1.Electron microscopic study on Trichomonas vaginalis adhering to and phagocytizing male genitourinary epithelial cells.
Wenlie CHEN ; Jinfu CHEN ; Xiurong ZHONG ; Xi LIN ; Lianyun CHEN
National Journal of Andrology 2004;10(2):86-89
OBJECTIVETo observe Trichomonas vaginalis (T. vaginalis) adhering to and phagocytizing male genitourinary epithelial cells in order to study the pathogenetic mechanism of male trichomoniasis.
METHODSCultured T. vaginalis bodies were incubated with male genitourinary epithelial cells, and then the ultrastructure was observed with transmission electron microscopy.
RESULTST. vaginalis adhered to epithelial cells like amoeba, and formed pseudopodium or surface invagination surrounding or nibbling other parts of the epithelial cytoplasm.
CONCLUSIONST. vaginalis has the speciality of adhering to and phagocytizing to male genitourinary epithelial cells. Genitourinary epithelial cells may be injured directly by the phagocytosis of T. vaginalis. Attention has to be paid to the correlation.
Animals ; Bacterial Adhesion ; Epithelial Cells ; parasitology ; Genitalia, Male ; parasitology ; Humans ; Male ; Microscopy, Electron ; Trichomonas vaginalis ; ultrastructure
2.Genetic diversity of Acanthamoeba isolated from ocean sediments.
Hua LIU ; Young Ran HA ; Sung Tae LEE ; Yean Chul HONG ; Hyun Hee KONG ; Dong Il CHUNG
The Korean Journal of Parasitology 2006;44(2):117-125
Genetic diversity of 18 Acanthamoeba isolates from ocean sediments was evaluated by comparing mitochondrial (mt) DNA RFLP, 18S rDNA sequences and by examining their cytopathic effects on human corneal epithelial cells versus reference strains. All isolates belonged to morphologic group II. Total of 16 restriction phenotypes of mtDNA from 18 isolates demonstrated the genetic diversity of Acanthamoeba in ocean sediments. Phylogenetic analysis using 18s rDNA sequences revealed that the 18 isolates were distinct from morphological groups I and III. Fifteen isolates showed close relatedness with 17 clinical isolates and A. castellanii Castellani and formed a lineage equivalent to T4 genotype of Byers' group. Two reference strains from ocean sediment, A. hatchetti BH-2 and A. griffini S-7 clustered unequivocally with these 15 isolates. Diversity among isolates was also evident from their cytopathic effects on human corneal cells. This is the first time describing Acanthamoeba diversity in ocean sediments in Korea.
Variation (Genetics)/*genetics
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RNA, Ribosomal, 18S/genetics
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Phylogeny
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Oceans and Seas
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Humans
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Geologic Sediments/*parasitology
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Epithelium, Corneal/cytology
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Epithelial Cells/parasitology
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DNA, Mitochondrial/genetics
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Animals
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Acanthamoeba/*genetics/*isolation & purification
3.Comparison of specific activity and cytopathic effects of purified 33 kDa serine proteinase from Acanthamoeba strains with different degree of virulence.
Won Tae KIM ; Hyun Hee KONG ; Young Ran HA ; Yeon Chul HONG ; Hae Jin JEONG ; Hak Sun YU ; Dong Il CHUNG
The Korean Journal of Parasitology 2006;44(4):321-330
The pathogenic mechanism of granulomatous amebic encephalitis (GAE) and amebic keratitis (AK) by Acanthamoeba has yet to be clarified. Protease has been recognized to play an important role in the pathogenesis of GAE and AK. In the present study, we have compared specific activity and cytopathic effects (CPE) of purified 33 kDa serine proteinases from Acanthamoeba strains with different degree of virulence (A. healyi OC-3A, A. lugdunensis KA/E2, and A. castellanii Neff). Trophozoites of the 3 strains revealed different degrees of CPE on human corneal epithelial (HCE) cells. The effect was remarkably reduced by adding phenylmethylsulfonylfluoride (PMSF), a serine proteinase inhibitor. This result indicated that PMSF-susceptible proteinase is the main component causing cytopathy to HCE cells by Acanthamoeba. The purified 33 kDa serine proteinase showed strong activity toward HCE cells and extracellular matrix proteins. The purified proteinase from OC-3A, the most virulent strain, demonstrated the highest enzyme activity compared to KA/E2, an ocular isolate, and Neff, a soil isolate. Polyclonal antibodies against the purified 33 kDa serine proteinase inhibit almost completely the proteolytic activity of culture supernatant of Acanthamoeba. In line with these results, the 33 kDa serine proteinase is suggested to play an important role in pathogenesis and to be the main component of virulence factor of Acanthamoeba.
