Tom Moninger scite author profile

Cationic lipids are widely used for gene transfer in vitro and show promise as a vector for in vivo gene therapy applications. However, there is limited understanding of the cellular and molecular mechanisms involved. We investigated the individual steps in cationic lipid-mediated gene transfer to cultured cell lines. We used DMRIE/DOPE (a 1:1 mixture of N-[1-(2,3-dimyristyloxy) propyl]-N,N-dimethyl-N-(2-hydroxyethyl)ammonium bromide (DMRIE) and dioleoyl phosphatidylethanolamine (DOPE) as a model lipid because of its efficacy and because it is being used for clinical trials in humans. The data show that cationic lipid-mediated gene transfer is an inefficient process. Part of the inefficiency may result from the fact that the population of lipid-DNA complexes was very heterogeneous, even under conditions that have been optimized to produce the best transfection. Inefficiency was not due to inability of the complex to enter the cells because most cells took up the DNA. However, in contrast to previous speculation, the results indicate that endocytosis was the major mechanism of entry. After endocytosis, the lipid-DNA aggregated into large perinuclear complexes, which often showed a highly ordered tubular structure. Although much of the DNA remained aggregated in a vesicular compartment, there was at least a small amount of DNA in the cytoplasm of most cells. That observation plus results from direct injection of DNA and lipid-DNA into the nucleus and cytoplasm indicate that movement of DNA from the cytoplasm to the nucleus may be one of the most important limitations to successful gene transfer. Finally, before transcription can occur, the data show that lipid and DNA must dissociate. These results provide new insights into the physical limitations to cationic lipid-mediated gene transfer and suggest that attention to specific steps in the cellular process may further improve the efficiency of transfection and increase its use in a number of applications.

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Interleukin-9 Induces Goblet Cell Hyperplasia during Repair of Human Airway Epithelia

Vermeer

Harson

Einwalter

et al. 2003

Am J Respir Cell Mol Biol

101

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Asthma is characterized by airway inflammation, smooth muscle hyperreactivity, and airway remodeling with excessive mucus production. The effect cytokines like interleukin (IL)-9 have on airway epithelia has been addressed using murine models of asthma, as well as transgenic and knockout mice. Though highly informative, differences exist between mouse and human airway epithelia, including cellular composition (e.g., Clara cells) and stem cell/plasticity capabilities. Therefore, to address cytokine effects on human airway epithelia, we have used a primary model system to ask whether IL-9 can alter cell fates of human airway epithelia. Here, we show that IL-9 has little effect on fully differentiated ciliated human airway epithelia. However, in the setting of airway injury repair, IL-9 results in goblet cell hyperplasia. A similar response was observed when the epithelium was exposed to IL-9 before it became fully differentiated. Moreover, exposure to IL-9 resulted in increased lysozyme and mucus production by the epithelia. Thus, a combination of IL-9 and mechanical injury can explain, in part, goblet cell hyperplasia that is evident in the lungs of individuals with asthma. These data suggest that interventions that limit airway epithelial damage, block IL-9, or modulate the repair process should result in decreased airway remodeling and prevent the chronic manifestations of this disease.

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IL-1α, IL-1β AND IL-6 CYTOKINE MRNA EXPRESSION IN MURINE BRAIN MICROVESSEL CELLS DETECTED BY PCR AND IN SITU HYBRIDIZATION

Fabry¹,

Fee²,

Moninger³

et al. 1993

Journal of Neuropathology and Experimental Neurology

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Tom Moninger

Cellular and Molecular Barriers to Gene Transfer by a Cationic Lipid

Interleukin-9 Induces Goblet Cell Hyperplasia during Repair of Human Airway Epithelia

IL-1α, IL-1β AND IL-6 CYTOKINE MRNA EXPRESSION IN MURINE BRAIN MICROVESSEL CELLS DETECTED BY PCR AND IN SITU HYBRIDIZATION

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