Colon epithelium can be transiently transfected with liposomes, calcium phosphate precipitation and DEAE dextran in vivo

BACKGROUND

The introduction of recombinant DNA into cells is the initial step toward the development of gene therapy. It has been shown that cationic liposomes are useful vehicles to introduce DNA into colon epithelial cells in vivo.

METHODS

In the present study we compared the efficacy of different nonviral transfection methods into the colon wall. In anesthetized rats, a double balloon catheter was advanced into the colon and a chloramphenicol acetyltransferase (CAT) reporter plasmid complexed to liposomes, mixed with DEAE dextran, or precipitated with calcium phosphate was instilled. Following 2 days CAT activity was determined in the transfected colon segments.

RESULTS

DEAE dextran and liposomes were more effective than calcium phosphate, whereas naked DNA was not taken up by the colon epithelial cells. Reporter gene expression was dose-dependent. Expressing cell types did not differ utilizing the various transfection methods as judged by X-gal staining of colon sections after transfection with a LacZ reporter plasmid.

CONCLUSION

These data indicate that in addition to liposomes, plasmid DNA mixed with DEAE dextran can be taken up by colon epithelial cells. This transfection techniques may prove useful in the development of gene therapy approaches for colon disease.

DNA damaging agents improve stable gene transfer efficiency in mammalian cells

Gene therapy is an evolving discipline which today relies primarily on viral systems for gene transfer. The primary reason that plasmid vectors have not been widely used for gene therapy trials is their relatively low rate of stable gene transfer. We show here that both ionizing irradiation and hydrogen peroxide can each increase the gene transfer efficiency of plasmids. Hydrogen peroxide improves gene transfer in a linear dose-dependent manner. At equitoxic doses, hydrogen peroxide improves gene transfer by 20-fold over untreated cells and approximately 5 times above that seen for radiation, and this improvement correlates with both the total amount of DNA damage induced and the amount of residual damage after 4 hr of repair. These data suggest that DNA damaging agents may be useful to improve human gene therapy.

Lipid-mediated gene transfer into primary neurons using FuGene: comparison to C6 glioma cells and primary glia

Gene transfer into cells of CNS origin is an important tool to counteract neurodegeneration by introducing, e.g., neuroprotective molecules. Although viral gene transfer reveals the highest gene transfer efficiency, liposome-mediated gene transfer seems to become an attractive alternative. In this study we investigated the lipid-mediated gene transfer into primary neurons in vitro by using the novel nonliposomal lipid FuGene and compared it to primary glia and malignant C6 glioma cells. FuGene-mediated gene transfer was useful to transfer the reporter gene beta-galactosidase into C6 glioma cells, primary glia, and primary neurons. Lipofection was highly dependent on the surface bottom and did not result in good efficiencies when using glass compared to plastic dishes. Comparing to a standard lipofection (1 x 8 h), lipofection on 3 consecutive days for 6 h each ("boosting") markedly increased the gene transfer efficiency in primary glia (up to sevenfold) and in primary neurons (up to sixfold). The use of endotoxin-free DNA only slightly increased the transfection efficiency. Immunohistochemistry demonstrated MAP-2-positive neurons (up to 1614 neurons/16-mm well; 2.4% of total neurons) as well as TH-positive neurons (up to 48 neurons/16-mm well; 12.7% of TH neurons) expressing beta-galactosidase. We conclude that FuGene-mediated gene transfer is an attractive alternative to introduce genes of interest into cells of glial and neuronal origin; however, this technique lacks sufficient gene transfer efficiency.

Norepinephrine release from spinal synaptosomes: auto-alpha2 -adrenergic receptor modulation

BACKGROUND

Clonidine produces analgesia after spinal injection by activating alpha2-adrenergic receptors. Recently, clonidine has been demonstrated to increase spinal release of norepinephrine (NE) in vivo, in contrast to that anticipated by classic presynaptic autoinhibition. The purpose of the current study was to determine if clonidine could inhibit release of NE in a preparation of spinal cord tissue lacking synaptic circuits.

METHODS

Crude synaptosomes were prepared from male Sprague-Dawley rat spinal cord, loaded with [3H]NE, and stimulated by potassium chloride to release [3H]NE. Samples were incubated with clonidine in the absence or presence of various inhibitors. To study the effect of alpha2a-adrenergic receptor subtypes, some animals were pretreated with an oligodeoxynucleotide (ODN) composed of a sense or antisense sequence to a portion of this receptor.

RESULTS

Potassium chloride produced a concentration-dependent increase in [3H]NE release, and this release was inhibited by clonidine with a concentration producing 50% maximal inhibition (IC50) of 1.3 microm. The effect of clonidine was inhibited by the alpha2-adrenergic antagonists, yohimbine and idazoxan, but not by alpha1-adrenergic, muscarinic, or opioid antagonists. Intrathecal pretreatment with antisense ODN to alpha2A-adrenergic receptors reduced alpha2A-adrenergic receptor protein expression compared with sense ODN control and also reduced clonidine-induced inhibition of [3H]NE release.

CONCLUSIONS

These data demonstrate the existence of classic autoinhibitory alpha2-adrenergic receptors in the spinal cord, probably of the alpha2Asubtype. They further suggest that clonidine-induced stimulation of spinal NE release must occur from indirect actions, presumably due to activation of a spinal circuit.

Effects of physicochemical characteristics of poly(2-(dimethylamino)ethyl methacrylate)-based polyplexes on cellular association and internalization

The cationic polymer poly(2-(dimethylamino)ethyl methacrylate) (p(DMAEMA)) is able to efficiently bind and condense DNA and to mediate transfection of a variety of cell types. In this study, fluorescence activated cell sorting (FACS), confocal laser fluorescence microscopy (CSLM) and electron microscopy (EM) techniques were used to investigate in vitro the cellular interaction of p(DMAEMA)-based polyplexes with human ovarian carcinoma cells (OVCAR-3). Cellular association and subsequent internalization only occurred when the polyplexes exhibited a positive zeta potential. Small-sized polyplexes have an advantage over large-sized complexes regarding cellular entry. The effect of the presence of tertiary amine groups versus the presence of quatenary amine groups was evaluated by comparing p(DMAEMA) with its quaternary ammonium analogue poly(2-(trimethylamino)ethyl methacrylate) (p(TMAEMA)). The combined cellular interaction and transfection results suggest that the latter polymer does not have an intrinsic endosomal escape property, in contrast to the 'proton sponge' effect proposed for p(DMAEMA). PEGylation of p(DMAEMA) effectively shielded the surface charge and yielded a notably lower degree of cellular interaction. Data on the effects of the presence of endocytosis inhibitors and an endosome-disruptive peptide in the culture medium on the cellular interaction and transfection activity of p(DMAEMA)-based polyplexes support endocytosis as being the principal pathway for intracellular delivery of plasmid. Both the CLSM and EM studies did not reveal the presence of polyplexes or plasmid outside the endocytic vesicles or within the nucleus, suggesting that intracellular trafficking from the endosomes to the nucleus is a very inefficient process.

Novel protein transfection of primary rat cortical neurons using an antibody that penetrates living cells

An Ab-based system to deliver functional proteins into neurons was developed using the murine mAb, mAb 3E10. This was achieved by covalently conjugating catalase to the Ab so that the conjugate retained high activity for the degradation of hydrogen peroxide. Three-dimensional fluorescence microscopy was used to demonstrate penetration of the Ab into the nucleus of living primary cortical neurons. The Ab conjugate localized in both the cytoplasm and nucleus. Retention of catalase activity after penetration and distribution of conjugate was demonstrated by reduction in cell death following exposure of treated neurons to hydrogen peroxide. These studies illustrate the potential of this method for the intracellular delivery of therapeutic proteins.

Adenoviral-mediated gene transfer into ex vivo expanded human bone marrow mesenchymal progenitor cells

OBJECTIVE

Based on their differentiation properties and facilely of ex vivo expansion, human bone marrow mesenchymal progenitor cells (MPC), are considered as attractive targets to deliver foreign genes to the bone marrow or other mesenchymal tissues. In this study we investigated the feasibility of transduce MPC with adenoviral vectors (Adv).

METHODS

MPC were expanded ex vivo and transduced with replication-defective Adv-containing reporter genes (lacZ or GFP) under the control of CMV promoter. Transfection efficiency was assessed by microscopical scoring or by flow cytometry. Expression and involvement of Adv-attachment (CAR) and Adv-internalization (integrins alphav) receptors were evaluated by flow cytometric studies.

