Your search keyword '"Liposome"' showing total 1,612 results

1. Development of a cationic bacterial cellulose film loaded with anionic liposomes for prolonged release of oxacillin in wound dressing applications.

Author

Sedans, Karina Andressa, Stiegler Jurkevicz, Carolina, Silva, Bruna Conceição Costa, Blener Lopes, Viviany, Lopes, Gabriela Francine Martins, Schmitt, Elisangela Flavia Pimentel, Portes, Danielle Braga, Fronza, Marcio, Endringer, Denise Coutinho, Tischer, Cesar Augusto, Cabeça, Luis Fernando, Ferreira, Jaqueline Maria Siqueira, and Ribeiro-Viana, Renato Márcio

Subjects

*WOUND care, *CONTACT angle, *ETHNIC costume, *CELLULOSE, *ANTI-infective agents, *LIPOSOMES

Abstract

[Display omitted] Dressings should protect wounds, promote healing, absorb fluids, and maintain moisture. Bacterial cellulose is a biopolymer that stands out in biomaterials due to its high biocompatibility in several applications. In the area of dressings, it is already marketed as an alternative to traditional dressings. However, it lacks any intrinsic activity; among these, the need for antimicrobial activity in infected wounds stands out. We developed a cationic cellulose film by modifying cellulose with 1-(5-carboxypentyl)pyridin-1-ium bromide, enhancing its wettability (contact angle: 26.6°) and water retention capacity (2714.37 %). This modified film effectively retained oxacillin compared to the unmodified control. Liposomal encapsulation further prolonged oxacillin release up to 11 days. Both oxacillin-loaded films and liposomal formulations demonstrated antimicrobial activity against Staphylococcus aureus. Our findings demonstrate the potential of chemically modified cellulose as a platform for controlled anionic antibiotics and/or their formulations delivery in wound care. [ABSTRACT FROM AUTHOR]

Published

2024

2. The electro-responsive nanoliposome as an on-demand drug delivery platform for epilepsy treatment.

Author

Sabet, Fereshte Sadat, Dabirmanesh, Bahareh, Sabet, Hoorie Sadat, Zarei, Parisa, Hosseini, Morteza, Fathollahi, Yaghoub, and Khajeh, Khosro

Subjects

*DRUG delivery systems, *LABORATORY rats, *EPILEPTIFORM discharges, *ELECTRIC stimulation, *SURFACE charges

Abstract

[Display omitted] • Development of a smart nanoscale drug delivery platform for epilepsy treatment. • Controlled release of carbamazepine in response to epileptic discharges. • High drug encapsulation and rapid release from carbamazepine-loaded nanoliposomes. • Reduction of seizure activity in epilepsy rat models using this smart system. Nano-based drug delivery systems are regarded as a promising tool for efficient epilepsy treatment and seizure medication with the least general side effects and socioeconomic challenges. In the current study, we have designed a smart nanoscale drug delivery platform and applied it in the kindling model of epilepsy that is triggered rapidly by epileptic discharges and releases anticonvulsant drugs in situ, such as carbamazepine (CBZ). The CBZ-loaded electroactive ferrocene nanoliposomes had an average diameter of 100.6 nm, a surface charge of −7.08 mV, and high drug encapsulation efficiency (85.4 %). A significant increase in liposome size was observed in response to direct current (50–500 μA) application. This liposome-based drug delivery system can release CBZ at a fast rate in response to both direct current and pulsatile electrical stimulation in vitro. The CBZ-liposome can release the anticonvulsant drug upon epileptiform activity in the kindled rat model and can decline electrographic and behavioral seizure activity in response to electrical stimulation of the hippocampus with an initially subconvulsive current. With satisfactory biosafety results, this "smart" nanocarrier has promising potential as an effective and safe drug delivery system to improve the therapeutic index of antiepileptic drugs. [ABSTRACT FROM AUTHOR]

Published

2024

3. Myocardium-targeted liposomal delivery of the antioxidant peptide 8P against doxorubicin-induced myocardial injury.

Author

Zhao, Meijun, Liu, Chang, Liu, Zhenye, Zuo, Yuanyuan, Chen, Chen, Shi, Shuai, Shi, Xinlin, Xie, Yining, Yang, Huiying, and Chen, Yutong

Subjects

*PATHOLOGICAL physiology, *MYOCARDIAL injury, *HEART diseases, *HEART injuries, *HEART failure, *LIPOSOMES

Abstract

[Display omitted] • P-P-8P has myocardial targeting properties and delivers 8P into the heart. • P-P-8P could prevent oxidative stress injury in H9C2 cells, protect mitochondrial functions, and inhibit cell apoptosis. • P-P-8P could prevent abnormalities biochemical indicators, cardiac dysfunction, and myocardial pathological changes. • P-P-8P exhibits excellent biocompatibility and biosafety. Doxorubicin (Dox) is a broad-spectrum antineoplastic chemotherapeutic agent used in clinical settings, yet it exhibits significant cardiotoxicity, which in severe cases can lead to heart failure. Research indicates that oxidative stress plays a pivotal role in Dox −induced cardiomyocyte injury. Therefore, the application of antioxidants represents an effective strategy to mitigate the cardiotoxic effects of doxorubicin. In preliminary studies, we isolated an antioxidative peptide, PHWWEYRR (8P). This study utilizes a PCM cardiomyocyte-targeting peptide-modified liposome as a carrier to deliver 8P into cardiomyocytes, aiming to prevent Dox-induced cardiac injury through its antioxidative mechanism. The results demonstrated that we prepared the 8P-loaded and PCM-targeting peptide-modified liposome (P-P-8P), which exhibited good dispersibility, encapsulation efficiency, drug loading capacity, and in vitro release, along with myocardial targeting capability. In vitro experiments showed that P-P-8P could prevent oxidative stress injury in H9C2 cells, protect mitochondrial functions, and inhibit cell apoptosis through a mitochondria-dependent pathway. In vivo experiments indicated that P-P-8P could prevent abnormalities in serum biochemical indicators, cardiac dysfunction, and myocardial pathological changes in mice. In conclusion, P-P-8P effectively delivers 8P to cardiomyocytes, offering protection against the cardiotoxic effects of Dox, and holds potential as a future preventative or therapeutic agent for drug-induced cardiomyopathy. [ABSTRACT FROM AUTHOR]

Published

2024

4. Facile scalable one-flow synthesis of ionizable cationic lipid library as precursors of nanoparticle carriers.

Author

Kawale, Sanket A., Na, Gi-Su, Kumar, Sanjeev, Joo, Jeong-Un, Kang, Dong-Chang, and Kim, Dong-Pyo

Subjects

*DIMETHYL sulfate, *LIPID synthesis, *CARCINOGENS, *DRUG delivery systems, *FLOW chemistry, *ACYL chlorides, *CATIONIC lipids

Abstract

A streamlined process enables the synthesis of a variety of ionizable and cationic lipids, including DODAP and DOTAP, with scalable production. Key steps involve moisture-sensitive acyl chloride generation and efficient removal of toxic byproducts, leading to the formation of uniform-sized lipid nanoparticles and liposomal nanoparticles. This platform offers significant advancements in lipid-based nanomedicines, enhancing drug delivery systems' efficacy and safety. [Display omitted] • One-flow synthesis of biodegradable ionizable lipid library. • Continuous monitoring with in-situ FTIR. • Cationic lipids synthesis via rapid flow alkylation & Steglich esterification. • Rapid flow synthesis of LNPs & liposomes for nucleic acid delivery. A variety of ionizable and cationic lipids have been synthesized as precursors for nanoparticle carriers. However, the laborious synthetic routes in batch reactors often involve the use of toxic and carcinogenic agents, as well as challenge of removing gaseous byproducts. In this study, we present facile one-flow micro-reaction process that enables the synthesis of 11 ionizable lipids as well as 7 cationic lipids, including the well-known DODAP and DOTAP. These lipids can be scaled up to produce approximately ∼10g/h by using a straightforward size-up approach. The development of the lipid library was involved generating highly moisture-sensitive acyl chloride at 25 °C for 1.5 min. The toxic byproducts such as HCl, CO 2 and CO were subsequently removed using a liquid–gas separator. The esterification with dimethylamino-1,2-diol at 25 °C for 3 min, monitored in-line with FTIR, completed the process. Additionally, the synthesized ionizable lipids were converted to cationic lipids with methyl sulfate, chloride ions via dimethyl sulfate and Steglich esterification in a continuous flow system. Finally, the produced DODAP was transformed into a uniform-sized LNPs (64 nm, PDI 0.07) and liposomal nanoparticles (72 nm, PDI 0.05) while DOTAP was converted to liposomes (55 nm, PDI 0.08) using a custom micro-mixer. This efficient platform for lipid synthesis significantly contributes to the practical applications of lipid-based nanomedicines. [ABSTRACT FROM AUTHOR]

Published

2024

5. Laronidase-loaded liposomes reach the brain and other hard-to-treat organs after noninvasive nasal administration.

Author

Schuh, Roselena Silvestri, Franceschi, Eduarda Piovesan, Brum, Bruna Brazeiro, Fachel, Flávia Nathiely Silveira, Poletto, Édina, Vera, Luisa Natália Pimentel, Santos, Hallana Souza, Medeiros-Neves, Bruna, Monteagudo de Barros, Vinicius, Helena da Rosa Paz, Ana, Baldo, Guilherme, Matte, Ursula, Giugliani, Roberto, and Ferreira Teixeira, Helder

Subjects

*INTRANASAL administration, *LIPOSOMES, *LUNGS, *ENZYME replacement therapy, *DERMATAN sulfate, *INTRAVENOUS therapy

Abstract

[Display omitted] • Liposomal laronidase formulation was successfully developed. • Laronidase-loaded liposomes promoted an increase in enzyme activity in vitro. • Formulation was delivered through nasal route to MPS I mice. • Laronidase-loaded liposomes increased enzyme activity in all organs including brain. Mucopolysaccharidosis type I (MPS I) is caused by a lack of the lysosomal enzyme α-L-iduronidase (IDUA), responsible for the degradation of the glycosaminoglycans (GAGs) dermatan and heparan sulfate, leading to multisystemic signs and symptoms. Enzyme replacement therapy (ERT) is a treatment that consists of weekly intravenous administrations of laronidase, a recombinant version of IDUA. However, ERT has limited access to certain tissues, such as bone, cartilage, and brain, and laronidase fails to trespass the BBB. In this sense, this study reports the development and characterization of laronidase-loaded liposomes for the treatment of MPS I mice. Liposomal complexes were obtained by the thin film formation method followed by microfluidization. The main characterization results showed mean vesicle size of 103.0 ± 3.3 nm, monodisperse populations of vesicles, zeta potential around + 30.0 ± 2.1 mV, and mucoadhesion strength of 5.69 ± 0.14 mN. Treatment of MPS I mice fibroblasts showed significant increase in enzyme activity. Nasal administration of complexes to MPS I mice resulted in significant increase in laronidase activity in the brain cortex, heart, lungs, kidneys, eyes, and serum. The overall results demonstrate the feasibility of nasal administration of laronidase-loaded liposomes to deliver enzyme in difficult-to-reach tissues, circumventing ERT issues and bringing hope as a potential treatment for MPS I. [ABSTRACT FROM AUTHOR]

Published

2024

6. Attenuated polyethylene glycol immunogenicity and overcoming accelerated blood clearance of a fully PEGylated dendrimer.

