A biological transporter for the delivery of peptide nucleic acids (PNAs) to the nuclear compartment of living cells

To facilitate nuclear delivery of biomolecules we describe the synthesis of a modular transporter bearing a cellular membrane transport peptide (pAntp) and, as a cargo, a 16-mer peptide nucleic acid (PNA) covalently linked to a nuclear localisation signal (NLS[SV40-T]). Transport peptide and PNA are connected via N-terminal activated cysteine to form cleavable disulphide bonds. Internalization and subsequent delivery of PNA to the nucleus was verified in living and fixed cells by confocal laser scanning microscopy (CLSM) and fluorescence correlation spectroscopy (FCS). Double-labelling experiments indicate the cytoplasmic cleavage of the two modules and the effective nuclear import of the chromophore-tagged cargo. A non-degradable linker between transport module and cargo as well as a construct without NLS did not enable nuclear PNA import under the described experimental conditions. FCS-measurements revealed that most of the PNAs delivered into the cytoplasm by the modular transporter are anchored or encapsulated, indicating that intracellular transport of these compounds is not governed by molecular diffusion. Our results clearly demonstrate efficient compartment-directed transport using a synthetic, non-toxic modular transporter in living cells.     

Culture medium enhances semicarbazide-sensitive amine oxidase activity

Components of fetal calf serum (FCS) are known to contribute to growth and maintenance of cultured cells. Fetal calf serum supplementation of media also may contribute to the cytotoxicity of other substances to cells grown in vitro. Semicarbazide-sensitive amine oxidase (SSAO) enzyme, present in FCS, metabolizes primary amines and contributes to amine cytotoxicity in vascular smooth muscle cells (VSMC). In cell culture experiments, the media used may greatly affect enzymic activities such as SSAO. In these studies, the SSAO activity in FCS, cultured rat aortic VSMC, and rat plasma was determined in the presence and absence of various culture media. Semicarbazide-sensitive amine oxidase activity in FCS (5-20 microl) was significantly enhanced (approximately 1.5- to 2-fold) in the presence of various culture media, with Dulbecco modified Eagle medium (DMEM), causing the greatest enhancement. Dulbecco modified Eagle medium enhanced the SSAO activity of cultured VSMC in two of the four passages but reduced activity in two passages. Activity in rat plasma was reduced by approximately 25% in the presence of DMEM. The concentrations of various media components, such as glucose, sodium pyruvate, pyridoxine.HCl, and L-glutamine, were not correlated with enhancement. This study identifies an important enhancement effect of culture media on the FCS enzyme, SSAO, although the media components responsible for the enhancement are yet to be identified.     

Synthesis and splice-redirecting activity of branched, arginine-rich peptide dendrimer conjugates of peptide nucleic acid oligonucleotides

Arginine-rich cell-penetrating peptides have found excellent utility in cell and in vivo models for enhancement of delivery of attached charge-neutral PNA or PMO oligonucleotides. We report the synthesis of dendrimeric peptides containing 2- or 4-branched arms each having one or more R-Ahx-R motifs and their disulfide conjugation to a PNA705 splice-redirecting oligonucleotide. Conjugates were assayed in a HeLa pLuc705 cell assay for luciferase up-regulation and splicing redirection. Whereas 8-Arg branched peptide-PNA conjugates showed poor activity compared to a linear (R-Ahx-R)(4)-PNA conjugate, 2-branched and some 4-branched 12 and 16 Arg peptide-PNA conjugates showed activity similar to that of the corresponding linear peptide-PNA conjugates. Many of the 12- and 16-Arg conjugates retained significant activity in the presence of serum. Evidence showed that biological activity in HeLa pLuc705 cells of the PNA conjugates of branched and linear (R-Ahx-R) peptides is associated with an energy-dependent uptake pathway, predominantly clathrin-dependent, but also with some caveolae dependence.     

