Surface Coat Differences between Invasive Entamoeba histolytica and Non-Invasive Entamoeba dispar

Using ultrastructural cytochemical techniques we have found differences in the distribution of surface coat components between the invasive protozoan parasite Entamoeba histolytica and the non-invasive Entamoeba dispar. Carbohydrate-containing components and anionic sites in the cell surface of both species were detected by staining with ruthenium red and cationized ferritin, respectively. Ruthenium red staining revealed a thicker surface coat in E. histolytica trophozoites, whereas trophozoites of E. dispar showed a higher concentration of cationized ferritin particles on its surface. Mannose or glucose residues were found at the plasma membrane of both parasites treated with Concanavalin A (Con A)-peroxidase; the surface reaction product was more evident in E. dispar, compared with E. histolytica. Con A rapidly produced surface caps in E. histolytica trophozoites, whereas E. dispar showed a much less efficient mobilization of surface Con A receptors. Agglutination with Con A produced much larger clumps in E. histolytica in comparison with E. dispar. In turn, biotinylation assays revealed striking differences in the composition of surface membrane proteins in both amebic species. Overall, these results further emphasize the phenotypic differences between these two common parasites of the human intestinal tract, once considered to be the same protozoan

Myo1f has an essential role in γδT intraepithelial lymphocyte adhesion and migration

γδT intraepithelial lymphocyte represents up to 60% of the small intestine intraepithelial compartment. They are highly migrating cells and constantly interact with the epithelial cell layer and lamina propria cells. This migratory phenotype is related to the homeostasis of the small intestine, the control of bacterial and parasitic infections, and the epithelial shedding induced by LPS. Here, we demonstrate that Myo1f participates in the adhesion and migration of intraepithelial lymphocytes. Using long-tailed class I myosins KO mice, we identified the requirement of Myo1f for their migration to the small intestine intraepithelial compartment. The absence of Myo1f affects intraepithelial lymphocytes’ homing due to reduced CCR9 and α4β7 surface expression. In vitro, we confirm that adhesion to integrin ligands and CCL25-dependent and independent migration of intraepithelial lymphocytes are Myo1f-dependent. Mechanistically, Myo1f deficiency prevents correct chemokine receptor and integrin polarization, leading to reduced tyrosine phosphorylation which could impact in signal transduction. Overall, we demonstrate that Myo1f has an essential role in the adhesion and migration in γδT intraepithelial lymphocytes

Importancia de las prostaglandinas en la amibiasis hepática

Las prostaglandinas son importantes mediadores inflamatorios, pero también desempeñan un papel importante como reguladoras de las funciones de los linfocitos y los macrófagos. La inoculación por vía intrahepática o intraportal de trofozoitos viables de Entamoeba histolytica en hámsteres se caracteriza por una rápida respuesta inflamatoria aguda, en la cual los trofozoitos amibianos se ven rodeados sucesivamente por leucocitos polimorfonucleares, linfocitos y macrófagos. La incapacidad de estas células para contrarrestar la invasión amibiana ha sido demostrada en varios estudios. La prostaglandina E2 (PGE2) tiene potentes efectos sobre las células de la respuesta inmune; su participación durante la formación del absceso hepático se reportó recientemente. En este artículo hacemos una revisión de los hallazgos de los últimos años en relación con el estudio de los mediadores bioquímicos de la inflamación durante la infección con E. histolytica, y su posible participación en el establecimiento de la respuesta inmune en el huésped

Importancia de las prostaglandinas en la amibiasis hepática The importance of prostaglandins in hepatic amebiasis

Las prostaglandinas son importantes mediadores inflamatorios, pero también desempeñan un papel importante como reguladoras de las funciones de los linfocitos y los macrófagos. La inoculación por vía intrahepática o intraportal de trofozoitos viables de Entamoeba histolytica en hámsteres se caracteriza por una rápida respuesta inflamatoria aguda, en la cual los trofozoitos amibianos se ven rodeados sucesivamente por leucocitos polimorfonucleares, linfocitos y macrófagos. La incapacidad de estas células para contrarrestar la invasión amibiana ha sido demostrada en varios estudios. La prostaglandina E2 (PGE2) tiene potentes efectos sobre las células de la respuesta inmune; su participación durante la formación del absceso hepático se reportó recientemente. En este artículo hacemos una revisión de los hallazgos de los últimos años en relación con el estudio de los mediadores bioquímicos de la inflamación durante la infección con E. histolytica, y su posible participación en el establecimiento de la respuesta inmune en el huésped.<br>Prostaglandins are important mediators of inflammation; they also play a role in the regulation of both lymphocyte and macrophage functions. Hamster's liver lesions resulting from intraportal or intrahepatic inoculation of living Entamoeba histolytica trophozoites are characterized by an acute inflammatory response, where trophozoites are successively surrounded by polymorphonuclear leukocytes, lymphocytes, and macrophages. Incapability of these cells to counteract amebic invasion has been demonstrated in some studies. Prostaglandin E2 (PGE2) has potent effects on immune cells; its participation in amebic liver abscess has been reported recently. This paper presents a review of recent discoveries on biochemical mediators produced during inflammation due to Entamoeba histolytica infection, and their possible role in establishing the host's immune response

Effect of ovarian cancer ascites on SKOV-3 cells proteome: new proteins associated with aggressive phenotype in epithelial ovarian cancer

Abstract Background Epithelial ovarian cancer is the second most lethal gynecological cancer worldwide. Ascites can be found in all clinical stages, however in advanced disease stages IIIC and IV it is more frequent and could be massive, associated with worse prognosis. Due to the above, it was our interest to understanding how the ascites of ovarian cancer patients induces the mechanisms by which the cells present in it acquire a more aggressive phenotype and to know new proteins associated to this process. Methods A proteomic analysis of SKOV-3 cells treated with five different EOC ascites was performed by two-dimensional electrophoresis coupled to MALDI-TOF. The level of expression of the proteins of interest was validated by RT-PCR because several of these proteins have only been reported at the messenger level. Results Among the proteins identified that increased their expression in ascites-treated SKOV-3 cells, were Ran GTPase, ZNF268, and Synaptotagmin like-3. On the other hand, proteins that were negatively regulated by ascites were HLA-I, HSPB1, ARF1, Synaptotagmin 1, and hnRNPH1, among others. Furthermore, an interactome for every one of these proteins was done in order to identify biological processes, molecular actions, and cellular components in which they may participate. Conclusions Identified proteins participate in cellular processes highly relevant to the aggressive phenotype such as nuclear transport, regulation of gene expression, vesicular trafficking, evasion of the immune response, invasion, metastasis, and in resistance to chemotherapy. These proteins may represent a source of information which has the potential to be evaluated for the design of therapies directed against these malignant cells that reside on ovarian cancer ascites