Dong-Il Chung

Purification and characterization of a secretory serine proteinase of Acanthamoeba healyi isolated from GAE

We purified and characterized a serine proteinase secreted by Acanthamoeba healyi to evaluate it as a possible virulence factor in the pathogenesis of granulomatous amoebic encephalitis (GAE). Ammonium sulfate precipitated culture supernatant of A. healyi OC-3A strain was purified by chromatography on CM-Sepharose, Sephacryl-S200, and Q-2 anion-exchange columns. The purified 33-kDa enzyme had a pH optimum of 8.0 and a temperature optimum of 40 C. Phenylmethylsulfonylfluoride and diisopropyl fluorophosphate, serine proteinase inhibitors, diminished activity of the enzyme to near zero. In addition to types I and IV collagen and fibronectin, the main components of the extracellular matrix, other proteins such as fibrinogen, IgG, IgA, albumin, and hemoglobin were also degraded by the enzyme. The broad substrate specificity of this secreted serine proteinase suggests that it may play an important role in pathogenesis of GAE by A. healyi.

Characterization of a Serine Proteinase Mediating Encystation of Acanthamoeba

ABSTRACT Members of the genus Acanthamoeba, amphizoic protozoan parasites, are causative agents of granulomatous amoebic encephalitis and amoebic keratitis. Proteinases play a role in various biologic actions in Acanthamoeba, including host tissue destruction, pathogenesis, and digestion of phagocytosed food. Interestingly, we found that encystation of Acanthamoeba was inhibited by the serine proteinase inhibitor phenylmethanesulfonyl fluoride. In this study, we characterize a serine proteinase that is involved in mediating the encystation of Acanthamoeba. This encystation-mediating serine proteinase (EMSP) is shown to be highly expressed during encystation by real-time PCR and Western blot analysis. Chemically synthesized small interfering RNA against EMSP inhibited the expression of EMSP mRNA and significantly reduced the encystation efficiency of Acanthamoeba. An EMSP-enhanced green fluorescent protein fusion protein localized to vesicle-like structures within the amoeba. Using LysoTracker analysis, these vesicular structures were confirmed to be lysosomes. After incubation of the transfected amoeba in encystment media, small fluorescent vesicle-like structures gathered and formed ball-like structures, which were identified as colocalizing with the autophagosome. Taken together, these results indicate that EMSP plays an important role in the differentiation of Acanthamoeba by promoting autolysis.

Mitochondrial DNA Restriction Fragment Length Polymorphism (RFLP) and 18S Small-Subunit Ribosomal DNA PCR-RFLP Analyses of Acanthamoeba Isolated from Contact Lens Storage Cases of Residents in Southwestern Korea

ABSTRACT We applied ribosomal DNA PCR-restriction fragment length polymorphism (RFLP) and mitochondrial DNA (mtDNA) RFLP analyses to 43 Acanthamoeba environmental isolates (KA/LH1 to KA/LH43) from contact lens storage cases in southwestern Korea. These isolates were compared to American Type Culture Collection strains and clinical isolates (KA/E1 to KA/E12) from patients with keratitis. Seven riboprint patterns were seen. To identify the species of the isolates, a phylogenetic tree was constructed based on the comparison of riboprint patterns with reference strains. Four types accounted for 39 of the isolates belonging to the A. castellanii complex. The most predominant (48.8%) type was A. castellanii KA/LH2 type, which had identical riboprint and mtDNA RFLP patterns to those of A. castellanii Castellani, KA/E3 and KA/E8. The riboprint and mtDNA RFLP patterns of the KA/LH7 (20.9%) type were identical to those of A. castellanii Ma, a corneal isolate from the United States. The riboprint and mtDNA RFLP patterns of the KA/LH1 (18.6%) type were the same as those of A. lugdunensis L3a, KA/E2, and KA/E12. The prevalent pattern for each type of Acanthamoeba in southwestern Korea was very different from that from southeastern Korea and Seoul, Korea. It is noteworthy that 38 (88.4%) out of 43 isolates from contact lens storage cases of the residents in southwestern Korea revealed mtDNA RFLP and riboprint patterns identical to those found for clinical isolates in our area. This indicates that most isolates from contact lens storage cases in the surveyed area are potential keratopathogens. More attention should be paid to the disinfection of contact lens storage cases to prevent possible amoebic keratitis.