RESULTS

Transgene expression analysis showed that only 19%+/-3% of cells expressed the transgenes at high levels. MPC express the attachment and internalization receptors required for Adv infection. While integrins alphavbeta3 and alphavbeta5 are expressed by all MPC, CAR is solely expressed by a fraction of low size cells. Antibodies against CAR and alphavbeta5, but not against alphavbeta3, blocked Adv-mediated gene transfer into MPC, showing that CAR and alphavbeta5 are required for infection. Because alphavbeta5, as compared with CAR, is overexpressed in MPC, the results suggest that the efficiency of Adv-mediated gene transfer into MPC depends on the level of CAR expression.

CONCLUSION

These findings demonstrate that Adv may be useful to engineer a subpopulation of ex vivo expanded human mesenchymal progenitors, with a high level of transgene expression.

Efficient in vitro transfection of human keratinocytes with an adenovirus-enhanced receptor-mediated system

Efficient gene delivery to the skin is important for gene therapy of skin diseases and in-depth biologic studies of epidermis. In this report, we investigated three nonviral transfection systems for gene transfer in cultured human keratinocytes and organotypic cultures. SuperFect is a highly branched polycationic transfection reagent, PrimeFector a polycationic liposome compound, and the AVET (adenovirus-enhanced transferrin-mediated) system consists of a ternary complex of biotinylated chemically inactivated adenovirus noncovalently complexed with plasmid DNA and polylysine-transferrin. After AVET transfection of cultured keratinocytes with pCIbetagal, a CMV/beta-galactosidase reporter plasmid, 28.8% +/- 1.4% of the cells were stained blue. SuperFect was about 2-fold less efficient, whereas Primefector did not transfect keratinocytes. Similar results were obtained when transfection efficiencies were measured by enzyme assays. Addition of holotransferrin to the culture medium or replacement of polylysine-transferrin by polylysine in the ternary complex did not affect the transfection efficiency. Using AVET complexes without adenovirus, however, strongly diminished gene delivery. This indicates that the AVET complex is taken up by an adenovirus receptor. Separation of AVET/pCIbetagal transfected keratinocytes by adhesion to collagen IV into two fractions (rapidly and slowly adhering cells) showed that the latter were transfected at a 3-fold higher level. Therefore, it seems that putative stem cells adhering rapidly to collagen IV are not efficiently transfected by AVET. AVET-transfected keratinocytes derived from keratinocyte trans- glutaminase negative lamellar ichthyosis patients with a CMV-TGK expression plasmid showed that it is possible to reach a level of total enzyme activity similar to that found in cultured keratinocytes from normal individuals. In organotypic cultures from outer root sheath cells AVET transfection was not successful, which might be due to the presence of the cornified layer or inaccessibility of the adenovirus receptor. In summary, the AVET system provides a powerful tool for transient in vitro transfection of keratinocytes.

Inhibition of human telomerase activity by antisense phosphorothioate oligonucleotides encapsulated with the transfection reagent, FuGENE6, in HeLa cells

Telomerase, a ribonucleoprotein, synthesizes telomeric repeats (TTAGGG) onto the ends of chromosomes to maintain the constant length of the telomere DNA, and its activity is detectable in approximately 85%-90% of primary human cancers. Thus, it is postulated that human telomerase might be associated with malignant tumor development and could be a highly selective target for antitumor drug design. Antisense phosphorothioate oligonucleotides (S-ODN) were investigated for their abilities to inhibit telomerase activity in the HeLa cell line. The S-ODN were designed to be complementary to nucleotides within the RNA active site of telomerase. As a transfection reagent, FuGENE6 (Boehringer Mannheim, Mannheim, Germany) was used to enhance the cellular uptake of the oligonucleotides in cell cultures. The S-ODN encapsulated with FuGENE6 clearly inhibited telomerase activity in HeLa cells and showed sequence-specific inhibition. The encapsulated S-ODN-3 with a 19-nucleotide, (nt) chain length had inhibitory effects similar to those of the 21-mer and 23-mer S-ODN sequences (S-ODN-4 and 5), but the 15-mer and 17-mer S-ODN sequences (S-ODN-1 and 2) failed to satisfactorily prevent telomerase activity. However, apoptotic HeLa cell death was not associated with telomerase inhibition. Furthermore, the encapsulated S-ODN did not appear to be cytotoxic in terms of the cell growth rate. The oligonucleotides encapsulated with the transfection reagent had enhanced cellular uptake, and cytoplasmic and nuclear localizations were observed. However, weak fluorescent signals were observed within the cytoplasms of HeLa cells treated with the free S-ODN-3. Thus, the activities of the S-ODN were effectively enhanced by using the transfection reagent. The transfection reagent, FuGENE6, may thus be a potentially useful delivery vehicle for oligonucleotide-based therapeutics and transgenes and is appropriate for use in vitro and in vivo.

Human serum albumin enhances DNA transfection by lipoplexes and confers resistance to inhibition by serum

Cationic liposome-DNA complexes ('lipoplexes') are used as gene delivery vehicles and may overcome some of the limitations of viral vectors for gene therapy applications. The interaction of highly positively charged lipoplexes with biological macromolecules in blood and tissues is one of the drawbacks of this system. We examined whether coating cationic liposomes with human serum albumin (HSA) could generate complexes that maintained transfection activity. The association of HSA with liposomes composed of 1, 2-dioleoyl-3-(trimethylammonium) propane and dioleoylphosphatidylethanolamine, and subsequent complexation with the plasmid pCMVluc greatly increased luciferase expression in epithelial and lymphocytic cell lines above that obtained with plain lipoplexes. The percentage of cells transfected also increased by an order of magnitude. The zeta potential of the ternary complexes was lower than that of the lipoplexes. Transfection activity by HSA-lipoplexes was not inhibited by up to 30% serum. The combined use of HSA and a pH-sensitive peptide resulted in significant gene expression in human primary macrophages. HSA-lipoplexes mediated significantly higher gene expression than plain lipoplexes or naked DNA in the lungs and spleen of mice. Our results indicate that negatively charged HSA-lipoplexes can facilitate efficient transfection of cultured cells, and that they may overcome some of the problems associated with the use of highly positively charged complexes for gene delivery in vivo.

Histone H1-mediated transfection: serum inhibition can be overcome by Ca2+ ions

PURPOSE

One of the drawbacks of polycationic and cationic liposomal gene transfer is its sensitivity to serum. Gene therapy requires the transfectant-DNA complex to be resistant to serum as well as blood. Since Ca2+ has proved to be an efficient cofactor of polycationic gene transfer, we decided to investigate its effects on transfection in the presence of serum.

METHODS

We studied transgene expression of luciferase gene (pCMV Luc) on ECV 304 human endothelial cells using H1 histone and DOSPER as transfectants in the presence of 0-100% fetal calf serum.

RESULTS

H1-and DOSPER-mediated transfection was found to be inhibited by serum above the concentration of 10%. If 2 mM Ca2+ or 2 mM Ca2+/0.1 mM chloroquine was included in the culture medium which replace the transfection mixture and was left on the cells for 24 hours postincubation, the inhibiting effect of even 100% serum was overcome.

CONCLUSIONS

A high serum level does not interfere with binding and uptake of H1- and DOSPER-DNA complexes, but inhibits subsequent steps such as endosomal escape. Ca2+ in the form of nascent calcium phosphate microprecipitates and other lysosomolytical agents facilitate endosomal/lysosomal release by their fusigenic and membranolytic activity.

Camptothecin enhances random integration of transfected DNA into the genome of mammalian cells

In order to study the involvement of DNA topoisomerase I (top1) in recombination, we examined the effect of the anti-neoplastic drug camptothecin, which selectively poisons top1 by trapping top1-cleavable complexes on integration of exogenic vector into the genome of mammalian cells. We transfected mouse F9 teratocarcinoma cells as well as Chinese hamster V79 cells with a plasmid carrying a selectable neo gene treated with camptothecin, and determined the frequency of neo+ (G418(R)) colonies. We found that treatment with camptothecin for as short a time as 4 h after electroporation resulted in a 4- to 33-fold stimulation of plasmid integration into the recipient genome via non-homologous recombination. These results imply that top1-cleavable complexes trapped by camptothecin could be potentially recombinogenic structures and could stimulate non-homologous recombination in vivo, promoting the integration of transfected plasmids into mammalian genome.

