Transfection by cationic gemini lipids and surfactants.

Diseases that are linked to defective genes or mutations can in principle be cured by gene therapy, in which damaged or absent genes are either repaired or replaced by new DNA in the nucleus of the cell. Related to this, disorders associated with elevated protein expression levels can be treated by RNA interference via the delivery of siRNA to the cytoplasm of cells. Polynucleotides can be brought into cells by viruses, but this is not without risk for the patient. Alternatively, DNA and RNA can be delivered by transfection, i.e. by non-viral vector systems such as cationic surfactants, which are also referred to as cationic lipids. In this review, recent progress on cationic lipids as transfection vectors will be discussed, with special emphasis on geminis, surfactants with 2 head groups and 2 tails connected by a spacer.

Critical role of cytosolic phospholipase A2{alpha} in bronchial mucus hypersecretion in CFTR-deficient mice.

Cystic fibrosis (CF) is due to mutations in the CF transmembrane conductance regulator gene CFTR. CF is characterised by mucus dehydration, chronic bacterial infection and inflammation, and increased levels of cytosolic phospholipase A2α (cPLA2α) products in airways. We aimed to examine the role of cPLA2α in the modulation of mucus production and inflammation in CFTR-deficient mice and epithelial cells. Mucus production was assessed using histological analyses, immuno-histochemistry and MUC5AC ELISA. cPLA2α activation was measured using an enzymatic assay and lung inflammation determined by histological analyses and polymorphonuclear neutrophil counts in bronchoalveolar lavages. In lungs from Cftr(-/-) mice, lipopolysaccharide induced mucus overproduction and MUC5AC expression associated with an increased cPLA2α activity. Mucus overproduction was mimicked by instillation of the cPLA2α product arachidonic acid, and abolished by either a cPLA2α null mutation or pharmacological inhibition. An increased cPLA2α activity was observed in bronchial explants from CF patients. CFTR silencing induced cPLA2α activation and MUC5AC expression in bronchial human epithelial cells. This expression was enhanced by arachidonic acid and reduced by cPLA2α inhibition. However, inhibition of CFTR chloride transport function had no effect on MUC5AC expression. Reduction of CFTR expression increased cPLA2α activity. This led to an enhanced mucus production in airway epithelia independent of CFTR chloride transport function. cPLA2α represents a suitable new target for therapeutic intervention in CF.

Baculovirus infection of nondividing mammalian cells: mechanisms of entry and nuclear transport of capsids.

We have studied the infection pathway of Autographa californica multinuclear polyhedrosis virus (baculovirus) in mammalian cells. By titration with a baculovirus containing a green fluorescent protein cassette, we found that several, but not all, mammalian cell types can be infected efficiently. In contrast to previous suggestions, our data show that the asialoglycoprotein receptor is not required for efficient infection. We demonstrate for the first time that this baculovirus can infect nondividing mammalian cells, which implies that the baculovirus is able to transport its genome across the nuclear membrane of mammalian cells. Our data further show that the virus enters via endocytosis, followed by an acid-induced fusion event, which releases the nucleocapsid into the cytoplasm. Cytochalasin D strongly reduces the infection efficiency but not the delivery of nucleocapsids to the cytoplasm, suggesting involvement of actin filaments in cytoplasmic transport of the capsids. Electron microscopic analysis shows the cigar-shaped nucleocapsids located at nuclear pores of nondividing cells. Under these conditions, we observed the viral genome, major capsid protein, and electron-dense capsids inside the nucleus. This suggests that the nucleocapsid is transported through the nuclear pore. This mode of transport seems different from viruses with large spherical capsids, such as herpes simplex virus and adenovirus, which are disassembled before nuclear transport of the genome. The implications for the application of baculovirus or its capsid proteins in gene therapy are discussed.

A multi-domain protein for beta1 integrin-targeted DNA delivery.

