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1.
J Neurooncol ; 121(1): 73-81, 2015 Jan.
Article in English | MEDLINE | ID: mdl-25193023

ABSTRACT

Romo1 is a mitochondrial protein whose elevated expression is commonly observed in various types of human cancers. However, the expression status of Romo1 and its implication in the pathogenesis of human glioblastoma (GBM) remain largely undefined. To understand the role of Romo1 in the progression of GBM, we explored its expression in a series of GBM tissues and cell lines and determined its effect on ROS production, cell proliferation, and tumor growth. Romo1 was frequently overexpressed at the mRNA level in both primary tumors and cell lines and its elevation was more commonly observed in high grade tumors versus low grade tumors. Romo1 expression was associated with ROS production and its knockdown led to a marked reduction of in vitro cellular growth and anchorage-independent growth of GBM. Consistently, Romo1 depletion induced a G2/M arrest of the cell cycle that was accompanied with accumulation of phospho-cdc2. Furthermore, a mouse xenograft assay revealed that Romo1 depletion significantly decreased tumor formation and growth. Therefore, our data demonstrate that Romo1 upregulation is a common event in human GBMs and contributes to the malignant tumor progression, suggesting that Romo1 could be a new therapeutic target for human GBM.


Subject(s)
Brain Neoplasms/physiopathology , Cell Proliferation/physiology , Glioma/physiopathology , Membrane Proteins/metabolism , Mitochondrial Proteins/metabolism , Reactive Oxygen Species/metabolism , Animals , Brain/pathology , Brain/physiopathology , Brain Neoplasms/pathology , Carcinogenesis/metabolism , Cell Cycle/physiology , Cell Line, Tumor , Gene Knockdown Techniques , Glioma/pathology , Humans , Membrane Proteins/genetics , Mice , Mitochondrial Proteins/genetics , Neoplasm Grading , Neoplasm Transplantation , RNA, Messenger/metabolism
2.
J Neurooncol ; 121(1): 31-9, 2015 Jan.
Article in English | MEDLINE | ID: mdl-25182604

ABSTRACT

Astrocyte elevated gene-1 (AEG-1) has recently been proposed to be involved in tumor development, invasion, and metastasis in several human cancers. However, the functional importance of AEG-1 expression in human meningioma has not been determined. We investigate the level of AEG-1 expression by quantitative reverse transcription PCR, immunohistochemistry analysis, and western blotting in various human meningioma tissues and cells. To determine the suppressive effect of AEG-1 on meningioma progression, we inhibited AEG-1 expression using small interfering RNA and examined cell proliferation, apoptosis, colony formation and tumorigenicity in a mouse xenograft model. AEG-1 expression was frequently elevated at both mRNA and protein levels in meningioma tumor tissues and in meningioma-derived cells as well. This elevation was more commonly observed in high-grade tumors than in benign ones. The knockdown of AEG-1 led to a decrease in overall cell proliferation, as well as anchorage-independent growth of malignant meningioma. In addition, apoptotic cell death occurred in AEG-1 depleted meningioma cells through p-Akt and Bcl-2 suppression. Furthermore, a mouse xenograft meningioma model showed that inhibition of AEG-1 expression significantly decreased tumor growth. Altogether, these data show that the elevation of AEG-1 contributes to the malignant progression of meningiomas, suggesting that AEG-1 could be a novel therapeutic target against human meningiomas.


Subject(s)
Cell Adhesion Molecules/metabolism , Cell Proliferation/physiology , Cell Survival/physiology , Meningioma/physiopathology , Animals , Apoptosis/physiology , Carcinogenesis , Cell Adhesion Molecules/antagonists & inhibitors , Cell Line, Tumor , Humans , Membrane Proteins , Meningioma/pathology , Mice, Nude , Neoplasm Grading , Neoplasm Transplantation , Phosphorylation , Proto-Oncogene Proteins c-akt/metabolism , Proto-Oncogene Proteins c-bcl-2/metabolism , RNA, Messenger/metabolism , RNA-Binding Proteins
3.
N Biotechnol ; 28(6): 698-704, 2011 Oct.
Article in English | MEDLINE | ID: mdl-21539946

ABSTRACT

The expression and function of DcHsp17.7, a small heat shock protein in carrot (Daucus carota L.), were examined under salt stress, which is an exacerbating environmental condition due to water shortage and irrigation. DcHsp17.7 was constitutively expressed in leaf and stem tissues under normal growth conditions. Upon exposure to 300 mM NaCl, the protein level of DcHsp17.7 increased dramatically in leaf tissue, but did not significantly change in stem tissue. Native-PAGE analysis showed tissue-specific oligomer formation. Under normal growth conditions, DcHsp17.7 was found in an approximately 240 kDa complex in both tissues. However, NaCl treatment induced an additional approximately 160 kDa complex containing DcHsp17.7. This occurred only in leaf tissue, suggesting tissue-specific oligomeric complex formation. To examine the functional mechanism of DcHsp17.7 under stress conditions, the DcHsp17.7 coding gene was introduced into Escherichia coli. Heterologous expression of DcHsp17.7 was induced by isopropyl ß-d-1-thiogalactopyranoside treatment. Upon exposure to salinity, protein levels of DcHsp17.7 decreased, and the protein was not detected after 16 hours. Native-PAGE analysis showed that DcHsp17.7 was present in an approximately 250 kDa complex both before and after salt treatment. Salinity reduced bacterial cell viability; however, the transgenic E. coli expressing DcHsp17.7 exhibited a higher survival rate than control E. coli under salt stress. When the level of soluble proteins was measured under salt stress, transgenic E. coli expressing DcHsp17.7 reproducibly showed slightly higher levels than control cells. This suggests that DcHsp17.7 performs molecular chaperone activity in salt-stressed transgenic E. coli. Our results suggest that DcHsp17.7 is likely to be involved in tolerance not only to thermal stresses but also to other abiotic stresses, such as salinity.


