Your search keyword '"Eric Milano"' showing total 2 results

1. Modification of the Genetic Program of Human Alveolar Macrophages by Adenovirus Vectors In Vitro Is Feasible but Inefficient, Limited in Part by the Low Level of Expression of the Coxsackie/Adenovirus Receptor

Author

Ramu Ramalingam, Neil R. Hackett, Eric Milano, Erik Falck-Pedersen, Ravi Singh, Robert J. Kaner, Eric Stolze, Philip L. Leopold, Jeffrey M. Bergelson, Stefan Worgall, Ronald G. Crystal, Chisa Hidaka, and Robert W. Finberg

Subjects

Pulmonary and Respiratory Medicine, Coxsackie and Adenovirus Receptor-Like Membrane Protein, Virus genetics, Transgene, Genetic Vectors, Green Fluorescent Proteins, Clinical Biochemistry, Biology, Adenoviridae, Green fluorescent protein, Interferon-gamma, Interferon, Complementary DNA, Macrophages, Alveolar, Gene expression, medicine, Humans, RNA, Messenger, Vector (molecular biology), Molecular Biology, Enterovirus, A549 cell, Gene Transfer Techniques, Cell Biology, beta-Galactosidase, Molecular biology, Luminescent Proteins, Receptors, Virus, medicine.drug

Abstract

Robust expression of genes transferred by adenovirus (Ad) vectors depends upon efficient entry of vectors into target cells. Cells deficient in the coxsackie/adenovirus receptor (CAR) are difficult targets for Admediated gene transfer. We hypothesized that low levels of CAR expression may be responsible, in part, for the relative inefficiency of Ad-mediated gene transfer to human alveolar macrophages (AMs). CAR gene expression was detected in human AMs by reverse transcription‐polymerase chain reaction and at low levels by Northern analysis. Indirect immunofluorescence showed specific, low-intensity surface staining for CAR, but at levels below those found on the positive-control A549 human lung epithelial cell line. Consistent with this, AMs expressed Ad vector transgenes 100 to 1,000-fold less efficiently than A549 cells, as assessed using the b -galactosidase reporter (chemiluminescence assay) and green fluorescent protein (fluorescence microscopy and flow cytometry). At high multiplicity of infection, AMs from an HIV 1 individual could be transduced with an AdIFN g vector to secrete detectable human interferon- g . Ad transgene expression by AMs was blocked by capsid fiber protein, suggesting that CAR is required in the pathway for productive Ad entry into alveolar macrophages. To confirm that Ad transgene expression by AMs is limited by low levels of CAR expression, cells were infected with an Ad vector containing the CAR complementary DNA (cDNA). Enhanced expression of CAR protein was demonstrated by indirect immunofluorescence, and the CAR cDNA-transduced cells showed 5-fold enhancement of subsequent Ad transgene expression. These observations demonstrate that human AMs can be targets for Ad-mediated gene transfer, but that efficiency of transgene expression is limited, at least in part, by low levels of CAR expression. Kaner, R. J., S. Worgall, P. L. Leopold, E. Stolze, E. Milano, C. Hidaka, R. Ramalingam, N. R. Hackett, R. Singh, J. Bergelson, R. Finberg, E. Falck-Pederson, and R. G. Crystal. 1999. Modification of the genetic program of human alveolar macrophages by adenovirus vectors in vitro is feasible but inefficient, limited in part by the low level of expression of the coxsackie/adenovirus receptor. Am. J. Respir. Cell Mol. Biol. 20:361‐370.

Published

1999

2. CAR-dependent and CAR-independent pathways of adenovirus vector-mediated gene transfer and expression in human fibroblasts

Author

Thomas J. Wickham, Ronald G. Crystal, Jeffrey M. Bergelson, Neil R. Hackett, Philip L. Leopold, Eric Milano, Robert W. Finberg, Imre Kovesdi, Peter W. Roelvink, and Chisa Hidaka

Subjects

Virus genetics, Transgene, viruses, Genetic Vectors, Gene Expression, Biology, Coxsackie virus and adenovirus receptor, Article, Viral vector, Capsid, Complementary DNA, Gene expression, Humans, Vector (molecular biology), Transgenes, Cells, Cultured, Adenoviruses, Human, Gene Transfer Techniques, General Medicine, Fibroblasts, Molecular biology, Up-Regulation, Integrin alphaV, Receptors, Virus, Capsid Proteins, human activities

Abstract

Primary fibroblasts are not efficiently transduced by subgroup C adenovirus (Ad) vectors because they express low levels of the high-affinity Coxsackie virus and adenovirus receptor (CAR). In the present study, we have used primary human dermal fibroblasts as a model to explore strategies by which Ad vectors can be designed to enter cells deficient in CAR. Using an Ad vector expressing the human CAR cDNA (AdCAR) at high multiplicity of infection, primary fibroblasts were converted from being CAR deficient to CAR sufficient. Efficiency of subsequent gene transfer by standard Ad5-based vectors and Ad5-based vectors with alterations in penton and fiber was evaluated. Marked enhancement of binding and transgene expression by standard Ad5 vectors was achieved in CAR-sufficient fibroblasts. Expression by AdDeltaRGDbetagal, an Ad5-based vector lacking the arginine-glycine-aspartate (RGD) alphaV integrin recognition site from its penton base, was achieved in CAR-sufficient, but not CAR-deficient, cells. Fiber-altered Ad5-based vectors, including (a) AdF(pK7)betagal (bearing seven lysines on the end of fiber) (b) AdF(RGD)betagal (bearing a high-affinity RGD sequence on the end of fiber), and (c) AdF9sK betagal (bearing a short fiber and Ad9 knob), demonstrated enhanced gene transfer in CAR-deficient fibroblasts, with no further enhancement in CAR-sufficient fibroblasts. Together, these observations demonstrate that CAR deficiency on Ad targets can be circumvented either by supplying CAR or by modifying the Ad fiber to bind to other cell-surface receptors.

Published

1999