The Nicolas Andry award. The pathogenesis and prevention of steroid-induced osteonecrosis

The effects of steroids on a cloned pluripotential cell from bone marrow stroma were examined in vitro in culture and in vivo after the cells were transfected with a traceable gene and transplanted into host mice. Bipedal chickens were treated with steroids to establish a model for osteonecrosis. The effects of a lipid lowering agent, lovastatin, on the prevention of steroid induced adipogenesis in vitro in cell culture, and on adipogenesis and osteonecrosis in vivo in chickens, were evaluated. On treatment with dexamethasone, cloned pluripotential cells began to differentiate into adipocytes and expressed a fat specific gene, whereas the expression of Type I collagen and osteocalcin messenger ribonucleic acid decreased. Addition of lovastatin in culture inhibited steroid induced fat gene expression and counteracted the inhibitory effect of steroids on osteoblastic gene expression. Cloned pluripotential cells were transduced with a traceable retrovirus vector encoding the beta-galactosidase and neomycin resistance genes. The transfected cells were administered to mice either by tail vein or by direct intramedullary injection. Half of the animals in each group were treated with steroids. Histologic sections showed the appearance of transplanted cells in the marrow. Analysis of marrow blowouts by flow cytometry revealed that steroid treatment produced adipogenesis in transplanted cells. Evidence of osteonecrosis was observed in steroid treated chickens, whereas sections from animals treated with steroids and lovastatin showed less adipogenesis and no bone death. The results indicate that steroid induced adipogenesis in the marrow may contribute to osteonecrosis and that lovastatin may be helpful in preventing the development of steroid induced osteonecrosis.

Vaccinia as a vector for tumor-directed gene therapy: biodistribution of a thymidine kinase-deleted mutant

Tumor-directed gene therapy, such as "suicide gene" therapy, requires high levels of gene expression in a high percentage of tumor cells in vivo to be effective. Current vector strategies have been ineffective in achieving these goals. This report introduces the attenuated (thymidine kinase (TK)-negative) replication-competent vaccinia virus (VV) as a potential vector for tumor-directed gene therapy by studying the biodistribution of VV in animal tumor models. A TK-deleted recombinant VV (Western Reserve strain) expressing luciferase on a synthetic promoter was constructed. Luciferase activity was measured in vitro after transduction of a variety of human and murine tumor cell lines and in vivo after intraperitoneal (i.p.) delivery in C57BL/6 mice with 7-day i.p. tumors (10(6) MC-38 cells). Three other in vivo tumor models were examined for tumor-specific gene expression after intravenous delivery of VV (human melanoma in nude mice, adenocarcinoma liver metastasis in immunocompetent mice, and subcutaneous sarcoma in the rat). In addition, a replication-incompetent vaccinia (1 microg of psoralen and ultraviolet light, 365 nm, 4 minutes) was tested in vitro and in vivo and compared with active virus. Luciferase activity in i.p. tumors at 4 days after i.p. injection of VV was >7000-fold higher than lung, >3000-fold higher than liver, and >250-fold higher than ovary. In addition, intravenous injection of VV resulted in markedly higher tumor luciferase activity compared with any other organ in every model tested (up to 188,000-fold higher than liver and 77,000-fold higher than lung). Inactivation of the virus resulted in negligible gene expression in vivo. In summary, VV has a high transduction efficiency in tumor cells with high levels of gene expression. The results suggest a selective in vivo replication of TK-deleted VV in tumor cells. Replication competent, TK-deleted VV appears to be an ideal vector for testing the in vivo delivery of toxic genes to tumor cells.

Enhanced transgene expression in rat brain cell cultures with a disulfide-containing cationic lipid

The transfection efficiency of a disulfide-containing cationic lipid, 1',2' dioleoyl-sn-glycero-3'-succinyl-2-hydroxyethyl disulfide ornithine conjugate (DOGSDSO) and its non-disulfide analog (DOGSHDO) were compared in neuronal, astroglial and microglial cultures from newborn rat cerebral cortex. We hypothesized that the relatively high intracellular concentrations of reductive substances in the cytoplasm may help to cleave the reversible disulfide bond in DOGSDSO, thus increasing free DNA and decreasing toxicity due to rapid degradation of the lipid. We have demonstrated through mass spectrometric analysis that a reductive compound, e.g. dithiothreitol (DTT) could degrade the disulfide lipid. DOGSDSO was more efficient at transfecting each type of brain cell than were the non-disulfide DOGSHDO and DOTAP (1,2-dioleoyl-3-trimethyl-ammonium-propane) liposomes. These results demonstrate that disulfide-containing cationic liposomes facilitate gene transfection in cultured rat brain cells.

Cytosolic phospholipase A2-mediated regulation of phospholipase D2 in leukocyte cell lines

Phospholipase D (PLD) has been implicated in a variety of cellular processes, including inflammation, secretion, and respiratory burst. Two distinct PLD isoforms, designated PLD1 and PLD2, have been cloned; however, the regulatory mechanism for each PLD isoform is not clear. In our present study we investigated how PLD2 activity is regulated in mouse lymphocytic leukemia L1210 cells, which mainly contain PLD2, and in PLD2 -transfected COS-7 cells. Intriguingly, A23187, a calcium ionophore that induces calcium influx, potently stimulates PLD activity in these two cell lines, suggesting that Ca2+ might be implicated in the regulation of the PLD2 activity. In addition to the A23187-induced PLD2 activation, A23187 also increases PLA2-mediated arachidonic acid release, and the A23187-stimulated PLD2 and PLA2 activities could be blocked by pretreatment of the cells with cytosolic calcium-dependent PLA2 (cPLA2) inhibitors, such as arachidonyl trifluoromethyl ketone and methyl arachidonyl fluorophosphonate in these two cell lines. Moreover, the A23187-induced PLD2 and PLA2 activities could be inhibited by cotransfection with antisense cPLA2 oligonucleotide. These results suggest a role for cPLA2 in the regulation of PLD2 activity in vivo. The inhibitory effect of arachidonyl trifluoromethyl ketone on the A23187-induced PLD2 activity could be recovered by addition of exogenous lysophosphatidylcholine. This study is the first to demonstrate that PLD2 activity is up-regulated by Ca2+ influx and that cPLA2 may play a key role in the Ca2+-dependent regulation of PLD2 through generation of lysophosphatidylcholine.

Primary peripheral blood eosinophils rapidly degrade transfected granulocyte-macrophage colony-stimulating factor mRNA

Despite increasing interest, very little information exists regarding gene regulatory mechanisms employed by eosinophils. This largely stems from the difficulty in transfecting these primary cells. In this study, we demonstrate that peripheral blood eosinophils (PBEos) can be successfully transfected with both GM-CSF cDNA and mRNA and reporter constructs by particle-mediated gene transfer. The transfection efficiency was 1.2% based on green fluorescent protein-positive cells. Promoter studies revealed CMV-driven expression vectors were initially active but rapidly quenched, while viral long terminal repeats had greater activity, indicating that certain viral constructs may be relatively poor to direct the production of transgenic proteins in PBEos. Exogenous GM-CSF mRNA was readily delivered and detected by Northern blot, permitting determination of its t1/2 in the absence of transcriptional poisons. These data show PBEos rapidly degraded GM-CSF mRNA with a t1/2 of 8 min. Mutant GM-CSF mRNAs, lacking the AUUUA motifs, were more stable, but were still rapidly degraded, suggesting the existence of accessory, destabilizing elements. We were able to measure minute amounts of intracellular GM-CSF after the transfection of mutant GM-CSF mRNA, but extracellular cytokine was below the sensitivity of our ELISA. However, the presence of secreted GM-CSF was established by in vitro, survival bioassay. In conclusion, the existence of this new technology should allow detailed studies of eosinophil-specific transcriptional and posttranscriptional regulation.

[The transfer of foreign DNA by rabbit spermatozoa into hamster eggs]

Capacitated rabbit sperm was incubated with pCMVlacZ plasmid and then used to fertilize hamster oocytes liberated from zona pellucida. After treatment with DNase I, these oocytes were examined for the presence of exogenous DNA by PCR. DNA of pCMVlacZ was not found in oocytes after simple incubation with male gametes. The presence of DNA was recorded in the experiments where the sperms were treated with DMSO and subjected to heat shock prior to fertilization.

