Selected lipids activate phagosome actin assembly and maturation resulting in killing of pathogenic mycobacteria

Pathogenic mycobacteria such as Mycobacterium tuberculosis and Mycobacterium avium facilitate disease by surviving intracellularly within a potentially hostile environment: the macrophage phagosome. They inhibit phagosome maturation processes, including

Tissue transglutaminase expression in HIV-infected cells: an enzyme with an antiviral effect?

The cytopathic effect of HIV has been shown to be associated with the induction of apoptosis and the inhibition of proliferation of T cells. However, the cellular and molecular mechanisms at the basis of the dramatic immune cell loss caused by HIV in patients suffering from acquired immunodeficient syndrome (AIDS), are not yet fully established. We demonstrated that "tissue" transglutaminase (tTG) gene expression is induced in the immune system of seropositive individuals (peripheral blood mononuclear cells and lymph nodes). tTG is a multifunctional protein involved in a variety of fundamentally important cellular functions, in addition to cell death by apoptosis. The presence of high tTG levels in immune-competent cells of HIV+ persons might exert an important role in HIV-infection by influencing viral production. We propose that, in addition to its multiple functions, tTG might interfere with HIV replication by altering the viral mRNA trafficking between the nucleus and the cytoplasm. This effect might be due to its specific interaction with eIF5A, a cellular partner of HIV Rev protein, which is essential for HIV replication in immune-competent cells. Given the presence of high tTG levels in HIV+ individuals, it would be of interest to pursue the potential role of this multifunctional protein in the development of strategies aimed at the pharmacologic regulation of HIV production

Ezrin silencing remodulates the expression of Phosphoinositide-specific Phospholipase C enzymes in human osteosarcoma cell lines

Ezrin, a protein belonging to the Ezrin, radixin and moesin (ERM) family, was engaged in the metastatic spread of osteosarcoma. The Protein 4.1, Ezrin, radixin, moesin (FERM) domain of Ezrin binds the membrane Phosphatydil inositol (4,5) bisphosphate (PIP2), a crucial molecule belonging to the Phosphoinositide (PI) signal transduction pathway. The cytoskeleton cross-linker function of Ezrin largely depends on membrane PIP2 levels, and thus upon the activity of related enzymes belonging to the PI-specific phospholipase C (PI-PLC) family. Based on the role of Ezrin in tumour progression and metastasis, we silenced the expression of Vil2 (OMIM *123900), the gene which codifies for Ezrin, in cultured human osteosarcoma 143B and Hs888 cell lines. After Ezrin silencing, the growth rate of both cell lines was significantly reduced and morphogical changes were observed. We also observed moderate variations both of selected PI-PLC enzymes within the cell and of expression of the corresponding PLC genes. In 143B cell line the transcription of PLCB1 decreased, of PLCG2 increased and of PLCE differed in a time-dependent manner. In Hs888, the expression of PLCB1 and of PLCD4 significantly increased, of PLCE moderately increased in a time dependent manner; the expression of PLCG2 was up-regulated. These observations indicate that Ezrin silencing affects the transcription of selected PLC genes, suggesting that Ezrin might influence the expression regulation of PI-PLC enzymes