Ourania Passa scite author profile

Both the growth and respiration of Candida albicans are sensitive to extracts of Allium sativum and investigations into the anticandidal activities are now focussing on the purified constituents to determine the targets of inhibition. Of particular interest is allyl alcohol (AA), a metabolic product that accumulates after trituration of garlic cloves. Putative targets for AA were investigated by monitoring changes in intracellular responses after exposure of C. albicans cells to AA or a commercially available garlic extract. Two-photon laser scanning microscopy and other techniques were used. Changes typical of oxidative stress – NADH oxidation and glutathione depletion, and increased reactive oxygen species – were observed microscopically and by flow cytometry. Known targets for AA are alcohol dehydrogenases Adh1 and 2 (in the cytosol) and Adh3 (mitochondrial), although the significant decrease in NAD(P)H after addition of AA is indicative of another mechanism of action.

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Generation and functional characterization of mice with a conditional BMP7 allele

Zouvelou

Passa²,

Segklia³

et al. 2009

Int. J. Dev. Biol.

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Bone Morphogenetic Proteins (BMPs) play multiple and important roles in embryonic development as well as in homeostasis and tissue repair in the adult. Bmp7 has been implicated in developmental disorders and in a variety of diseases, but functional studies to elucidate its role so far have been hampered, since mice deficient in BMP7 die around or just after birth. To facilitate such studies, we generated mice in which the Bmp7 gene has been rendered conditional-null by flanking its first coding exon with loxP sites. To this end, we adapted the two-loxP site strategy to Bacterial Homologous Recombination to create a Bacterial Artificial Chromosome-based vector for direct targeting in mouse embryonic stem cells. Functional analysis showed that in vivo, the conditional-null Bmp7 flx/flx mice are phenotypically wild type, whereas post Cre-mediated recombination, the resulting Bmp7 ∆/∆ mice are phenotypically null. Thus, this study validates the usefulness of the Bmp7 flx/flx mouse which in turn should empower in vivo studies aimed at elucidating the roles of Bmp7 in postnatal development, homeostasis and disease.

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Involvement of Twisted Gastrulation in T Cell-Independent Plasma Cell Production

Tsalavos

Segklia

Passa

et al. 2011

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Bone morphogenetic protein (BMP) signaling is increasingly implicated in immune cell differentiation and function; however, direct in vivo evidence for such a role is still missing. In this article, we report that Twisted gastrulation (TWSG1), an extracellular regulator of BMP signaling, is expressed in activated B cells and regulates T-independent B cell responses in the mouse. Twsg1-deficient B cells mount stronger T-independent type 2 responses reflected as increased IgM levels and numbers of Ag-specific IgM-secreting cells. BCR stimulation of Twsg1-deficient B cells results in hyperproliferation, hyperresponsiveness, and decreased apoptosis, whereas TLR stimulation results in hyperproliferation and increased IgG3 production. These changes are reflected on the molecular level by increased transcription of Bcl-6, Pax5, and the BMP-responsive gene Id-2. The TWSG1 effects on B cells appear to be cell intrinsic, suggesting that Twsg1 expression in B cells serves to interpret BMP signals on a per-cell basis. In summary, our observations on the role of TWSG1 in B cell function is opening new paths toward the exploration of the role of BMP signaling in immunological processes.

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Compartmentalization of bone morphogenetic proteins and their antagonists in lymphoid progenitors and supporting microenvironments and functional implications

Passa

Tsalavos

Belyaev³

et al. 2011

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SummaryBone morphogenetic protein (BMP) signalling regulates lymphopoiesis in bone marrow and thymus via the interaction of haemato-lymphoid progenitors with the stroma microenvironment. Despite increasing functional evidence for the role of BMP signalling in lymphopoiesis, little is known of the spatial distribution of BMP/BMP antagonists in the thymus and of how BMP signals exert specific functions in developing lymphocytes. We analysed expression of BMP/BMP antagonists in the thymus and bone marrow and determined the topology of BMP/BMP antagonist expression using lacZ reporter mice. Bmp4, Bmp7, Gremlin and Twisted gastrulation (Twsg1) are all expressed in the thymus and expression was clearly different for each gene investigated. Expression was seen both in cortical and medullary regions suggesting that BMP signals regulate all stages of T-cell development. Two genes in particular, Bmp7 and Twsg1, were dynamically expressed in developing T and B lymphocytes. Their conditional ablation in all haematopoietic cells surprisingly did not affect the steady state of B-cell and T-cell development. This indicates that both lymphoid cellderived BMP7 and TWSG1 are dispensable for normal lymphopoiesis and that bone-marrow stroma-derived TWSG1 is responsible for the lymphoid defects observed in Twsg1 null mice. In summary our data demonstrate a complex network of lymphoid and stroma derived BMP signals involved in the orchestration of lymphopoiesis in both bone marrow and thymus.

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Molecular Analysis of GISTs: Evaluation of Sequencing and dHPLC

Metaxa-Mariatou¹,

Papadopoulos

Papadopoulou³

et al. 2004

DNA and Cell Biology

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Gastrointestinal stromal tumors (GISTs) are the most common mesenchymal tumors of the gastrointestinal tract and are characterized by mutations in the proto-oncogene KIT (c-kit). To date, the detection of genomic alterations of the c-kit gene has been based mostly on direct sequencing. However, sequencing is an expensive and time-consuming approach. Since the technology of WAVE DNA Fragment Analysis System (Transgenomic, Inc., Worcester, MA) (dHPLC) is available in our laboratory, we decided to evaluate its use. Sixteen patients with small/large intestine, stomach tumors were included in the study. Immunohistochemical evaluation was performed on formalin-fixed, paraffin-embedded specimens with the polyclonal antibody CD117 for the KIT protein. After DNA extraction and isolation from paraffin-embedded sections, a nested PCR approach was applied to amplify sequences of exon 11 of the c-kit gene. dHPLC and the ABI Prism 310 Genetic Analyzer (Applied Biosystems, Bedford, MA) were used respectively for screening and identification of genomic alterations. Immunohistochemical analysis revealed strong and diffuse KIT expression in each of the 16 paraffin-embedded sections examined. dHPLC analysis in two temperatures showed the presence of genomic alterations in 8 out of 16 (50%) samples examined. Subsequently, sequence analysis of exon 11 in those samples revealed c-kit alterations in only 8 out of 16 (50%) samples. These were five deletions, one of which was an in-frame deletion one-point mutation and one insertion. Furthermore, the sensitivity of both methods was compared by using different mixtures of a wild-type and a sample with a deletion in exon 11. dHPLC was shown to be able to detect genomic alterations in all four different sample mixtures, whereas with sequence analysis genomic alterations were detected only in the 1:2 and 1:4 sample mixtures. In conclusion, we showed that dHPLC is an efficient and accurate, as well as a more sensitive, method for screening of genomic alterations in exon 11 of the c-kit gene, compared to sequence analysis.

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Ourania Passa

Allyl alcohol and garlic (Allium sativum) extract produce oxidative stress in Candida albicans

Generation and functional characterization of mice with a conditional BMP7 allele

Involvement of Twisted Gastrulation in T Cell-Independent Plasma Cell Production

Compartmentalization of bone morphogenetic proteins and their antagonists in lymphoid progenitors and supporting microenvironments and functional implications

Molecular Analysis of GISTs: Evaluation of Sequencing and dHPLC

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