Enhancement of dendrimer-mediated transfection using synthetic lung surfactant exosurf neonatal in vitro

Pulmonary surfactants enhance adenovirus-mediated gene transfer but inhibit cationic liposome-mediated transfection in lung epithelial cells in vitro. This study examines the effect of the synthetic lung surfactant Exosurf on dendrimer-mediated transfection in eukaryotic cells. Exosurf significantly enhanced dendrimer-luciferase plasmid transfection in a number of cell lines and was very effective in primary cells. Luciferase expression increased up to 40-fold in primary normal human bronchial/tracheal epithelial cells (NHBE). FACScan analysis demonstrated that the transfection rate of the human T cell leukemia Jurkat cell line has significantly improved from 10 to 90% of cells at 24 h after transfection. Analysis of the components of Exosurf revealed that the nonionic surfactant tyloxapol was responsible for the enhancement of dendrimer-mediated gene transfer. The tyloxapol effect was due to increased cell membrane porosity and DNA uptake. Our results demonstrate that Exosurf and its component, tyloxapol, constitute a powerful enhancer for dendrimer-mediated gene transfer in vitro.

Citalopram and desmethylcitalopram in vitro: human cytochromes mediating transformation, and cytochrome inhibitory effects

BACKGROUND

Biotransformation of citalopram (CT), a newly available selective serotonin reuptake inhibitor antidepressant, to its principal metabolite, desmethycitalopram (DCT), and the capacity of CT and DCT to inhibit human cytochromes P450, were studied in vitro.

METHODS

Formation of DCT from CT was evaluated using human liver microsomes and microsomes from cDNA-transfected human lymphoblastoid cells. Cytochrome inhibition by CT and DCT in liver microsomes was studied using isoform-specific index reactions.

RESULTS

Formation of DCT from CT in liver microsomes had a mean apparent K(m) of 174 mumol/L. Coincubation with 1 mumol/L ketoconazole reduced reaction velocity to 46 to 58% of control values, while omeprazole, 10 mumol/L, reduced velocity to 80% of control. Quinidine produced minimal inhibition. DCT was formed from CT by heterologously expressed human P450-2D6, -2C19, -3A4. After accounting for the relative abundance of individual cytochromes, 3A4 and 2C19 were estimated to make major contributions to net reaction velocity, with a possible contribution of 2D6 at therapeutic CT concentrations. CT and DCT themselves produced negligible inhibition of 2C9, 2E1, and 3A, and only weak inhibition of 1A2, 2C19, and 2D6.

CONCLUSIONS

Formation of DCT from CT is mediated mainly by P450-3A4 and 2C19, with an additional contribution of 2D6. CT at therapeutic doses in humans may produce a small degree of inhibition of P450-1A2, -2C19, and -2D6, but negligible inhibition of P450-2C9, -2E1, and -3A.

Protective role for proteoglycans against cationic lipid cytotoxicity allowing optimal transfection efficiency in vitro

A dependence on proteoglycans for cationic lipid-mediated gene transfer has been suggested in previous studies [Mislick and Baldeschwieler (1996) Proc. Natl. Acad. Sci. U.S.A. 93, 12349-12354; Mounkes, Zhong, Cipres-Palacin, Heath and Debs (1998) J. Biol. Chem. 273, 26164-26170]. We have evaluated the mechanism of proteoglycan involvement in cationic lipid-mediated gene transfer. DNA plasmid uptake and gene expression were studied in wild-type Chinese hamster ovary (CHO) cells (CHO-K1), heparan sulphate-deficient CHO cells (pgsD-677) and proteoglycan-deficient CHO cells (pgsB-618). At an optimal ratio of cationic lipid to DNA, a substantial decrease in reporter gene expression was observed in proteoglycan-deficient cells compared with that in heparan sulphate-deficient and wild-type cells. However, there were no differences in reporter gene expression between the cell lines when transfected by electroporation. Moreover, all cell lines exhibited equal cationic-lipid-DNA complex uptake activities, as assessed by the measurement of intracellular (32)P-labelled and rhodamine-labelled DNA plasmid. An analysis of reflected-light images of wild-type and proteoglycan-deficient cells suggested that cationic lipids were preferentially toxic to proteoglycan-deficient cells. Cell-growth assays confirmed this, showing that cationic lipids exhibited a greater anti-proliferative activity in proteoglycan-deficient cells and in chlorate-treated wild-type cells than in the other cell lines. The growth-inhibitory effect of cationic lipids was abrogated by the addition of exogenous sulphated glycosaminoglycans. We conclude that the glycosaminoglycan part of proteoglycans serves a protective role against cationic lipid cytotoxicity, allowing optimal transfection efficiency in vitro.

The HSC73 molecular chaperone: involvement in MHC class II antigen presentation

Heat shock proteins (HSP) are conserved proteins, many of which share the ability for indiscriminate peptide binding and ATPase-coupled peptide release. In this paper, we show that heat shock cognate protein (HSC)73, a constitutively expressed member of the HSP70 family, could be a candidate for chaperone activity within the MHC class II presentation pathway. HSC73 expression in macrophages was shown to overlap with expression of MHC class II; overexpression of HSC73 in stable transfectants of a macrophage line markedly enhanced their presentation of exogenous Ag without affecting presentation of processing independent peptide. Ag from an exogenous source was demonstrated to associate with HSC73 in macrophages, and this association was sensitive to ATP treatment and inhibited by deoxyspergualin, an immunosuppressive agent that has previously been shown to bind specifically to HSC73. Furthermore, deoxyspergualin reduced Ag presentation by macrophages in relation to the amount of HSC73 expressed in these cells. The data are consistent with a potential role for HSC73 in binding and protecting peptides from extensive degradation and/or facilitating the kinetics of peptide transfer to MHC class II molecules.

Low levels of arsenic trioxide stimulate proliferative signals in primary vascular cells without activating stress effector pathways

Chronic human exposure to low levels of inorganic arsenic increases the incidence of vascular diseases and specific cancers. Exposure of endothelial cells to environmentally relevant concentrations of arsenic trioxide (arsenite) induces oxidant formation, activates the transcription factor NF-kappaB, and increases DNA synthesis (Barchowsky et al., Free Radic. Biol. Med. 21, 783-790, 1996). We show, in the current study, that arsenite induces concentration-dependent cell proliferation or death in primary porcine aortic endothelial cells. Low concentrations caused cell proliferation and were associated with increased superoxide and H(2)O(2) accumulation, cSrc activity, H(2)O(2)-dependent tyrosine phosphorylation, and NF-kappaB-dependent transcription. These concentrations were insufficient to activate MAP kinases. However, the MAP kinases, extracellular signal-regulated kinase and p38, were activated in response to levels of arsenite that caused cell death. These data suggest that arsenite-induced oxidant accumulation and subsequent activation of tyrosine phosphorylation represent a MAPK-independent pathway for phenotypic change and proliferation in vascular cells.

Characterization of vascular gene transfer using a novel cationic lipid

INTRODUCTION

Cationic liposomes are an alternative non-viral vector for gene therapy, but several factors affect transfection efficiency. A novel cationic lipid, o-ethyldioleoylphosphatidylcholinium (EDOPC), was studied for characterization of the time course and effects of lipid composition, concentration, charge ratio, mixing techniques, passage number, and stimulated state on transfection of human vascular cells, represented by human umbilical vein endothelial cells (HUVEC).

METHODS

HUVEC cultures were seeded at a density of 45,000 cells/well in 24-well plates and incubated overnight. Triplicate wells were transfected with samples of EDOPC/reporter plasmid for 2 h, followed by a 24-h expression time, which was the peak expression time point in an initial time-course experiment. Measuring luciferase in cell lysates quantitated gene expression.

RESULTS

Transfection of HUVEC with EDOPC was optimal with a concentration of 100 microgram lipid/well, ratio of 3:1 EDOPC:plasmid, fractional mixing of lipid and plasmid, centrifugation, and incubation in serum-free media. Transfections in sequential passages showed striking decreases in gene expression and regression analysis revealed the relationship: RLU = 120,000 - (10, 400 x passage number), r(2) = 0.947. HUVEC activated by cytokine stimulation remain susceptible to gene transfer specifically with EDOPC.