Virulence Factors/isolation & purification/*metabolism
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Virulence
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Trophozoites/physiology
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Substrate Specificity
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Soil/parasitology
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Serine Endopeptidases/isolation & purification/*metabolism
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Humans
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Epithelial Cells/parasitology/*pathology
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Encephalitis
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Cornea/cytology/parasitology/*pathology
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Cells, Cultured
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Animals
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Acanthamoeba castellanii/enzymology/growth & development/pathogenicity
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Acanthamoeba Keratitis/parasitology
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Acanthamoeba/classification/*enzymology/growth & development/*pathogenicity
4.Calpains are Involved in Entamoeba histolytica-Induced Death of HT-29 Colonic Epithelial Cells.
Yun Soo JANG ; Kyoung Ju SONG ; Ju Young KIM ; Young Ah LEE ; Kyeong Ah KIM ; Sang Kyou LEE ; Myeong Heon SHIN
The Korean Journal of Parasitology 2011;49(2):177-180
Entamoeba histolytica is an enteric tissue-invading protozoan parasite that can cause amebic colitis and liver abscess in humans. E. histolytica has the capability to kill colon epithelial cells in vitro; however, information regarding the role of calpain in colon cell death induced by ameba is limited. In this study, we investigated whether calpains are involved in the E. histolytica-induced cell death of HT-29 colonic epithelial cells. When HT-29 cells were co-incubated with E. histolytica, the propidium iodide stained dead cells markedly increased compared to that in HT-29 cells incubated with medium alone. This pro-death effect induced by ameba was effectively blocked by pretreatment of HT-29 cells with the calpain inhibitor, calpeptin. Moreover, knockdown of m- and micro-calpain by siRNA significantly reduced E. histolytica-induced HT-29 cell death. These results suggest that m- and micro-calpain may be involved in colon epithelial cell death induced by E. histolytica.
Calpain/antagonists & inhibitors/genetics/*metabolism
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*Cell Death
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Cell Line
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Cell Survival/drug effects
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Dipeptides/metabolism
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Entamoeba histolytica/*pathogenicity
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Epithelial Cells/*parasitology
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Gene Knockdown Techniques
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Humans
5.Entamoeba histolytica Induces Cell Death of HT29 Colonic Epithelial Cells via NOX1-Derived ROS.
Kyeong Ah KIM ; Ju Young KIM ; Young Ah LEE ; Arim MIN ; Young Yil BAHK ; Myeong Heon SHIN
The Korean Journal of Parasitology 2013;51(1):61-68
Entamoeba histolytica, which causes amoebic colitis and occasionally liver abscess in humans, is able to induce host cell death. However, signaling mechanisms of colon cell death induced by E. histolytica are not fully elucidated. In this study, we investigated the signaling role of NOX in cell death of HT29 colonic epithelial cells induced by E. histolytica. Incubation of HT29 cells with amoebic trophozoites resulted in DNA fragmentation that is a hallmark of apoptotic cell death. In addition, E. histolytica generate intracellular reactive oxygen species (ROS) in a contact-dependent manner. Inhibition of intracellular ROS level with treatment with DPI, an inhibitor of NADPH oxidases (NOXs), decreased Entamoeba-induced ROS generation and cell death in HT29 cells. However, pan-caspase inhibitor did not affect E. histolytica-induced HT29 cell death. In HT29 cells, catalytic subunit NOX1 and regulatory subunit Rac1 for NOX1 activation were highly expressed. We next investigated whether NADPH oxidase 1 (NOX1)-derived ROS is closely associated with HT29 cell death induced by E. histolytica. Suppression of Rac1 by siRNA significantly inhibited Entamoeba-induced cell death. Moreover, knockdown of NOX1 by siRNA, effectively inhibited E. histolytica-triggered DNA fragmentation in HT29 cells. These results suggest that NOX1-derived ROS is required for apoptotic cell death in HT29 colon epithelial cells induced by E. histolytica.
