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ABSTRACT: Novel star polymer-doxorubicin conjugates designed for passive tumor targeting have been developed and their potential for treatment of cancer has been investigated. In the present study the synthesis, physico-chemical characterization, drug release, bio-distribution and preliminary data of in vivo efficacy of the conjugates are described. In the water-soluble conjugates the core of a molecule formed by poly(amido amine) (PAMAM) dendrimers was grafted with semitelechelic N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers bearing doxorubicin (Dox) attached by hydrazone bonds enabling intracellular pH-controlled hydrolytic drug release, or by GFLG sequence susceptible to enzymatic degradation. The controlled synthesis utilizing semitelechelic copolymer precursors facilitated preparation of polymer conjugates in a broad range of molecular weights (1.1-3.0·10(5) g/mol). In contrast to free drug or linear conjugates the star polymer-Dox conjugates exhibited prolonged blood circulation and enhanced tumor accumulation in tumor-bearing mice indicating important role of the EPR effect. The star polymer-Dox conjugates showed significantly higher anti-tumor activity in vivo than Dox?HCl or its linear or graft polymer conjugates, if treated with a single dose 15 or 5 mg Dox eq./kg. Method of tumor initialization (acute or chronic experimental tumor models) significantly influenced effectiveness of the treatment with much lower success in treatment of mice bearing chronic tumors.
Journal of Drug Targeting 12/2011; 19(10):874-89. · 2.70 Impact Factor
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ABSTRACT: This paper describes the synthesis and biological evaluation of a conjugate of the highly cytotoxic drug 2-pyrrolinodoxorubicin (p-DOX) with an N-(2-hydroxypropyl)methacrylamide copolymer (PHPMA) as a water-soluble biocompatible polymer carrier, utilizing the advantageous concept of polymer-drug conjugates. The conjugate of p-DOX with HPMA copolymer (PHPMA/p-DOX) was prepared by reacting the PHPMA/DOX conjugate, where the DOX was bound via a hydrazone bond, with 4-iodobutyraldehyde. The hydrazone bond between the polymer and drug is susceptible to pH-controlled hydrolysis, enabling prolonged stability in circulation and fast p-DOX release under conditions mimicking the intracellular environment. The in vitro cytostatic activity of free p-DOX was in accordance with literature, whereas its PHPMA conjugate exhibited a 1.3- to 5-fold lower cytotoxicity, depending on the cancer cell line, when compared to the free p-DOX. This is in qualitative agreement with the data obtained for DOX and its HPMA copolymer conjugates. On mice bearing T-cell EL4 lymphoma, no tumor suppression was observed from the free p-DOX at a subtoxic dose of 0.1 mg/kg, whereas the PHPMA/p-DOX conjugate significantly inhibited the initial tumor growth at approximately equitoxic doses of 0.4 and 0.8 mg p-DOX eq/kg. However, moderately elevated doses of the p-DOX equivalent in the conjugate caused toxic effects, making accurate dosage setting essential.
European journal of pharmaceutical sciences: official journal of the European Federation for Pharmaceutical Sciences 11/2010; 42(1-2):156-63. · 2.61 Impact Factor
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ABSTRACT: Synthesis, physicochemical and some biological properties of new actively targeted antibody-containing and passively targeted micellar polymer - doxorubicin conjugates were investigated. Polymer precursors used for the synthesis of the conjugates were based on semitelechelic N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers with reactive groups situated at the polymer chain end or on multivalent copolymer with groups randomly distributed along the polymer backbone. Micellar HPMA-copolymer-based pharmaceuticals were prepared by self-assembly of copolymer–doxorubicin conjugates containing hydrophobic cholesterol ligands attached to the copolymer via hydrolytically degradable spacer. pH-Controlled release of cholesterol derivative is a key-point for disintegration of the micellar drug carrier after delivering the drug to the tumor tissue. Synthesis of star antibody-targeted polymer conjugates takes advantage of reduction of disulfide bridges in antibody with dithiothreitol followed by conjugation with the semitelechelic copolymer thus avoiding modification of the binding site in the antibody for its antigen. Both conjugates differing in their molecular architecture and mechanism of action are promising candidates for in vivo antitumor therapy.