The development of effective receptor-targeted nonviral vectors for use in vivo is complicated by a number of technical problems. One of these is the low efficiency of the conjugation procedures used to couple protein ligands to the DNA condensing carrier molecules. We have made and characterized a multi-domain protein (SPKR)4inv, that is designed to target plasmid DNA to beta1 integrins in remodeling tissue. It contains a nonspecific DNA-binding domain (SPKR)4, a rigid alpha-helical linker, and the C-terminal beta1 integrin binding domain (aa 793-987) of the Yersinia pseudotuberculosis invasin protein. (SPKR)4inv could be purified at high yields using a bacterial expression system. We show that (SPKR)4inv binds with high affinity to both plasmid DNA and beta1 integrins. In a cell attachment assay, the apparent affinity of (SPKR)4inv for beta1 integrins is three orders of magnitude higher than that of the synthetic peptide integrin ligand RGDS. (SPKR)4inv-plasmid complexes are not active in an in vitro transfection assay. However, transfection efficiencies of plasmid complexes with a cationic lipid micelle (DOTAP/Tween-20) or a cationic polymer (polyethylenimine), are significantly increased in combination with (SPKR)4inv. (SPKR)4inv-mediated transfection can be inhibited by a soluble form of beta1 integrin, which is evidence for its receptor specificity. In conclusion, (SPKR)4inv allows beta1 integrin-specific targeting of plasmid-carrier complexes, while avoiding inefficient and cumbersome coupling chemistry. The modular design of the expression vector allows production of similar multi-domain proteins with a different affinity. The further development of such complexes for use in vivo is discussed.

Genistein activates CFTR Cl- channels via a tyrosine kinase- and protein phosphatase-independent mechanism.

Previous studies have revealed an adenosine 3',5'-cyclic monophosphate (cAMP)-independent activation of cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channels by the tyrosine kinase inhibitor genistein. To further explore its mechanism of action, we have reconstituted genistein activation of CFTR in excised inside-out membrane patches. In the presence or absence of ATP, genistein appeared unable to open silent CFTR Cl- channels. However, on CFTR prephosphorylation by cAMP-dependent protein kinase (cAK), genistein enhanced CFTR activity by twofold, resulting from a prolonged burst duration. Genistein could also hyperactivate partially phosphorylated CFTR in the absence of cAK and therefore is different from 5'-adenylylimidodiphosphate, which required fully phosphorylated CFTR. Phosphatase-resistant thiophosphorylation likewise primed the CFTR Cl- channel for hyperactivation by genistein in the absence of cAK. Replacement of ATP by GTP as a hydrolyzable nucleotide triphosphate for CFTR did not impair the ability of genistein to activate thiophosphorylated CFTR, despite the fact that GTP is a poor substrate for tyrosine kinases. These findings argue against a role of protein phosphatases or tyrosine kinases but suggest a more direct interaction of genistein with CFTR, possibly at the level of the second nucleotide-binding domain.

cGMP stimulation of cystic fibrosis transmembrane conductance regulator Cl- channels co-expressed with cGMP-dependent protein kinase type II but not type Ibeta.

In order to investigate the involvement of cGMP-dependent protein kinase (cGK) type II in cGMP-provoked intestinal Cl- secretion, cGMP-dependent activation and phosphorylation of cystic fibrosis transmembrane conductance regulator (CFTR) Cl- channels was analyzed after expression of cGK II or cGK Ibeta in intact cells. An intestinal cell line which stably expresses CFTR (IEC-CF7) but contains no detectable endogenous cGK II was infected with a recombinant adenoviral vector containing the cGK II coding region (Ad-cGK II) resulting in co-expression of active cGK II. In these cells, CFTR was activated by membrane-permeant analogs of cGMP or by the cGMP-elevating hormone atrial natriuretic peptide as measured by 125I- efflux assays and whole-cell patch clamp analysis. In contrast, infection with recombinant adenoviruses expressing cGK Ibeta or luciferase did not convey cGMP sensitivity to CFTR in IEC-CF7 cells. Concordant with the activation of CFTR by only cGK II, infection with Ad-cGK II but not Ad-cGK Ibeta enabled cGMP analogs to increase CFTR phosphorylation in intact cells. These and other data provide evidence that endogenous cGK II is a key mediator of cGMP-provoked activation of CFTR in cells where both proteins are co-localized, e. g. intestinal epithelial cells. Furthermore, they demonstrate that neither the soluble cGK Ibeta nor cAMP-dependent protein kinase are able to substitute for cGK II in this cGMP-regulated function.

Cystic fibrosis transmembrane conductance regulator mediates the cyclic adenosine monophosphate-induced fluid secretion but not the inhibition of resorption in mouse gallbladder epithelium.