SUMMARY

During transfection of HUVEC with cationic lipid species, an increase in passage number is associated with linear reduction in luciferase expression, and hence passage number must be controlled in comparative experiments. Characteristics of EDOPC may permit site-specific efficient transfection of activated human vascular cells that can be isolated from serum by mechanical methods.

High efficiency gene transfer by multiple transfection protocol

A high efficiency transfection protocol employing a common polycationic lipid is described. Using LipofectAMINE, a widely used transfection reagent, we transfected 293T cells with a plasmid harboring the beta-galactosidase (beta-gal) gene. The transfection efficiency was determined by direct staining for X-gal. The conventional transfection protocol achieved an efficiency of <40% while our protocol, which employs the repetition of transfection a few times, achieved an efficiency of approximately 80%. Thus, a dramatic increase in transfection efficiency can be obtained by simply repeating transfection with the use of a common polycationic lipid. This method will be useful in many molecular biological experiments.

Lead activates nuclear transcription factor-kappaB, activator protein-1, and amino-terminal c-Jun kinase in pheochromocytoma cells

Lead (Pb) is a ubiquitous environmental contaminant that produces variety of effects on the central and peripheral nervous system, induces inflammatory response, and modulates immune functions. Though increase in lipid peroxidation and reactive oxygen intermediates (ROI) have been observed in Pb-induced toxicity, the molecular mechanism underlying these effects is largely unknown. Since nuclear factor kappa B (NF-kappaB) and activator protein (AP-1) are known to be activated by oxidative stress, we hypothesized that Pb-induced effects may be modulated via these transcription factors. The effects of Pb on NF-kappaB, AP-1, and related kinases were studied in pheochromocytoma cells (PC-12). Our results showed that treatment of murine PC-12 cells with Pb resulted in activation of NF-kappaB and degradation of IkappaBalpha (the inhibitory subunit of NF-kappaB). Pb-induced NF-kappaB dependent gene expression was also enhanced. The binding of Pb-induced NF-kappaB to DNA was blocked by antibodies for p65 and p50 but not by c-Rel or nonspecific antibodies such as cyclin D-1 and preimmune serum, suggesting that NF-kappaB consisted of p65 and p50 subunits. Similar to its effects on NF-kappaB, Pb also activated AP-1 in a time- and dose-dependent manner. Besides activating these transcription factors, Pb was also found to upregulate the related kinases such as mitogen activated protein kinase kinase (MEK) and c-Jun N-terminal kinase (JNK) (also known as stress-activated protein kinase) in a dose- and time-dependent manner. Thus, these results suggest that NF-kappaB, AP-1, MEK, and JNK may be important mediators of Pb-induced signaling in gene expression mediating inflammatory response and immunomodulation.

Structural and functional analysis of the LaMDR1 multidrug resistance gene in Leishmania amazonensis

We determined primary sequences of the LaMDR1 gene in Leishmania amazonensis, a protozoan parasite that causes cutaneous leishmaniasis. The longest open reading frame encodes 1341 amino acids for a protein consisting of two similar halves, each containing six putative transmembrane domains and one ATP-binding domain. The protein has no potential N-glycosylation sites at the extracellular region. The LaMDR1 protein was 91 and 78% identical to the closely related ldmdr1 in L. donovani and lemdr1 in L. enriettii, respectively, revealing less conservation in the C-terminal than in the N-terminal transmembrane domains. Transfection of LaMDR1 conferred a multidrug resistance phenotype to wild-type promastigotes, which exhibited a significant level of resistance to vinblastine, doxorubicin, and actinomycin D, but not to puromycin and colchicine. This drug specificity of LaMDR1 was overlapping with but distinct from that of ldmdr1, suggesting functional diversity of MDR1 proteins among different Leishmania species.

N-linked glycosylation sites determine HERG channel surface membrane expression

1. Long QT syndrome (LQT) is an electrophysiological disorder that can lead to sudden death from cardiac arrhythmias. One form of LQT has been attributed to mutations in the human ether-a-go-go-related gene (HERG) that encodes a voltage-gated cardiac K+ channel. While a recent report indicates that LQT in some patients is associated with a mutation of HERG at a consensus extracellular N-linked glycosylation site (N629), earlier studies failed to identify a role for N-linked glycosylation in the functional expression of voltage-gated K+ channels. In this study we used pharmacological agents and site-directed mutagenesis to assess the contribution of N-linked glycosylation to the surface localization of HERG channels. 2. Tunicamycin, an inhibitor of N-linked glycosylation, blocked normal surface membrane expression of a HERG-green fluorescent protein (GFP) fusion protein (HERGGFP) transiently expressed in human embryonic kidney (HEK 293) cells imaged with confocal microscopy. 3. Immunoblot analysis revealed that N-glycosidase F shifted the molecular mass of HERGGFP, stably expressed in HEK 293 cells, indicating the presence of N-linked carbohydrate moieties. Mutations at each of the two putative extracellular N-linked glycosylation sites (N598Q and N629Q) led to a perinuclear subcellular localization of HERGGFP stably expressed in HEK 293 cells, with no surface membrane expression. Furthermore, patch clamp analysis revealed that there was a virtual absence of HERG current in the N-glycosylation mutants. 4. Taken together, these results strongly suggest that N-linked glycosylation is required for surface membrane expression of HERG. These findings may provide insight into a mechanism responsible for LQT2 due to N-linked glycosylation-related mutations of HERG.

Transfection of human macrophages by lipoplexes via the combined use of transferrin and pH-sensitive peptides

The crucial function of macrophages in a variety of biological processes and pathologies render these cells important targets for gene therapeutic interventions. Commonly used synthetic gene delivery vectors have not been successful in transfecting these non-dividing cells. A combination strategy involving cationic liposomes to condense and carry DNA, transferrin to facilitate cellular uptake, and the pH-sensitive peptide GALA to promote endosome destabilization, resulted in significant expression of a luciferase gene. Transfection of macrophages was dependent on the degree of differentiation of the cells. The quaternary complexes of cationic liposomes, DNA, transferrin, and GALA exhibited a net negative charge, which may obviate a limitation of cationic synthetic vectors in vivo. The lack of cytotoxicity and the expected lack of immunogenicity of these complexes may render them useful for gene delivery to macrophages in vivo.

Interactions of polymeric and liposomal gene delivery systems with extracellular glycosaminoglycans: physicochemical and transfection studies

Complexes of DNA with cationic lipids and cationic polymers are frequently used for gene transfer. Extracellular interactions of the complexes with anionic glycosaminoglycans (GAGs) may interfere with gene transfer. Interactions of GAGs with the carrier-DNA complexes were studied using tests for DNA relaxation (ethidium bromide intercalation), DNA release (electrophoresis), and transfection (pCMVbetaGal transfer into RAA smooth muscle cells). Several cationic lipid formulations (DOTAP, DOTAP/Chol, DOTAP/DOPE, DOTMA/DOPE, DOGS) and cationic polymers (fractured dendrimer, polyethylene imines 25 kDa and 800 kDa, polylysines 20 kDa and 200 kDa) were tested. Polycations condensed DNA more effectively than the monovalent lipids. Hyaluronic acid did not release or relax DNA in any complex, but it inhibited the transfection by some polyvalent systems (PEI, dendrimers, DOGS). Gene transfer by the other carriers was not affected by hyaluronic acid. Sulfated GAGs (heparan sulfate, chondroitin sulfates B and C) completely blocked transfection, except in the case of the liposomes with DOPE. Sulfated GAGs relaxed and released DNA from some complexes, but these events were not prerequisites for the inhibition of transfection. In conclusion, polyvalent delivery systems with endosomal buffering capacity (DOGS, PEI, dendrimer) were most sensitive to the inhibitory effects of GAGs on gene transfer, while fusogenic liposomes (with DOPE) were the most resistant systems.