Macromolecular Symposia 08/2010; 295(1):1 - 12.
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ABSTRACT: The cytostatic effects of polymeric conjugates based on N-(2-hydroxypropyl)methacrylamide copolymers (PHPMA) and containing doxorubicin bound through amide and hydrazone bonds (mixed conjugates) were compared with the cytostatic effects of monoconjugates containing drug bound through an amide or hydrazone bond. One group of mixed conjugates was formed from two comonomers containing doxorubicin bound to the methacryloyl group through a spacer and an amide (DOX(AM)) or hydrazone (DOX(HYD)) bond via copolymerization with HPMA. A second group of mixed conjugates was formed from two different interconnected HPMA copolymers, one containing DOX(AM) and the other DOX(HYD), forming a high-molecular-weight branched structure. The third mixed polymeric system was a simple mixture of monoconjugates DOX(AM)-PHPMA and DOX(HYD)-PHPMA. Simultaneous treatment with all mixed forms of the polymeric derivatives of doxorubicin significantly increased antitumor efficacy after application of monoconjugates, suggesting a synergizing effect that could be used in designing new doxorubicin-containing therapeutic systems.
Molecular Pharmaceutics 08/2010; 7(4):1027-40. · 4.78 Impact Factor
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ABSTRACT: Homopolymer poly(HPMA) was originally developed as a blood expander “Duxon.” Later on, linear nondegradable HPMA copolymer
of a molecular weight ∼25kDa was used as the backbone to which drugs, mostly doxorubicin, were attached through different
side chains and different covalent bonds. Homopolymer and copolymers are non-toxic, biocompatible, and non-immunogenic molecules.
To increase their accumulation in solid tumors and achieve maximal EPR effect, branched and grafted high molecular weight
derivatives were designed containing oligopeptidic cross-links which can be degraded by lysosomal enzymes. In addition, linear
HPMA copolymers were synthesized to form high molecular weight supramolecular structures. To fulfill the requirements for
active targeting, poly- and monoclonal antibodies, carbohydrates, lectins, growth hormones, cell-surface active proteins and
peptides have been employed. Non-targeted and targeted polymer–drug derivatives based on HPMA have both cytostatic and immunostimulating
activity. Their impressive anti-tumor effects most likely result from the combination of strong direct cytotoxicity and a
systemic anticancer resistance regularly induced during the treatment.
12/2009: pages 87-132;
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T Lammers,
V Subr,
P Peschke,
R K|[uuml]|hnlein,
W E Hennink, K Ulbrich,
F Kiessling,
M Heilmann,
J Debus,
P E Huber,
G Storm
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ABSTRACT: Drug targeting systems are nanometer-sized carrier materials designed for improving the biodistribution of systemically applied (chemo-) therapeutics. Reasoning that (I) the temporal and spatial interaction between systemically applied chemotherapy and clinically relevant fractionated radiotherapy is suboptimal, and that (II) drug targeting systems are able to improve the temporal and spatial parameters of this interaction, we have here set out to evaluate the potential of ‘carrier-based radiochemotherapy’. N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers were used as a model drug targeting system, doxorubicin and gemcitabine as model drugs, and the syngeneic and radio- and chemoresistant Dunning AT1 rat prostate carcinoma as a model tumour model. Using magnetic resonance imaging and γ-scintigraphy, the polymeric drug carriers were first shown to circulate for prolonged periods of time, to localise to tumours both effectively and selectively, and to improve the tumour-directed delivery of low molecular weight agents. Subsequently, they were then shown to interact synergistically with radiotherapy, with radiotherapy increasing the tumour accumulation of the copolymers, and with the copolymers increasing the therapeutic index of radiochemotherapy (both for doxorubicin and for gemcitabine). Based on these findings, and on the fact that its principles are likely broadly applicable, we propose carrier-based radiochemotherapy as a novel concept for treating advanced solid malignancies.Keywords: drug targeting, nanomedicine, polymer therapeutics, radiotherapy, chemotherapy, combined modality therapy
British Journal of Cancer 09/2008; 99(6):900-910. · 5.04 Impact Factor