We have studied the physiological role of the cystic fibrosis (CF) gene product (cystic fibrosis transmembrane conductance regulator [CFTR]) in gallbladder epithelium using a knockout mouse model for CF. We found that normal mouse gallbladder epithelium expresses functional CFTR as shown by reverse-transcription polymerase chain reaction (RT-PCR) analysis and Ussing chamber experiments. Gallbladders from Cftr -/- mice were structurally intact as shown by microscopic and physiological parameters but lacked the cyclic adenosine monophosphate (cAMP)-induced chloride current observed in normal gallbladders. In fluid transport measurements, normal and Cftr -/- gallbladders were equally active in basal resorption. The addition of forskolin, which activates CFTR anion channel activity through the cAMP system, resulted in net fluid secretion in normal gallbladders. In contrast, Cftr -/- gallbladders were unable to secrete fluid while a complete inhibition of resorption by forskolin was observed. We conclude that, in normal mouse gallbladder epithelium, cAMP-induced fluid secretion involves simultaneous inhibition of apical sodium chloride resorption and activation of CFTR. Our data support the hypothesis that gallbladder disease in CF is at least in part caused by a deficient secretory response to the endogenous cAMP-linked hormones VIP and secretin.

Complementation of the genetic defect in Gunn rat hepatocytes in vitro by highly efficient gene transfer with cationic liposomes.

In this article, we report complementation of the genetic defect of isolated Gunn rat hepatocytes by a highly efficient method for lipofection. Transfections were performed 24 h after plating by using the cationic liposome DOTAP. On average, transfection efficiencies of 21% lacZ+ cells with Wag/Rij rat cells and 27% lacZ+ cells with Gunn rat cells could be obtained when the parenchymal cells were transfected in a hormone-defined, serum-free medium. LacZ expression vectors with the CMV promoter were more effective than constructs containing the RSV or the TK promoter. A linear relationship between the viability of hepatocytes after isolation and the percentage of lacZ+ cells was observed with both rat strains, with a maximum of 40% lacZ+ cells at a viability of 94%. The transfection efficiencies were significantly lower in the absence of growth factors, in dexamethasone-containing medium, or when serum was present during plating. Our data are consistent with the assumption that a mitotic event is required for efficient lipofection. Bilirubin conjugation activity could be detected in microsomes from Gunn rat hepatocytes after transfection with two different B-UDPGT expression constructs. Highest conjugation activity was achieved with a vector containing a terminal intron. With this construct on average 4% of the bilirubin conjugation activity of normal human liver microsomes could be achieved in total microsomes of transfected Gunn rat hepatocytes. The implications of our data for gene therapy of hepatic disease with nonviral vectors, in particular bilirubin conjugation deficiency (Crigler-Najjar disease) are discussed.

Efficacy of a peptide-based gene delivery system depends on mitotic activity.

We have developed and tested a transfection compound based on synthetic peptides. It consists of a 12 amino acid DNA binding peptide (P2) with an alkyl group added to the aminoterminus (P2lip) and a peptide derived from the hemagglutinin protein (HA). The components aggregate spontaneously to particles that proved to be an efficient, easy to use and chemically stable transfection compound. With this system we found a marked correlation between transfection efficiency and mitotic activity. Cells that are allowed to perform a mitosis after exposure to either DNA-P2lip/HA or DNA-cationic liposome complexes are transfected much more efficiently than cells arrested in the cell cycle. In search of an explanation for this phenomenon we studied transport of plasmid DNA across the nuclear membrane. Plasmid DNA injected into the cytoplasm of quiescent human fibroblasts is not expressed, in contrast to DNA injected into the nucleus. FISH analysis showed that the plasmid DNA is not transported into the nucleus efficiently. Similarly, DNA-P2lip/HA complexes are readily taken up by both proliferating and nonproliferating cells, but do not readily penetrate the nuclear membrane. We conclude that delivery of plasmid DNA to the cytoplasm is not sufficient for transfection of eukaryotic cells. The nuclear membrane is apparently an important barrier. This explains why a mitotic event is required for efficient transfection with the currently available transfection systems. The implications for the further development of transfection compounds for use in vivo, where nonproliferating cells are often the target, are discussed.