Subnanomolar antisense activity of phosphonate-peptide nucleic acid (PNA) conjugates delivered by cationic lipids to HeLa cells

In the search of facile and efficient methods for cellular delivery of peptide nucleic acids (PNA), we have synthesized PNAs conjugated to oligophosphonates via phosphonate glutamine and bis-phosphonate lysine amino acid derivatives thereby introducing up to twelve phosphonate moieties into a PNA oligomer. This modification of the PNA does not interfere with the nucleic acid target binding affinity based on thermal stability of the PNA/RNA duplexes. When delivered to cultured HeLa pLuc705 cells by Lipofectamine, the PNAs showed dose-dependent nuclear antisense activity in the nanomolar range as inferred from induced luciferase activity as a consequence of pre-mRNA splicing correction by the antisense-PNA. Antisense activity depended on the number of phosphonate moieties and the most potent hexa-bis-phosphonate-PNA showed at least 20-fold higher activity than that of an optimized PNA/DNA hetero-duplex. These results indicate that conjugation of phosphonate moieties to the PNA can dramatically improve cellular delivery mediated by cationic lipids without affecting on the binding affinity and sequence discrimination ability, exhibiting EC(50) values down to one nanomolar. Thus the intracellular efficacy of PNA oligomers rival that of siRNA and the results therefore emphasize that provided sufficient in vivo bioavailability of PNA can be achieved these molecules may be developed into potent gene therapeutic drugs.     

Cellular delivery of polyheteroaromate-peptide nucleic acid conjugates mediated by cationic lipids

In the search of facile and efficient methods for PNA cellular delivery, we have tested a series of PNA conjugates based on (hetero) aromatic, lipophilic compounds such as 9-aminoacridine, benzimidazoles, carbazole, anthraquinone, porphyrine, psoralen, pyrene, and phenyl-bis-benzimidazole ("Hoechst"). These chemically modified PNAs were delivered to cultured pLuc705HeLa cells mediated by cationic liposomes (LipofectAMINE or LiofectAMINE2000), and their nuclear delivery was inferred from induced luciferase activity as a consequence of pre-mRNA splicing correction by the antisense-PNA. PNAs modified with 9-aminoacridine, "Hoechst", or acetyl-"Hoechst" showed highest antisense activities (while unmodified PNA failed to show any significant antisense activity). In particular, bis-acridine-conjugated PNA showed nearly 60% splicing correction at 250 nM concentration in combination with LipofectAMINE2000. Interestingly, relative differences between the derivatives were observed when LipofectAMINE was used as compared to LipofectAMINE2000, but in general the latter yielded the higher antisense activity. The most active modifications of these PNA constructs were further tested for antisense down-regulation of luciferase in p53R cells in order to evaluate the cytoplasmic activity (uptake) of the PNAs. A dose-dependent down regulation of luciferase was demonstrated also in this system. The PNA conjugated to acetyl-Hoechst caused a reduction of luciferase activity to less than 40% of the control at a concentration of 1 muM. These results indicate that conjugation of (hetero) polyaromatic compounds to PNA can dramatically improve liposome-mediated cellular delivery both to cytoplasm as well as to the nucleus. However, no clear structure/activity relations are apparent from the present results, except that both 9-aminoacridine and "Hoechst" are also nucleic acid binding ligands.     

Antibody to Viruses Affecting Cattle in Commercial Tissue Culture Grade Fetal Calf Serum

Commercial fetal calf serum (FCS) for tissue culture use was tested for neutralizing activity against several viruses which affect cattle. Certain lots of FCS contained no neutralizing activity, whereas other lots contained neutralizing activity to several viruses. It was concluded that the neutralizing activity found in certain lots of sera was due to specific antibody and that its presence could be most easily explained by the contamination of the FCS with serum from postcolostral bovine serum. A nonantibody inhibitor to vesicular stomatitis virus was also found at low levels in most lots of serum. Because those sera which had antibody had antibody to several viruses, it was suggested that the use of the micro-serum neutralization test with a few bovine viruses which are widespread in the bovine population should be satisfactory to detect FCS which was contaminated with postcolostral bovine serum.     