Author

Kojima, Chie, Yao, Junjie, Nakajima, Kohei, Suzuki, Motofumi, Tsujimoto, Ayako, Kuge, Yuji, Ogawa, Mikako, and Matsumoto, Akikazu

Subjects

*POLYETHYLENE glycol, *DENDRIMERS, *IMMUNE response, *POLYAMIDOAMINE dendrimers, *LIPOSOMES, *BLOOD circulation, *DRUG delivery systems, *IMMUNOGLOBULIN M, *DRUG carriers

Abstract

[Display omitted] Polyethylene glycol (PEG) is a popular biocompatible polymer and PEGylated nanoparticles passively accumulate in tumor tissues because of their enhanced permeability and retention effects. Recently, the anti-PEG immunity of PEGylated nanoparticles has become an issue that needs to be solved for their clinical applications. Dendrimers are highly branched and well-defined polymers with many terminal groups, which act as potent drug carriers. In this study, we examined the pharmacokinetics, biodistribution, anti-PEG immunity, and tumor accumulation of a fully PEGylated polyamidoamine (PAMAM) dendrimer after the first and second injections and compared them to those of a PEGylated liposome with the same lipid component as Doxil®. The PEGylated dendrimer showed greater blood circulation than that of the PEGylated liposome after the first and second injections in rats. In mice injected with the PEGylated dendrimer, much less anti-PEG immunoglobulin M (IgM) was generated than that in mice injected with the PEGylated liposome. The PEGylated dendrimer accumulated in the tumor after both the first and second injections. Our results indicated that the PEGylated dendrimer with a small size and high PEG density showed attenuated anti-PEG immunity and overcame the accelerated blood clearance phenomenon, which is useful for drug delivery systems for cancer treatment. [ABSTRACT FROM AUTHOR]

Published

2024

7. Advancements in liposomal formulations: A comprehensive exploration of industrial production techniques.

Author

Sameer Khan, Mohammad, Gupta, Garima, Alsayari, Abdulrhman, Wahab, Shadma, Sahebkar, Amirhossein, and Kesharwani, Prashant

Subjects

*LIPOSOMES, *COLLOIDAL stability, *TISSUE engineering, *NANOMEDICINE, *NANOCARRIERS

Abstract

[Display omitted] Liposomes are nanosized, spherical vesicles consisting of an aqueous core encircled by one or more phospholipid bilayer shells. Liposomes have found extensive use in numerous biomedicine and nanomedicine applications due to their excellent biocompatibility, adaptable chemical composition, ease of preparation, and diverse structural characteristics. These applications include nanocarriers for drug delivery, immunoassays, nutraceuticals, tissue engineering, clinical diagnostics, and theranostics formulations. These applications stimulated significant efforts toward scaling up formation processes in anticipation of appropriate industrial advancement. Despite the advancements in conventional methods and the emergence of new approaches for liposome production, their inherent susceptibility to chemical and mechanical influences contributes to critical challenges, including limited colloidal stability and decreased efficiency in encapsulating cargo molecules. With this context, the current review provides brief insights into liposomes conventional and novel industrial production techniques. With a special focus on the structural parameters, and pivotal elements influencing the synthesis of an appropriate and stable formulation, followed by the various regulatory aspects of industrial production. [ABSTRACT FROM AUTHOR]

Published

2024

8. Investigating the effectiveness of liposome-bacteriophage nanocomplex in killing Staphylococcus aureus using epithelial cell coculture models.

Author

Li, Jiaqi, Zheng, Huangliang, and Leung, Sharon Shui Yee

Subjects

*BACTERIOPHAGES, *MICROCOCCACEAE, *STAPHYLOCOCCUS aureus, *EPITHELIAL cells, *STAPHYLOCOCCUS aureus infections, *RESPIRATORY infections, *INTRACELLULAR pathogens

Abstract

Nebulization of lipid-phage nanocomplex for the management of respiratory infections associated with intracellular Staphylococcus aureus. [Display omitted] • EPC liposome-phage K nanocomplex showed excellent aerodynamic performance and protection of phage against the nebulization-induced stresses. • SPC-phage K and EPC-phage K had promoted the killing efficiency against S. aureus whereas HSPC-phage K showed impaired infectivity. • EPC-phage K exhibited the best intracellular bacterial killing with no relapse of infection. • EPC-phage K managed the infection in 3D epithelial cell spheroid more efficiently than free phage and SPC-phage K and HSPC-phage K. Host cell invasion with strong antibiotics evading is a major feature of respiratory Staphylococcus aureus infections with severe recurrence. Bacteriophage (phage) therapy and design of liposomal phage to target intracellular pathogens have been described recently. The practicality for pulmonary delivery of liposomal phage, and how formulation compositions affecting the aerosolization and intracellular bacterial killing remain unexplored. In the present study, three commonly used phospholipids (SPC, EPC, and HSPC) were selected to investigate their ability for phage K nebulization and intracellular therapy in the form of liposome-phage nanocomplexes. The three lipid nanocarriers showed protection on phage K upon mesh nebulization and the pulmonary deposition efficiency was influenced by the lipid used. Moreover, the intracellular bacterial killing was strongly depended on the lipid types, where EPC-phage exhibited the best killing performance with no relapsing. Phage K with the aid of EPC liposomes was also observed to manage the tissue infection in a 3D spheroid model more effectively than other groups. Altogether, this novel EPC liposome-phage nanocomplex can be a promising formulation approach that enables inhalable phage to manage respiratory infections caused by bacteria strongly associated with human epithelial cells. [ABSTRACT FROM AUTHOR]

Published

2024

9. Inhaled dry powder liposomal azithromycin for treatment of chronic lower respiratory tract infection.

Author

Dallal Bashi, Yahya H., Ali, Ahlam, Al Ayoub, Yuosef, Assi, Khaled H., Mairs, Rachel, McCarthy, Helen O., Tunney, Michael M., and Kett, Vicky L.

Subjects

*RESPIRATORY infections, *POWDERS, *AZITHROMYCIN, *GLASS transition temperature, *CYSTIC fibrosis, *RESPIRATORY diseases

Abstract

[Display omitted] A dry powder inhaled liposomal azithromycin formulation was developed for the treatment of chronic respiratory diseases such as cystic fibrosis and bronchiectasis. Key properties including liposome size, charge and encapsulation efficiency powder size, shape, glass transition temperature (Tg), water content and in vitro respiratory deposition were determined. Antimicrobial activity against cystic fibrosis (CF) respiratory pathogens was determined by MIC, MBC and biofilm assays. Cytotoxicity and cellular uptake studies were performed using A549 cells. The average liposome size was 105 nm, charge was 55 mV and encapsulation efficiency was 75 %. The mean powder particle size d[v,50] of 4.54 µm and Mass Median Aerodynamic Diameter (MMAD) was 5.23 µm with a mean Tg of 76˚C and water content of 2.1 %. These excellent physicochemical characteristics were maintained over one year. Liposomal loaded azithromycin demonstrated enhanced activity against P. aeruginosa clinical isolates grown in biofilm. The formulation was rapidly delivered into bacterial cells with > 75 % uptake in 1 h. Rapid uptake into A549 cells via a cholesterol-dependent endocytosis pathway with no cytotoxic effects apparent. These data demonstrate that this formulation could offer benefits over current treatment regimens for people with chronic respiratory infection. [ABSTRACT FROM AUTHOR]

Published

2024

10. Liposome-based nanomedicine for immune checkpoint blocking therapy and combinatory cancer therapy.

Author

Zhou, Haoyuan, Yu, Cui-Yun, and Wei, Hua

Subjects

*IMMUNE checkpoint proteins, *NANOMEDICINE, *CANCER treatment, *LIPOSOMES, *NANOCARRIERS, *CLINICAL medicine

Abstract

[Display omitted] The discovery of immune checkpoint (IC) has led to a wave of leap forward in cancer immunotherapy that represents probably the most promising strategy for cancer therapy. However, the clinical use of immune checkpoint block (ICB) therapy is limited by response rates and side effects. A strategy that addresses the limitations of ICB therapies through combination therapies, using nanocarriers as mediators, has been mentioned in numerous research papers. Liposomes have been probably one of the most extensively used nanocarriers for clinical applications, with broad drug delivery and high safety. A timely review on this hot subject of research, i.e., the application of liposomes for ICB, is thus highly desirable for both fundamental and clinical translatable studies, but remains, to our knowledge, unexplored so far. For this purpose, this review is composed to address the dilemma of ICB therapy and the reasons for this dilemma. We later describe how other cancer treatments have broken this dilemma. Finally, we focus on the role of liposomes in various combinatory cancer therapy. This review is believed to serve as a guidance for the rational design and development of liposome for immunotherapy with enhanced therapeutic efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

11. Development and optimization of a one step process for the production and sterilization of liposomes using supercritical CO2.

Author

Penoy, Noémie, Delma, Kouka Luc, Homkar, Nirmayi, Karim Sakira, Abdoul, Egrek, Sabrina, Sacheli, Rosalie, Sacré, Pierre-Yves, Grignard, Bruno, Hayette, Marie-Pierre, Somé, Touridomon Issa, Semdé, Rasmané, Evrard, Brigitte, and Piel, Géraldine

Subjects

*SUPERCRITICAL carbon dioxide, *LIPOSOMES, *MANUFACTURING processes, *TECHNOLOGICAL innovations, *DRUG delivery systems, *CARBON dioxide, *OILSEEDS

Abstract

[Display omitted] • Supercritical carbon dioxide for the production and sterilization of liposomes in a one-step process. • Optimization of a process with a quality by design strategy. • Final liposomes with required sterility assurance level and physicochemical characteristics for drug delivery. • Adapted process to several liposome formulations with hydrophobic active pharmaceutical ingredients. Liposomes are very interesting drug delivery systems for pharmaceutical and therapeutic purposes. However, liposome sterilization as well as their industrial manufacturing remain challenging. Supercritical carbon dioxide is an innovative technology that can potentially overcome these limitations. The aim of this study was to optimize a one-step process for producing and sterilizing liposomes using supercritical CO 2. For this purpose, a design of experiment was conducted. The analysis of the experimental design showed that the temperature is the most influential parameter to achieve the sterility assurance level (SAL) required for liposomes (≤10−6). Optimal conditions (80 °C, 240 bar, 30 min) were identified to obtain the fixed critical quality attributes of liposomes. The conditions for preparing and sterilizing empty liposomes of various compositions, as well as liposomes containing the poorly water-soluble drug budesonide, were validated. The results indicate that the liposomes have appropriate physicochemical characteristics for drug delivery, with a size of 200 nm or less and a PdI of 0.35 or less. Additionally, all liposome formulations demonstrated the required SAL and sterility at concentrations of 5 and 45 mM, with high encapsulation efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

12. Antimicrobial activity of prophage endolysins against critical Enterobacteriaceae antibiotic-resistant bacteria.

Author

Gonçalves, Tiago, Marques, Andreia T., Manageiro, Vera, Tanoeiro, Luis, Vital, Joana S., Duarte, Aida, Vítor, Jorge M.B., Caniça, Manuela, Gaspar, Maria Manuela, and Vale, Filipa F.

Subjects

*DRUG resistance in bacteria, *ANTI-infective agents, *GRAM-negative bacteria, *PHOSPHATIDYLETHANOLAMINES, *MEMBRANE fusion, *ENTEROBACTERIACEAE, *KLEBSIELLA pneumoniae

Abstract

[Display omitted] Enterobacteriaceae species are part of the 2017 World Health Organization antibiotic-resistant priority pathogens list for development of novel medicines. Multidrug-resistant Klebsiella pneumoniae is an increasing threat to public health and has become a relevant human pathogen involved in life-threatening infections. Phage therapy involves the use of phages or their lytic endolysins as bioagents for the treatment of bacterial infectious diseases. Gram-negative bacteria have an outer membrane, making difficult the access of endolysins to the peptidoglycan. Here, three endolysins from prophages infecting three distinct Enterobacterales species, Kp2948-Lys from K. pneumoniae , Ps3418-Lys from Providencia stuartii , and Kaer26608-Lys from Klebsiella aerogenes , were purified and exhibited antibacterial activity against their specific bacterium species verified by zymogram assays. These three endolysins were successfully associated to liposomes composed of dimyristoyl phosphatidyl choline (DMPC), dioleoyl phosphatidyl ethanolamine (DOPE) and cholesteryl hemisuccinate (CHEMS) at a molar ratio (4:4:2), with an encapsulation efficiency ranging from 24 to 27%. Endolysins encapsulated in liposomes resulted in higher antibacterial activity compared to the respective endolysin in the free form, suggesting that the liposome-mediated delivery system enhances fusion with outer membrane and delivery of endolysins to the target peptidoglycan. Obtained results suggest that Kp2948-Lys appears to be specific for K. pneumoniae , while Ps3418-Lys and Kaer26608-Lys appear to have a broader antibacterial spectrum. Endolysins incorporated in liposomes constitute a promising weapon, applicable in the several dimensions (human, animals and environment) of the One Health approach, against multidrug-resistant Enterobacteriaceae. [ABSTRACT FROM AUTHOR]

Published

2024

13. Liposome-camouflaged iodinated mesoporous silica nanoparticles with high loading capacity, high hemodynamic stability, high biocompatibility and high radiopacity.

