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ABSTRACT: ABCA7 is a member of the subfamily A of adenosine triphosphate-binding cassette (ABC) proteins, and highly homologous to ABCA1, which mediates the release of cellular cholesterol and phospholipid to form high-density lipoprotein. ABCA1 and ABCA7 contain two large extracellular domains, ECD1 and 2, which are thought to be important for their functions. Interestingly, part of ECD1 of ABCA7 is deposited as an autoantigen of Sjögren's syndrome. To determine the relationship between ABCA7 and Sjögren's syndrome, an immunohistochemical study was conducted with salivary gland biopsy samples from patients with Sjögren's syndrome. ECD1 of human ABCA7 (amino acids 45-549) was expressed in Escherichia coli as a protein fused with glutathione-S-transferase and a monoclonal antibody, KM3095, was generated. KM3095-immunoreactive cells were observed in salivary glands from 10 of 18 patients with Sjögren's syndrome. Immunostaining of serial sections with the plasma cell marker NCL-PC indicated that most of the plasma cells infiltrating salivary glands of patients with Sjögren's syndrome were KM3095-immunoreactive. Although the pathological or biological significance is not clear, it will be intriguing to further examine the relationship between ABCA7 and Sjögren's syndrome.
Pathology International 11/2005; 55(10):639-43. · 1.62 Impact Factor
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Yuika Ikeda,
Sumiko Abe-Dohmae,
Youichi Munehira, Ryo Aoki,
Shinobu Kawamoto,
Akiko Furuya,
Kenya Shitara,
Teruo Amachi,
Noriyuki Kioka,
Michinori Matsuo,
Shinji Yokoyama,
Kazumitsu Ueda
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ABSTRACT: ABCA7 is expressed predominantly in myelo-lymphatic tissues or reticuloendothelial cells. Physiological role and function of this protein are not fully understood. We isolated the full-length cDNA (type I) and a splicing variant cDNA (type II) of human ABCA7, and developed monoclonal antibodies against extracellular domain (ECD)1 of ABCA7. RT-PCR experiments suggested that human ABCA7 gene produced the type II mRNA in a tissue-specific manner. Immunostaining revealed that the type I ABCA7, expressed in HEK293 cells, was localized to the plasma membrane and ECD1 was exposed to the extracellular space as was the case for ABCA1. HEK293 cells expressing type I ABCA7 showed apoA-I-dependent cholesterol and phospholipid release. In contrast, type II ABCA7 appeared to be localized mainly in endoplasmic reticulum and did not show apoA-I-dependent cholesterol and phospholipid release. Alternative splicing could be involved in the post-transcriptional regulation of the expression and function of human ABCA7.
Biochemical and Biophysical Research Communications 12/2003; 311(2):313-8. · 2.48 Impact Factor
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Arowu R Tanaka,
Sumiko Abe-Dohmae,
Tomohiro Ohnishi, Ryo Aoki,
Gaku Morinaga,
Kei-ichiro Okuhira,
Yuika Ikeda,
Fumi Kano,
Michinori Matsuo,
Noriyuki Kioka,
Teruo Amachi,
Masayuki Murata,
Shinji Yokoyama,
Kazumitsu Ueda
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ABSTRACT: ABCA1 mediates release of cellular cholesterol and phospholipid to form high density lipoprotein (HDL). The three different mutants in the first extracellular domain of human ABCA1 associated with Tangier disease, R587W, W590S, and Q597R, were examined for their subcellular localization and function by using ABCA1-GFP fusion protein stably expressed in HEK293 cells. ABCA1-GFP expressed in HEK293 was fully functional for apoA-I-mediated HDL assembly. Immunostaining and confocal microscopic analyses demonstrated that ABCA1-GFP was mainly localized to the plasma membrane (PM) but also substantially in intracellular compartments. All three mutant ABCA1-GFPs showed no or little apoA-I-mediated HDL assembly. R587W and Q597R were associated with impaired processing of oligosaccharide from high mannose type to complex type and failed to be localized to the PM, whereas W590S did not show such dysfunctions. Vanadate-induced nucleotide trapping was examined to elucidate the mechanism for the dysfunction in the W590S mutant. Photoaffinity labeling of W590S with 8-azido-[alpha-(32)P]ATP was stimulated by adding ortho-vanadate in the presence of Mn(2+) as much as in the presence of wild-type ABCA1. These results suggest that the defect of HDL assembly in R587W and Q597R is due to the impaired localization to the PM, whereas W590S has a functional defect other than the initial ATP binding and hydrolysis.
Journal of Biological Chemistry 04/2003; 278(10):8815-9. · 4.77 Impact Factor
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Tohru Ohama,
Ken-ichi Hirano,
Zhongyan Zhang, Ryo Aoki,
Ken-ichi Tsujii,
Yumiko Nakagawa-Toyama,
Kosuke Tsukamoto,
Chiaki Ikegami,
Akifumi Matsuyama,
Masato Ishigami,
Naohiko Sakai,
Hisatoyo Hiraoka,
Kazumitsu Ueda,
Shizuya Yamashita,
Yuji Matsuzawa
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ABSTRACT: ATP-binding cassette transporter-1 (ABCA1) is a cause of Tangier disease, which is a familial deficiency of plasma high density lipoproteins (HDL). This molecule is known to be expressed in the multiple tissues and organs including small intestines, liver, and macrophages in the blood vessels. Recent in vivo studies suggested that ABCA1 plays some roles in the flux of cholesterol in the intestines. One of the major questions to understand the roles of ABCA1 in the intestines is the expression pattern in the intestinal epithelial cells. To address this issue, we have investigated the expression and regulation of ABCA1 in Caco-2 cells cultured on Transwell as a model, especially focusing on possible polarized expression of ABCA1. The expression of ABCA1 was up-regulated during the differentiation and under the stimulation of LXR/RXR by the addition of 9-cis-retinoic acid (9-cis-RA) and 22-R-hydroxycholesterol (22-OH). Apolipoprotein-AI-mediated cholesterol efflux was dominant toward the basolateral side of polarized cells when stimulated by 9-cis-RA and 22-OH. The cell surface biotinylation experiment followed by Western blot analyses demonstrated a markedly dominant expression of ABCA1 on the basolateral surface, which was clearly confirmed by the confocal laser scanning microscopy. In conclusion, the present study demonstrates that ABCA1 is dominantly expressed on the basolateral surface of Caco-2 cells tested, suggesting that this molecule may play a role in the basolateral movement of cholesterol at least when stimulated by LXR/RXR ligands.
Biochemical and Biophysical Research Communications 09/2002; 296(3):625-30. · 2.48 Impact Factor