Fluorescence-based selection of gene-corrected hematopoietic stem and progenitor cells from acid sphingomyelinase-deficient mice: implications for Niemann-Pick disease gene therapy and the development of improved stem cell gene transfer procedures

The general utility of a novel, fluorescence-based procedure for assessing gene transfer and expression has been demonstrated using hematopoietic stem and progenitor cells. Lineage-depleted hematopoietic cells were isolated from the bone marrow or fetal livers of acid sphingomyelinase-deficient mice, and retrovirally transduced with amphotropic or ecotropic vectors encoding a normal acid sphingomyelinase (ASM) cDNA. Anti-c-Kit antibodies were then used to label stem- and progenitor-enriched cell populations, and the Bodipy fluorescence was analyzed in each group after incubation with a Bodipy-conjugated sphingomyelin. Only cells expressing the functional ASM (ie, transduced) could degrade the sphingomyelin, thereby reducing their Bodipy fluorescence as compared with nontransduced cells. The usefulness of this procedure for the in vitro assessment of gene transfer into hematopoietic stem cells was evaluated, as well as its ability to provide an enrichment of transduced stem cells in vivo. To show the value of this method for in vitro analysis, the effects of retroviral transduction using ecotropic versus amphotropic vectors, various growth factor combinations, and adult bone marrow versus fetal liver stem cells were assessed. The results of these studies confirmed the fact that ecotropic vectors were much more efficient at transducing murine stem cells than amphotropic vectors, and that among the three most commonly used growth factors (stem cell factor [SCF] and interleukins 3 and 6 [IL-3 and IL-6]), SCF had the most significant effect on the transduction of stem cells, whereas IL-6 had the most significant effect on progenitor cells. In addition, it was determined that fetal liver stem cells were only approximately twofold more "transducible" than stem cells from adult bone marrow. Transplantation of Bodipy-selected bone marrow cells into lethally irradiated mice showed that the number of spleen colony-forming units that were positive for the retroviral vector (as determined by polymerase chain reaction) was 76%, as compared with 32% in animals that were transplanted with cells that were nonselected. The methods described within this manuscript are particularly useful for evaluating hematopoietic stem cell gene transfer in vivo because the marker gene used in the procedure (ASM) encodes a naturally occurring mammalian enzyme that has no known adverse effects, and the fluorescent compound used for selection (Bodipy sphingomyelin) is removed from the cells before transplantation.

Identification of a homologue of CD59 in a cyclostome: implications for the evolutionary development of the complement system

We have employed a COS cell expression cloning procedure to isolate a full length cDNA clone encoding a hagfish leukocyte-associated membrane protein (HLMP1). The protein, which is identified by a monoclonal antibody (JB3) generated in our laboratory, is present on the majority of hagfish leukocytes and is also expressed on erythrocytes. The cDNA clone contained an open reading frame encoding a 120 residue polypeptide which exhibits 33% amino acid sequence identity with the precursor protein of human CD59, a leukocyte-associated membrane protein which regulates the action of the complement membrane attack complex on homologous cells. CD59 belongs to a family of structurally related glycoproteins which includes the Ly-6 proteins expressed on mouse lymphocytes. In addition to significant overall sequence homology HLMP1 shows conservation of 8 key cysteine residues with members of the CD59/Ly-6 family. Comparison of the hagfish sequence with that of the mature human CD59 protein suggested a processed protein consisting of 74 amino acids associated with the cell membrane via a GPI anchor. The latter was confirmed by immuno-flow cytometry following treatment of transfected COS cells with phospholipase. Phylogenetic analysis and tissue distribution of this protein in the hagfish are consistent with HLMP1 being a homologue of CD59. A three-dimensional model of HLMP1, constructed using the NMR-determined structure for human CD59 as a template, indicated conservation of a core structure of five strands of beta-sheet and a short helix stabilised by four disulfide bonds. These findings, when taken together with our previous identification of C5a-like chemotactic activity in LPS-activated serum, provide indirect evidence for the existence of the terminal lytic complement pathway (C5 to C9) in these primitive vertebrates.

Gene transfer by DNA-gelatin nanospheres

A DNA and gelatin nanoparticle coacervate containing chloroquine and calcium, and with the cell ligand transferrin covalently bound to the gelatin, has been developed as a gene delivery vehicle. In this study, the coacervation conditions which resulted in the formation of distinct nanoparticles are defined. Nanospheres formed within a narrow range of DNA concentrations and achieved incorporation of more than 98% of the DNA in the reaction. Crosslinking of gelatin to stabilize the particles does not effect the electrophoretic mobility of the DNA. DNA in the nanosphere is partially resistant to digestion with concentrations of DNase I that result in extensive degradation of free DNA but is completely degraded by high concentrations of DNase. Optimum cell transfection by nanosphere DNA required the presence of calcium and nanospheres containing transferrin. The biological integrity of the nanosphere DNA was demonstrated with a model system utilizing DNA encoding the cystic fibrosis transport regulator (CFTR). Transfection of cultured human tracheal epithelial cells (9HTEo) with nanospheres containing this plasmid resulted in CFTR expression in over 50% of the cells. Moreover, human bronchial epithelial cells (IB-3-1) defective in CFTR-mediated chloride transport were complemented with effective transport activity when transfected with nanospheres containing the CFTR transgene.

CD11/CD18 and CD14 share a common lipid A signaling pathway

The activation of phagocytes by the lipid A moiety of LPS has been implicated in the pathogenesis of Gram-negative sepsis. While two LPS receptors, CD14 and CD11/CD18, have been associated with cell signaling, details of the LPS signal transduction cascade remain obscure. CD14, which exists as a GPI-anchored and a soluble protein, lacks cytoplasmic-signaling domains, suggesting that an ancillary molecule is required to activate cells. The CD11/CD18 integrins are transmembrane proteins. Like CD14, they are capable of mediating LPS-induced cellular activation when expressed on the surface of hamster fibroblasts Chinese hamster ovary (CHO)-K1. The observation that a cytoplasmic deletion mutant is still capable of activating transfected CHO-K1 argues that CD11/CD18 also utilizes an associated signal transducer. We sought to identify further similarities between the signaling systems utilized by CD14 and CD11/CD18. LPS-binding protein, which transfers LPS to CD14, enhanced both LPS-induced cellular activation and binding of Gram-negative bacteria in CD11/CD18-transfected CHO-K1, thus implying that LPS-binding protein can also transfer LPS to CD11/CD18. When synthetic lipid A analogues were analyzed for their ability to function as LPS agonists, or antagonists, in the CHO transfectants, we found the effects were identical regardless of which LPS receptor was expressed. This supports the hypothesis that a receptor distinct from CD14 and CD11/CD18 is responsible for discriminating between the lipid A of LPS and the LPS antagonists. We propose that this receptor, which is the target of the LPS antagonists, functions as the true signal transducer in LPS-induced cellular activation for both CD14 and CD11/CD18.

The effect of synthetic surfactant Exosurf on gene transfer in mouse lung in vivo

Gene transfer in the lung holds promise for the treatment of diseases such as pulmonary fibrosis, cystic fibrosis and asthma. Pulmonary surfactant has been reported to enhance expression from endobronchial, adenovirus-mediated gene transfer in experimental animals. This study examines the effect of exogenous synthetic surfactant (Exosurf) on gene expression from naked plasmid DNA administered endobronchially to adult mice. Transfection efficiency was evaluated by quantifying the expression of chloramphenicol acetyltransferase (CAT) and luciferase (Luc) genes in the lung. Endobronchial administration of either CAT or Luc expression plasmid DNA resulted in detectable concentrations of each reporter protein. CAT expression from plasmid DNA was monitored after endobronchial administration with the maximal expression observed at 3-5 days after administration and decreasing for 5 days thereafter. When DNA was delivered in a 50% suspension of Exosurf, the expression of either CAT or Luc was significantly reduced by 89.6 +/- 1.4% and 82.7 +/- 10.5%, respectively. The decrease in Luc expression was closely correlated (r = 0.99, P < 0.001) to log concentration of surfactant in the plasmid buffer solution (IC50 = 8.6%). CAT expression was not altered when surfactant was administered either 2 h before or after plasmid DNA instillation. Examination of the components of Exosurf revealed that two compounds, DPPC and tyloxapol, showed inhibitory effects on CAT expression. However, the inhibition caused by Exosurf appeared greater than that of either component. Our results suggest that the lung surfactant is a barrier to transfection of the endobronchial airway and may be partly responsible for the low expression of exogenous DNA in vivo in the bronchial tree.