Author

Fu, Naikuan, Li, Ao, Zhang, Jing, Zhang, Peng, Zhang, Hong, Yang, Shicheng, and Zhang, Jianhua

Subjects

*SILICA nanoparticles, *RADIOPACITY, *NANOCARRIERS, *CONTRAST media, *CONTRAST induced nephropathy, *COMPUTED tomography, *MESOPOROUS silica

Abstract

[Display omitted] Due to their low osmolality and high tolerability, the highly water-soluble nonionic iodinated contrast agents, such as Ioversol (IV), are widely used as clinical agents for CT imaging. However, their clinical applications still are severely limited by the rapid renal excretion, serious adverse effects especially contrast-induced nephropathy and inefficient targetability. Various nanocarriers have demonstrated tremendous potential for achieving high imaging efficiency and low side effects. However, few nanoparticulate contrast agents can simultaneously integrate the desirable functions for imaging, including high loading capacity of iodine, high structure stability for systemic circulation, high biocompatibility and high radiopacity. Herein, we designed and prepared a kind of new radiopaque liposome-camouflaged iodinated mesoporous silica nanoparticles (OIV-MSNs@Liposomes) as contrast agents in CT imaging. Their composition, structure, morphology, biocompatibility and physicochemical properties as well as in vitro radiopacity were investigated in detail. The results indicated that OIV-MSNs@Liposomes can integrate their individual advantages of liposomes and MSNs, thus exhibiting great potential for use in the CT imaging. Considering the simple preparation process and readily available starting materials as well as enhanced biosafety and high performance in X-ray attenuation, the strategy reported here offers a versatile route to efficiently deliver highly water-soluble nonionic iodinated contrast agents for enhanced CT imaging, which are unattainable by traditional means. [ABSTRACT FROM AUTHOR]

Published

2024

14. Liposomal encapsulation of amoxicillin via microfluidics with subsequent investigation of the significance of PEGylated therapeutics.

Author

Weaver, Edward, Macartney, Robyn A., Irwin, Robyn, Uddin, Shahid, Hooker, Andrew, Burke, George A., Wylie, Matthew P., and Lamprou, Dimitrios A.

Subjects

*AMOXICILLIN, *MICROFLUIDICS, *GRAM-negative bacteria, *DRUG resistance in microorganisms, *PEPTIDE antibiotics, *CYTOTOXINS

Abstract

[Display omitted] • Microfluidic formulation of amoxicillin produces homogenous, size-controlled liposomes. • Particles produced are non-cytotoxic and allow for viable cell attachment. • Liposomes display a high level of antimicrobial affect against both gram positive and negative bacteria. • PEGylation of nanoparticles is assessed and determined to be beneficial for the formulations produced. • Issues surrounding antimicrobial resistance could be circumvented using targeted therapy. With an increasing concern of global antimicrobial resistance, the efforts to improve the formulation of a narrowing library of therapeutic antibiotics must be confronted. The liposomal encapsulation of antibiotics using a novel and sustainable microfluidic method has been employed in this study to address this pressing issue, via a targeted, lower-dose medical approach. The study focusses upon microfluidic parameter optimisation, formulation stability, cytotoxicity, and future applications. Particle sizes of circa. 130 nm, with viable short-term (28-day) physical stability were obtained, using two different non-cytotoxic liposomal formulations, both of which displayed suitable antibacterial efficacy. The microfluidic method allowed for high encapsulation efficiencies (≈77 %) and the subsequent in vitro release profile suggested high limits of antibiotic dissociation from the nanovessels, achieving 90% release within 72 h. In addition to the experimental data, the growing use of poly(ethylene) glycol (PEG) within lipid-based formulations is discussed in relation to anti-PEG antibodies, highlighting the key pharmacological differences between PEGylated and non-PEGylated formulations and their respective advantages and drawbacks. It's surmised that in the case of the formulations used in this study, the addition of PEG upon the liposomal membrane would still be a beneficial feature to possess owing to beneficial features such as stability, antibiotic efficacy and the capacity to further modify the liposomal membrane. [ABSTRACT FROM AUTHOR]

Published

2024

15. Novel liposomal glatiramer acetate: Preparation and immunomodulatory evaluation in murine model of multiple sclerosis.

Author

Rahiman, Niloufar, Zamani, Parvin, Arabi, Leila, Alavizadeh, Seyedeh Hoda, Nikpoor, Aminreza, Mashreghi, Mohammad, Badiee, Ali, and Jaafari, Mahmoud Reza

Subjects

*GLATIRAMER acetate, *MULTIPLE sclerosis, *LIPOSOMES, *PATIENT compliance, *INFLAMMATION, *PHAGOCYTOSIS

Abstract

[Display omitted] • Glatiramer acetate for MS management has low delivery and frequent administration. • The novel liposomal glatiramer acetate prepared through thin-film hydration method. • Liposomal glatiramer acetate is more prominently effective than its free form. • This higher efficacy is due to its enhanced delivery and higher duration of action. • Liposomal glatiramer acetate presented higher immunomodulation than its free form. The frequent administration rate required for Glatiramer acetate (GA), a first-line therapy for Multiple sclerosis (MS), poses patient compliance issues. Only a small portion of the subcutaneously administered GA is available for phagocytosis by macrophages, as most of it is hydrolyzed at its administration site or excreted renally. To unravel these hurdles, we have prepared liposomal formulations of GA through thin film-hydration method plus extrusion. The clinical and histopathological efficacy of GA-loaded liposomes were assessed in prophylactic and therapeutic manners on murine model of MS (experimental autoimmune encephalomyelitis (EAE)). The selected GA liposomal formulation showed favorable size (275 nm on average), high loading efficiency, and high macrophage localization. Moreover, administration of GA-liposomes in mice robustly suppressed the inflammatory responses and decreased the inflammatory and demyelinated lesion regions in CNS compared to the free GA with subsequent reduction of the EAE clinical score. Our study indicated that liposomal GA could be served as a reliable nanomedicine-based platform to hopefully curb MS-related aberrant autoreactive immune responses with higher efficacy, longer duration of action, fewer administration frequencies, and higher delivery rate to macrophages. This platform has the potential to be introduced as a vaccine for MS after clinical translation and merits further investigations. [ABSTRACT FROM AUTHOR]

Published

2023

16. The modulation of drug-loading stability within lipid membranes via medium chain triglycerides incorporation.

Author

Luo, Lifeng, Chen, Qiuyue, Wei, Nana, Liu, Yi, He, Haibing, Zhang, Yu, Yin, Tian, Gou, Jingxin, and Tang, Xing

Subjects

*MEMBRANE lipids, *TRIGLYCERIDES, *MOLECULAR weights, *FREEZE-thaw cycles, *CLARITHROMYCIN

Abstract

The current research aimed to explore medium chain triglycerides (MCT) incorporation in liposomes to overcome stability challenges when drugs with high molecular weight and payload are loaded within lipid membranes. A model drug clarithromycin was loaded in lipid dispersions with various MCT/phospholipids ratios (R M/P = 0, 0.5, 1.75 and 7.5 w/w). TEM images demonstrated a liposome-to-emulsion structural transformation by MCT incorporation to cause increased particle size (104.3–167.7 nm) but decreased zeta potential (−63.6 to −44.4 mV) of lipid particles. MCT incorporation produced biphasic release in PBS and accelerated released in plasma. The tolerance of liposomes for thermal sterilization, high temperature test and freeze-thaw cycles were significantly improved by MCT incorporation. However, MCT incorporation produced adverse effects on colloidal stability in plasma and pharmacokinetics behavior in vivo to some extent. MCT stabilizing mechanism attributes to the modulation of drug loading area and stability improvement of lipid carriers. MCT incorporated liposomes achieved 2–3 fold cellular uptake level than traditional liposomes without significant cytotoxicity. These results indicated that MCT incorporation could be a promising strategy to apply in liposome production to achieve stable drug loading. [ABSTRACT FROM AUTHOR]

Published

2019

17. Reduction responsive liposomes based on paclitaxel-ss-lysophospholipid with high drug loading for intracellular delivery.

Author

Wang, Zhi, Ling, Longbing, Du, Yawei, Yao, Chen, and Li, Xinsong

Subjects

*PRODRUGS, *LIPOSOMES, *TRANSMISSION electron microscopes, *ZETA potential, *LIGHT scattering

Abstract

Liposomes based on paclitaxel-ss-lysophospholipid release paclitaxel in a reduction triggered manner. In this report, a novel redox-responsive liposomes based on disulfide derivative paclitaxel-ss-lysophosphatidylcholine prodrug (PTX-ss-PC) with high PTX loading was developed for triggering drug release. First of all, PTX-ss-PC was synthesized by a facile esterification and verified by MS, 1H NMR and HPLC. After that, PTX-ss-PC derived liposomes (PTX-ss-PC liposomes) containing EPC:Chol:mPEG 2000 -DSPE components were prepared by the conventional film method. Moreover, physicochemical characterizations of the PTX-ss-PC liposomes were carried out by using transmission electron microscope (TEM), dynamic light scattering (DLS) and release test. It was demonstrated that the PTX-ss-PC liposomes possessed average diameter of 234.9 nm and zeta potential of −29.1 mV with highest PTX loading 7.97%. The PTX-ss-PC liposomes dissociated rapidly in a reduction medium, as confirmed by their triggered aggregation/disruption and rapid release of PTX in the presence of glutathione (GSH). Finally, in vitro cytotoxicity of the liposomes was checked against MCF-7 and A549 cells. It was found that the PTX-ss-PC liposomes exhibited favorable GSH-mediated anti-proliferative activity in comparison with the nonresponsive counterpart. Taken together, the novel PTX-ss-PC based liposomes possess improved loading capacity, reduction triggered release of PTX and efficient anti-proliferative activity, which should be valuable for further preclinical evaluation. [ABSTRACT FROM AUTHOR]

Published

2019

18. Long-term storage of PEGylated liposomal oxaliplatin with improved stability and long circulation times in vivo.

Author

Doi, Yusuke, Shimizu, Taro, Ishima, Yu, and Ishida, Tatsuhiro

Subjects

*DRUG side effects, *OXALIPLATIN, *ANTINEOPLASTIC agents, *TUMOR growth, *COLON cancer, *PHARMACOKINETICS, *LIPOSOMES

Abstract

Liposomal anticancer drugs have been developed with improved clinical effects and reduced side effects. We have developed a PEGylated liposomal formulation of oxaliplatin that has anticancer effects in animal models of colorectal cancer with a favorable toxicity profile. To move this formulation into clinical development, a formulation that is stable during long term storage is needed, which has similar pharmacokinetics and therapeutic activity against solid tumors to the original formulation. In this study, we found that PEGylated liposomal oxaliplatin showed no changes in particle size after long term storage (12 months at 2–8 °C), but phospholipid degradation had occurred. Hence, the stored formulation had compromised membrane integrity, resulting in decreased in vivo circulation times of the liposomes. To improve the stability during long-term storage, a screening study to obtain an appropriate stabilizer was carried out. The buffer 2-morpholinoethansulfonic acid (MES) attenuated not only phospholipid degradation but also oxaliplatin degradation, unlike most other excipients. After 12 months storage at 2–8 °C in the presence of MES only slight degradation of phospholipids in PEGylated liposomal oxaliplatin occurred, resulting in similar in vivo pharmacokinetic profiles of the encapsulated oxaliplatin to the original formulation. Long term stability of PEGylated liposomal oxaliplatin was achieved by addition of MES, resulting in long circulation half-lives in vivo , a property which would be expected to lead to increased suppression of tumor growth and reduced side effects. Our formulation may now be suitable for clinical development. [ABSTRACT FROM AUTHOR]

Published

2019

19. Cyclodextrin-membrane interaction in drug delivery and membrane structure maintenance.

Author

Hammoud, Zahraa, Khreich, Nathalie, Auezova, Lizette, Fourmentin, Sophie, Elaissari, Abdelhamid, and Greige-Gerges, Hélène

Subjects

*LIPOSOMES, *CYCLODEXTRINS, *DRUG interactions, *BIOLOGICAL membranes, *DRUG solubility, *DRUG delivery systems, *PERMEABILITY

Abstract

Cyclodextrins (CDs) are cyclic oligosaccharides able to improve drug water solubility and stability by forming CD/drug inclusion complexes. To further increase drug entrapment and delay its release, the CD/drug inclusion complex can be embedded in the aqueous phase of a liposome, a lipid vesicle composed of phospholipid bilayer surrounding an aqueous compartment. The resulting carrier is known as drug-in-cyclodextrin-in-liposome (DCL) system. CDs and DCLs are recognized as effective drug delivery systems; therefore, understanding the interaction of CDs with liposomal and biological membranes is of great importance. CDs are able to extract phospholipids, cholesterol, and proteins from membranes; the effect depends on the membrane structure and composition as well as on the CD type and concentration. Under definite conditions, CDs can affect the membrane fluidity, permeability, and stability of liposomes and cells, leading to the leakage of some of their internal constituents. On the other side, CDs demonstrated their beneficial effects on the membrane structure, including preservation of the membrane integrity during freeze-drying. In this paper, we review the literature concerning the interaction of CDs with biomimetic and biological membranes. Moreover, the impact of CDs on the membrane properties, mainly fluidity, stability, and permeability, is highlighted. [ABSTRACT FROM AUTHOR]

Published

2019

20. Leukocyte-mimetic liposomes possessing leukocyte membrane proteins pass through inflamed endothelial cell layer by regulating intercellular junctions.

