Yungping Chiang scite author profile

Annexin II is a calcium and phospholipid binding protein and a substrate for protein-tyrosine kinases. Recent investigations have revealed involvement of annexin II in DNA synthesis and cell proliferation. Increased levels of annexin II are observed in cancer cells and tissues. To investigate the expression of annexin II in pancreatic adenocarcinoma cells and primary tumors, we measured the levels of annexin II mRNA and protein in normal human pancreas, five established human pancreatic adenocarcinoma cell lines, three primary pancreatic cancers and one metastatic tumor. All five cell lines examined had 5- to 15-fold higher levels of annexin II as compared to normal pancreas. Significant elevations (2- to 8-fold) of annexin II expression were observed in the three primary pancreatic tumors and one metastatic tumor examined. Immunocytochemical analysis indicates that the increased expression of annexin II is limited to proliferating ductular adenocarcinoma, and annexin II expression co-localizes with cells that express PCNA. In normal pancreas, annexin II expression is seen in ductal and ductular cells and no expression is seen in acinar or islet cells. We conclude from these findings that annexin II has a role in cell proliferation and its regulation is altered in pancreatic cancer.

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Chiang

Rizzino

Sibenaller

et al. 1999

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The protein-tyrosine kinase substrate annexin II is a growth regulated gene whose expression is increased in several human cancers. While the precise function of this protein is not understood, annexin II is proposed to be involved in multiple physiological activities, including DNA synthesis and cell proliferation. Targeted disruption of the annexin II gene affects calcium signaling, tyrosine phosphorylation and apoptosis, indicating the important physiological role of this protein. We used a transient co-transfection assay to regulate annexin II expression in human HeLa, 293 and 293T cells, and measured the effects of annexin II down regulation on DNA synthesis and proliferation. Transfection of cells with an antisense annexin II vector results in inhibition of cell division and proliferation, with concomitant reduction in annexin II message and protein levels. Cellular DNA synthesis is significantly reduced in antisense transfected cells. Replication extracts made from antisense transfected cells have significantly reduced efficiency to support SV40 in vitro DNA replication, while the extracts made from sense transfected cells are fully capable of replication. Our results indicate an important role of annexin II in cellular DNA synthesis and cell proliferation.

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Altered expression of annexin II in human B-cell lymphoma cell lines

Chiang

Davis

Vishwanatha

1996

Biochimica et Biophysica Acta (BBA) - Molecular Cell Research

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Annexin II is a growth-regulated gene, whose expression is significantly increased in various human cancers. We examined annexin II expression in II human B-cell lymphoma cell lines and in normal B-cells. Wide variation was observed in the levels of annexin II in these cell lines. Annexin II overexpression was observed in 5 cell lines, while significantly reduced expression was observed in Raji, OMA-BL-1 and REH cell lines. Analysis of the annexin II gene, mRNA and protein in Raji and OMA-BL-1 cell lines indicated that annexin II gene was unaltered and that a low level of annexin II transcripts are produced in these cells. Down-regulation of annexin II expression was at the transcriptional level, and no reexpression of annexin II was observed after treatment of cells with demethylating agents. Thus methylation of the annexin II gene does not appear to be responsible for annexin II down-regulation. A slow migrating altered form of annexin II was detected in Raji and OMA-BL-1 cells, which was detected with the anti-chicken annexin II antiserum, but not with the anti-human annexin II antiserum. The slow migrating annexin II species was found to be sensitive to dephosphorylation by calf intestinal alkaline phosphatase, resulting in reduction of the size of the protein on SDS-polyacrylamide gels. The phosphorylated annexin II was also observed in nuclear extracts of human K562 and HeLa cells. Thus, Raji and OMA-BL-1 cells exclusively produce a phosphorylated form of annexin II, and phosphorylated annexin II may be important for cell survival and proliferation.

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Characterization of the HeLa Cell 35 kDa Alu-element binding protein

Chiang

Vishwanatha

1996

Mol Cell Biochem

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Human Alu-elements are short interspersed DNA sequences that comprise approximately 5% of the human genome. The physiological role of Alu-elements are unknown, although they are proposed to be involved in DNA replication, transcriptional regulation and nuclear transport of signal recognition particle RNA. Proteins that bind to Alu-element and Alu RNA have been identified in human cells. In HeLa cells, two proteins of 120 kDa and 35 kDa specifically bind to Alu-elements. We find that the 35 kDa protein is localized exclusively to the nucleus, while the 120 kDa protein is distributed between nucleus and cytoplasm. The 35 kDa protein is regulated by phosphorylation. Upon dephosphorylation, its DNA binding activity is significantly enhanced. Contrary to the recent identification of the smaller Alu-element binding protein as annexin II, we find that annexin II is not an Alu-element binding protein. Using a variety of techniques, we demonstrate that the 35 kDa Alu-element binding protein is distinct from annexin II.

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Yungping Chiang

Enhanced expression of annexin II in human pancreatic carcinoma cells and primary pancreatic cancers

Untitled

Altered expression of annexin II in human B-cell lymphoma cell lines

Characterization of the HeLa Cell 35 kDa Alu-element binding protein

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