Alterations in pH and Serum Concentration have Contrasting Effects on Normal and "Foreign" Pathways of Differentiation in Cultures of Embryonic Chick Neuroretinal Cells

Nine-day chicken embryo neuroretinal cells transdifferentiate into both lens and pigment cells after 3–4 weeks when cultured in MEM medium containing 10% foetal calf serum at pH 7.4. At pH 6.8. the appearance of lens crystallins is retarded and cholineacetyltransferase (CAT) activity persists for longer, whereas at pH 8.0 crystallins appear earlier and CAT activity declines more rapidly. Cell survival and culture growth are about 10% lower at pH 6.8 than at pH 8.0. If the concentration of foetal calf serum (FCS) is increased from 10% to 25% (at pH 7.4), cell survival and growth are both promoted, crystallins appear slightly earlier and CAT activity declines more rapidly. Converse effects are observed with 5 % serum, accumulation of crystallins being greatly inhibited and CAT activity prolonged. Crystallin production in cultures with 10% or 25% chicken serum (CS) is much less extensive than in similar FCS cultures, but in cultures with 5 % CS, crystallins appear more rapidly, reaching higher levels than in 5 % FCS cultures. However, the pattern of CAT activity in response to different serum levels is similar for both CS and FCS. This might imply the presence of some factor(s) able to stimulate transdifferentiation in FCS, whereas CS can apparently inhibit this process.     

Serum-activated K and Cl currents underlay U87-MG glioblastoma cell migration

Glioblastoma cells in vivo are exposed to a variety of promigratory signals, including undefined serum components that infiltrate into high grade gliomas as result of blood-brain barrier breakdown. Glioblastoma cell migration has been further shown to depend heavily on ion channels activity. We have then investigated the modulatory effects of fetal calf serum (FCS) on ion channels, and their involvement in U87-MG cells migration. Using the perforated patch-clamp technique we have found that, in a subpopulation of cells (42%), FCS induced: (1) an oscillatory activity of TRAM-34 sensitive, intermediate-conductance calcium-activated K (IK(Ca) ) channels, mediated by calcium oscillations previously shown to be induced by FCS in this cell line; (2) a stable activation of a DIDS- and NPPB-sensitive Cl current displaying an outward rectifying instantaneous current-voltage relationship and a slow, voltage-dependent inactivation. By contrast, in another subpopulation of cells (32%) FCS induced a single, transient IK(Ca) current activation, always accompanied by a stable activation of the Cl current. The remaining cells did not respond to FCS. In order to understand whether the FCS-induced ion channel activities are instrumental to promoting cell migration, we tested the effects of TRAM-34 and DIDS on the FCS-induced U87-MG cell migration using transwell migration assays. We found that these inhibitors were able to markedly reduce U87-MG cell migration in the presence of FCS, and that their co-application resulted in an almost complete arrest of migration. It is concluded that the modulation of K and Cl ion fluxes is essential for the FCS-induced glioblastoma cell migration.     

Synthesis of a new disulfide Fmoc monomer for creating biologically susceptible linkages in peptide nucleic acid oligomers

Peptide nucleic acids (PNA) are one of many synthetic mimics of DNA and RNA that have found applications as biological probes, as nano-scaffold components, and in diagnostics. In an effort to use PNA as constructs for cellular delivery we investigated the possibility of installing a biologically susceptible disulfide bond in the backbone of a PNA oligomer. Here we report the synthesis of a new abasic Fmoc monomer containing a disulfide bond that can be incorporated into a PNA oligomer (DS-PNA) using standard solid phase peptide synthesis. The disulfide bond survives cleavage from the resin and DS-PNA forms duplexes with complementary PNA oligomers. Initial studies aimed at determining if the disulfide bond is cleavable to reducing agents while in a duplex are explored using UV thermal analysis and HPLC.     