CFTR expression and mucin secretion in cultured mouse gallbladder epithelial cells.

Dysfunction of the cystic fibrosis transmembrane conductance regulator (CFTR) in humans is frequently associated with progressive liver disease, which appears to result from obstruction of biliary ducts with mucous material. CFTR in the liver is expressed in the biliary epithelium. With the use of a mouse model for cystic fibrosis (CF) we have studied the relationship between CFTR expression and glycoprotein secretion in primary culture of mouse gallbladder epithelial cells (MGBC) MGBC in culture maintain a well-differentiated phenotype as shown by microscopy. The cells produce CFTR mRNA to levels comparable to the intact tissue. With patch-clamp analysis we could frequently observe a linear protein kinase A-regulated Cl- channel that shows all the major characteristics of human CFTR, although its conductance is lower (5 pS compared with 8 pS). MGBC in culture produce and secrete high molecular weight glycoproteins (HMG) in a time-dependent and temperature-sensitive manner. Secretion of HMG was not stimulated significantly by either adenosine 3',5'-cyclic monophosphate (cAMP), Ca2+, or protein kinase C agonists in this system. High concentrations (3 mM) of extracellular ATP stimulated secretion threefold, but low concentrations (0.3 mM) had no effect. Approximately one-third of the HMG produced and secreted consisted of mucin. Cultured MGBC from CFTR-deficient mice produced and secreted mucin to a similar extent as normal cells. We conclude that cultured mouse gallbladder cells are a convenient model to study both CFTR function and mucin secretion. In this system, we found no evidence for a direct link between mucin secretion and CFTR activity, as has been suggested for other cell types.

A delta F508 mutation in mouse cystic fibrosis transmembrane conductance regulator results in a temperature-sensitive processing defect in vivo.

The most prevalent mutation (delta F508) in cystic fibrosis patients inhibits maturation and transfer to the plasma membrane of the mutant cystic fibrosis transmembrane conductance regulator (CFTR). We have analyzed the properties of a delta F508 CFTR mouse model, which we described recently. We show that the mRNA levels of mutant CFTR are normal in all tissues examined. Therefore the reduced mRNA levels reported in two similar models may be related to their intronic transcription units. Maturation of mutant CFTR was greatly reduced in freshly excised oviduct, compared with normal. Accumulation of mutant CFTR antigen in the apical region of jejunum crypt enterocytes was not observed, in contrast to normal mice. In cultured gallbladder epithelial cells from delta F508 mice, CFTR chloride channel activity could be detected at only two percent of the normal frequency. However, in mutant cells that were grown at reduced temperature the channel frequency increased to over sixteen percent of the normal level at that temperature. The biophysical characteristics of the mutant channel were not significantly different from normal. In homozygous delta F508 mice we did not observe a significant effect of genetic background on the level of residual chloride channel activity, as determined by the size of the forskolin response in Ussing chamber experiments. Our data show that like its human homologue, mouse delta F508-CFTR is a temperature sensitive processing mutant. The delta F508 mouse is therefore a valid in vivo model of human delta F508-CFTR. It may help us to elucidate the processing pathways of complex membrane proteins. Moreover, it may facilitate the discovery of new approaches towards therapy of cystic fibrosis.

Isotype-specific activation of cystic fibrosis transmembrane conductance regulator-chloride channels by cGMP-dependent protein kinase II.

Type II cGMP-dependent protein kinase (cGKII) isolated from pig intestinal brush borders and type I alpha cGK (cGKI) purified from bovine lung were compared for their ability to activate the cystic fibrosis transmembrane conductance regulator (CFTR)-Cl- channel in excised, inside-out membrane patches from NIH-3T3 fibroblasts and from a rat intestinal cell line (IEC-CF7) stably expressing recombinant CFTR. In both cell models, in the presence of cGMP and ATP, cGKII was found to mimic the effect of the catalytic subunit of cAMP-dependent protein kinase (cAK) on opening CFTR-Cl-channels, albeit with different kinetics (2-3-min lag time, reduced rate of activation). By contrast, cGKI or a monomeric cGKI catalytic fragment was incapable of opening CFTR-Cl- channels and also failed to potentiate cGKII activation of the channels. The cAK activation but not the cGKII activation was blocked by a cAK inhibitor peptide. The slow activation by cGKII could not be ascribed to counteracting protein phosphatases, since neither calyculin A, a potent inhibitor of phosphatase 1 and 2A, nor ATP gamma S (adenosine 5'-O-(thiotriphosphate)), producing stable thiophosphorylation, was able to enhance the activation kinetics. Channels preactivated by cGKII closed instantaneously upon removal of ATP and kinase but reopened in the presence of ATP alone. Paradoxically, immunoprecipitated CFTR or CF-2, a cloned R domain fragment of CFTR (amino acids 645-835) could be phosphorylated to a similar extent with only minor kinetic differences by both isotypes of cGK. Phosphopeptide maps of CF-2 and CFTR, however, revealed very subtle differences in site-specificity between the cGK isoforms. These results indicate that cGKII, in contrast to cGKI alpha, is a potential activator of chloride transport in CFTR-expressing cell types.