Optimal lipofection reagent varies with the molecular modifications of the DNA

Cationic lipid reagents differ in their cytofection efficacy with different cell types. No evidence has addressed whether the same lipid reagent is best for different DNAs in a single cell line. Immortalized avian embryonic cardiomyocytes cultured in vitro were tested with 15 cationic lipid reagents using (A) a beta-gal expression plasmid, (B) a fluorescein-tagged, phosphorothioate-modified ODN B, (C) a fluorescein-tagged, ethoxy-modified ODN C with the same nucleotide sequence as ODN B, and (D) a fluorescein-tagged, phosphorothioate-modified ODN D with a different nucleotide sequence from ODNs B and C. Cytofection was scored as percent of cells expressing beta-gal activity or showing diffuse cellular fluorescence. The best lipid reagents for the phosphorothioate-modified ODNs were ODN-specific and markedly different from the best lipid reagents for the expression plasmid or for the ethoxy-modified ODN. These results suggest that the best cationic lipid reagent for a particular cell type varies with the physical and chemical form of the DNA being transfected into the cells.

A comparison of calcium phosphate coprecipitation and electroporation. Implications for studies on the genetic effects of DNA damage

Plasmid-based transfection assays provide a rapid means to measure homologous and nonhomologous recombination in mammalian cells. Often it is of interest to examine the stimulation of recombination by DNA damage induced by radiation, genotoxic chemicals, or nucleases. Transfection is frequently performed by using calcium phosphate coprecipitation (CPP), because this method is well suited for handling large sample sets, and it does not require expensive reagents or equipment. Alternative transfection methods include lipofection, microinjection, and electroporation. Since DNA strand breaks are known to stimulate both homologous and nonhomologous recombination, the induction of nonspecific damage during transfection would increase background recombination levels and thereby reduce the sensitivity of assays designed to detect the stimulation of recombination by experimentally induced DNA damage. In this article, we compare the stimulatory effects of nuclease-induced double-strand breaks (DSBs) on homologous and nonhomologous recombination for molecules transfected by CPP and by electroporation. Although electroporation yielded fewer transfectants, both nonhomologous and homologous recombination were stimulated by nuclease-induced DSBs to a greater degree than with CPP. Ionizing radiation is an effective agent for inducing DNA strand breaks, but previous studies using CPP generally showed little or no stimulation of homologous recombination among plasmids damaged with ionizing radiation. By contrast, we found clear dose-dependent enhancement of recombination with irradiated plasmids transfected using electroporation. Thus, electroporation provides a higher signal-to-noise ratio for transfection-based studies of damage-induced recombination, possibly reflecting less nonspecific damage to plasmid DNA during transfection of mammalian cells.

Specific interaction of 5-HT-moduline with human 5-HT1b as well as 5-HT1d receptors expressed in transfected cultured cells

5-HT1B receptors are the predominant auto- and heteroreceptors located on serotonergic and non-serotonergic terminals where they regulate the neuronal release of neurotransmitters. 5-HT-moduline (Leu-Ser-Ala-Leu) has been shown to specifically interact with a very high apparent affinity and in a non-competitive manner with 5-HT1B receptors (Massot et al. 1996; Rousselle et al. 1996). Using transfected cells expressing either 5-HT1B or 5-HT1D receptors, it was shown that 5-HT-moduline prevents the binding of [3H]5-HT to 5-HT1B as well as to 5-HT1D receptors with similar biochemical characteristics: the IC50 of the peptide was 1.2x10(-12) M for 5-HT1B and 9x10(-13) M for 5-HT1D receptors. The observed effect corresponds to a marked decrease of the maximal binding for [3H]5-HT on 5-HT1B (-51.2 +/- 1%) as well as 5-HT1D binding (-47.2 +/- 7.7% of the control binding) whereas the affinity of 5-HT is increased by a factor close to 3. No effect is observed using the "scrambled" peptide (Ala-Leu-Leu-Ser). Parallel assays using transfected cells expressing 5-HT1A or 5-ht6 receptors did not show any significant change induced by the peptide under similar assay conditions. The interaction of the peptide was also studied on the functional activity related to the stimulation of the receptors as measured by the increase in [35S]GTPgammaS binding reflecting the coupling of the receptor to the G-protein. 5-HT-moduline yields an antagonistic effect on the 5-HT induced coupling with a corresponding IC50 = 1.2 +/- 0.7x10(-12) M for 5-HT1B and 9.8 +/- 4.0x10(-12) M for 5-HT1D receptors, respectively. The present results demonstrate that 5-HT-moduline interacts with 5-HT1D as well as 5-HT1B receptors and possesses a non-competitive antagonistic activity, likely corresponding to its role of endogenous allosteric modulator, specific for both 5-HT1B and 5-HT1D receptors.

Enhanced gene transfer into HuH-7 cells and primary rat hepatocytes using targeted liposomes and polyethylenimine

Different ratios of DNA phosphate to polyethylenimine amine were used for encapsulation and delivery to liver cells of chloramphenicol acetyl transferase (CAT) or luciferase expression plasmids in cationic, neutral and anionic liposomes. Positive liposomes consisted of dioleoyl phosphatidylcholine (DOPC): dioleoyl trimethylammonium propane (DOTAP) (6:1 molar ratio); neutral liposomes were composed of DOPC and dioleoyl phosphatidylethanolamine (DOPE) (1:1); and negative liposomes contained dioleoyl phosphatidylserine (DOPS) and DOPC (1:1). All formulations included 8 mol% galatocerebroside for targeting to the hepatocyte asialoglycoprotein receptor. Liposomes were prepared by film hydration followed by sequential extrusion through 0.8-0.2 mumol polycarbonate membranes. Transfection efficiency of HuH-7 human hepatoma cells and isolated rat hepatocytes was determined by CAT enzyme-linked immunosorbent assay (ELISA) or luciferase activity. Uptake of liposomal-encapsulated, fluorescently labeled 68-mer oligonucleotides was assessed by confocal microscopy. All three formulations demonstrated a twofold or greater increase in transfection efficiency and significantly lower toxicity compared to nonencapsulated polyethylenimine complexes. Negative liposomes were most effective, particularly in the rat hepatocytes. Only the cationic and anionic liposomal formulations exhibited significant thermodynamic stability. These formulations are readily characterized for size, phospholipid and DNA content, and they represent feasible systems for optimizing in vivo delivery systems to hepatocytes.

A new efficient method for transfection of neonatal cardiomyocytes using histone H1 in combination with DOSPER liposomal transfection reagent

Although cationic lipids are successfully used for gene transfer in vitro, primary cells such as neonatal cardiomyocytes frequently resist efficient transfection. We show here that the polycationic lipid DOSPER in combination with histone H1 was much more efficient in transfection of neonatal cardiomyocytes than DOSPER alone or other cationic lipids. This has been shown for transfection with the reporter plasmids pSV beta-gal and pCMV luc. If viral transfections are not possible, this mild method is an alternative to transfect cardiomyocytes.

Free liposomes enhance the transfection activity of DNA/lipid complexes in vivo by intravenous administration

Factors that regulate the transfection efficiency of cationic lipid-based carriers are still largely unknown. We have shown in a previous report [F. Liu, H.W. Qi, L. Huang, D. Liu, Factors controlling the efficiency of cationic lipid-mediated transfection in vivo via intravenous administration, Gene Ther., 4 (1997) 517-523. ] that the transfection efficiency, to the lung, of a lipid formulation composed of N-[1-(2,3-dioleoyloxy)propyl-N,N, N-trimethylammonium chloride (DOTMA) and Tween 80 is directly proportional to the ratio of DOTMA to DNA. In this study, we investigated the mechanism underlying the high cationic lipid to DNA ratio dependent transfection activity. Specifically, we have examined the role of free cationic liposomes in affecting the transfection efficiency of the DNA/lipid complexes in vivo by intravenous administration. The data show that greater transfection activity of DNA/lipid complexes in the lung at a higher cationic lipid to DNA ratio is due to the function of free liposomes present in the DNA/lipid mixture. Free liposomes enhance the transfection activity of DNA/lipid complexes by increasing the retention time of DNA and decreasing transgene degradation in different organs. In addition to DOTMA liposomes, liposomes composed of 1,2-dioleoyl-3-trimethylammonium propane chloride (DOTAP) and 3beta[N-(N', N'-dimethylaminoethane) carbamoyl] cholesterol (DC-Chol) also enhance the level of gene expression in animals transfected by DNA/DOTMA complexes. These results suggest that inclusion of free liposomes into the DNA/lipid complexes may be important in achieving an optimal transfection activity in vivo.