Author

Fukuta, Tatsuya, Yoshimi, Shintaro, Tanaka, Tamotsu, and Kogure, Kentaro

Subjects

*CELL junctions, *MEMBRANE proteins, *ENDOTHELIAL cells, *LIPOSOMES, *LEUCOCYTES, *THERAPEUTICS

Abstract

Nanoparticles such as liposomes have been applied for the treatment of various diseases such as cancer and inflammatory diseases by utilizing the enhanced permeability and retention effect. However, their entry into inflammation sites is still limited since passive delivery of nanoparticles is often hampered by the presence of endothelial barriers. As leukocytes can pass through the inflamed endothelium via utilizing membrane protein functions, we hypothesized that incorporating leukocyte membrane proteins onto liposomal membranes may impart leukocyte-mimicking functions to liposomes, allowing for their adherence to and active passage through the inflamed endothelium. Herein, we developed leukocyte-mimetic liposomes (LM-Lipo) by leukocyte membrane protein transfer and evaluated their function in vitro. Transfer of membrane proteins from human leukemia cells onto liposomal membranes allowed for significant association of the liposomes with inflamed human endothelial cells, and subsequent passage through inflamed endothelial cell layer. The confocal images showed that LM-Lipo significantly induced vascular endothelial-cadherin displacement. These results indicate that LM-Lipo adhered to and regulated intercellular junctions of inflamed endothelial cell layer, resulting in passage through the layer, by mimicking the function of leukocytes. Furthermore, it is suggested that liposomes possessing leukocyte-like functions could be useful for drug delivery to inflammation sites by overcoming endothelial barriers. [ABSTRACT FROM AUTHOR]

Published

2019

21. Application of the QbD-based approach in the early development of liposomes for nasal administration.

Author

Pallagi, Edina, Jójárt-Laczkovich, Orsolya, Németh, Zsófia, Szabó-Révész, Piroska, and Csóka, Ildikó

Subjects

*LIPOSOMES, *RISK assessment, *SURFACE area, *PRODUCT quality, *ADMINISTRATIVE law, *LIPIDS

Abstract

In this study, authors adapt the Quality by Design (QbD) concept as well as the Risk Assessment (RA) method to the early development phase of a new nano-sized liposomal formulation for nasal administration with brain target. As a model active agent, a BCS II class drug was chosen to investigate the behaviour of the drugs with lipophilic character. This research presents how to apply this risk-focused approach and concentrates on the first four stages of the QbD implementation. In this way the quality target product profile was defined, the critical factors were identified and an RA was performed. The RA results helped in the factorial design-based liposome preparation by the lipid film hydration method. The prepared liposomes were evaluated (vesicle size, size distribution, and specific surface area). The surface characteristics were also investigated to verify the exactness of the RA and critical factors based theoretical prediction. The results confirm that the QbD approach in liposome development can improve the formulation process. The RA focused predictive approach resulted in a decreased number of studies in practice but in an effective product preparation. Using such innovative design and development models can help to optimise and rationalise the development of liposomes. [ABSTRACT FROM AUTHOR]

Published

2019

22. Optimization of peptide-based cancer vaccine compositions, by sequential screening, using versatile liposomal platform.

Author

Jacoberger-Foissac, Célia, Saliba, Hanadi, Seguin, Cendrine, Brion, Anaïs, Kakhi, Zahra, Frisch, Benoît, Fournel, Sylvie, and Heurtault, Béatrice

Subjects

*CANCER vaccines, *T helper cells, *PNEUMOCOCCAL vaccines, *CYTOTOXIC T cells, *HUMAN papillomavirus vaccines, *PATTERN perception receptors, *CD4 antigen

Abstract

Therapeutic cancer vaccines need thoughtful design to efficiently deliver appropriate antigens and adjuvants to the immune system. In the current study, we took advantage of the versatility of a liposomal platform to conceive and customize vaccines containing three elements needed for the induction of efficient antitumor immunity: i) a CD4 epitope peptide able to activate CD4+ T helper cells, ii) a CD8 tumor-specific epitope peptide recognized by CD8+ T cytotoxic cells and iii) Pattern Recognition Receptor (PRR) agonists which stand as adjuvants. Each type of component, conjugated to liposomes, was evaluated individually by comparing their vaccine efficacy after immunization of naïve mice. These screening steps resulted in the optimization of three liposomal constructs bearing a peptide from HA influenza virus protein as CD4 epitope, a peptide from HPV16 E7 oncoprotein as CD8 epitope and TLR4, TLR2/6 or NOD1 agonists as adjuvant, which displayed antitumor efficiency against a mouse model of disseminated tumors transformed by HPV16. Our results validated the interest of our customizable liposomal platform as delivery system for cancer vaccination. We also demonstrated its interest as tool for vaccine design allowing the strategical selection of components, and the evaluation of epitope-adjuvant association. [ABSTRACT FROM AUTHOR]

Published

2019

23. A comparison of the immune responses induced by antigens in three different archaeosome-based vaccine formulations.

Author

Jia, Yimei, Akache, Bassel, Deschatelets, Lise, Qian, Hui, Dudani, Renu, Harrison, Blair A., Stark, Felicity C., Chandan, Vandana, Jamshidi, Mohammad P., Krishnan, Lakshmi, and McCluskie, Michael J.

Subjects

*OVALBUMINS, *HEPATITIS associated antigen, *LIPOSOMES, *ANTIGENS, *IMMUNE response, *HUMORAL immunity, *TRANSMISSION electron microscopy

Abstract

Graphical abstract Abstract Archaeosomes are liposomes composed of natural or synthetic archaeal lipids that can be used as adjuvants to induce strong long-lasting humoral and cell-mediated immune responses against entrapped antigen. However, the entrapment efficiency of antigen within archaeosomes constituted using standard liposome forming methodology is often only 5–40%. In this study, we evaluated different formulation methods using a simple semi-synthetic archaeal lipid (SLA, sulfated lactosyl archaeol) and two different antigens, ovalbumin (OVA) and hepatitis B surface antigen (HBsAg). Antigen was entrapped within archaeosomes using the conventional thin film hydration-rehydration method with or without removal of non-entrapped antigen, or pre-formed empty archaeosomes were simply admixed with an antigen solution. Physicochemical characteristics were determined (size distribution, zeta potential, vesicle morphology and lamellarity), as well as location of antigen relative to bilayer using cryogenic transmission electron microscopy (TEM). We demonstrate that antigen (OVA or HBsAg) formulated with SLA lipid adjuvants using all the different methodologies resulted in a strong antigen-specific immune response. Nevertheless, the advantage of using a drug substance process that comprises of simply admixing antigen with pre-formed empty archaeosomes, represents a simple, efficient and antigenic dose-sparing formulation for adjuvanting and delivering vaccine antigens. [ABSTRACT FROM AUTHOR]

Published

2019

24. Exhausting tumor associated macrophages with sialic acid-polyethyleneimine-cholesterol modified liposomal doxorubicin for enhancing sarcoma chemotherapy.

Author

Zheng, Huangliang, Li, Jiaqi, Wang, Mengjing, Luo, Xiang, Qiu, Qiujun, Hu, Ling, LI, Cong, Song, Yanzhi, and Deng, Yihui

Subjects

*SIALIC acids, *POLYETHYLENEIMINE, *CHOLESTEROL, *LIPOSOMES, *DOXORUBICIN, *SARCOMA, *CANCER chemotherapy

Abstract

Graphical abstract Abstract To overstep the dilemma of chemical drug degradation within powerful lysosomes of tumor associated macrophages (TAMs), a sialic acid-polyethylenimine-cholesterol (SA-PEI-CH) modified liposomal doxorubicin (DOX-SPCL) was designed with both TAMs targeting and smart lysosomal trafficking. The modified liposome DOX-SPCL performed particle size as 103.2 ± 3.1 nm and zeta potential as −4.5 ± 0.9 mV with encapsulation efficiency as 95.8 ± 0.5%. In in vitro cell experiments, compared with conventional liposomal doxorubicin (DOX-CL) and PEGylated liposomal doxorubicin (DOX-PL), DOX-SPCL showed a selective binding on TAMs and a mere lysosomal concentration. In pharmacokinetic study, DOX-SPCL effectively impeded/delayed the disposition of mononuclear phagocyte system (MPS) with a value of AUC 0-t as 796.03 ± 66.93 mg L−1 h. In S180 sarcomas bearing mice, DOX-SPCL showed the greatest tumor inhibition rate (92.7% ± 3.6%) compared with DOX-CL (46.4% ± 2.0%) or DOX-PL (58.8% ± 7.6%). The <0.5% positive region of TAMs in tumor section indicated a super TAMs exhaustion for DOX-SPCL treatment. Conclusively, DOX-SPCL was supposed as a safe and effective liposomal preparation for clinical sarcoma treatment via TAMs targeting/deletion delivery strategy. [ABSTRACT FROM AUTHOR]

Published

2019

25. Delivery of liposome encapsulated temozolomide to brain tumour: Understanding the drug transport for optimisation.

Author

Zhan, Wenbo

Subjects

*LIPOSOMES, *TEMOZOLOMIDE, *BRAIN tumors, *DRUG traffic, *PHARMACEUTICAL chemistry

Abstract

Graphical abstract Abstract Temozolomide presents significant anticancer activities in preclinical trials. However, its clinical applications suffer from serious side effects owing to the high concentration in blood and normal tissues. In this study, mathematical modelling is applied to simulate the liposome-mediated delivery of temozolomide under different conditions in a 3-D realistic brain tumour model reconstructed from MR images. Delivery outcomes are evaluated by the bioavailability of free temozolomide across time. As compared to the oral and intravenous administration of free temozolomide , liposome-mediated delivery can successfully improve the drug accumulation in tumour while reducing the drug exposure in blood and normal tissue. Results show that the delivery is less sensitive to the duration of intravenous infusion but highly dependent on the liposome properties. The treatment can be improved by either enhancing the liposome transvascular permeability or using the liposomes with high extracellular release rates. Intravascular release can only increase the risk of adverse effects rather than improving the drug bioavailability in tumour. Results obtained in this study could be applied for optimising the treatment using liposome encapsulated temozolomide. [ABSTRACT FROM AUTHOR]

Published

2019

26. A new therapeutic combination for osteosarcoma: Gemcitabine and Clofazimine co-loaded liposomal formulation.

Author

Caliskan, Yagmur, Dalgic, Ali Deniz, Gerekci, Selin, Gulec, Ezgi A., Tezcaner, Aysen, Ozen, Can, and Keskin, Dilek