Autophagy protein 8 mediating autophagosome in encysting Acanthamoeba

Autophagy is an evolutionally conserved protein degradation pathway in eukaryotes. It plays essential roles during starvation, cellular differentiation, cell death, and aging by eliminating unwanted or unnecessary organelles and recycling the components for reuse. ATG8, a member of a novel ubiquitin-like protein family, is an essential component of the autophagic machinery. The present study identified and characterized autophagy protein 8 in Acanthamoeba castellanii an amphizoic amoeba causing granulomatous amoebic encephalitis and amoebic keratitis in humans. Real-time polymerase chain reaction demonstrated that the A. castellanii Atg8 (AcAtg8) gene encoding a 118 amino acid protein was highly expressed during encystation. Fluorescence microscopic analysis following transient transfection of enhanced green fluorescent protein-AcAtg8 revealed small or large vacuolar fluorescent structures in an encysting amoeba. The Atg8 fluorescent structures on the membrane were identified as autophagosomes by co-localization analysis with LysoTracker. Chemically synthesized small interfering RNA against AcAtg8 reduced the encystation efficiency and inhibited autophagosome formation in Acanthamoeba.

Acanthamoeba castellanii: Gene profile of encystation by ESTs analysis and KOG assignment

The trophozoite of Acanthamoeba transforms into a cyst, the resistant form under harmful environments such as starvation, cold and certain chemicals used in medical treatment. To investigate the factors mediating encystation, ESTs of encystation-induced A. castellanii were analysed and compared to those of trophozoites. Each EST was compared by the predicted proteins from the ESTs, to the cyst and the trophozoite by reciprocal BLAST analysis, KOG assignment, and gene annotation. In addition to the genes previously reported to encystation mediate such as cyst specific protein 21, protein kinase C, proteasome and heat shock protein, several genes like cullin 4, autophage protein 8 and ubiquitin-conjugating enzymes were identified to be related to encystation. Five kinds of proteinase genes were detected in cyst ESTs. The information of the genes expressed during encystation may open the way to further study on differentiation and resistance of cyst-forming pathogenic protozoa.

Autophagy protein 16-mediated autophagy is required for the encystation of Acanthamoeba castellanii.

Autophagy, an evolutionarily conserved protein degradation pathway in eukaryotes, plays essential roles during starvation and cellular differentiation by eliminating unwanted and/or unnecessary cell material including organelles. Autophagy protein 16 (Atg16) is an essential component of the autophagic machinery. The present study identified and characterized an Atg16 homologue (AcAtg16) in Acanthamoeba, an opportunistic pathogen responsible for several distinct diseases in humans. AcAtg16 was highly expressed during encystation and was found to be associated with small or large vesicular structures that partially colocalized with autophagolysosomes. Small interfering RNA against AcAtg16 inhibited autophagosome formation and reduced the encystation efficiency of Acanthamoeba. Moreover, most mitochondria remained undigested in these knockdown cells. Taken together, these results indicate that AcAtg16 is involved in autophagosome formation and plays an essential role in the encystation of Acanthamoeba.

M17 leucine aminopeptidase of the human malaria parasite Plasmodium vivax.

Amino acids derived from hemoglobin are essential to protein synthesis required for growth and development of the Plasmodium vivax malaria parasite. M17 leucine aminopeptidase (LAP) is a cytosolic metallo-exopeptidase that catalyzes the removal of amino acids from the peptide generated in the process of hemoglobin degradation. Inhibitors of the enzyme have shown promise as drugs against Plasmodium infections, implicating aminopeptidases as a novel potential anti-malarial chemotherapy target. In this study, we isolated a cDNA encoding a 68kDa P. vivax LAP (PvLAP). Deduced amino acid sequence of PvLAP exhibited significant sequence homology with LAP from Plasmodium falciparum. Biochemical analysis of the recombinant PvLAP protein produced in Escherichia coli demonstrated preferential substrate specificity for the fluorogenic peptide Leu-7-amido-4-methylcoumarin hydroxide and inhibition by EDTA, 1,10-phenanthroline, and bestatin, which are conserved characteristics of the M17 family of LAP. PvLAP was optimally active at slightly alkaline pH and its activity was dependent on divalent metal ions. Based on the biochemical properties and immunofluorescence localization, PvLAP is concluded to represent a LAP in P. vivax. The enzyme is most likely responsible for the catabolism of host hemoglobin and, hence, represents a potential target of both P. falciparum and P. vivax chemotherapy.

