival via ERK1/2 pathway

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Product

Resources

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H₂O₂-Depleting and O₂-Generating Selenium Nanoparticles for Fluorescence Imaging and Photodynamic Treatment of Proinflammatory-Activated Macrophages