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Delivery of PAR-4 plasmid in vivo via nanoliposomes sensitizes colon tumor cells subcutaneously implanted into nude mice to 5-FU.

Cancer Biol Ther. 2009 Oct;8(19):1831-7

Authors: Kline CL, Shanmugavelandy SS, Kester M, Irby RB

The prostate apoptosis response protein 4 (Par-4), a tumor suppressor, has been shown to induce apoptosis in cancer cells. While reduced Par-4 expression has been linked to survival of some cancers, its involvement in colon cancer has not been well documented. To explore the feasibility of increasing Par-4 in colon cancer to induce apoptosis, the human colon cancer cell line, HT29, was transfected to overexpress Par-4. In these cells, overexpressed Par-4 led to increased apoptosis in the presence of 5-fluorouracil. Subsequently, PAR-4 cDNA was packaged in nanoliposomal particles. Treating cells with the Par-4 nanoliposomes also increased susceptibility to 5-FU. These nanoliposomes were used to deliver Par-4 plasmid to tumors growing in nude mice from wild type HT29 cells. Results showed that nanoliposomes effectively delivered plasmid DNA to tumors in vivo. Again, tumors in mice treated with the Par-4 nanoliposomes were more susceptible to 5-FU treatment. This suggests that upregulation of Par-4 expression is a potentially useful mechanism to enhance the current chemotherapeutic regimen for colon cancer. Packaging Par-4 cDNA in nanoliposomal particles is a promising delivery method to increase response to chemotherapy.

PMID: 19729995 [PubMed - indexed for MEDLINE]

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Evaluation of particulate acellular vaccines against Brucella ovis infection in rams.

Vaccine. 2010 Apr 9;28(17):3038-46

Authors: Da Costa Martins R, Irache JM, Blasco JM, Muñoz MP, Marín CM, Jesús Grilló M, Jesús De Miguel M, Barberán M, Gamazo C

The attenuated Brucella melitensis Rev 1 vaccine, used against brucellosis infection, interferes with serological diagnosis tests, may induce abortions in pregnant animals, and may infect humans. In order to overcome these drawbacks, we developed acellular vaccines based on a Brucella ovis antigenic complex (HS) containing outer membrane proteins and R-LPS entrapped in poly(anhydride) conventional and mannosylated nanoparticles (NP-HS and MAN-NP-HS) or in poly(epsilon-caprolactone) microparticles (HS-PEC) as antigen delivery systems and immunoadjuvants. Brucellosis free rams were vaccinated subcutaneously with a single dose of particles containing 3mg of HS, and challenged 6 months thereafter. Protection was evaluated by clinical, bacteriological and serological examinations, in comparison with non-vaccinated control rams. HS-PEC vaccine induced protection (7 out of 13 animals were infected) equivalent to that induced by the reference Rev 1 vaccine (8/14). In contrast, animals immunized with NP-HS were not protected, showing similar results to that obtained in the control unvaccinated rams. Furthermore HS-PEC vaccine did not interfere against B. melitensis serodiagnostic tests. In summary, HS-PEC microparticles could be used as a safe and effective vaccine against brucellosis in rams.

PMID: 19887131 [PubMed - indexed for MEDLINE]

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Non-invasive monitoring of intra-tumor drug concentration and therapeutic response using optical spectroscopy.

J Control Release. 2010 Mar 19;142(3):457-64

Authors: Palmer GM, Boruta RJ, Viglianti BL, Lan L, Spasojevic I, Dewhirst MW

Optical spectroscopy was used to monitor changes in tumor physiology with therapy, and its influence on drug delivery and treatment efficacy for hyperthermia treatment combined with free doxorubicin or a low-temperature sensitive liposomal formulation. Monte Carlo-based modeling techniques were used to characterize the intrinsic absorption, scattering, and fluorescence properties of tissue. Fluorescence assessment of drug concentration was validated against HPLC and found to be significantly linearly correlated (r=0.88). Cluster analysis on the physiologic data obtained by optical spectroscopy revealed two physiologic phenotypes prior to treatment. One of these was relatively hypoxic, with relatively low total hemoglobin content. This hypoxic group was found to have a significantly shorter time to reach 3 times pre-treatment volume, indicating a more treatment resistant phenotype (p=0.003). Influence of tumor physiology was assessed in more detail for the liposomal doxorubicin+hyperthermia group, which demonstrated a highly significant correlation between pre-treatment hemoglobin saturation and tumor growth delay, and also between post-hyperthermia total hemoglobin content and tumor drug delivery. Finally, it was found that the doxorubicin concentration, measured in vivo using fluorescence techniques significantly predicted for chemoresponse (hazard ratio: 0.34, p=0.0007). The ability to characterize drug delivery and tumor physiology in vivo makes this a potentially useful tool for evaluating the efficacy of targeted delivery systems in preclinical studies, and may be translatable for monitoring and predicting individual treatment responses in the clinic.

PMID: 19896999 [PubMed - indexed for MEDLINE]

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Development of nanoparticles for antimicrobial drug delivery.