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ABSTRACT: A systematic study was designed to elucidate differences in cytostatic activity in vitro between HPMA-based doxorubicin conjugates synthesized using different polymerization techniques and differing in peptidyl side chain. A polymer-drug conjugate containing doxorubicin (DOX) bound to HPMA copolymer backbone through the enzymaticaly non-cleavable sequence GlyGly shows low but significant cytotoxicity in vitro in seven cancer cell lines of mouse (EL4, 38C13, 3T3, BCL1) and human (SW620, Raji, Jurkat) origin. The low cytotoxicity can be considerably increased by the presence of additional drug-free GlyPheLeuGly side chains. P1 conjugate, i.e. non-targeted HPMA copolymer bearing doxorubicin bound via a biodegradable GlyPheLeuGly sequence, synthesized by direct copolymerization of HPMA with monomeric doxorubicin and thus without additional drug-free GlyPheLeuGly sequences is less effective compared to PK1 synthesized by polymer analogous reaction and thus containing extra drug-free GlyPheLeuGly sequences. Significant activity-enhancing effect was not seen with other amino acid/oligopeptide sequences (e.g., Gly or GlyGly). The activity-enhancing effect of GlyPheLeuGly sequences is more obvious in the conjugate containing doxorubicin bound to HPMA through GlyGly sequence. Derivatization of the terminal carboxyl group of the extra GlyPheLeuGly side chains (amide, N-substituted amide, free carboxyl) does not significantly influence the cytotoxicity of the conjugates. The presence of the GlyPheLeuGly sequence in the conjugate structure increases its rate of intracellular accumulation. Normal cells (Balb/c splenocytes) accumulate less polymer-doxorubicin conjugate compared to cancer cells (T cell lymphoma EL4, B cell lymphoma Raji and T cell leukemia JURKAT).
Journal of Controlled Release 05/2008; 127(2):110-20. · 5.73 Impact Factor
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ABSTRACT: Various conjugates of anticancer drug doxorubicin (Dox) covalently bound by the hydrolytically degradable hydrazone bond to the drug carrier based on N-(2-hydroxypropyl)methacrylamide (HPMA) copolymers were synthesised. Structure of the conjugates differed in the type and the content of hydrophobic substituent (dodecyl, oleic acid and cholesterol moieties) introduced into the polymer structure. In aqueous solutions the conjugates self-assembled into high-molecular-weight supramolecular structures, such as polymeric micelles or stable hydrophilic nanoparticles 13-37 nm in diameter, depending on the type and the content of hydrophobic substituents. Treatment of mice bearing EL-4 T cell lymphoma with the conjugates in the therapeutic regime of drug administration (i.v.) resulted in significant tumour regression with up to 100% of long-term survivors, depending on the dose and the detailed structure of the carrier. The nanoparticles formed by the conjugate bearing cholesterol moiety exhibited prolonged blood circulation and enhanced tumour accumulation indicating an important role of the EPR effect in excellent anticancer activity of the conjugate.
Journal of Controlled Release 05/2008; 127(2):121-30. · 5.73 Impact Factor
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ABSTRACT: A systematic study was designed to elucidate differences in cytostatic activity in vitro between HPMA-based doxorubicin conjugates synthesized using different polymerization techniques and differing in peptidyl side chain. A polymer–drug conjugate containing doxorubicin (DOX) bound to HPMA copolymer backbone through the enzymaticaly non-cleavable sequence GlyGly shows low but significant cytotoxicity in vitro in seven cancer cell lines of mouse (EL4, 38C13, 3T3, BCL1) and human (SW620, Raji, Jurkat) origin. The low cytotoxicity can be considerably increased by the presence of additional drug-free GlyPheLeuGly side chains. P1 conjugate, i.e. non-targeted HPMA copolymer bearing doxorubicin bound via a biodegradable GlyPheLeuGly sequence, synthesized by direct copolymerization of HPMA with monomeric doxorubicin and thus without additional drug-free GlyPheLeuGly sequences is less effective compared to PK1 synthesized by polymer analogous reaction and thus containing extra drug-free GlyPheLeuGly sequences. Significant activity-enhancing effect was not seen with other amino acid/oligopeptide sequences (e.g., Gly or GlyGly). The activity-enhancing effect of GlyPheLeuGly sequences is more obvious in the conjugate containing doxorubicin bound to HPMA through GlyGly sequence. Derivatization of the terminal carboxyl group of the extra GlyPheLeuGly side chains (amide, N-substituted amide, free carboxyl) does not significantly influence the cytotoxicity of the conjugates. The presence of the GlyPheLeuGly sequence in the conjugate structure increases its rate of intracellular accumulation. Normal cells (Balb/c splenocytes) accumulate less polymer–doxorubicin conjugate compared to cancer cells (T cell lymphoma EL4, B cell lymphoma Raji and T cell leukemia JURKAT).