A mouse model for the cystic fibrosis delta F508 mutation.

Most cystic fibrosis (CF) patients produce a mutant form (delta F508) of the cystic fibrosis transmembrane conductance regulator (CFTR), which is not properly processed in normal cells but is active as a chloride channel in several experimental systems. We used a double homologous recombination ('Hit and Run') procedure to generate a mouse model for the delta F508 mutation. Targeted embryonic stem (ES) cells (Hit clones) were found; of these either 80 or 20% of the clones had lost the delta F508 mutation, depending on the distance between the linearization site in the targeting construct and the delta F508 mutation. Correctly targeted clones underwent a second selection step resulting in ES cell clones (Run clones) heterozygous for the delta F508 mutation with an efficiency of 2-7%. Chimeric mice were generated and offspring homozygous for the delta F508 mutation showed electrophysiological abnormalities in nasal epithelium, gallbladder and in the intestine, and histological abnormalities in the intestine, typical of CF. Our data suggest that the delta F508 mice have residual delta F508 CFTR activity which would explain the mild pathology of the delta F508 mice. The delta F508 mouse may provide a useful model for the study of the processing defect of delta F508 CFTR and for the development of novel therapeutic approaches based on circumvention of the processing block.

Lung gene therapy: in vivo adenovirus-mediated gene transfer to rhesus monkey airway epithelium.

Somatic gene therapy of lung disorders such as cystic fibrosis (CF) aims at introducing the therapeutic gene into respiratory epithelium. We have tested the ability of recombinant human adenovirus to infect rhesus monkey airway epithelium in vivo. Application of adenovirus harboring the lacZ marker gene to the airway surface resulted in large patches of lacZ-positive cells in the trachea, bronchi, and bronchioles, 6 days after virus exposure, indicating a successful transfer of the lacZ gene to respiratory epithelium. Microscopic analysis showed that basal, mucous goblet, and ciliated cells were lacZ positive. In addition, gene transfer to the submucosal glands was observed. Pathological examination of the organs revealed no virus-mediated toxic effects to the lungs and other organs. Using polymerase chain reaction (PCR) analysis we found no spread of the virus to blood or any organ tested. These results indicate the potential use and safety of adenoviruses as a tool in human gene therapy procedures aimed at pulmonary diseases.

In vivo transfer and expression of the lacZ gene in the mouse lung.

In vivo gene transfer by lipofection was studied in the mouse lung to develop a gene therapy protocol for disorders in which the lung is affected, such as cystic fibrosis. The bacterial lacZ gene encoding beta-galactosidase was used as a reporter, and the X-GAL staining procedure was optimized for cryostat sections of mouse lung. Three to five days after intratracheal instillation of a lacZ DNA-liposome mixture, lacZ expression was shown in a high percentage of airway epithelium cells. The staining proved to be restricted mainly to the epithelium of the bronchi.

Analysis of the promoter of the cytochrome P-450 2B2 gene in the rat.

About 3 kb of the promoter region of the gene encoding cytochrome P-450 2B2 (CYP2B2) in the rat were sequenced and searched for potential cis-acting elements. Apart from putative binding sites for (liver-specific) protein factors, a region showing homology with the LINE 1 retrotransposon element was also found. Three proximal promoter fragments, encompassing nucleotides -579 to -372, -372 to -211, and -211 to +1, respectively, were shown to contain binding sites for multiple protein factors by bandshift analyses. The strongest protein-binding element, designated BRE (basic regulatory element), occurs between -103 to -66. Its structure is very similar to a negative control element in the murine cmyc promoter and displays a composite feature having a tandemly repeated sequence homology with the BTE (basic transcription element; Yanagida et al., 1990) separated by a CCAAA-box. The use of a deletion series of this template in in vitro transcription assays, provided evidence that the BRE serves as a major cis-acting element in the (regulated) transcription activation of the CYP2B2 gene.

