Shabtai Varsano scite author profile

Shabtai Varsano

4Publications

201Citation Statements Received

61Citation Statements Given

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271

188

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Affiliations

Meir Medical Center, Tel Aviv University, University of California, San Francisco

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Human lung cancer cell lines express cell membrane complement inhibitory proteins and are extremely resistant to complement-mediated lysis; a comparison with normal human respiratory epitheliumin vitro, and an insight into mechanism(s) of resistance

Varsano¹,

Rashkovsky²,

Shapiro³

et al. 1998

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SUMMARYHuman lung cancer expresses cell membrane complement inhibitory proteins (CIP). We investigated whether human lung cancer cell lines also express cell-membrane CIP molecules and whether the biology of CIP molecules in these cell lines differs from that of CIP in normal human respiratory epithelium in culture. The cell lines ChaGo K-1 and NCI-H596 were compared with normal human nasal epithelium in primary cultures in respect to the level of cell membrane CIP expression of membrane cofactor protein (MCP; CD46), decay-accelerating factor (DAF; CD55) and CD59, in respect to the level of cell resistance to complement-mediated lysis, and in respect to the contribution of cell membrane CIP to cell resistance against complement-mediated lysis. We found, using flow cytometry, that both human lung cancer cell lines expressed MCP, DAF and CD59, as did normal nasal epithelial cells. However, normal cells showed a large subpopulation of low DAF-expressing cells (60% of all cells) and a smaller subpopulation of high DAF-expressing cells (40%), while the lung cancer cell lines showed only one cell population, of high DAF expression. In addition, both lung cancer cell lines expressed higher MCP levels, and NCI-H596 cells showed higher levels of CD59. Cell resistance to complement-mediated lysis of both lung cancer cell lines was much higher than that of normal cells. Fifty percent normal human serum, under the same concentrations of complement activators, induced lysis of less than a mean of 10% of lung cancer cells, while lysing up to a mean of 50% of nasal epithelial cells. Lung cancer cell resistance to complement was due to its ability to prevent significant activation of complement upon its cell membrane, as manifested by a failure of complement activators to increase cell membrane deposition of C3-related fragments. The exact mechanism for this resistance remains obscure. Unexpectedly, neutralizing antibodies, anti-MCP and anti-DAF were entirely ineffective and anti-CD59 was only slightly effective (18% mean cell lysis) in increasing the susceptibility of the lung cancer cell lines to complement, while the same antibodies were very effective in facilitating complementmediated lysis of the normal nasal epithelial cells (50% mean cell lysis with CD59 MoAb). On the other hand, detachment of DAF and CD59 by phosphatidylinositol-specific phospholipase C (PIPLC) from the lung cancer cell lines abrogated their resistance to lysis. We suggest that the biology of cell membrane CIP molecules in human lung cancer cell lines is different from that of CIP in normal respiratory epithelial cells. Human lung cancer cell lines are able to prevent significant complement activation upon its cell membrane and are therefore especially resistant to complement-mediated lysis. Complement resistance may serve this common and highly lethal human cancer as an escape mechanism from the body's immunosurveillance and prevent effective immunotherapy with tumour-specific MoAbs.Keywords CD46 CD55 CD59 complement inactivators nasal epithelium lung...

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Severe and non-severe asthma in the community: A large electronic database analysis

Varsano

Segev

Shitrit

2017

Respiratory Medicine

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Enkephalinase Inhibitors Potentiate Substance P-Induced Secretion of³⁵SO₄-Macromolecules from Ferret Trachea

Borson

Corrales

Varsano

et al. 1987

Experimental Lung Research

102

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To study the roles of substance P (SP) and endogenous peptidases in regulating mucus secretion from ferret trachea, we measured the SP-induced release of 35SO4-labeled macromolecules after incubating segments of trachea in Ussing chambers in the presence and absence of selected inhibitors of proteolytic enzymes. Our strategy was based on the idea that if endogenous peptidases degrade SP, then inhibitors of these enzymes should potentiate SP-induced secretion. We found that tracheas of ferrets contained SP-like immunoreactivity, and that SP stimulated the release of bound 35SO4 with rapid onset and offset. Eighty-five percent of the total macromolecular radioactivity released was contained in fractions of molecular weights greater than 10(6). The response to SP was concentration-dependent and reproducible. Thiorphan potentiated the secretory response to SP in a concentration-dependent fashion and phosphoramidon potentiated SP-induced secretion, whereas other inhibitors of proteinases and peptidases were without effects. These results suggest that substance P may regulate mucus secretion in ferrets, and that enkephalinase (dipeptidyl carboxypeptidase II, EC 3.4.24.11) in the airway degrades SP in a physiologically significant fashion, and thereby regulates peptide-induced secretion.

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Generation of complement C3 and expression of cell membrane complement inhibitory proteins by human bronchial epithelium cell line

Varsano

Kaminsky

Kaiser

et al. 2000

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Shabtai Varsano

Human lung cancer cell lines express cell membrane complement inhibitory proteins and are extremely resistant to complement-mediated lysis; a comparison with normal human respiratory epitheliumin vitro, and an insight into mechanism(s) of resistance

Severe and non-severe asthma in the community: A large electronic database analysis

Enkephalinase Inhibitors Potentiate Substance P-Induced Secretion of³⁵SO₄-Macromolecules from Ferret Trachea

Generation of complement C3 and expression of cell membrane complement inhibitory proteins by human bronchial epithelium cell line

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Shabtai Varsano

Human lung cancer cell lines express cell membrane complement inhibitory proteins and are extremely resistant to complement-mediated lysis; a comparison with normal human respiratory epitheliumin vitro, and an insight into mechanism(s) of resistance

Severe and non-severe asthma in the community: A large electronic database analysis

Enkephalinase Inhibitors Potentiate Substance P-Induced Secretion of35SO4-Macromolecules from Ferret Trachea

Generation of complement C3 and expression of cell membrane complement inhibitory proteins by human bronchial epithelium cell line

Contact Info

Product

Resources

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Enkephalinase Inhibitors Potentiate Substance P-Induced Secretion of³⁵SO₄-Macromolecules from Ferret Trachea