Subjects

*OSTEOSARCOMA, *TUMOR treatment, *CLOFAZIMINE, *DRUG formularies, *TREATMENT effectiveness

Abstract

Graphical abstract Abstract Osteosarcoma is the most common cancer in bone. Drug resistance is a challenge of current treatments that needs to be improved with novel treatment strategies. In this research, a new dual drug delivery system was developed with Gemcitabine (GEM) and Clofazimine (CLF) co-loaded liposome formulations. GEM is a well-known anticancer agent and CLF is a leprostatic and anti-inflammatory drug recently recognized as effective on cancer. GEM and CLF co-loaded liposomal formulation was achieved with compartmentalization as hydrophilic GEM being in core and lipophilic CLF sequestering in lipid-bilayer. Liposomes had high encapsulation efficiency (above 90%, GEM and above 80%, CLF). CLF release was enhanced while GEM release was slowed down in co-loaded liposomes compared to single cases. GEM/CLF co-loaded liposomes significantly enhanced cytotoxicity than GEM or CLF loaded liposomes on osteosarcoma cell line. CLF and GEM had synergistic effect (CI < 1). Results of flow cytometry showed higher apoptotic cell ratio, caspase-3 activity, mitochondrial membrane depolarized cells' ratio for GEM/CLF co-loaded liposome treatments than other liposomes. Cytotoxicity of CLF on bone cancer cells and also its synergistic effect with GEM on osteosarcoma is reported for the first time with this study. CLF's loading with GEM into liposome was also a new approach for enhancement of anticancer effect on Saos-2 cells. Therefore, GEM/CLF co-loaded liposomal delivery system is proposed as a novel approach for treatment of osteosarcoma. [ABSTRACT FROM AUTHOR]

Published

2019

27. Physostigmine-loaded liposomes for extended prophylaxis against nerve agent poisoning.

Author

Park, Ju-Hwan, Lee, Jae-Young, Kim, Ki-Taek, Joe, Hae-Eun, Cho, Hyun-Jong, Shin, Young-Kee, and Kim, Dae-Duk

Subjects

*PHYSOSTIGMINE, *LIPOSOMES, *NERVE gases, *PREVENTIVE medicine, *CHOLINESTERASES

Abstract

Graphical abstract Abstract Pre-administration of physostigmine can prevent poisoning against nerve agent exposure by reversibly binding to cholinesterase. However, its cholinesterase protection-based prophylactic effect can be eliminated rapidly due to short biological half-life. Liposomes are useful for encapsulating hydrophilic drugs like physostigmine, and can be used for sustained release after parenteral injection. Thus, physostigmine liposomes were prepared by the pH-gradient condition-based remote-loading method for subcutaneous injection. In addition, polyethylene glycol (PEG)-lipid was applied to further extend the release of physostigmine and its prophylactic action. In vitro release of physostigmine, pharmacokinetics and duration of prophylactic effect were then evaluated. Physostigmine was dissolved in distilled water and used as a solution group for comparison. The prepared liposomes showed spherical shape and their particle size was around 130 μm. Addition of PEG-lipid in liposomes significantly increased the entrapment efficiency of physostigmine. Both control and PEG liposomes exhibited sustained release pattern compared to the solution. Moreover, the release of PEG liposomes was relatively slower than that of the control liposomes. Pharmacokinetic study in rats revealed that physostigmine liposomes exhibited lower maximum plasma concentration and longer half-life compared to the solution. Plasma cholinesterase inhibition ratio in the liposomal group decreased more gradually compared to the solution. Moreover, PEG liposomes showed higher plasma concentration of physostigmine and cholinesterase inhibition ratio compared to the control liposomes. These results suggest that PEG liposomes have potential to enhance the duration of cholinesterase-protecting effect of physostigmine. [ABSTRACT FROM AUTHOR]

Published

2018

28. Enhanced uptake and improved anti-tumor efficacy of doxorubicin loaded fibrin gel with liposomal apatinib in colorectal cancer.

Author

Hu, Yuzhu, Wu, Cong, Zhu, Changhui, Fu, Qingyu, Guo, Jiajun, Deng, Lihong, He, Yihong, Yang, Daoke, Cheng, Yongzhong, and Gao, Xiang

Subjects

*DOXORUBICIN, *ANTINEOPLASTIC agents, *COLON cancer treatment, *COLON cancer prognosis, *FIBRIN, *VASCULAR endothelial growth factors

Abstract

Graphical abstract Abstract Colorectal cancer (CRC) exhibited high incidence rate worldwide and the advanced CRC had a poor prognosis. Thereupon, seeking efficient treatment for CRC is critical. Apatinib is a novel vascular epithelial growth factor receptor (VEGFR) inhibitor with inspiring therapeutic effect in some malignant cancers. In our study, doxorubicin was mixed in fibrin gel and apatinib was encapsulated with self-synthesized liposome. The results showed liposomal apatinib (Lipo-Apatinib) could enhance the intracellular uptake of doxorubicin in vitro. Moreover, compared with doxorubicin loaded fibrin gel (DOX-FG) alone, the combination of DOX-FG and Lipo-Apatinib significantly improved the anti-tumor effect in mice CRC subcutaneous model and abdominal metastasis model Drug combination successfully inhibited tumor angiogenesis and tumor proliferation, and also promoted tumor apoptosis. Our data suggested that combined therapy of DOX-FG and Lipo-Apatinib would be a promising treatment approach for CRC. [ABSTRACT FROM AUTHOR]

Published

2018

29. Prevention of rat liver fibrosis by selective targeting of hepatic stellate cells using hesperidin carriers.

Author

Morsy, Mohamed A. and Nair, Anroop B.

Subjects

*FIBROSIS, *LIVER cells, *HESPERIDIN, *LABORATORY rats, *LIVER diseases

Abstract

Graphical abstract Abstract Therapeutic efficacy of antifibrotic drugs can be improved by targeting hepatic stellate cells (HSCs). This study investigated the prospect of developing a carrier system for the effective delivery of hesperidin by selectively targeting HSCs in fibrotic rat model. Hesperidin-loaded surface modified liposome formulations were prepared with varying quantity of lipids to optimize physicochemical characteristics. Best liposome formulation was further conjugated with a homing ligand, recognized by HSCs, to achieve a carrier system that facilitates the targeting of hesperidin. This carrier system was characterized for various physicochemical properties. The effectiveness of the bioactive carrier to prevent liver fibrosis was investigated by carrying out biochemical, biodistribution, and histopathological analyses. The pharmaceutical properties demonstrated by the ligand conjugated carrier system were optimal to facilitate selective and preferential delivery to the liver. Steady and prolonged drug release behavior with zero order kinetics displayed by prepared carrier system established its prospect to increase efficiency and decrease dosing of hesperidin. The pharmacokinetic profile of the carrier system was very distinct and exhibited rapid plasma clearance. The bio-distribution data of formulated carrier system indicates higher uptake of hesperidin predominantly by fibrotic liver with insignificant amount in non-targeted organs, which is certainly beneficial due to low risk of toxicity and lower systemic distribution. In conclusion, this developed carrier represents a potentially beneficial approach for HSCs specific targeting of hesperidin in a rat model with liver fibrosis. [ABSTRACT FROM AUTHOR]

Published

2018

30. Liposome-loaded polymeric microneedles for enhanced skin deposition of rifampicin.

Author

Anjani, Qonita Kurnia, Pandya, Anjali K., Demartis, Sara, Domínguez-Robles, Juan, Moreno-Castellanos, Natalia, Li, Huanhuan, Gavini, Elisabetta, Patravale, Vandana B., and Donnelly, Ryan F.

Subjects

*SOFT tissue infections, *METHICILLIN-resistant staphylococcus aureus, *STAPHYLOCOCCAL diseases, *RIFAMPIN, *CYTOTOXINS

Abstract

[Display omitted] Methicillin-resistant Staphylococcus aureus (MRSA) is a prevailing bacterial pathogen linked to superficial skin and soft tissue infections (SSTIs). Rifampicin (RIF), a potent antibiotic against systemic and localised staphylococcal infections, faces limitations due to its low solubility. This constraint hampers its therapeutic potential for MRSA-induced SSTIs. To address this, an advanced liposomal system was designed for efficient dermal RIF delivery. Rifampicin-loaded liposomes (LipoRIF) were embedded within polymeric dissolving microneedles (DMNs) to enable targeted intradermal drug delivery. A robust Design of Experiment (DoE) methodology guided the systematic preparation and optimisation of LipoRIF formulations. The optimal LipoRIF formulation integrated within polymeric DMNs. These LipoRIF-DMNs exhibited favourable mechanical properties and effective skin insertion characteristics. Notably, in vitro assays on skin deposition unveiled a transformative result – the DMN platform significantly enhanced LipoRIF deposition within the skin, surpassing LipoRIF dispersion alone. Moreover, LipoRIF-DMNs displayed minimal cytotoxicity toward cells. Encouragingly, rigorous in vitro antimicrobial evaluations demonstrated LipoRIF-DMNs' capacity to inhibit MRSA growth compared to the control group. LipoRIF-DMNs propose a potentially enhanced, minimally invasive approach to effectively manage SSTIs and superficial skin ailments stemming from MRSA infections. [ABSTRACT FROM AUTHOR]

Published

2023

31. Stability and cytotoxicity of biopolymer-coated liposomes for use in the oral cavity.

Author

Frigaard, Julie, Liaaen Jensen, Janicke, Kanli Galtung, Hilde, and Hiorth, Marianne

Subjects

*LIPOSOMES, *CYTOTOXINS, *CELL survival, *SURFACE charges, *ZETA potential, *CONFOCAL microscopy, *CHITOSAN, *BIOPOLYMERS

Abstract

[Display omitted] This study investigates the stability and cytotoxicity of biopolymer-coated liposomes for use in the oral cavity. Liposomes (3 mM and 6 mM) were prepared by the thin film method and hydrated with phosphate buffer (PB) or glycerol phosphate buffer (G-PB). For coating, liposomes were added to a biopolymer solution of opposite charge. Particle stability was evaluated by measuring the size, polydispersity index, and zeta potential for up to 60 weeks. In vitro interaction of fluorescent-labelled biopolymer-coated liposomes and dysplastic oral keratinocytes was analyzed by confocal microscopy. Potential cytotoxicity was assessed in dysplastic oral keratinocytes by cell proliferation and cell viability. All three biopolymers showed good coating abilities for both concentrations and hydration media. The alginate coated liposomes in PB, 3 mM chitosan-coated liposomes in PB, and chitosan-coated liposomes in G-PB were stable for up to 60 weeks. In vitro studies demonstrated low cytotoxicity for all coated liposomes and non-specific cellular uptake of biopolymer-coated liposomes, independent of biopolymer, surface charge, lipid concentration and hydration media. All three formulations demonstrated low cytotoxicity and were considered safe. Alginate- and chitosan-coated liposomes demonstrated good stability over time and may be promising agents for use in the oral cavity and should be investigated further. [ABSTRACT FROM AUTHOR]

Published

2023

32. A study on the role of cholesterol and phosphatidylcholine in various features of liposomal doxorubicin: From liposomal preparation to therapy.