*Cell Death
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Cell Line
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Entamoeba histolytica/*pathogenicity
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Epithelial Cells/metabolism/*parasitology/*physiology
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*Host-Pathogen Interactions
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Humans
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NADPH Oxidase/*metabolism
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Reactive Oxygen Species/metabolism/*toxicity
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Signal Transduction
6.Trichomonas vaginalis Metalloproteinase Induces mTOR Cleavage of SiHa Cells.
Juan Hua QUAN ; In Wook CHOI ; Jung Bo YANG ; Wei ZHOU ; Guang Ho CHA ; Yu ZHOU ; Jae Sook RYU ; Young Ha LEE
The Korean Journal of Parasitology 2014;52(6):595-603
Trichomonas vaginalis secretes a number of proteases which are suspected to be the cause of pathogenesis; however, little is understood how they manipulate host cells. The mammalian target of rapamycin (mTOR) regulates cell growth, cell proliferation, cell motility, cell survival, protein synthesis, and transcription. We detected various types of metalloproteinases including GP63 protein from T. vaginalis trophozoites, and T. vaginalis GP63 metalloproteinase was confirmed by sequencing and western blot. When SiHa cells were stimulated with live T. vaginalis, T. vaginalis excretory-secretory products (ESP) or T. vaginalis lysate, live T. vaginalis and T. vaginalis ESP induced the mTOR cleavage in both time- and parasite load-dependent manner, but T. vaginalis lysate did not. Pretreatment of T. vaginalis with a metalloproteinase inhibitor, 1,10-phenanthroline, completely disappeared the mTOR cleavage in SiHa cells. Collectively, T. vaginalis metallopeptidase induces host cell mTOR cleavage, which may be related to survival of the parasite.
Blotting, Western
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Cell Line, Tumor
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Epithelial Cells/metabolism/parasitology
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Humans
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Metalloproteases/genetics/*metabolism
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Proteolysis
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Sequence Analysis, DNA
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TOR Serine-Threonine Kinases/*metabolism
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Trichomonas vaginalis/*enzymology/genetics
7.Influence of 120 kDa Pyruvate:Ferredoxin Oxidoreductase on Pathogenicity of Trichomonas vaginalis.
The Korean Journal of Parasitology 2016;54(1):71-74
Trichomonas vaginalis is a flagellate protozoan parasite and commonly infected the lower genital tract in women and men. Iron is a known nutrient for growth of various pathogens, and also reported to be involved in establishment of trichomoniasis. However, the exact mechanism was not clarified. In this study, the author investigated whether the 120 kDa protein of T. vaginalis may be involved in pathogenicity of trichomonads. Antibodies against 120 kDa protein of T. vaginalis, which was identified as pyruvate:ferredoxin oxidoreductase (PFOR) by peptide analysis of MALDI-TOF-MS, were prepared in rabbits. Pretreatment of T. vaginalis with anti-120 kDa Ab decreased the proliferation and adherence to vaginal epithelial cells (MS74) of T. vaginalis. Subcutaneous tissue abscess in anti-120 kDa Ab-treated T. vaginalis-injected mice was smaller in size than that of untreated T. vaginalis-infected mice. Collectively, the 120 kDa protein expressed by iron may be involved in proliferation, adhesion to host cells, and abscess formation, thereby may influence on the pathogenicity of T. vaginalis.
Animals
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Antibodies/metabolism
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Cell Proliferation/drug effects
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Epithelial Cells/parasitology
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Host-Pathogen Interactions/drug effects/*physiology
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Iron/pharmacology
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Mice
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Pyruvate Synthase/*metabolism
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Rabbits
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Trace Elements/pharmacology
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Trichomonas Infections/*parasitology
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Trichomonas vaginalis/drug effects/genetics/metabolism/*pathogenicity
8.Involvement of PI3K/AKT and MAPK Pathways for TNF-alpha Production in SiHa Cervical Mucosal Epithelial Cells Infected with Trichomonas vaginalis.