Journal of Controlled Release. 03/2008;
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ABSTRACT: Effective gene therapy for disseminated metastatic cancer is currently impossible because of poor delivery of vector to target sites. Modification of viral vectors to target advanced cancer has long been a challenge. In this study, we aimed to redirect adenovirus tropism to infect prostate cancer cells via alpha6beta1 integrins, whose expression is upregulated during prostate cancer progression. To ablate normal mechanisms of infection and provide a framework for attachment of targeting ligands, viruses were non-genetically modified with pHPMA-ONp polymer. Addition of polymer-coated virus to prostate cells showed significantly reduced transgene expression compared with unmodified virus. To restore infectivity, an alpha6-integrin binding peptide (-SIKVAV-) derived from laminin was incorporated onto the surface of the polymer-coated viruses. Photon correlation spectroscopic analysis revealed a small increase in the mean diameter of the particles following retargeting. Addition of -SIKVAV- peptide restored virus infectivity of PC-3 cells in a ligand concentration-dependent manner that was significantly improved following removal of unincorporated polymer and peptide. Competition assays using cells preincubated with Ad5 fiber protein or free -SIKVAV- peptide confirmed that entry of retargeted viruses was mediated via the incorporated ligand. Application of retargeted viruses to a panel of human cell lines revealed varying levels of transduction efficiency. Flow cytometric analysis of cells using anti-alpha6 integrin and anti-beta1 integrin antibodies demonstrated that for prostate cells, greater transduction efficiency correlated with higher levels of expression of both integrin subunits. Furthermore with the exception of LNCaP cells, increased alpha6beta1 integrin expression correlated with advanced disease. Intravenous administration of retargeted viruses to tumor-bearing mice resulted in slower plasma clearance and greatly reduced liver tropism, and hence toxicity compared with unmodified virus, while maintaining reporter gene expression in the tumor. The data suggest that YESIKVAVS-retargeted viruses have potential for systemic delivery for the treatment of metastatic disease.
Cancer Gene Therapy 05/2007; 14(4):335-45. · 2.80 Impact Factor
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ABSTRACT: By using radical solution copolymerization of N,N-diethylacrylamide and N-tert-butylacrylamide in the presence of a small amount of the cross-linking agent, gels were prepared swollen to equilibrium in water at 25°C and possessing much better mechanical properties (elongation at break, stress at break) than those of the cross-linked poly-(N,N-diethylacrylamide) alone. This is probably due to an increased possibility of hydrophobic interactions of copolymers. At the same time, the effect of the comonomer structure on the mechanical properties of the resulting gel is considered. The equilibrium degree of swelling of the gels steeply decreases with increasing temperature. Some parameters are compared which characterize the three-dimensional network prepared both by the cross-linking polymerization of N,N-diethylacrylamide and by its copolymerization with N-tert-butylacrylamide (moduli of elasticity, X parameters, concentration of elastically effective chains, crosslinking effectivity, etc.), and the effect of these quantities on the gel properties is discussed.
Journal of Polymer Science Polymer Symposia 03/2007; 66(1):209 - 219.