Author

Farzaneh, Hamidreza, Ebrahimi Nik, Maryam, Mashreghi, Mohammad, Saberi, Zahra, Jaafari, Mahmoud Reza, and Teymouri, Manouchehr

Subjects

*LIPOSOMES, *DOXORUBICIN, *CHOLESTEROL, *DRUG delivery systems, *PHYSIOLOGY, *THERAPEUTICS, *PHARMACODYNAMICS

Abstract

Graphical abstract Abstract The lipid membrane composition defines the physical and pharmacological characteristics of liposomal drugs, and it can be tailored to meet the desired drug delivery needs. The current study is aimed to provide a sharper understanding of the lipid composition effect on doxorubicin (DOX) delivery kinetics, using cholesterol and phosphatidylcholine lipids (PCs) with different acyl chains in liposomal DOX formulations. The PCs were distearoyl (DSPC), dipalmitoyl (DPPC), dimyristoyl (DMPC) and egg-derived PC (EPC), either alone or in combination with cholesterol. Several characteristics were monitored, including DOX loading capacity of liposomes, DOX release in phosphate buffered saline (PBS), PBS/human plasma including buffy coat and human blood, cell uptake, as well as in vivo distribution and therapeutic effects in BALB/c mice bearing C26 colon carcinoma. Addition of cholesterol to liposomal formulation enhanced the particle size stability of the liposomes and the DOX-to-lipid ratio. EPC-liposomes and EPC/Cholesterol-liposomes showed few distinctive features. Overall, cholesterol decreased DOX release from the liposomes, and longer saturated fatty acyl chains in PC decreased DOX release and side-effects and increased the anti-tumor effects of liposomal DOX. [ABSTRACT FROM AUTHOR]

Published

2018

33. Recent advancements in oral administration of insulin-loaded liposomal drug delivery systems for diabetes mellitus.

Author

Wong, Chun Y., Al-Salami, Hani, and Dass, Crispin R.

Subjects

*DIABETES, *INSULIN, *LIPOSOMES, *DRUG delivery systems, *ORAL drug administration

Abstract

Graphical abstract Abstract Diabetes is a chronic medical condition, which is characterised by high blood sugar level. Exogenous insulin is commonly administered subcutaneously for the management of diabetes. However, daily injections of insulin could result in poor patient compliance and various side-effects. Although oral administration offers benefits, insulin is vulnerable to enzymatic degradation, chemical instability and poor gastrointestinal absorption. There is an absence of reviews on insulin-loaded liposomal drug carriers, despite that fact that liposomes have gained considerable attention recently for oral delivery of insulin. They demonstrate favourable characteristics, such as versatility, biocompatibility, protective effect against enzymatic degradation, and cell-specific targeting. In this review, we will explore the status quo for oral delivery of insulin-loaded liposomal formulations, followed by discussing the state of art of these vesicles. This review will provide a detailed overview on insulin-loaded conventional liposomes, and 7 types of current novel formulations. Lastly, the future direction for oral bioavailability enhancement and development of such nanoscale drug delivery systems will be discussed. Further optimisation in the drug entrapment efficiency and gastrointestinal absorption will be required to develop a clinically successful oral liposome-insulin formulation. [ABSTRACT FROM AUTHOR]

Published

2018

34. Direct quantification of unencapsulated doxorubicin in liposomal doxorubicin formulations using capillary electrophoresis.

Author

Ansar, Siyam M., Jiang, Wenlei, and Mudalige, Thilak

Subjects

*DOXORUBICIN, *CAPILLARY electrophoresis, *LIPOSOMES, *SOLID phase extraction, *DRUG efficacy

Abstract

Graphical abstract Abstract To understand the quality, efficacy, and safety of liposomal drugs, it is necessary to develop a robust and accurate method for the separation and the quantification of unencapsulated and liposome-associated drugs (or liposomal encapsulated drugs). Conventional methods involve separation of unencapsulated and liposome-associated drug using solid phase extraction and further drug quantification. This is a lengthy process, and sometimes solid phase extraction induces drug leakage from the liposomes causing erroneous results. In this study, a capillary electrophoresis (CE) with UV–Vis detection method was developed for the simultaneous separation and quantification of unencapsulated drug from liposome-associated drug using a doxorubicin-containing liposome formulation as the model drug. CE separates the unencapsulated drug and liposomal drugs based on their electrophoretic mobility under the electric field. Liposomal drugs were diluted to the appropriate concentrations with running buffer or 5% dextrose before hydrodynamic sample injection. Using a high-sensitivity detection cell, the doxorubicin detection sensitivity was enhanced about 10-fold compared to the conventional on-column UV–Vis detection with a 75 µm i.d. capillary column. The optimal separation of unencapsulated doxorubicin from liposome-associated doxorubicin with minimal perturbation of liposomes was accomplished using phosphate buffer (20 mM, pH 6.5) in the presence of 10% sucrose. [ABSTRACT FROM AUTHOR]

Published

2018

35. Treatment merits of Latanoprost/Thymoquinone – Encapsulated liposome for glaucomatus rabbits.

Author

Fahmy, Heba Mohamed, Saad, Engy Abd El-Malek Saeed, Sabra, Neveen Moustafa, El-Gohary, Amal Ahmed, Mohamed, Faten Fathy, and Gaber, Mohamed Hassaneen

Subjects

*LIPOSOMES, *LIPOFECTION, *INTRAOCULAR pressure, *SCLEROSTOMY, *BIOACTIVE compounds

Abstract

Elevation of the intraocular pressure (IOP) is recognized as a risk factor for glaucoma development. Latanoprost (LAT) is a prostaglandin analog used to reduce the (IOP). Thymoquinone (TQ) is a major bioactive ingredient of Nigella sativa . The aim of this study was to develop novel liposomal drug carriers for ocular delivery of LAT, TQ and a mixture of them to investigate their IOP lowering efficacy upon subconjunctival injection in glaucoma-induced rabbit's eye. The aim of the present work extends also to study the effect of the different liposome formulations on the aqueous humor oxidative stress. Liposome samples were prepared using thin film hydration method. The physiochemical properties of the prepared drugs were characterized. The IOP was recorded for 70 rabbits using Schiotz-tonometer. Malondialdehyde (MDA), reduced glutathione (GSH), catalase (CAT) activities and total antioxidant activity of the aqueous humor were estimated. Fourier transform infrared and differential scanning calorimetric studies confirmed the interaction between the drug and the vesicles, which resulted in high drug encapsulation efficiency ≥88%. The size of the prepared liposomes was less than 10 μm which make them suitable in ophthalmic applications. The sustained effect was achieved by liposome samples of Lip (LAT) and Lip (LAT + TQ) which were able to reduce the IOP significantly up to 84 h. Morever, the treatment of glaucomatous rabbits with liposome formulations containing TQ in their preparation [Lip (TQ) and Lip (LAT + TQ)] greatly improved the ocular tissue-induced histopathological lesions. None of the prepared liposome formulations succeeded to improve the glaucoma-induced oxidative stress damage. [ABSTRACT FROM AUTHOR]

Published

2018

36. Smart liposomal drug delivery for treatment of oxidative stress model in human embryonic stem cell-derived retinal pigment epithelial cells.

Author

Behroozi, Farnaz, Abdkhodaie, Mohammad-Jafar, Abandansari, Hamid Sadeghi, Satarian, Leila, Ashtiani, Mohammad Kazemi, Jaafari, Mahmoud Reza, and Baharvand, Hossein

Subjects

*RETINAL degeneration, *DRUG delivery devices, *NANOCARRIERS, *OXIDATIVE stress, *EMBRYONIC stem cells

Abstract

Oxidative stress has been implicated in the progression of age-related macular degeneration (AMD). Treatment with antioxidants seems to delay progression of AMD. In this study, we suggested an antioxidant delivery system based on redox-sensitive liposome composed of phospholipids and a diselenide centered alkyl chain. Dynamic light scattering assessment indicated that the liposomes had an average size of 140 nm with a polydispersity index below 0.2. The percentage of encapsulation efficiency of the liposomes was calculated by high-performance liquid chromatography. The carriers were loaded with N-acetyl cysteine as a model antioxidant drug. We demonstrated responsiveness of the nanocarrier and its efficiency in drug delivery in an oxidative stress model of human embryonic stem cell-derived retinal pigment epithelial (hESC-RPE) cells. The modeled cells treated with diselenide containing liposomes loaded with 10 mM NAC, showed a better therapeutic effect with a cell metabolic activity of 90%, which was significantly higher compared to insensitive liposomes or NAC treated groups (P < 0.05). In addition, the expression of oxidative-sensitive gene markers in diselenide containing liposomes groups were improved. Our results demonstrated fabricated smart liposomes opens new opportunity for targeted treatment of retinal degeneration. [ABSTRACT FROM AUTHOR]

Published

2018

37. Are phytosomes a superior nanodelivery system for the antioxidant rutin?

Author

Vu, Hanh T.H., Hook, Sarah M., Siqueira, Scheyla D., Müllertz, Anette, Rades, Thomas, and McDowell, Arlene

Subjects

*HEPATITIS treatment, *POLYMERS, *NANOPARTICLES, *ANTIOXIDANTS, *PHYTOCHEMICALS

Abstract

Rutin, a strong antioxidant, has been implicated in the prevention of liver inflammation. However, low solubility and permeability through the gut wall limit development of rutin as a therapeutic agent for oral administration. Phytosomes are described as lipid nanocarriers with a complexation between the phospholipid headgroups and entrapped phytochemicals. The aim of this research was to compare the structure of rutin liposomes to rutin phytosomes. FT-IR, DSC and NMR were employed to investigate the presence of any molecular interactions between the formulation components. The FT-IR spectra showed that a new –OH bond had formed in the rutin phytosomes, suggesting the formation of a molecular complex. 31 P NMR experiments revealed that the DPPC molecule is altered when formulated as liposomes but that these changes were greater for samples from the phytosome formulation. DSC data revealed that when rutin was added to DPPC there was a significant shift in the transition temperature of DPPC. Further, the shift was greater in the THF solvent used to produce phytosomes compared to CHCl 3 used to produce liposomes. 1 H NMR spectra of the phytosome samples indicated three additional peaks that were greater than in the liposome formulation. ROESY NMR spectra provided evidence supporting the interaction between rutin and DPPC in both liposomes and phytosomes. The apparent differences in molecular interaction between liposomes and phytosomes did not however impact rutin release in biorelevant media or during in vitro small intestinal lipolysis. [ABSTRACT FROM AUTHOR]

Published

2018

38. Practical aspects in size and morphology characterization of drug-loaded nano-liposomes.

Author

Peretz Damari, Sivan, Shamrakov, Dima, Varenik, Maxim, Koren, Erez, Nativ-Roth, Einat, Barenholz, Yechezkel, and Regev, Oren

Subjects

*LIPOSOMES, *NANOCARRIERS, *PARTICLE size distribution, *SURFACE morphology, *DOXORUBICIN, *TRANSMISSION electron microscopy

Abstract

Size and morphology distributions are critical to the performance of nano-drug systems, as they determine drug pharmacokinetics and biodistribution. Therefore, comprehensive and reliable analyses of these properties are required by both the US Food and Drug Administration (FDA) and European Medicines Agency (EMA). In this study, we compare two most commonly used approaches for assessing the size distribution and morphology of liposomal nano-drug systems, namely, dynamic light scattering (DLS) and cryogenic-transmission electron microscopy (cryo-TEM); an automated quantitative analysis method was developed for the latter method. We demonstrate the advantages and disadvantages of each of these two approaches for a commercial formulation of the anti-cancer drug doxorubicin - Doxil®, in which the drug is encapsulated, mostly in the form of nano-rod crystals. With increasing drug concentration, these nano-rods change the shape of the liposomes from spherical , before drug loading, to prolate (oval), post drug loading. Cryo-TEM analysis provides a detailed size distribution of both the liposomes (minor and major axes) and the nano-rod drug. Both these values are relevant to the drug performance. In this study, we show that at elevated drug concentration (2.75 mg/ml) the drug grows mainly along the major axis and that this high concentration can result, in some cases, in liposome rupture. We show that the combination of cryo-TEM and DLS constitutes a reliable tool for demonstrating the stability of the formulation in human plasma at body temperature, a characteristic that is crucial for achieving therapeutic efficacy. [ABSTRACT FROM AUTHOR]

Published

2018

39. Cisplatin and curcumin co-loaded nano-liposomes for the treatment of hepatocellular carcinoma.

Author

Cheng, Yao, Zhao, Pengxuan, Wu, Shuangping, Yang, Tan, Chen, Yan, Zhang, Xiaojuan, He, Chuanchuan, Zheng, Chao, Li, Kelin, Ma, Xiang, and Xiang, Guangya

Subjects

*LIVER cancer, *CANCER treatment, *CISPLATIN, *CURCUMIN, *LIPOSOMES, *THERAPEUTICS

