Toxicogenomics of Non-viral Vectors for Gene Therapy: A Microarray Study of Lipofectin- and Oligofectamine-induced Gene Expression Changes in Human Epithelial Cells

Omidi, Yadollah; Hollins, Andrew John; Benboubetra, Mustapha; Drayton, Ross M.; Benter, İbrahim F.; Akhtar, Saghir

doi:10.1080/10611860310001636908

Cited by 145 publications

(105 citation statements)

References 21 publications

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“…Toxicogenomics of non-viral lipidic vectors with microarray-based gene expression profiling has already shown that genes involved in the apoptosis pathway, among others, are altered, by cationic vectors. 10 More recently, a gene expression profiling study of human A431 cells treated with PPI dendrimers showed that these cationic vectors induce marked global gene expression changes at concentrations routinely used for gene transfection. This finding could potentially indicate that such dendrimers exert pleiotropic biological effects, including induction of apoptosis and some cytokine genes which could be important for their effects on tumour cells.…”

Section: Published Inmentioning

confidence: 99%

Non-viral cancer gene therapy: Beyond delivery

Akhtar

2005

Gene Ther

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Section: Published Inmentioning

confidence: 99%

Non-viral cancer gene therapy: Beyond delivery

Akhtar

2005

Gene Ther

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“…Once inside the target cells (normally via receptor-mediated endocytosis pathway), the genomedicine must overcome the subcellular and/or biomolecular impacts. In fact, the amphipathic sheet like lipid bilayer architecture of the biological membranes along with the integrated proteins separate cells from their environment and form the boundaries of different organelles inside the cells, at which exchange of materials among the different parts of a cell is controlled (Omidi & Gumbleton, 2005). Nonviral vectors may bind to cells by means of one or both of two types of cell binding interaction machineries, i.e.…”

Section: Cellular Trafficking and Toxicity Of Polycationic Nanostructmentioning

confidence: 99%

“…Surprisingly, no substantial information is available about the genomic signature of the cationic delivery systems. We have previously investigated the potential of the commercially available nonviral vectors (e.g., Polyamidoamine (PAMAM) dendrimers such as Polyfect™ (PF) and Superfect™ (SF)) and lipids (e.g., Lipofectin™ (LF) and Oligofectamine ™ (OF)) on global gene expression within human epithelial A431 and A549 cells by exploiting the cDNA microarray technology (Barar et al, 2009;Omidi et al, 2003;Omidi et al, 2005a;Omidi et al, 2005b;Omidi et al, 2008). These investigations revealed occurrence of inadvertent nonspecific gene expression changes within target cells upon treatments with these cationic gene delivery nanosystems.…”

Section: Gene Therapy Challenges and Dilemmasmentioning

confidence: 99%

Toxicogenomics of Nonviral Cationic Gene Delivery Nanosystems

Omidi¹,

Kafil²,

Barar³

2011

Non-Viral Gene Therapy

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“…Microarrays analysis to examine the effect of Lipofectin and Oligofectamine on the gene expression profiles of human A431 epithelial cells revealed marked changes in the expression of several genes for both Lipofectin-and Oligofectamine-treated cells. Inadvertent gene expression changes can be induced by the delivery formulation alone and that these may, ultimately, have important safety implications for the use of these non-viral vectors in gene-based therapies [36].…”

Section: Toxicogenomics Historymentioning

confidence: 99%

Toxicogenomics and cancer pathogenesis

Gupta¹,

AK²,

Boraste³

et al. 2009

Int J Genet

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Abstract-Toxicogenomics is emerging field give idea of the application of large-scale differential gene expression data to toxicology, starting to influence drug discovery and development in the pharmaceutical industry. Its future potential in cancer pathogenesis, study of poisons and poisoning and has an ancient and venerable history. Toxicogenomics is the merging of toxicology with technologies that have been developed, together with bioinformatics, to identify and quantify global gene expression changes for gene therapy. Immunotoxic processes and the development of in vitro screening assays is therefore expected to be of value for mechanistic insight into immunotoxicity and hazard identification of existing and novel compounds. Successful application of toxicogenomic approaches, such as DNA microarrays, inextricably relies on appropriate data management, the ability to extract knowledge from massive amounts of data and the availability of functional information for data interpretation. Toxicogenomics is considered a valuable tool for reducing pharmaceutical candidate attrition by facilitating earlier identification, prediction and understanding of toxicities. Pharmaco-epidemiological (toxicogenomics) data is now available for both antiepileptic drugs, evidence for human carcinogenicity. Therapeutic researches converge triad of rejuvenation, regeneration or replacement strategies that rely on self-healing processes, stem cell regeneration organ transplantation. Metastases studies usually display more genetic changes than the primary tumour. Helix-loop-helix application in translational and functional toxicogenomics transcription factors has been implicated in diverse cellular processes such as proliferation, apoptosis, differentiation, and migration.

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Toxicogenomics of Non-viral Vectors for Gene Therapy: A Microarray Study of Lipofectin- and Oligofectamine-induced Gene Expression Changes in Human Epithelial Cells

Cited by 145 publications

References 21 publications

Non-viral cancer gene therapy: Beyond delivery

Non-viral cancer gene therapy: Beyond delivery

Toxicogenomics of Nonviral Cationic Gene Delivery Nanosystems

Toxicogenomics and cancer pathogenesis

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