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Abstract Chagas disease is a neglected parasitic disease caused by Trypanosoma cruzi, whose treatment has remained unsatisfactory for over 50 years, given that it is limited to two drugs. Benznidazole (BZN) is an efficient antichagasic drug used as the first choice, although its poor water-solubility, irregular oral absorption, low efficacy in the chronic phase, and various associated adverse effects are limiting factors for treatment. Incorporating drugs with such characteristics into nanostructured lipid carriers (NLC) is a promising alternative to overcome these limiting obstacles, enhancing drug efficacy and bioavailability while reducing toxicity. Therefore, this study proposed NLC-BZN formulations in different compositions prepared by hot-melt homogenization followed by ultrasound, and the optimized formulation was characterized by FTIR, DRX, DSC, and thermogravimetry. Biological activities included in vitro membrane toxicity (red blood cells), fibroblast cell cytotoxicity, and trypanocidal activity against epimastigotes of the Colombian strain of T. cruzi. The optimized NLC-BZN had a small size (110 nm), negative zeta potential (-18.0 mV), and high encapsulation (1.64% of drug loading), as shown by infrared spectroscopy, X-ray diffraction, and thermal analysis. The NLC-BZN also promoted lower in vitro membrane toxicity (<3% hemolysis), and 50% cytotoxic concentration (CC50) for NLC-BZN in L929 fibroblast cells (110.7 µg/mL) was twice the value as the free BZN (51.3 µg/mL). Our findings showed that the NLC-BZN had higher trypanocidal activity than free BZN against the epimastigotes of the resistant Colombian strain, and this novel NLC-BZN formulation proved to be a promising tool in treating Chagas disease and considered suitable for oral and parenteral administration
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Trypanosoma cruzi/isolamento & purificação , Difração de Raios X/instrumentação , Doença de Chagas/patologia , Doenças Negligenciadas/classificação , Doenças Parasitárias/patologia , Análise Espectral/instrumentação , Entorses e Distensões/classificação , Termogravimetria/métodos , Técnicas In Vitro/métodos , Preparações Farmacêuticas/análise , Espectroscopia de Infravermelho com Transformada de Fourier/métodosRESUMO
OBJECTIVE To investigate the effects and mechanism of curcumin (Cur) solid lipid nanoparticles (SLN) loaded with flower-shaped lactose (Cur-SLN-FL) for lung inhalation on lung inflammation in chronic obstructive pulmonary disease (COPD) model mice. METHODS Firstly, the irritation of Cur-SLN-FL to lung tissue was investigated, and the local safety of inhalation materials was determined. Then, 10 mice were randomly selected and injected with normal saline through the trachea, and the other 50 mice were all injected with porcine trypsin solution (concentration of 33.3 mg/mL, dosage of 1.0 mL/kg) to induce the COPD model. After normal feeding for 28 days, the mice were divided into sham operation group, model group, budesonide group (20 mg/kg), Cur-SLN-FL high-dose and low-dose groups (100, 50 mg/kg), with 10 mice in each group. The corresponding drugs were given to each group, once a day, for 14 consecutive days. Twenty-four hours after the last administration, the bronchoalveolar lavage fluid (BALF) of mice in each group was collected and the differential count of white blood cells was determined. Hematoxylin-eosin (HE) staining was used to observe the histopathology of the trachea and lung tissue in each group. Masson staining was used to detect collagen deposition in the lung tissue of mice in each group. Immunohistochemical method was used to detect the positive expressions of nucleotide-binding oligomerization domains-like receptor protein-3 (NLRP3), caspase-1 and interleukin-1β (IL-1β) in lung tissue of mice. Western blot assay was used to detect the protein expressions of NLRP3, caspase-1 and nuclear factor of kappa B(NF-κB) in lung tissue. RESULTS Cur-SLN-FL had no obvious pulmonary irritation. Compared with the sham operation group, the total number of white blood cells, neutrophils and eosinophils in BALF of the model group increased significantly, while the number of lymphocytes decreased significantly (P<0.05); ciliated columnar epithelium proliferated, thickened and exfoliated in the trachea, mucus accumulated in the cavity and interstitial inflammatory cells infiltrated in the lung tissue;the deposition of collagen fibers in lung tissue increased significantly, the positive expressions of NLRP3, caspase-1 and IL-1β in lung tissue increased significantly, and the expressions of NLRP3, caspase-1 and NF-κB protein in lung tissue all increased significantly (P<0.05). After giving Cur-SLN-FL, the above indexes were all improved to certain extent. CONCLUSIONS Cur-SLN-FL can improve the pulmonary inflammatory reaction in COPD model mice,and its mechanism may be through regulating the NLRP3 signaling pathway, inhibiting the expressions of caspase-1, NF-κB and IL-1β, thus alleviating the process of pulmonary fibrosis in COPD model mice.