Abstract

Hepatocellular carcinoma (HCC) continues to be a leading cause of cancer related death in the world. Conventional chemotherapeutic agents such as cisplatin (CDDP) have an unsatisfactory efficacy on HCC due to the poor response, severe toxicity and drug resistance. Curcumin (CUR) could improve the chemosensitivity of HCC to chemotherapy drugs by regulating a variety of signaling pathways. Herein, we describe a combination strategy using co-loaded liposomes to effectively deliver and release CDDP and curcumin (CUR) to HCC for overcoming the unsatisfactory clinical outcome of CDDP monotherapy. In the study, CDDP and CUR co-loaded liposomes (CDDP/CUR-Lip) were prepared by a reverse microemulsion and film dispersion method and their average particle size 294.6 ± 14.8 nm with uniform size distribution. In vitro study showed that the nano sized CDDP/CUR-Lip could synchronously release both CDDP and CUR to achieve the synergistic effect against HCC cells based on the optimal ratio (1:8) of both drugs. Compared with free drug or encapsulated mono-drug therapy, CDDP/CUR-Lip demonstrated the higher anti-tumor activity in vitro against HepG2 cells with the IC 50 of 0.62 μM. In addition, CDDP/CUR-Lip also increased intracellular ROS level during the HCC cells treatment. Furthermore, compared with single drug formulation, CDDP/CUR-Lip showed the elongated retention time (t 1/2  = 2.38 h) and improved antitumor effect in both mouse hepatoma H22 and human HCC HepG2 xenograft models with reduced side effects. In conclusion, CDDP/CUR-Lip provide an attractive and potential strategy to attain synergistic effect of CDDP and CUR for the treatment of HCC. [ABSTRACT FROM AUTHOR]

Published

2018

40. Effects of cationic liposomes with stearylamine against virus infection.

Author

Tahara, Kohei, Kobayashi, Manami, Yoshida, Satoko, Onodera, Risako, Inoue, Naoki, and Takeuchi, Hirofumi

Subjects

*LIPOSOMES, *AMINES, *ANTIVIRAL agents, *DRUG efficacy, *RECOMBINANT baculoviruses, *CELL lines, *ACYCLOVIR

Abstract

In this study, we demonstrated that cationic liposomes with incorporated stearylamine (SA) inhibit viral infectivity without preloaded active pharmaceutical ingredients. Specifically, we correlated physiochemical properties of liposomes, such as zeta potentials and particle sizes, with virus infectivity using the BacMam™ reagent, which is based on recombinant baculovirus (BV). Compared with neutral or negatively-charged liposomes, SA liposomes suppressed BV infectivity in several mammalian cell lines, including A549 cells. SA liposomes inhibited BV infection over 80% by optimizing the liposomal concentration and exposure time with cells. Moreover, these antiviral SA liposomes were not cytotoxic, and reducing the embedded cholesterol contents intensified the antiviral effects and simultaneously increased the binding of SA liposomes to the cell membranes. These data indicate that binding of SA liposomes to cell membranes may block virus entry. Finally, we also demonstrated the antiviral effects of SA liposomes on herpes simplex virus type 1 in A549 cells, and showed comparable efficacy to that of the antiviral drug acyclovir. [ABSTRACT FROM AUTHOR]

Published

2018

41. Dual-effect liposomes with increased antitumor effects against 67-kDa laminin receptor-overexpressing tumor cells.

Author

Sugiyama, Ikumi, Kaihatsu, Kunihiro, Soma, Yukako, Kato, Nobuo, and Sadzuka, Yasuyuki

Subjects

*EPIGALLOCATECHIN gallate, *ANTINEOPLASTIC agents, *LIPOSOMES, *LAMININS, *GENETIC overexpression, *APOPTOSIS, *THERAPEUTICS

Abstract

This study sought to evaluate the antitumor effects of and elucidate the mechanisms underlying (−)-epigallocatechin-3- O -gallate (EGCG) and polyethyleneglycol (PEG)-modified liposomes. EGCG functions as a target ligand of the 67-kDa laminin receptor (67LR), which is expressed on high-grade tumor cells. An EGCG derivative was synthesized for binding to the end of PEG. Doxorubicin (DOX)-loaded EGCG-PEG-modified liposome (EPL) significantly decreased tumor size in mice bearing high 67LR-high-expressing tumors. Caspase-3 activity, which indicates induction of apoptosis, was also elevated only in the EPL group. The importance of PEG for the antitumor effects of EGCG was noted, as soluble EGCG did not accumulate at a sufficient concentration to exert an apoptotic effect. Moreover, EPL significantly increased caspase-8 activity, suggesting that EPL-induced apoptosis occurred due to caspase-8 activity induced following the binding of EGCG to 67LR as a cell-death ligand. In conclusion, EPL appear to have superior antitumor activity against high 67LR-expressing tumor cells, as the liposomes had dual effects, namely antitumor effects due to the loaded DOX and apoptosis induced by the bound EGCG. [ABSTRACT FROM AUTHOR]

Published

2018

42. Stable and sustained release liposomal formulations of celecoxib: In vitro and in vivo anti-tumor evaluation.

Author

Matbou Riahi, M., Sahebkar, A., Sadri, K., Nikoofal-Sahlabadi, S., and Jaafari, M.R.

Subjects

*CELECOXIB, *TUMOR treatment, *LIPOSOMES, *FASCIOLA hepatica, *FLUORINATION, *THERAPEUTICS

Abstract

Celecoxib (CLX) is a selective COX-2 inhibitor with anticancer potential in a COX-2 dependent and independent manner. CLX’s low water solubility has a dose limiting effect on its utilization in cancer treatment. Here, we developed liposomal drug delivery systems to allow a systemic administration and increase tumor accumulation of CLX based on the enhanced permeability and retention (EPR) mechanism. Nine liposomal formulations has been prepared with different phospholipid compositions; among them three sets of liposomal formulations were selected based on characterization and stability for further studies. Anti-tumor effects of CLX-entrapped liposomal formulations were tested in vitro by cytotoxicity test and in vivo in BALB/c mice bearing C26 colon carcinoma. Biodistribution of liposomal-CLX has been studied by radiolabeling of CLX with I 125 .The selected formulations had average size of about 100 nm, a narrow monomodal distribution with storage stability of at least one year at 4 °C. The HSPC/DSPG/cholesterol/DSPE-PEG2000/CLX (65/10/10/5/10 M ratio) liposomal formulation had slowest release profile and greatest antitumor effects in vivo . This liposomal I 125 CLX formulation had a three times more accumulation in tumor site in comparison to the free I 125 CLX. Liposomal CLX may serve as a safe, slow release and effective anti-tumor agent and merits further investigation. [ABSTRACT FROM AUTHOR]

Published

2018

43. Effective light-triggered contents release from helper lipid-incorporated liposomes co-encapsulating gemcitabine and a water-soluble photosensitizer.

Author

Fuse, Toshiki, Tagami, Tatsuaki, Tane, Masafumi, and Ozeki, Tetsuya

Subjects

*PHOTOSENSITIZERS, *FLUORINE compounds, *LIPOSOMES, *CYTOKINES, *THERAPEUTICS

Abstract

Triggered drug release is a promising strategy for delivering anticancer drugs to cancer cells and tissues. We found that liposomes co-encapsulating calcein (a water-soluble model drug and fluorescence marker) and talaporfin sodium (TPS, a water-soluble photosensitizer) released the drug upon irradiation with a near-infrared (NIR)-laser. The liposomes were composed of phospholipid (DSPC)/helper lipid (DOPE)/cholesterol/PEG-lipid (PEG 2000 -DSPE) at a molar ratio of 85/10/5/5 and released a large amount of drug (70%<, within 10 min) upon irradiation, but no drug in the absence of NIR-laser irradiation and/or TPS. NIR-laser-triggered drug release was facilitated by the incorporation of DOPE into the liposomes, and the amount of DOPE incorporated affected drug leakage in the absence of NIR-laser-irradiation at 37 °C (body temperature). Drug leakage was tuned by incorporating cholesterol into the liposomes. NIR-laser-triggered drug release from the liposomes was confirmed using the anticancer drug gemcitabine. NIR-laser treatment of liposomes co-encapsulating gemcitabine and TPS provided the maximum cytotoxic effect towards EMT6/P cells. These results suggest that these novel light sensitive liposomes may be useful for drug delivery to cancer cells. [ABSTRACT FROM AUTHOR]

Published

2018

44. Proliposome tablets manufactured using a slurry-driven lipid-enriched powders: Development, characterization and stability evaluation.

Author

Khan, Iftikhar, Yousaf, Sakib, Subramanian, Sneha, Albed Alhnan, Mohamed, Ahmed, Waqar, and Elhissi, Abdelbary

Subjects

*LIPOSOMES, *DRUG tablets, *PHARMACEUTICAL powders, *SOLID dosage forms, *SORBITOL, *THERAPEUTICS

Abstract

Proliposome powders were prepared via a slurry method using sorbitol or D-mannitol as carbohydrate carriers in 1:10 or 1:15 w/w lipid phase to carrier ratios. Soya phosphatidylcholine (SPC) and cholesterol were employed as a lipid phase and Beclometasone dipropionate (BDP) was incorporated as a model drug. Direct compaction using a Minipress was applied on the lipid-enriched powder in order to manufacture proliposome tablets. Sorbitol-based proliposome tablets in a 1:15 w/w ratio were found to be the best formulation as it exhibited excellent powder flowability with an angle of repose of 25.62 ± 1.08°, and when compacted the resultant tablets had low friability (0.20 ± 0.03%), appropriate hardness (crushing strength) (120.67 ± 12.04 N), short disintegration time (5.85 ± 0.66 min), and appropriate weight uniformity. Moreover, upon hydration into liposomes, the entrapment efficiency for sorbitol formulations in both 1:10 and 1:15 lipid to carrier ratios were significantly higher (53.82 ± 6.42% and 57.43 ± 9.12%) than D-mannitol formulations (39.90 ± 4.30% and 35.22 ± 6.50%), respectively. Extended stability testing was conducted for 18 months, at three different temperature conditions (Fridge Temperature (FT; 6 °C), Room Temperature (RT; 22 °C) and High Temperature (HT; 40 °C)) for sorbitol-based proliposome tablets (1:15 w/w ratio). Volume median diameter (VMD) and zeta potential significantly changed from 5.90 ± 0.70 µm to 14.79 ± 0.79 µm and from −3.08 ± 0.26 mV to −11.97 ± 0.26 mV respectively at month 18, when samples were stored under HT conditions. Moreover, the entrapment efficiency of BDP decreased from 57.43 ± 9.12% to 17.93 ± 5.37% following 18 months storage under HT conditions. Overall, in this study for the first time, proliposome tablets were manufactured and thoroughly characterized, and sorbitol showed to be a promising carrier. [ABSTRACT FROM AUTHOR]

Published

2018

45. Failure of active targeting by a cholesterol-anchored ligand and improvement by altering the lipid composition to prevent ligand desorption.

Author

Yamamoto, Shoshiro, Sakurai, Yu, and Harashima, Hideyoshi

Subjects

*CHOLESTEROL derivatives, *DESORPTION, *CANCER treatment, *DRUG delivery systems, *POLYETHYLENE glycol analysis, *BILAYER lipid membranes

Abstract

Although anti-angiogenic therapy is predicted to be an effective therapy for treating cancer, selectively targeting tumor endothelial cells (TECs), and not normal endothelial cells, remains a major obstacle. Modifying a drug carrier with a targeting ligand is a popular strategy for developing an active-targeting type drug delivery system (DDS). We previously reported that a cyclo(Arg-Gly-Asp- D -Phe-Lys) (cRGD)-equipped liposome that contains encapsulated siRNA (RGD-MEND) achieved an efficient therapeutic outcome in a murine cancer model. To develop a more efficient TEC-targeting DDS, we examined the effect of the length of the polyethylene glycol (PEG) that is used as a peptide-linker on the cholesterol-scaffold, and liposomal composition on the efficiency of delivery of siRNA to cRGD receptor α V β 3 integrin positive cells. An RGD-MEND modified with shorter linker/no-linker, PEG350 or no-PEG, showed a higher cellular uptake in vitro . However, a shorter or no-linker RGD-cholesterol-modified MEND showed no silencing effect despite its high, in vitro silencing efficiency. To examine the possibility that the cholesterol-scaffold ligand was removed from the surface of the RGD-MEND by interactions with serum proteins, the RGD-MEND was incubated in the presence of a 50% serum solution. The cellular uptake of the cholesterol-scaffold ligand was drastically reduced by the incubation in serum. Increasing the cholesterol ratio in the lipid envelope and adding a helper lipid improved the in vivo knockdown efficiency, probably due to an enhanced ligand retention, even in in vivo conditions. The findings reported herein suggest that the lipid composition and the ligand scaffold of the MEND are major factors in successfully developing an efficient active-targeting DDS. [ABSTRACT FROM AUTHOR]

Published

2018

46. Coaxial electrostatic spray-based preparation of localization missile liposomes on a microfluidic chip for targeted treatment of triple-negative breast cancer.