An efficient biodelivery system for antisense polyamide nucleic acid (PNA)

With the aim of developing a general and straightforward procedure for the intracellular delivery of naked peptide nucleic acids (PNAs), we designed an intracellularly biodegradable triphenylphosphonium (TPP) cation based transporter system. In this system, TPP is linked, via a biolabile disulfide bridge, to an activated mercaptoethoxycarbonyl moiety, allowing its direct coupling to the N-terminal extremity of a free PNA through a carbamate bond. We found that such TPP-PNA-carbamate conjugates were highly stable in a cell culture medium containing fetal calf serum. In a glutathione-containing medium mimicking the cytosol, the conjugates were rapidly degraded into an unstable intermediate, which spontaneously decomposed, releasing the free PNA. Using a fluorescence-labeled PNA-TPP conjugate, we demonstrated that conjugates were taken up by cells. Efficient cellular uptake and release of the PNA into the cytosol was further confirmed by the anti-HIV activity measured for the TPP-conjugate of a 16-mer PNA targeting the TAR region of the HIV-1 genome. This conjugate exhibited an IC(50) value of 1 microM, while the free 16-mer PNA did not inhibit replication of HIV in the same cellular test.     

Muscular differentiation of chicken myotubes in a simple defined synthetic culture medium and in serum supplemented media: Expression of the molecular forms of acetylcholinesterase

We attempted to cultivate muscle cells from chick embryos in a serum-free, defined medium similar to that proposed by Bottenstein and Sato (1979) for the growth and differentiation of a murine neuronal cell-line. (1) We found that muscle cells from the legs of 11-day old chick embryos can be cultivated in a medium containing the different components indicated by Bottenstein and Sato, with 2 g/l bovine serum albumin, without serum or chick embryo extract. Myoblasts attached to the gelatin-coated dishes without any addition of attachment factors. They differentiated into myotubes in a similar manner as in classical serum supplemented media. (2) The level of cellular AchE activity was comparable in cultures grown in the presence of fetal calf serum (FCS), of horse serum (HS) and in the defined medium. The percentage of A₁₂ form was however higher in the defined medium (25–30%) than in FCS supplemented medium (about 5–6%). In HS supplemented medium the A₁₂ form was not detectable, partly because horse serum contains immunoglobulins which bind chicken AChE. The addition of defined medium components to FCS medium cultures did not lead to an increase of A₁₂. In contrast, the addition of a small amount (1%) of fetal calf serum to DM cultures reduced the level of A₁₂ in a drastic manner. FCS components therefore seem to repress the biosynthesis of A₁₂ AChE, or increase its degradation. (3) We estimated intracellular and extracellular compartments of AChE. The ratio of endocellular to ectocellular AChE decreased with the age of the cultures. The G₁ form was intracellular at all stages analyzed, but the other molecular forms were located in both cellular compartment, in different proportion: A₁₂ and G₄ seemed to be located preferentially in the external compartment, whereas G₂ was preferentially intracellular. (4) Muscle cultures grown in the defined medium and in the presence of serum secreted globular forms of AChE in a similar manner.     

Efficiency of cellular delivery of antisense peptide nucleic acid by electroporation depends on charge and electroporation geometry

Electroporation is potentially a very powerful technique for both in vitro cellular and in vivo drug delivery, particularly relating to oligonucleotides and their analogs for genetic therapy. Using a sensitive and quantitative HeLa cell luciferase RNA interference mRNA splice correction assay with a functional luciferase readout, we demonstrate that parameters such as peptide nucleic acid (PNA) charge and the method of electroporation have dramatic influence on the efficiency of productive delivery. In a suspended cell electroporation system (cuvettes), a positively charged PNA (+8) was most efficiently transferred, whereas charge neutral PNA was more effective in a microtiter plate electrotransfer system for monolayer cells. Surprisingly, a negatively charged (-23) PNA did not show appreciable activity in either system. Findings from the functional assay were corroborated by pulse parameter variations, polymerase chain reaction, and confocal microscopy. In conclusion, we have found that the charge of PNA and electroporation system combination greatly influences the transfer efficiency, thereby illustrating the complexity of the electroporation mechanism.     