Transduction of human trophoblastic cells by replication-deficient recombinant viral vectors. Promoting cellular differentiation affects virus entry

We investigated the transfer of the lacZ reporter gene into human trophoblastic cells using herpes simplex virus and adeno-associated virus vectors. We used an established choriocarcinoma cell line (BeWo cells) that can be induced to terminally differentiate after treatment with cyclic-AMP. Our results demonstrate that transduction of trophoblastic cells by the herpes simplex virus vector, HSV.CMVlac, and the adeno-associated virus vector, AAV.CMVlac, is affected by cellular differentiation. Treatment of BeWo cells with cyclic-AMP reduced transduction by HSV.CMVlac but increased transduction by the AAV vector. In contrast, when BeWo cells were transfected with herpes simplex virus and adeno-associated virus plasmids, lacZ expression was not affected by treatment with cyclic-AMP. Southern blot analysis demonstrated 2.75 times less herpes simplex virus DNA in cyclic-AMP treated BeWo cells, but 2.0 to 7.4 times more adeno-associated virus DNA in treated cells. We conclude that inefficient transduction of differentiated trophoblastic cells with HSV.CMVlac is because of diminished viral entry, whereas cellular differentiation is associated with increased entry of AAV.CMVlac. These observations suggest that adeno-associated virus vectors may be used to modify trophoblast function and study placental physiology. Additionally, trophoblast differentiation leads to alterations in the mechanisms of virus uptake that may affect maternal-to-fetus transmission.

Mutagenesis by peroxy radical is dominated by transversions at deoxyguanosine: evidence for the lack of involvement of 8-oxo-dG1 and/or abasic site formation

Oxidative damage of DNA by endogenously generated oxygen radicals contributes to the mutagenic process. Hydroxy, alkoxy, and peroxy radicals all have the potential to react with DNA, giving rise to strand breaks and potentially mutagenic oxidative base damage. Although reactions of the hydroxy radical with DNA have been well studied, far less is known about the reactivities of these other radicals with DNA and their mutation-inducing potential. Frequencies of DNA base modifications and strand break densities caused by peroxy radical (ROO*) oxidation were measured by glyoxal gel electrophoretic analysis. We report the spectrum of mutations induced in Escherichia coli upon transfection with peroxy radical treated DNA carrying the lacZ alpha gene as a reporter. Transfection of DNA exposed to micromolar amounts of peroxy radical resulted in a 30-fold increase in mutation frequency in non-SOS-inducible cells. Sequencing analysis of DNA isolated from mutants showed that among base substitution mutants 88% consisted of transversions at G, with a nearly equal number of G --> C and G --> T mutants. Transition mutations were rarely detected, in contrast to control experiments. Electrophoretic analysis of peroxy radical treated DNA exposed to NaOH, Nth, and Fpg proteins demonstrated that abasic sites are not formed to any detectable degree. The oxidative G lesions are sensitive to digestion by the Fpg protein. We were unable to detect the formation of 8-oxo-dG by HPLC/electrochemical analysis of peroxy radical oxidation of dG, suggesting that the G --> T transversions were not caused by this base lesion.

Novel vectors for gene delivery formed by self-assembly of DNA with poly(L-lysine) grafted with hydrophilic polymers

Complexes formed between DNA and cationic polymers are attracting increasing attention as novel synthetic vectors for delivery of genes. We are trying to improve biological properties of such complexes by oriented self-assembly of DNA with cationic-hydrophilic block copolymers, designed to enshroud the complex within a protective hydrophilic polymer corona. Poly(L-lysine) (pLL) grafted with range of hydrophilic polymer blocks, including poly(ethylene glycol) (pEG), dextran and poly[N-(2-hydroxypropyl)methacrylamide] (pHPMA), shows efficient binding to DNA and mediates particle self-assembly and inhibition of ethidium bromide/DNA fluorescence. The complexes formed are discrete and typically about 100 nm diameter, viewed by atomic force microscopy. Surface charges are slightly shielded by the presence of the hydrophilic polymer, and complexes generally show decreased cytotoxicity compared with simple pLL/DNA complexes. pEG-containing complexes show increased transfection activity against cells in vitro. Complexes formed with all polymer conjugates showed greater aqueous solubility than simple pLL/DNA complexes, particularly at charge neutrality. These materials appear to have the ability to regulate the physicochemical and biological properties of polycation/DNA complexes, and should find important applications in packaging of nucleic acids for specific biological applications.

Improving stable transfection efficiency: antioxidants dramatically improve the outgrowth of clones under dominant marker selection

Many cell lines are sensitive to growth at low cell density and undergo apoptosis induced by oxidative stress if the cell density is decreased below a critical threshold. In stable transfection experiments this cell density-dependent growth may be the limiting factor, since during drug selection the cell density falls below the critical threshold, precluding outgrowth of transfected clones. We describe here a simple protocol for the establishment of stably transfected human B cell lines making use of the protective action of antioxidants. The protocol includes: (i) seeding the cells in medium supplemented with sodium pyruvate, alpha-thioglycerol and bathocuproine disulfonate; (ii) delaying the onset of dominant marker selection to improve recovery of the cells after electroporation. Stably transfected clones have thus been obtained from Burkitt's lymphoma lines, which have been regarded as untransfectable. Using this protocol the stable transfection efficiency with episomal plasmids approaches the transient transfection efficiency, indicating that virtually every transfected cell can be established as a stably transfected clone. This protocol should also prove useful for other cell lines, e.g. neuronal cells, having similar sensitivities to oxidative stress.

Effects of cis-diamminedichloroplatinum(II) on Escherichia coli and bacteriophage systems

The effects of cis-diamminedichloroplatinum(II) (cisplatin) on Escherichia coli cells and bacteriophages were investigated. The bacteriocidal effect of cisplatin was stronger on uvrA or recA mutants than on wild type cells. The drug, like UV, induced prophage development in lysogenic bacteria. Host cell reactivation of alpha3 replicative form (RF) I DNA treated with cisplatin in vitro was more efficient in wild type or recA cells than in uvrA host. When wild type cells were exposed to cisplatin, decay of the host's capacity to sustain the viral multiplication proceeded nearly in parallel with the loss of colony-forming ability, whereas the capacity of uvrA mutant was much more resistant to the drug, as compared with the viability. In the DNA preparation from cisplatin-treated alpha3-infected wild type cells, RF II was deficient, but the RF I molecules extracted from the cells were moderately infective. The microvirid gene A protein, required for RF I-->RF II conversion, was hardly detectable in wild type cells exposed to cisplatin. The possible relationship between uvr+-dependent repair and synthesis of the viral protein is discussed.

Polybrene increases the efficiency of gene transfer by lipofection

Lipofection involves the introduction of foreign genetic information into mammalian cells through the use of lipophilic reagents that enhance cellular uptake of polynucleotides. Despite the use of currently optimized lipofection conditions, including the use of serum-depleted media, the efficiency of gene transfer is often low. We show here that, in a variety of cell lines, polybrene markedly enhances the efficiency of lipofection under standardized conditions and also compensates the serum-mediated inhibition of lipofection. Although the degree of the polybrene effect depends on the nature of the cell line, these results indicate that individually optimized concentrations of polybrene can be useful for increasing the efficiency of lipofectin-mediated gene transfer in vitro.

Size, diffusibility and transfection performance of linear PEI/DNA complexes in the mouse central nervous system

Currently in vivo gene delivery by synthetic vectors is hindered by the limited diffusibility of complexes in extra-cellular fluids and matrices. Here we show that certain formulations of plasmid DNA with linear polyethylenimine (22 kDa PEI, ExGene 500) can produce complexes that are sufficiently small and stable in physiological fluids so as to provide high diffusibility. When plasmid DNA was formulated with 22 kDa PEI in 5% glucose, it produced a homogeneous population of complexes with mean diameters ranging from 30 to 100 nm according to the amount of PEI used. In contrast, formulation in physiological saline produced complexes an order of magnitude greater (> or = 1 micron). Intraventricular injection of complexes formulated in glu-cose showed the complexes to be highly diffusible in the cerebrospinal fluid of newborn and adult mice, diffusing from a single site of injection throughout the entire brain ventricular spaces. Transfection efficiency was followed by histochemistry of beta-galactosidase activity and double immunocytochemistry was used to identify the cells transfected. Transgene expression was found in both neurons and glia adjacent to ventricular spaces. Thus, this method of formulation is promising for in vivo work and may well be adaptable to other vectors and physiological models.