Subject(s)
Daucus carota/metabolism , Gene Expression Regulation, Plant/drug effects , Heat-Shock Proteins/biosynthesis , Plant Proteins/biosynthesis , Recombinant Proteins/biosynthesis , Sodium Chloride/pharmacology , Stress, Physiological/drug effects , Daucus carota/genetics , Drug Resistance, Bacterial/drug effects , Drug Resistance, Bacterial/genetics , Escherichia coli/genetics , Escherichia coli/metabolism , Gene Expression , Gene Expression Regulation, Plant/physiology , Heat-Shock Proteins/genetics , Plant Proteins/genetics , Recombinant Proteins/genetics , Salinity
4.
Article in English | MEDLINE | ID: mdl-21206021

ABSTRACT

Bacterial blight (BB), a devastating disease caused by Xanthomonas oryzae pv. oryzae (Xoo), causes serious production losses of rice in Asian countries. Protein misfolding may interfere with the function of proteins in all living cells and must be prevented to avoid cellular disaster. All cells naturally contain molecular chaperones that assist the unfolded proteins in folding into the native structure. One of the well characterized chaperone complexes is GroEL-GroES. GroEL, which consists of two chambers, captures misfolded proteins and refolds them. GroES is a co-chaperonin protein that assists the GroEL protein as a lid that temporarily closes the chamber during the folding process. Xoo4289, the GroES gene from Xoo, was cloned and expressed for X-ray crystallographic study. The purified protein (XoGroES) was crystallized using the hanging-drop vapour-diffusion method and a crystal diffracted to 2.0 Šresolution. The crystal belonged to the hexagonal space group P6(1), with unit-cell parameters a=64.4, c=36.5 Å. The crystal contains a single molecule in the asymmetric unit, with a corresponding VM of 2.05 Å3 Da(-1) and a solvent content of 39.9%.


Subject(s)
Bacterial Proteins/chemistry , Chaperonin 10/chemistry , Xanthomonas/chemistry , Bacterial Proteins/genetics , Chaperonin 10/genetics , Cloning, Molecular , Crystallization , Crystallography, X-Ray , Humans , Molecular Sequence Data , Xanthomonas/genetics
5.
Article in English | MEDLINE | ID: mdl-19724142

ABSTRACT

Xanthomonas oryzae pv. oryzae (Xoo) causes the serious disease bacterial blight in rice. The pepA (Xoo0834) gene from Xoo is one of around 100 genes that have been selected for the design of antibacterial drugs. The pepA gene encodes leucine aminopeptidase (LAP), an exopeptidase that catalyzes the hydrolysis of leucine residues from the N-terminus of a protein or peptide. This enzyme was expressed in Escherichia coli, purified and crystallized, and preliminary X-ray structural studies have been carried out. The LAP crystal diffracted to 2.6 A resolution and belonged to the cubic space group P2(1)3. The unit-cell volume of the crystal was compatible with the presence of two monomers in the asymmetric unit.


Subject(s)
Genes, Bacterial , Leucyl Aminopeptidase/chemistry , Xanthomonas/enzymology , Xanthomonas/genetics , Amino Acid Sequence , Cloning, Molecular , Crystallization , Crystallography, X-Ray , Electrophoresis, Polyacrylamide Gel , Molecular Sequence Data , Sequence Alignment
6.
Article in English | MEDLINE | ID: mdl-19407376

ABSTRACT

The bacterial beta-ketoacyl-ACP synthase III (KASIII) encoded by the gene fabH (Xoo4209) from Xanthomonas oryzae pv. oryzae, a plant pathogen, is an important enzyme in the elongation steps of fatty-acid biosynthesis. It is expected to be one of the enzymes responsible for bacterial blight (BB), a serious disease that results in huge production losses of rice. As it represents an important target for the development of new antibacterial drugs against BB, determination of the crystal structure of the KAS III enzyme is essential in order to understand its reaction mechanism. In order to analyze the structure and function of KAS III, the fabH (Xoo4209) gene was cloned and the enzyme was expressed and purified. The KASIII crystal diffracted to 2.05 A resolution and belonged to the orthorhombic space group P2(1)2(1)2, with unit-cell parameters a = 69.8, b = 79.5, c = 62.3 A. The unit-cell volume of the crystal is compatible with the presence of a single monomer in the asymmetric unit, with a corresponding Matthews coefficient V(M) of 2.27 A(3) Da(-1) and a solvent content of 45.8%.


Subject(s)
3-Oxoacyl-(Acyl-Carrier-Protein) Synthase/analysis , 3-Oxoacyl-(Acyl-Carrier-Protein) Synthase/chemistry , Crystallization/methods , Crystallography, X-Ray/methods , Gene Expression , Xanthomonas/enzymology , 3-Oxoacyl-(Acyl-Carrier-Protein) Synthase/genetics , 3-Oxoacyl-(Acyl-Carrier-Protein) Synthase/metabolism , Cloning, Molecular , Xanthomonas/genetics
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