Author

Wang, Qian, Xu, Wenjie, Li, Qi, He, Chunpeng, Liu, Yang, Liu, Jia, Wang, Rongrong, Wu, Junyong, Xiang, Daxiong, and Chen, Chuanpin

Subjects

*LIPOSOMES, *TRIPLE-negative breast cancer, *ELECTROSTATIC atomization, *MEMBRANE lipids, *FLUORESCENCE microscopy, *ANTINEOPLASTIC agents

Abstract

[Display omitted] • The microfluidic chip combined with the coaxial electrostatic spray method is a one-step preparation of liposomes, which is different from the traditional preparation method. • The microfluidic chip-based coaxial electrostatic spray method has the potential to become a general-purpose preparation platform by allowing the replacement of the loaded drug to produce liposomes that can be used to treat other diseases. • Using cRGD to actively target tumor cells and tumor neovascularization with highly expressed α v β 3 , the EPR effect further passively targets tumor cells and exerts a good impact in vivo. • The preparation of universal dual-loaded targeted liposomes promises to provide a clinical strategy for treating triple-negative breast cancer. Due to triple-negative breast cancer (TNBC) lacking specific targets for efficient therapies, nanoparticles have been widely developed to enhance efficacy and reduce the toxicity of chemotherapeutics. We prepared unique liposomes containing PTX and DOX by microfluidics-based coaxial electrostatic spray method, which have a uniform particle size, high drug loading capacity, and good stability. Meanwhile, the cRGD peptide was fused with the lipid membrane to form PTX/DOX@cRGD-Lipo, which played a GPS role in locating tumor neovascularization and further targeting TNBC cells where both overexpress α v β 3. The PTX/DOX@cRGD-Lipo showed synergistic anti-tumor activity of double drugs and enhanced tumor cell apoptosis. Fluorescence microscopy and flow cytometry showed that the co-loaded targeted liposomes could be effectively absorbed by MDA-MB-231 and 4T1 cells and then released the content. In addition, the PTX/DOX@cRGD-Lipo presented excellent targeting biodistribution in vivo and a higher tumor growth inhibition rate in the orthotopic tumor mouse model. All results suggested that the double drug-loaded targeted liposome could be a promising treatment modality for TNBC. [ABSTRACT FROM AUTHOR]

Published

2023

47. c(RGDfK) anchored surface manipulated liposome for tumor-targeted tyrosine kinase inhibitor (TKI) delivery to potentiate liver anticancer activity.

Author

Deepak, Payal, Kumar, Praveen, Arya, Dilip Kumar, Pandey, Prashant, Kumar, Shiv, Parida, Bishnu Prasad, Narayan, Gopeshwar, Singh, Sanjay, and Rajinikanth, Paruvathanahalli Siddalingam

Subjects

*ASPARTATE aminotransferase, *PROTEIN-tyrosine kinase inhibitors, *ANTINEOPLASTIC agents, *TARGETED drug delivery, *INTEGRINS, *LIPOSOMES, *EPIDERMAL growth factor receptors

Abstract

[Display omitted] Current anticancer drug research includes tumor-targeted administration as a critical component because it is the best strategy to boost efficacy and decrease toxicity. Low drug concentration in cancer cells, nonspecific distribution, rapid clearance, multiple drug resistance, severe side effects, and other factors contribute to the disappointing results of traditional chemotherapy. As an innovative technique of treatments for hepatocellular carcinoma (HCC) in recent years, nanocarrier-mediated targeted drug delivery systems can overcome the aforesaid limitations via enhanced permeability and retention effect (EPR) and active targeting. Epidermal growth factor receptor (EGFR) inhibitor Gefitinib (Gefi) has dramatic effects on hepatocellular carcinoma. Herein, we developed and assessed an α v β 3 integrin receptor targeted c(RGDfK) surface modified liposomes for better targeting selectivity and therapeutic efficacy of Gefi on HCC cells. The conventional and modified Gefi loaded liposomes, i.e., denoted as Gefi-L and Gefi-c(RGDfK)-L, respectively, were prepared through the ethanol injection method and optimized via Box Behnken design (BBD). The FTIR and 1H NMR spectroscopy verified that the c(RGDfK) pentapeptides had formed an amide bond with the liposome surface. In addition, the particle size, Polydispersity index, zeta potential, encapsulation efficiency, and in-vitro Gefi release of the Gefi-L and Gefi-c(RGDfK)-L were measured and analyzed. As indicated by the MTT assay on HepG2 cells, Gefi-c(RGDfK)-L displayed considerably higher cytotoxicity than Gefi-L or Gefi alone. Throughout the incubation period, HepG2 cells took up significantly more Gefi-c(RGDfK)-L than Gefi-L. According to the in vivo biodistribution analysis, Gefi-c(RGDfK)-L accumulated more strongly at the tumor site than Gefi-L and free Gefi. Furthermore, HCC-bearing rats treated with Gefi-c(RGDfK)-L showed a substantial drop in liver marker enzymes (alanine transaminase, alkaline phosphatase, aspartate transaminase, and total bilirubin levels) compared to the disease control group. Gefi-c(RGDfK)-L suppresses tumour growth more effectively than Gefi-L and free Gefi, according to an in vivo analysis of their anticancer activities. Thus, c(RGDfK)-surface modified liposomes, i.e., Gefi-c(RGDfK)-L may serve as an efficient carrier for the targeted delivery of anticancer drugs. [ABSTRACT FROM AUTHOR]

Published

2023

48. Various lipid anchors on amphiphilic polyoxazolines to reach efficient intracellular delivery.

Author

Simon, L., De Taddeo, M., Coeurvolan, A., Colpaert, M., Richard, J., Devoisselle, J.M., Morille, M., Marcotte, N., Bégu, S., and Lapinte, V.

Subjects

*CELL survival, *LIPOSOMES, *INTRAVENOUS therapy, *ENDOCYTOSIS, *FLUORESCENT probes

Abstract

[Display omitted] • Synthesis of controlled macromolecular architectures of LipoPOx. • The cell viability and cell internalization of fibroblasts were affected by the LipoPOx. • 30-fold more efficient cell internalization of LipoPOx liposomes than LipoPEG liposomes. This work aimed at evaluating the potential of amphiphilic polyoxazolines bearing lipid chain called lipopolyoxazolines to reach efficient intracellular delivery. Four lipid chains: linear saturated, linear unsaturated and two branched one of various length were associated to poly(2-methyl-2-oxazoline) block. The evaluation of their physicochemical features and their impact on cell viability and internalization capacity indicated that the linear saturated gathered the highest cell internalization with a good cell viability. Its intracellular delivery capacity was compared to the PEG reference (DSPE-PEG) after being formulated in liposomes and loaded with fluorescent probe. Both POxylated and PEGylated liposomes showed similar characteristics regarding size distribution, drug loading and cell viability. However, their intracellular delivery was dramatically different, with an improved delivery by 30 folds for the POxylated ones. This significantly better performance highlighted the difficulty of PEGylated liposomes to enter the cells by endocytosis, contrary to POxylated liposomes. This study promotes the value of lipopoly(oxazoline) as a lipopoly(ethylene glycol) alternative for effective intracellular delivery and holds great promises for development of nanoformulations for intravenous administration. [ABSTRACT FROM AUTHOR]

Published

2023

49. Low molecular weight fucoidan modified nanoliposomes for the targeted delivery of the anti-inflammation natural product berberine.

Author

Liu, Lu, Xing, Rui, Xue, Junshu, Fan, Jiahao, Zou, Junjie, Song, Xu, Jia, Renyong, Zou, Yuanfeng, Li, Lixia, Zhou, Xun, Lv, Cheng, Wan, Hongping, Zhao, Xinghong, and Yin, Zhongqiong

Subjects

*VASCULAR endothelial cells, *BERBERINE, *ALKALOIDS, *NATURAL products, *MOLECULAR weights, *ENDOTHELIAL cells, *ULCERATIVE colitis

Abstract

[Display omitted] The inflammatory response is the basis of many diseases, such as atherosclerosis and ulcerative colitis. Inhibiting inflammatory response is the key to treating these diseases. Berberine hydrochloride (BBR), a natural product, has shown effective inflammation inhibitory activity. However, its distribution throughout the body results in a variety of serious side effects. Currently, there is a lack of targeted delivery systems for BBR to inflammatory sites. In view of the fact that the recruitment of inflammatory cells by activated vascular endothelial cells is a key step in inflammation development. Here, we design a system that can specifically deliver berberine to activated vascular endothelial cells. Low molecular weight fucoidan (LMWF), which can specifically bind to P-selectin, was coupled to PEGylated liposomes (LMWF-Lip), and BBR is encapsulated into LMWF-Lip (LMWF-Lip/BBR). In vitro, LMWF-Lip significantly increases the uptake by activated human umbilical vein endothelial cells (HUVEC). Injection of LMWF-Lip into the tail vein of rats can effectively accumulate in the swollen part of the foot, where it is internalized by the characteristics of activated vascular endothelial cells. LMWF-Lip/BBR can effectively inhibit the expression of P-selectin in activated vascular endothelial cells, and reduce the degree of foot edema and inflammatory response. In addition, compared with free BBR, the toxicity of BBR in LMWF-Lip/BBR to main organs was significantly reduced. These results suggest that wrapping BBR in LMWF-Lip can improve efficacy and reduce its systemic toxicity as a potential treatment for various diseases caused by inflammatory responses. [ABSTRACT FROM AUTHOR]

Published

2023

50. Ex vivo transtympanic permeation of the liposome encapsulated S. pneumoniae endolysin MSlys

Author

Maria Daniela Silva, Kaelin Ray, Miguel Gama, Aaron K. Remenschneider, Sanna Sillankorva, and Universidade do Minho

Subjects

transtympanic, Otitis Media, Science & Technology, Streptococcus pneumoniae, MSlys, drug delivery, endolysin, liposome, Endopeptidases, Liposomes, Pharmaceutical Science, Humans, Anti-Bacterial Agents

Abstract

An increase in bacterial resistance to systemic antibiotics has sparked interest into alternative antimicrobial compounds as well as methods for effective local, non-invasive drug delivery. Topical treatments, however, may be hindered by the presence of biological barriers, such as the tympanic membrane in the case of otitis media. Herein, the transtympanic permeation ability of liposomes loaded with the pneumococcal endolysin MSlys and of free MSlys was evaluated ex vivo. MSlys loaded in PEGylated liposomes showed an increased permeation across human tympanic membranes, as compared to its free form, being able to reduce the pneumococcal cell load after 2 h of permeation. However, antipneumococcal activity was no longer detected after 4 h of permeation and hydrolysis of the endolysin was observed after an extended incubation time ( 48 h). This work provides a first assessment of a successful, non-invasive delivery method for endolysins across an intact tympanic membrane. Findings have implications for non-systemic, local treatment of otitis media., This study was partially supported by the Portuguese Foundation for Science and Technology (FCT) under the scope of the strategic funding of UID/BIO/04469/2020 unit. MDS acknowledges support from the FCT doctoral fellowship, reference SFRH/BD/128825/2017 and COVID/BD/152363/2022. SS acknowledges funding by FCT, through the individual scientific employment program contract (2020.03171.CEECIND). AKR acknowledges funding to support this project from the Wyss Institute for Biologically Inspired Engineering at Harvard University and from NIH NIDCD K08-DC018575, info:eu-repo/semantics/publishedVersion

Published

2022