Time-dependent differential effects of natural and recombinant murine interferon-gamma on ornithine decarboxylase activity of tumor cells

Incubation of quiescent tumor cells with fetal calf serum induced ornithine decarboxylase (ODCase) activity concomitantly with mitogenic stimulation. Pretreatment of cells with highly purified natural or recombinant murine interferon-gamma (MuIFN-gamma) for 5 h caused a dose-dependent increase of ODCase activity induced by fetal calf serum (FCS). Pretreatment of target cells with IFN-gamma for 5 h in absence of FCS stimulation did not induce ODCase activity. When pretreatment of cells with natural or recombinant MuIFN-gamma was prolonged for 18 h both ODCase activity and DNA synthesis induced by FCS were suppressed. By contrast when a mixture of MuIFN-alpha and -beta was used, ODCase activity was significantly suppressed after 5 h pretreatment compared to untreated controls. These results suggest that IFN-gamma exerts a differential effect on mitogen-stimulated events depending on the dose and the time of addition.     

The nature of substrate-attached materials in human fibroblast cultures: localization of cell and fetal calf serum components.

Human fibroblasts have been used as an in vitro model to examine the morphology and origin of substrate-attached materials. In cultures of subconfluent cells, no ‘tracks’ or ‘pools’ of material could be detected on substrata by anodic oxide interferometry or electron microscopy. However, a continuous layer of densely staining material was present on Falcon plastic tissue culture dishes never exposed to cells or culture medium. Exposure of substrata to culture medium caused the adsorption of fetal calf serum (FCS) components onto the substratum within a few minutes. Although antigenic FCS components remained on the substrata for several days, they were seldom adsorbed to the cells. The hypothesis was formulated that adhesion was mediated by FCS components on the substrata, but not by cellular materials deposited extracellularly. Support for this hypothesis was obtained by studying serum-dependent differences in cell adhesion. Fibroblasts subcultured in the presence of FCS components were usually separated from the substratum by a distance of at least 30 Å. In the absence of FCS components, the cells were more closely adherent, in the range at which the near van der Walls forces were effective. Fibroblasts subcultured in the absence of serum components could be removed readily from the substratum, leaving lsfootprints’ of cell surface material behind. Although this material has been prepared similarly to ‘microexudates’ from other types of cultured cells, its relationship to those microexudates has not been determined.     

Nanomolar cellular antisense activity of peptide nucleic acid (PNA) cholic acid ("umbrella") and cholesterol conjugates delivered by cationic lipids

Limited cellular uptake and low bioavailability of peptide nucleic acids (PNAs) have restricted widespread use of PNAs as antisense/antigene agents for cells in culture and not least for in vivo applications. We now report the synthesis and cellular antisense activity in cultured HeLa pLuc705 cells of cholesterol and cholic acid ("umbrella") derivatives of splice correction antisense PNA oligomers. While the conjugates alone were practically inactive up to 1 μM, their activity was dramatically improved when delivered by a cationic lipid transfection agent (LipofectAMINE2000). In particular, PNAs, conjugated to cholesterol through an ester hemisuccinate linker or to cholic acid, exhibited low nanomolar activity (EC(50) ～ 25 nM). Excellent sequence specificity was retained, as mismatch PNA conjugates did not show any significant antisense activity. Furthermore, we show that increasing the transfection volume improved transfection efficiency, suggesting that accumulation (condensation) of the PNA/lipid complex on the cellular surface is part of the uptake mechanism. These results provide a novel, simple method for very efficient cellular delivery of PNA oligomers, especially using PNA-cholic acid conjugates which, in contrast to PNA-cholesterol conjugates, exhibit sufficient water solubility. The results also question the generality of using cholic acid "umbrella" derivatives as a delivery modality for antisense oligomers.     