Cysteine protease involving in autophagosomal degradation of mitochondria during encystation of Acanthamoeba

Using the microarray to identify encystation mediating factors, significantly higher expression of a cysteine protease gene was observed in cysts, compared with trophozoites. Results of real-time PCR analysis also showed a magnificent increase of cysteine protease levels during encystation of Acanthamoeba. We named the gene cyst specific cysteine protease (cscp) of Acanthamoeba. The purified recombinant protein of CSCP showed activities of papain and cathepsin B against the substrates. During encystation, EGFP fused CSCP showed colocalization with LysoTracker, an autophagosome marker, in transiently transfected amoeba. Amoeba transfected with siRNA against cscp was unable to form mature cysts. Undigested mitochondria in vacuole like structures were observed in cscp siRNA treated cells by transmission electron microscopy. These results provide evidence of the important role of CSCP in autophagosomal degradation of cell constituents, particularly mitochondria, during encystation of Acanthamoeba.

COMPARISON OF GENE REPRESENTATION BETWEEN DIPLOID AND TRIPLOID PARAGONIMUS WESTERMANI BY EXPRESSED SEQUENCE TAG ANALYSES

Expressed sequence tag (EST) analysis of the diploid and triploid Paragonimus westermani genes was done to have a rapid and informative outlook of the gene-expression profiles of the parasites. Totals of 506 and 505 ESTs were generated from the diploid and triploid P. westermani cDNA libraries. Based on the BLASTx search results of the diploid P. westermani ESTs, 308 (60.9%) matched significantly with formerly identified genes and 198 (39.1%) showed no significant homology in the GenBank database. A similar homology pattern was shown from the triploid EST BLASTx search results with 346 (68.5%) sharing homology with previously identified genes and 159 (31.5%) showing no significant homology. The EST data from both libraries were analyzed and grouped into 9 categories. Comparison of the 2 EST pools revealed high similarities among the categories of the significantly matched genes. Single genes matched repeatedly were also observed in the 2 EST data. Some genes were found that are not yet characterized in P. westermani; these genes were matched by both the diploid and triploid ESTs. Further study of these genes may provide us with more understanding on the parasites biology and their specific functions in the 2 strains.

Autophagy Inhibitors as a Potential Antiamoebic Treatment for Acanthamoeba Keratitis

ABSTRACT Acanthamoeba cysts are resistant to extreme physical and chemical conditions. Autophagy is an essential pathway for encystation of Acanthamoeba cells. To evaluate the possibility of an autophagic Acanthamoeba encystation mechanism, we evaluated autophagy inhibitors, such as 3-methyladenine (3MA), LY294002, wortmannin, bafilomycin A, and chloroquine. Among these autophagy inhibitors, the use of 3MA and chloroquine showed a significant reduction in the encystation ratio in Acanthamoeba cells. Wortmannin also inhibited the formation of mature cysts, while LY294002 and bafilomycin A did not affect the encystation of Acanthamoeba cells. Transmission electron microscopy revealed that 3MA and wortmannin inhibited autophagy formation and that chloroquine interfered with the formation of autolysosomes. Inhibition of autophagy or autolysosome formation resulted in a significant block in the encystation in Acanthamoeba cells. Clinical treatment with 0.02% polyhexamethylene biguanide (PHMB) showed high cytopathic effects on Acanthamoeba trophozoites and cysts; however, it also revealed high cytopathic effects on human corneal epithelial cells. In this study, we investigated effects of the combination of a low (0.00125%) concentration of PHMB with each of the autophagy inhibitors 3MA, wortmannin, and chloroquine on Acanthamoeba and human corneal epithelial cells. These new combination treatments showed low cytopathic effects on human corneal cells and high cytopathic effects on Acanthamoeba cells. Taken together, these results provide fundamental information for optimizing the treatment of Acanthamoeba keratitis.