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Botulinum D toxin has been shown to ADP-ribosylate 22-kD proteins in neutrophilic leukocytes, but the function of these GTP-binding proteins remains unknown. In analogy to small GTP-binding proteins like SEC4 to YPT1, it has been suggested that botulinum D toxin substrates might be involved in secretory process of myeloid cells. Three main findings lead to the opposite conclusion. First of all, in human neutrophils, botulinum D toxin does not modify the release of azurophilic and specific granules induced by a chemoattractant (a formylpeptide) or a phorbol ester. Second, botulinum D toxin ADP-ribosylates 24 to 26-kD proteins that are only present in plasma membranes of human neutrophils. The membrane location of these substrates differs largely from that of the GTP-binding proteins involved in exocytosis and located in granules. Finally, since the same quantity of the toxin substrates is present in neutrophils as in their precursors, HL60 cells (which are devoid of specific granules and characterized by immature azurophilic granules and NADPH oxidase), it is unlikely that endogenous botulinum D toxin substrates are directly involved in the secretory responses of neutrophils. 相似文献
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Francesca Rappa Alessandro Pitruzzella Antonella Marino Gammazza Rosario Barone Emanuele Mocciaro Giovanni Tomasello Francesco Carini Felicia Farina Giovanni Zummo Everly Conway de Macario Alberto JL Macario Francesco Cappello 《Cell stress & chaperones》2016,21(5):927-933
Large bowel carcinogenesis involves accumulation of genetic alterations leading to transformation of normal mucosa into dysplasia and, lastly, adenocarcinoma. It is pertinent to elucidate the molecular changes occurring in the pre-neoplastic lesions to facilitate early diagnosis and treatment. Heat shock proteins (Hsps), many of which are molecular chaperones, are implicated in carcinogenesis, and their variations with tumor progression encourage their study as biomarkers. There are many reports on Hsps and cancer but none to our knowledge on their systematic quantification in pre-neoplastic lesions of the large bowel. We performed immunohistochemical determinations of Hsp10, Hsp60, Hsp70, and Hsp90 in biopsies of large bowel tubular adenomas with moderate grade of dysplasia and compared to normal mucosa and adenocarcinoma with a moderate grade of differentiation (G2). A significant elevation of Hsp10 and Hsp60 only, i.e., in the absence of elevation of Hsp70 or Hsp90, in both epithelium and lamina propria was found in tubular adenoma by comparison with normal mucosa. In contrast, adenocarcinoma was characterized by the highest levels of Hsp10 and Hsp60 in epithelium and lamina propria, accompanied by the highest levels of Hsp70 only in epithelium and of Hsp90 only in lamina propria, by comparison with normal and tubular adenoma counterparts. Hsp10 and Hsp60 are promising biomarkers for early diagnosis of tubular adenoma and for its differentiation from more advanced malignant lesions. Hsp10 and Hsp60 may be implicated in carcinogenesis from its very early steps and, thus, are potentially convenient targets for therapy. 相似文献
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Mimivirus, or Acanthamoeba polyphaga mimivirus (APMV), a giant double-stranded DNA virus that grows in amoeba, was identified for the first time in 2003. Entry by phagocytosis within amoeba has been suggested but not demonstrated. We demonstrate here that APMV was internalized by macrophages but not by non-phagocytic cells, leading to productive APMV replication. Clathrin- and caveolin-mediated endocytosis pathways, as well as degradative endosome-mediated endocytosis, were not used by APMV to invade macrophages. Ultrastructural analysis showed that protrusions were formed around the entering virus, suggesting that macropinocytosis or phagocytosis was involved in APMV entry. Reorganization of the actin cytoskeleton and activation of phosphatidylinositol 3-kinases were required for APMV entry. Blocking macropinocytosis and the lack of APMV colocalization with rabankyrin-5 showed that macropinocytosis was not involved in viral entry. Overexpression of a dominant-negative form of dynamin-II, a regulator of phagocytosis, inhibited APMV entry. Altogether, our data demonstrated that APMV enters macrophages through phagocytosis, a new pathway for virus entry in cells. This reinforces the paradigm that intra-amoebal pathogens have the potential to infect macrophages. 相似文献