Cholesterol ester concentrations and the ester hydrolases in cultured glioblastoma cells: Effect of lipoprotein depleted serum

We have investigated the effects of substituting lipoprotein depleted serum (LPDS) for normal fetal calf serum (FCS) in culture media on cholesterol ester concentrations and the activity of the ester hydrolases in cultured glioblastoma (C-6 glial) cells. Glial cells grown in media supplemented with 10% FCS contained 16–23% of total cholesterol as esterified sterol. Total sterol content of the cells cultured in media supplemented with LPDS was reduced by 55–75% as compared to cells cultured in FCS media and none of this sterol was in esterified form. Cholesterol ester hydrolase activity was maximal at pH values of 4.5 and 6.5 and required Triton X-100 for optimal activity. Cholesterol ester hydrolase activity at pH 4.5 was significantly higher in cells grown in FCS media than in cells cultured in LPDS media, but the activity at pH 6.5 was not significantly different. The protein: DNA ratio of cells cultured in FCS was higher than in cells cultured in LPDS. These findings indicate that the increase in cholesterol ester concentrations in cells is accompanied by increased activity of lysosomal cholesterol ester hydrolase; and suggest that, in cells cultured in FCS, the availability of free cholesterol for incorporation into cellular membranes is regulated by cholesterol ester hydrolase. The findings also indicate that changes in growth and differentiation of cells cultured in LPDS may be related to reduced availability of exogenous cholesterol.     

Targeted gene delivery: The role of peptide nucleic acid

Receptor-mediated endocytosis can be exploited to achieve efficient cell-specific gene delivery. Our laboratory has used two approaches for targeted gene delivery. One uses polycation as a carrier for plasmid DNA and the other uses peptide nucleic acid (PNA) as a carrier. Targeted gene delivery using polycation carriers has been widely utilized with some success. This approach mainly suffers from large particle size and non-specific interaction with blood components. These drawbacks have limited use of this type of vector for in vivo applications. Using PNA as a carrier, on the other hand, allows for smaller particle size and less non-specific interactions. The stability of this vector in the circulation may be a limiting factor. In addition, both types of vector lack mechanisms for endosome escape and nuclear transport. In this chapter, current developments and uses for targeted gene delivery of each approach are reviewed.     

Targeted gene delivery: the role of peptide nucleic acid

Receptor-mediated endocytosis can be exploited to achieve efficient cell-specific gene delivery. Our laboratory has used two approaches for targeted gene delivery. One uses polycation as a carrier for plasmid DNA and the other uses peptide nucleic acid (PNA) as a carrier. Targeted gene delivery using polycation carriers has been widely utilized with some success. This approach mainly suffers from large particle size and non-specific interaction with blood components. These drawbacks have limited use of this type of vector for in vivoapplications. Using PNA as a carrier, on the other hand, allows for smaller particle size and less non-specific interactions. The stability of this vector in the circulation may be a limiting factor. In addition, both types of vectorlack mechanisms for endosome escape and nuclear transport. In this chapter, current developments and uses for targeted gene delivery of each approach are reviewed.     

Targeted gene delivery: the role of peptide nucleic acid

Receptor-mediated endocytosis can be exploited to achieve efficient cell-specific gene delivery. Our laboratory has used two approaches for targeted gene delivery. One uses polycation as a carrier for plasmid DNA and the other uses peptide nucleic acid (PNA) as a carrier. Targeted gene delivery using polycation carriers has been widely utilized with some success. This approach mainly suffers from large particle size and non-specific interaction with blood components. These drawbacks have limited use of this type of vector forin vivo applications. Using PNA as a carrier, on the other hand, allows for smaller particle size and less non-specific interactions. The stability of this vector in the circulation may be a limiting factor. In addition, both types of vector lack mechanisms for endosome escape and nuclear transport. In this chapter, current developments and uses for targeted gene delivery of each approach are reviewed.     

Suppression of endocytosis in polyclonally activated Con A-stimulated T lymphocytes by 25-hydroxycholesterol

A new high quality young-calf serum, Hy-clone calf serum (HcCS), was tested for use in hybridoma culture. This calf serum alone had little growth promoting activity and was much inferior to fetal calf serum (FCS). Red cell lysate (RCL) used in combination with the young-calf serum showed very good growth promoting activity. Growth was increased about threefold over that in the presence of FCS. However, HcCS and RCL could not substitute for feeder cells when hybridomas were cultured as single cells under conditions of limiting dilution. It is thought likely that the potent growth promoting factor in red cell lysate is hemoglobin.