Immunological localization of cystic fibrosis candidate gene products.

The recent identification of the cystic fibrosis (CF) gene and its putative protein product, the CF transmembrane conductance regulator (CFTR), enabled us to synthesize oligopeptides corresponding with a predicted extracellular domain (position 103-117; peptide A) and a cytoplasmic domain (position 501-515; peptide B) constituting the phenylalanine deletion (F 508) observed in the majority of CF mutations. Immunobiochemical studies with antibodies directed against these peptides revealed the presence of two CFTR candidate proteins (155 and 195 kDa) in various types of epithelial cells. Immunolocalization studies performed on slices of human duodenum showed the strongest expression in the endoplasmic reticulum (RER) of the mucus-producing Goblet cells. Labeling is also demonstrated in the RER and apical membranes of villus and crypt cells, however, to a weaker extent.

Cultured epithelial cells from patients with cystic fibrosis have an increased expression of the 14 kDa Ca2(+)-binding protein CFA.

The Cystic Fibrosis antigen (CFA) is a 14 kDa. Ca2(+)-binding protein known to be expressed in cells of myeloid origin during normal cell differentiation. CFA serum levels are elevated in Cystic Fibrosis (CF) patients and heterozygotes. We examined the expression of CFA in different cultured epithelial cells from controls and patients with CF. The steady state level of CFA was in general higher in epithelial cells from CF patients compared to control cells and was found to increase during cell aging. The latter difference could be attributed to an increased rate of CFA synthesis rather than to an impairment of CFA degradation or secretion, as shown by pulse chase experiments.

Chloride transport in cultured nasal epithelium of cystic fibrosis patients.

In this study, nasal polyp epithelial cells from control and cystic fibrosis (CF) patients were cultured using a method which allows multiple passages. The cells were tested in Ussing chamber experiments to study transcellular ion transport. Cultured CF nasal polyp cells did not exhibit spontaneous transcellular chloride transport in the presence of amiloride, in contrast to normal cells. Forskolin increased the short circuit current (Isc) in control but not CF cells. Forskolin and isoproterenol increased the cAMP levels in control and CF cells. Histamine, bradykinin and isoproterenol transiently increased the intracellular calcium level and caused a parallel increase of the transcellular chloride current in both normal and CF cells. The transient effects of isoproterenol were not sensitive to the beta blocker atenol and could not be mimicked by forskolin. We conclude that in cultured nasal polyp cells a difference in chloride transport activity between CF and control cells is retained following multiple passages. Our results suggest that the active state of chloride channels in nasal polyp cells does not require activation of a second messenger pathway. This apparently spontaneous activity appears to be reduced in CF cells. The calcium- but not the cAMP-dependent activation of transepithelial chloride secretion is at least partially preserved in cultured CF airway epithelium.

Immortalization of nasal polyp epithelial cells from cystic fibrosis patients.

We have developed immortalized epithelial cystic fibrosis (CF) cell lines by infecting cultured nasal polyp cells with a SV40/Adenol2 hybrid virus. The cell lines obtained are epithelial in nature as shown by cytokeratin production and morphology, although cytokeratins 4 and 13 typical of primary nasal polyp cells are produced at a much reduced rate. Ussing chamber experiments showed that the precrisis CF cell line NCF3 was able to perform trans-cellular chloride transport when activated by agents which elevate intracellular calcium. cAMP agonists had no effect on chloride flux in NCF3 as expected for CF cells. The apical chloride channels found with the patch clamp technique in NCF3 and in the postcrisis cell line NCF3A have a conductance similar to that of chloride channels found earlier in normal and CF epithelial cells. The channels show a delay in the onset of activity in off-cell patches and are not activated by increased cAMP levels in the cell. This indicates that immortalized CF epithelial cells will provide a useful model for the study of cystic fibrosis.