Jung Bo YANG ; Juan Hua QUAN ; Ye Eun KIM ; Yun Ee RHEE ; Byung Hyun KANG ; In Wook CHOI ; Guang Ho CHA ; Jae Min YUK ; Young Ha LEE
The Korean Journal of Parasitology 2015;53(4):371-377
Trichomonas vaginalis induces proinflammation in cervicovaginal mucosal epithelium. To investigate the signaling pathways in TNF-alpha production in cervical mucosal epithelium after T. vaginalis infection, the phosphorylation of PI3K/AKT and MAPK pathways were evaluated in T. vaginalis-infected SiHa cells in the presence and absence of specific inhibitors. T. vaginalis increased TNF-alpha production in SiHa cells, in a parasite burden-dependent and incubation time-dependent manner. In T. vaginalis-infected SiHa cells, AKT, ERK1/2, p38 MAPK, and JNK were phosphorylated from 1 hr after infection; however, the phosphorylation patterns were different from each other. After pretreatment with inhibitors of the PI3K/AKT and MAPK pathways, TNF-alpha production was significantly decreased compared to the control; however, TNF-alpha reduction patterns were different depending on the type of PI3K/MAPK inhibitors. TNF-alpha production was reduced in a dose-dependent manner by treatment with wortmannin and PD98059, whereas it was increased by SP600125. These data suggested that PI3K/AKT and MAPK signaling pathways are important in regulation of TNF-alpha production in cervical mucosal epithelial SiHa cells. However, activation patterns of each pathway were different from the types of PI3K/MAPK pathways.
Cell Line
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Cervix Uteri/enzymology/metabolism/*parasitology
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Epithelial Cells/*enzymology/metabolism/parasitology
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Female
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Humans
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*MAP Kinase Signaling System
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Mucous Membrane/*enzymology/metabolism/parasitology
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Phosphatidylinositol 3-Kinases/genetics/*metabolism
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Proto-Oncogene Proteins c-akt/genetics/*metabolism
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Trichomonas Vaginitis/*enzymology/genetics/metabolism/parasitology
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Trichomonas vaginalis/*physiology
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Tumor Necrosis Factor-alpha/genetics/*metabolism
9.Degradation of the Transcription Factors NF-kappaB, STAT3, and STAT5 Is Involved in Entamoeba histolytica-Induced Cell Death in Caco-2 Colonic Epithelial Cells.
Kyeong Ah KIM ; Arim MIN ; Young Ah LEE ; Myeong Heon SHIN
The Korean Journal of Parasitology 2014;52(5):459-469
Entamoeba histolytica is a tissue-invasive protozoan parasite causing dysentery in humans. During infection of colonic tissues, amoebic trophozoites are able to kill host cells via apoptosis or necrosis, both of which trigger IL-8-mediated acute inflammatory responses. However, the signaling pathways involved in host cell death induced by E. histolytica have not yet been fully defined. In this study, we examined whether calpain plays a role in the cleavage of pro-survival transcription factors during cell death of colonic epithelial cells, induced by live E. histolytica trophozoites. Incubation with amoebic trophozoites induced activation of m-calpain in a time- and dose-dependent manner. Moreover, incubation with amoebae resulted in marked degradation of STAT proteins (STAT3 and STAT5) and NF-kappaB (p65) in Caco-2 cells. However, IkappaB, an inhibitor of NF-kappaB, was not cleaved in Caco-2 cells following adherence of E. histolytica. Entamoeba-induced cleavage of STAT proteins and NF-kappaB was partially inhibited by pretreatment of cells with a cell-permeable calpain inhibitor, calpeptin. In contrast, E. histolytica did not induce cleavage of caspase-3 in Caco-2 cells. Furthermore, pretreatment of Caco-2 cells with a calpain inhibitor, calpeptin (but not the pan-caspase inhibitor, z-VAD-fmk) or m-calpain siRNA partially reduced Entamoeba-induced DNA fragmentation in Caco-2 cells. These results suggest that calpain plays an important role in E. histolytica-induced degradation of NF-kappaB and STATs in colonic epithelial cells, which ultimately accelerates cell death.
Caco-2 Cells
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Calcium-Binding Proteins
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Calpain/genetics/metabolism
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Caspase 3/genetics/metabolism
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Caspases
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*Cell Death
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Colon/cytology
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Entamoeba histolytica/*physiology
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Epithelial Cells/cytology/parasitology
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Humans
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I-kappa B Proteins/metabolism
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Intestinal Mucosa/cytology
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NF-kappa B/genetics/*metabolism
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RNA Interference
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RNA, Small Interfering
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STAT3 Transcription Factor/genetics/*metabolism
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STAT5 Transcription Factor/genetics/*metabolism
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Signal Transduction