Trinette Chuang scite author profile

Vesicular nucleotide transporter (VNUT) is required for active accumulation of adenosine tri-phosphate (ATP) into vesicles for purinergic neurotransmission, however, the cell types that express VNUT in the central nervous system remain unknown. This study characterized VNUT expression within the mammalian retina and brain and assessed a possible functional role in purinergic signaling. Two native isoforms of VNUT were detected in mouse retina and brain based on RNA transcript and protein analysis. Using immunohistochemistry, VNUT was found to co-localize with tyrosine hydroxylase (TH) positive, dopaminergic (DA) neurons of the substantia nigra and ventral tegmental area, however, VNUT expression in extranigral non-DA neurons was also observed. In the retina, VNUT labeling was found to co-localize solely with TH-positive DA-cells. In the outer retina, VNUT-positive interplexiform cell processes were in close contact with horizontal cells and cone photoreceptor terminals, which are known to express P2 purinergic-receptors. In order to assess function, dissociated retinal neurons were loaded with fluorescent ATP markers (Quinacrine or Mant-ATP) and the DA marker FFN102, co-labeled with a VNUT antibody and imaged in real time. Fluorescent ATP markers and FFN102 puncta were found to co-localize in VNUT positive neurons and upon stimulation with high potassium, ATP marker fluorescence at the cell membrane was reduced. This response was blocked in the presence of cadmium. These data suggest DA neurons co-release ATP via calcium dependent exocytosis and in the retina this may modulate the visual response by activating purine receptors on closely associated neurons.

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Characterization of a rabbit polyclonal antibody against threonine-AMPylation

Hao

Chuang²,

Ball³

et al. 2011

Journal of Biotechnology

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An antibody against the posttranslational modification AMPylation was produced using a peptide corresponding to human Rac1 switch I region with AMPylated threonine-35 residue as an antigen. The resulting rabbit antiserum was tested for its abilities to recognize AMPylated proteins by western blot and immunoprecipitation. The antiserum is highly specific for threonine-AMPylated proteins and weakly recognizes tyrosine-AMPylated proteins. Depletion of serum with modified protein abolished its activity against tyrosine-AMPylated proteins. The antiserum also recognized native proteins with modification in an immunoprecipitation experiment. Interactions of the antiserum could be inhibited by competition with AMP but not with GMP or UMP. This antiserum had potential utility for the identification of unknown AMPylated proteins.

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Identification of a Nuclear Targeting Domain in the Insertion between Helices C and D in Protease Inhibitor-10

Chuang

Schleef

1999

Journal of Biological Chemistry

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Expression of Bomapin, a Novel Human Serpin, in Normal/Malignant Hematopoiesis and in the Monocytic Cell Lines THP-1 and AML-193

Riewald

Chuang

Neubauer

et al. 1998

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Our group recently cloned the cDNA-encoding bomapin, a member of the serine protease inhibitor (serpin) superfamily, from a human bone marrow cDNA library (J Biol Chem 270:2675, 1995). To understand its expression within the hematopoietic compartment, RNA extracted from bone marrow or peripheral blood from normal donors and patients with leukemia was reverse transcribed and analyzed by polymerase chain reaction (PCR). Bomapin PCR products were readily detected in normal bone marrow, which was designated as a medium mRNA level. In peripheral blood, bomapin expression was low or undetectable in normal donors (n = 6) and patients with chronic lymphocytic leukemia (n = 6). Blood from patients with chronic myeloid leukemia (n = 6), chronic myelomonocytic leukemia (n = 6), acute myeloid leukemia (n = 5), and acute lymphocytic leukemia (n = 5) exhibited low to medium levels of bomapin expression. Furthermore, a high level of bomapin expression was detected in one individual with acute monocytic leukemia. These data suggest that bomapin expression may be elevated in hematopoietic cells of monocytic lineage. Therefore, we analyzed the expression of bomapin within cell lines that exhibited characteristics of the monocytic lineage. Bomapin PCR products were detected in the monocytic THP-1 and AML-193 cell lines but not in CRL 7607, CRL 7541, KG-1, or K562 cells. Induction of bomapin transcripts was not detected in the latter series of cell lines following a 24-hour treatment with phorbol myristate acetate (PMA, 10−8mol/L) or tumor necrosis factor-α (TNF-α, 30 U/mL), whereas treatment of THP-1 or AML-193 cells with these agents reduced the intensity of the bomapin PCR products. Northern blotting confirmed these results and showed that the expression of bomapin in THP-1 cells was downregulated over a 4-day period by PMA and, to a lesser extent, TNF-α. Immunoblotting was used to show the presence of a 40-kD protein in THP-1 cytosol preparations. Bomapin antigen levels were correspondingly reduced after treatment with PMA. Because PMA and TNF-α induce monocytic differentiation in THP-1 and AML-193 cells, these data increase the possibility that bomapin may play a role in the regulation of protease activities specifically in early stages of cellular differentiation.

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Trinette Chuang

Vesicular expression and release of ATP from dopaminergic neurons of the mouse retina and midbrain

Characterization of a rabbit polyclonal antibody against threonine-AMPylation

Identification of a Nuclear Targeting Domain in the Insertion between Helices C and D in Protease Inhibitor-10

Expression of Bomapin, a Novel Human Serpin, in Normal/Malignant Hematopoiesis and in the Monocytic Cell Lines THP-1 and AML-193

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