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Journal of Controlled Release 12/2006; 116(2):e3-5. · 5.73 Impact Factor
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Journal of Controlled Release 12/2006; 116(2):e8-10. · 5.73 Impact Factor
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ABSTRACT: Use of synthetic vectors to deliver genomes of conditionally replicating lytic viruses combines the strengths of viral and non-viral approaches by enabling neutralising antibody resistant deployment of cancer virotherapy. Adenovirus is particularly suitable for this application since all proteins essential for replication can be expressed from the input DNA, although the presence of terminal protein (TP) covalently linked to the 5' termini of the input virus genomes both improves expression of transgenes encoded in the input DNA and also enhances replication. These roles of TP were distinguished in experiments where E1-deleted Ad(GFP)DNA bearing TP (Ad(GFP)DNA-TP), delivered with DOTAP, gave a two-fold greater frequency of transduction than Ad(GFP)DNA(without TP) in non-complementing A549 cells, while in 293 cells (which support replication of E1-deleted viruses) the presence of TP mediated a much greater differential transgene expression, commensurate with its ability to promote replication. Subsequent studies using AdDNA for virotherapy, therefore, included covalently linked TP. AdDNA-TP delivered to A549 cells using a synthetic polyplex vector was shown to be resistant to levels of neutralising antisera that completely ablated infection by wild-type adenovirus, enabling polyplex/Ad(wild type)DNA-TP to mediate a powerful cytopathic effect. Similarly in vivo, direct injection of a polyplex/Ad(wild type)DNA-TP into A549 tumours was neutralising antibody-resistant and enabled virus replication, whereas intact virus was neutralised by the antibody and failed to infect. The delivery of adenovirus genomes-TP using synthetic vectors should provide a strategy to bypass neutralising antibodies and facilitate clinical application of replicating adenovirus for cancer virotherapy.
Gene Therapy 12/2006; 13(22):1579-86. · 3.71 Impact Factor
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M Stevenson,
E Boos,
C Herbert,
A Hale,
N Green,
M Lyons,
L Chandler, K Ulbrich,
N van Rooijen,
V Mautner,
K Fisher,
L Seymour
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ABSTRACT: Non-human adenovirus vectors have attractive immunological properties for gene therapy but are frequently restricted by inefficient transduction of human target cells. Using chicken embryo lethal orphan (CELO) virus, we employed a nongenetic mechanism of polymer coating and retargeting with basic fibroblast growth factor (bFGF-pc-CELOluc), a strategy that permits efficient tropism modification of human adenovirus. bFGF-pc-CELOluc showed efficient uptake and transgene expression in chick embryo fibroblasts (CEF), and increased levels of binding and internalization in a variety of human cell lines. Transgene expression was also greater than unmodified CELOluc in PC-3 human prostate cells, although the specific activity (RLU per internalized viral genome) was decreased. In CEF, the specific activity of bFGF-pc-CELOluc was considerably higher than in the human prostate cell line PC-3. Retargeted virus was fully resistant to inhibition by human serum with known adenovirus-neutralizing activity in vitro, while in mice CELOluc was cleared less rapidly from the blood than Adluc following i.v. administration in the presence of adenovirus neutralizing serum. Polymer coating and retargeting with bFGF further reduced rates of clearance for both viruses, suggesting protection against both neutralizing and opsonizing factors. The data indicate that CELO virus may be retargeted to infect human cells via alternative, potentially disease-specific, receptors and resist the effects of pre-existing humoral immunity.
Gene Therapy 03/2006; 13(4):356-68. · 3.71 Impact Factor
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ABSTRACT: Conjugates based on N-(2-hydroxypropyl)methacrylamide (HPMA) represent a new generation of antibody-targeted polymeric anticancer drugs with both cytotoxic and immunoprotecting/immunomobilizing activity. 20-90% of mice that are cured of EL4 mouse T-cell lymphoma, BCL1 mouse B-cell leukaemia and 38C13 mouse B-cell lymphoma by injection of doxorubicin-HPMA conjugate develop a long-lasting memory and systemic antitumour resistance. It is suggested that the main activity of the polymeric drug, directly after application is - due to the high level of the drug - of cytotoxic and cytostatic nature. Thereafter, long-term conjugates persist at low concentration in the circulation, which are capable of mobilizing the defence mechanisms of the host. Until now, seven patients with generalized carcinoma were treated with doxorubicin-HPMA-human-Ig conjugate. Disease stabilization, lasting from 6 to more than 18 months, was recorded.