Curr Med Chem. 2010;17(6):585-94

Authors: Zhang L, Pornpattananangku D, Hu CM, Huang CM

This review focuses on the development of nanoparticle systems for antimicrobial drug delivery. Numerous antimicrobial drugs have been prescribed to kill or inhibit the growth of microbes such as bacteria, fungi and viruses. Even though the therapeutic efficacy of these drugs has been well established, inefficient delivery could result in inadequate therapeutic index and local and systemic side effects including cutaneous irritation, peeling, scaling and gut flora reduction. Nanostructured biomaterials, nanoparticles in particular, have unique physicochemical properties such as ultra small and controllable size, large surface area to mass ratio, high reactivity, and functionalizable structure. These properties can be applied to facilitate the administration of antimicrobial drugs, thereby overcoming some of the limitations in traditional antimicrobial therapeutics. In recent years, encapsulation of antimicrobial drugs in nanoparticle systems has emerged as an innovative and promising alternative that enhances therapeutic effectiveness and minimizes undesirable side effects of the drugs. Here the current progress and challenges in synthesizing nanoparticle platforms for delivering various antimicrobial drugs are reviewed. We also call attention to the need to unite the shared interest between nanoengineers and microbiologists in developing nanotechnology for the treatment of microbial diseases.

PMID: 20015030 [PubMed - indexed for MEDLINE]

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RON receptor tyrosine kinase as a target for delivery of chemodrugs by antibody directed pathway for cancer cell cytotoxicity.

Mol Pharm. 2010 Apr 5;7(2):386-97

Authors: Guin S, Yao HP, Wang MH

Overexpression of the RON receptor tyrosine kinase exists in various cancers and contributes to malignant progression. To validate RON as a targeting moiety for delivery of chemoagents for enhanced tumor cytotoxicity, immunoliposomes (IL) loaded with doxorubicin (Dox) were formulated followed by postinsertion of monoclonal antibodies Zt/g4, Zt/c1, or their Fab fragments specific to the RON extracellular domains. Flow cytometry analysis showed that Zt/g4 or Zt/c1-IL binds to cancer cells and causes RON internalization as evident in confocal analysis of intracellular fluorescence intensity. The antibody-directed IL uptake by cancer cells is in both dose and time-dependent manners. Studies of cytotoxicity of individual IL in vitro against colon or breast cancer cell lines revealed that Zt/g4 directed Dox-IL displayed increased cytotoxic activities with a significant reduction of IC(50) values. An average of 8-fold increases in cytotoxic efficiency was achieved among four cell lines tested. Moreover, Zt/g4 directed Dox-IL also displayed the effective killing of cancer cells that are insensitive to pegylated liposomal doxorubicin. The effect of Zt/c1-Dox-IL was not as strong as Zt/g4-Dox-IL, and only moderate activities were observed. IL coupled with the Fab fragments of Zt/g4 or Zt/c1 show moderate activities against cancer cells. The ineffectiveness seemed to be related to the weak activities of the Fab fragments in the induction of RON internalization, which resulted in reduced drug uptakes. We conclude that anti-RON antibody-directed drug delivery is effective for increased uptake of cytotoxic drugs. Antibody-based RON targeting could be developed into a potential therapeutic for treatment of malignant cancers.

PMID: 20039696 [PubMed - indexed for MEDLINE]

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In vitro and in vivo evaluation of proniosomes containing celecoxib for oral administration.

AAPS PharmSciTech. 2010 Mar;11(1):85-9

Authors: Nasr M

The objectives of this research were to prepare celecoxib proniosomes and evaluate the influence of proniosomal formulation on the oral bioavailability of the drug in human volunteers. A new proniosomal delivery system for a poorly water-soluble drug such as celecoxib was developed and subjected to in vitro and in vivo studies. Proniosomes were prepared by sequential spraying method, which consisted of cholesterol, span 60, and dicetyl phosphate in a molar ratio of 1:1: 0.1, respectively. The average entrapment percent of celecoxib proniosome-derived niosomes was about 95%. The prepared proniosomes showed marked enhancement in the dissolution of celecoxib as compared to pure drug powder. The bioavailability of 200 mg single dose of both celecoxib proniosomal formulation and a conventional marketed celecoxib capsule was studied in human volunteers. The obtained results show that the proniosomal formulation significantly improved the extent of celecoxib absorption than conventional capsule. The mean relative bioavailability of the proniosomal formulation to the conventional capsule was 172.06 +/- 0.14%. The mean T (max) for celecoxib was prolonged when given as proniosomal capsule. There was no significant difference between the values of K (el) and t (1/2) for both celecoxib preparations. In conclusion, the proniosomal oral delivery system of celecoxib with improved bioavailability was established.

PMID: 20058106 [PubMed - indexed for MEDLINE]

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Overcoming cisplatin resistance of ovarian cancer cells by targeted liposomes in vitro.

Int J Pharm. 2010 Apr 15;389(1-2):10-7

Authors: Krieger ML, Eckstein N, Schneider V, Koch M, Royer HD, Jaehde U, Bendas G

The clinical application of cisplatin to treat solid tumours is often limited by the development of tumour cell resistance against this cytostatic agent. Although liposomal carriers of cisplatin are currently in clinical development, approaches to functionally overcome cisplatin resistance by liposomes have hardly been reported. We prepared PEGylated cisplatin-containing liposomes with diameters of about 110 nm and targetability to transferrin receptors (TfR) to correlate cisplatin cell uptake with cytotoxicity in sensitive and cisplatin resistant ovarian cancer cells A2780 compared to the free drug. Whereas the cell entry of free cisplatin was reduced by factor 4 after 24h in resistant cells, liposomal uptake was similar in both cell lines and not affected by resistance. Cytotoxicity was clearly related to intracellular platinum levels, which were even higher for liposomal vs. free cisplatin in the resistant cells after 24, 48, and 72 h and slightly lower in the sensitive cells. However, TfR targeting was of less impact on activity in comparison to non-targeted liposomes. Detection of cellular ATP levels within 24h allowed postulations on the intracellular fate of the liposomes. Altogether, this study strongly supports approaches to overcome cisplatin resistance by a liposomal application of the drug.

PMID: 20060458 [PubMed - indexed for MEDLINE]