In San Kim scite author profile

To identify biomarker candidates associated with early IgA nephropathy (IgAN) and thin basement membrane nephropathy (TBMN), the most common causes presenting isolated hematuria in childhood, a proteomic approach of urinary exosomes from early IgAN and TBMN patients was introduced. The proteomic results from the patients were compared with a normal group to understand the pathophysiological processes associated with these diseases at the protein level. The urinary exosomes, which reflect pathophysiological processes, collected from three groups of young adults (early IgAN, TBMN, and normal) were trypsin-digested using a gel-assisted protocol, and quantified by label-free LC-MS/MS, using an MS(E) mode. A total of 1877 urinary exosome proteins, including cytoplasmic, membrane, and vesicle trafficking proteins, were identified. Among the differentially expressed proteins, four proteins (aminopeptidase N, vasorin precursor, α-1-antitrypsin, and ceruloplasmin) were selected as biomarker candidates to differentiate early IgAN from TBMN. We confirmed the protein levels of the four biomarker candidates by semi-quantitative immunoblot analysis in urinary exosomes independently prepared from other patients, including older adult groups. Further clinical studies are needed to investigate the diagnostic and prognostic value of these urinary markers for early IgAN and TBMN. Taken together, this study showed the possibility of identifying biomarker candidates for human urinary diseases using urinary exosomes and might help to understand the pathophysiology of early IgAN and TBMN at the protein level.

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Tumor targetability and antitumor effect of docetaxel-loaded hydrophobically modified glycol chitosan nanoparticles

Hwang

Kim

Kwon

et al. 2008

Journal of Controlled Release

237

152

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Effect of polymer molecular weight on the tumor targeting characteristics of self-assembled glycol chitosan nanoparticles

Park

Kim

Nam

et al. 2007

Journal of Controlled Release

238

142

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Transforming Growth Factor β–induced Protein Promotes Severe Vascular Inflammatory Responses

Bae

Lee

Nam

et al. 2014

Am J Respir Crit Care Med

104

111

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Stabilin-2 modulates the efficiency of myoblast fusion during myogenic differentiation and muscle regeneration

Park¹,

Yun²,

Lim³

et al. 2016

Nat Commun

109

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Myoblast fusion is essential for the formation of skeletal muscle myofibres. Studies have shown that phosphatidylserine is necessary for myoblast fusion, but the underlying mechanism is not known. Here we show that the phosphatidylserine receptor stabilin-2 acts as a membrane protein for myoblast fusion during myogenic differentiation and muscle regeneration. Stabilin-2 expression is induced during myogenic differentiation, and is regulated by calcineurin/NFAT signalling in myoblasts. Forced expression of stabilin-2 in myoblasts is associated with increased myotube formation, whereas deficiency of stabilin-2 results in the formation of small, thin myotubes. Stab2-deficient mice have myofibres with small cross-sectional area and few myonuclei and impaired muscle regeneration after injury. Importantly, myoblasts lacking stabilin-2 have reduced phosphatidylserine-dependent fusion. Collectively, our results show that stabilin-2 contributes to phosphatidylserine-dependent myoblast fusion and provide new insights into the molecular mechanism by which phosphatidylserine mediates myoblast fusion during muscle growth and regeneration.

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βig-h3 supports keratinocyte adhesion, migration, and proliferation through α3β1 integrin

Bae

Lee

Kim

et al. 2002

Biochemical and Biophysical Research Communications

129

112

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Requirement of Adaptor Protein GULP during Stabilin-2-mediated Cell Corpse Engulfment

Park

Kang

Thapa

et al. 2008

Journal of Biological Chemistry

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The prompt clearance of cells undergoing apoptosis is critical during embryonic development and normal tissue turnover, as well as during inflammation and autoimmune responses. We recently demonstrated that stabilin-2 is a phosphatidylserine receptor that mediates the clearance of apoptotic cells, thereby releasing the anti-inflammatory cytokine, transforming growth factor-␤. However, the downstream signaling components of stabilin-2-mediated phagocytosis are not known. Here, we provide evidence that the adaptor protein, GULP, physically and functionally interacts with the stabilin-2 cytoplasmic tail. Using fluorescent resonance energy transfer analysis and biochemical approaches, we show that GULP directly binds to the cytoplasmic tail of stabilin-2. Knockdown of endogenous GULP expression significantly decreased stabilin-2-mediated phagocytosis. Conversely, overexpression of GULP caused an increase in aged cell engulfment. The phosphotyrosine binding (PTB) domain of GULP was sufficient for the interaction with stabilin-2; therefore, transduction of TAT fusion PTB domain acts as a dominant negative, resulting in impaired engulfment of aged red blood cells in stabilin-2 expressing cells. In addition, the PTB domain of GULP was able to specifically interact with the NPXY motif of the stabilin-2 cytoplasmic tail. Taken together, these results indicate that GULP is a likely downstream molecule in the stabilin-2-mediated signaling pathway and plays an important role in stabilin-2-mediated phagocytosis.

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In San Kim

TGFBIp/βig-h3 protein: A versatile matrix molecule induced by TGF-β

Proteomic analysis of urinary exosomes from patients of early IgA nephropathy and thin basement membrane nephropathy

Tumor targetability and antitumor effect of docetaxel-loaded hydrophobically modified glycol chitosan nanoparticles

Effect of polymer molecular weight on the tumor targeting characteristics of self-assembled glycol chitosan nanoparticles

Transforming Growth Factor β–induced Protein Promotes Severe Vascular Inflammatory Responses

Stabilin-2 modulates the efficiency of myoblast fusion during myogenic differentiation and muscle regeneration

βig-h3 supports keratinocyte adhesion, migration, and proliferation through α3β1 integrin

Requirement of Adaptor Protein GULP during Stabilin-2-mediated Cell Corpse Engulfment

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