Scandinavian Journal of Immunology 08/2005; 62 Suppl 1:100-5. · 2.23 Impact Factor
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Journal of Controlled Release 02/2005; 101(1-3):376-9. · 5.73 Impact Factor
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ABSTRACT: Novel diblock copolymers designed for the preparation of micellar drug delivery systems, consisting of hydrophobic poly(allyl glycidyl ether) (PAGE) and hydrophilic poly(ethylene oxide) (PEO), were prepared, and their self-assembly into micellar structures was studied. Copolymers differing in the length of the polymer blocks were purified and characterized. These amphiphilic copolymers with narrow molecular weight distributions were prepared through the anionic polymerization of allyl glycidyl ether with PEO monomethyl ether sodium salt as the macroinitiator. The PAGE–PEO copolymer readily formed small micelles with narrow size distributions via simple dissolution in water. The addition of pendant double bonds to the hydrophobic part of the chain was intended for further covalent modifications. Catalytic hydrogenation, the radical crosslinking of the micelle core, and the addition of thiol to double bonds of the copolymer were examples of such modifications that were proved to proceed with a quantitative yield for this copolymer. © 2004 Wiley Periodicals, Inc. J Appl Polym Sci 95: 201–211, 2005
Journal of Applied Polymer Science 11/2004; 95(2):201 - 211. · 1.29 Impact Factor
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ABSTRACT: N-(2-Hydroxypropyl)methacrylamide (HPMA) copolymer carrier containing the anticancer drug doxorubicin bound either by a proteolytically degradable bond (non-targeted PK1 or targeted with alpha-CD71 mAb) or by a hydrolytically degradable bond were synthesised and tested in vivo for various biological properties. Mouse 38C13 B-cell lympoma was used as a well established and defined cell line for this study. 38C13 cells are sensitive to free doxorubicin and IC50 was very low, about 0.014 microM. PK1 showed a strongly decreased cytostatic effect, IC50 being 12.6 microM. alpha-CD71 targeted conjugate, which can be considered as an antibody-targeted form of PK1, had IC50 0.358 microM. HPMA copolymer with doxorubicin bound via a hydrolytically sensitive bond (HYD conjugate) showed a high cytostatic effect with IC50 about 0.052 microM. We demonstrated that HYD conjugate inhibited DNA synthesis and induced p21(Waf1/Cip1) protein expression (p21(Waf1/Cip1) is cyclin-dependent kinase inhibitor which blocks cell cycle progression) as quickly as free doxorubicin, whereas PK1 acted much more slowly. Similarly, apoptosis induction measured by Annexin V binding and Caspase 3 activity was detected later after incubation of cells with PK1 or alpha-CD71 targeted conjugate. Apoptosis was manifested by elevation of bax and bad mRNA levels, which was much more rapid and intense in the case of free doxorubicin and HYD conjugate. Expression of antiapoptotic genes as well as cyclin-dependent kinases was surprisingly not affected.
Journal of Controlled Release 10/2004; 99(2):301-14. · 5.73 Impact Factor
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ABSTRACT: Systemic delivery of adenoviral vectors is a major goal in cancer gene therapy, but is currently prohibited by rapid hepatic uptake of virus following intravenous injection with levels of viable virus in the murine plasma typically falling to less than 0.1% after 30 min. We have used a surface-masking technique based on multivalent copolymers of poly(N-(2-hydroxypropyl)methacrylamide) to ablate all pathways of receptor-mediated infection, combined with dose modulation to achieve partial saturation of nonspecific uptake pathways. Polymer coating gave at least 100-fold decreased hepatic transgene expression at all doses and even high doses of coated virus (pc-virus) showed no weight loss or stimulation of serum transaminases. Low doses of virus and pc-virus (10(9) viral particles (vp)/mouse) were mainly captured by the liver (assessed by quantitative PCR), although higher doses led to greater fractional persistence in the plasma (measured after 30 min). Coated virus at a dose of 6 x 10(11) vp/mouse showed nearly 50% plasma circulation, representing a 3.5-fold greater area under the concentration-time curve (0-30 min) compared to unmodified virus. Such an increase in the bioavailability of adenovirus, coupled with substantial decreases in toxicity and unwanted transgene expression is an important step towards producing systemically available tumour-targeted viruses.
Gene Therapy 09/2004; 11(16):1256-63. · 3.71 Impact Factor