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Nucleic acids, as a next generation of biotechnology drugs, not only can fundamentally treat diseases, but also own significant platform characteristics in view of technology and production. Therefore, nucleic acid-based drugs have broad clinical applications in biomedical fields. However, nucleic acids are degradable and unstable, and have very low intracellular delivery efficiency in vitro and in vivo, which greatly limits their applications. In recent years, ionizable lipid-based lipid nanoparticles have shown promising application potentials and have been successfully applied to COVID-19 (Coronavirus Disease 2019) vaccines in clinic. Lipid nanoparticles demonstrate high in vivo delivery efficiency and good safety profile due to their unique structural and physicochemical properties, which provides many possibilities for their clinical applications for nucleic acid delivery in the future. This review focused on the characteristics of nucleic acid drugs and their delivery barriers, and discussed the approved nucleic acid drugs to illustrate the key aspects of the success of their delivery carrier system. In addition, problems to be solved in the field were highlighted.
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OBJECTIVE To study the inhibitory effect mechanism of rhynchophylline solid lipid nanoparticles (Rhy-SLN) on the proliferation of airway smooth muscle cells (ASMCs) in asthmatic model mice. METHODS Asthma model was prepared by ovalbumin+calmogastrin sensitization. The primary isolation and culture of ASMCs were performed, and morphological observation and identification were also conducted [when α -smooth muscle actin (α -SMA) appeared red and Desmin appeared green in ASMCs, indicating successful cultivation of ASMCs]. The cells were divided into blank group (ASMCs of normal mice), model group (ASMCs of asthma model mice), Rhy-SLN group (ASMCs of asthma model mice), recombinant suppressors of cytokine signaling 1 (SOCS1) overexpression group (ASMCs of asthma model mice transfected with SOCS1 vector), SOCS1-RNAi group (ASMCs of asthma model mice transfected with SOCS1-RNAi vector) and SB203580 group [p38 mitogen-activated protein kinase (p38 MAPK) inhibitor, ASMCs of asthma model mice]. The cells of each group were added into the corresponding culture medium containing drug (10 μmol/L) or not containing drug for 24 hours. MTT method was used to detect the proliferation of ASMCs in asthmatic mice; Western blot assay was used to detect the protein expressions of α-SMA, interleukin-1β (IL-1β), SOCS1, p38 MAPK and phosphorylated p38 MAPK (p-p38 MAPK) in ASMCs. RESULTS The primary ASMCs of mice varied in shape and size, presenting irregular, spindle and triangular shapes;α-SMA appeared red and Desmin appeared green, indicating successful cultivation of ASMCs. Compared with model group, ASMCs absorbance values and protein expressions of α -SMA, p38 MAPK, and p-p38 MAPK were reduced significantly in Rhy- SLN group, SOCS1 overexpression group and SB203580 E-mail:wangmeng106@163.com group, while protein expression of SOCS1 (except for group) was increased significantly (P<0.05); protein expressions of IL-1β was reduced significantly in ASMCs (P< 0.05). ASMCs absorbance values and protein expressions of α-SMA, SOCS1, p38 MAPK and p-p38 MAPK were increased significantly in SOCS1-RNAi group (P<0.05). CONCLUSIONS Rhy-SLN can inhibit the proliferation of ASMCs, the mechanism of which may be associated with overexpression of SOCS1 and inhibiting the protein expressions of IL-1β and p38 MAPK.
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We summarize the most important advances in RNA delivery and nanomedicine. We describe lipid nanoparticle-based RNA therapeutics and the impacts on the development of novel drugs. The fundamental properties of the key RNA members are described. We introduced recent advances in the nanoparticles to deliver RNA to defined targets, with a focus on lipid nanoparticles (LNPs). We review recent advances in biomedical therapy based on RNA drug delivery and state-of-the-art RNA application platforms, including the treatment of different types of cancer. This review presents an overview of current LNPs based RNA therapies in cancer treatment and provides deep insight into the development of future nanomedicines sophisticatedly combining the unparalleled functions of RNA therapeutics and nanotechnology.
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OBJECTIVE To study the tissue distribution characteristics of curcumin solid lipid nanoparticles (Cur-SLN) in rats. METHODS Cur-SLN was prepared with microemulsion. SD rats were randomly divided into Cur raw material group and Cur- SLN group, with 45 rats in each group. The rats of two groups were injected with the corresponding drugs (by Cur, 25 mg/kg) by single intravenous injection. The heart, lung, kidney and liver tisse were separated at 0.25, 0.5, 1, 2, 4, 6, 8, 12 and 24 h after administration. The contents of Cur in different tissues were determined by high-performance liquid chromatography method. Their tissue distribution was analyzed. RESULTS The linear range of detected mass concentration of Cur in heart, lung, kidney and liver tissues were 0.064 75-129.50, 0.064 75-64.75, 0.064 75-129.50, 0.064 75-129.50 μg/mL, respectively (all r>0.99). The lower limits of quantitation were all 0.064 75 μg/mL, and the limit of detection were all 0.012 95 μg/mL. The intra-day and inter-day precision, accuracy and extraction recovery were in line with the requirements of quantitative analysis. Compared with Cur raw material group, the contents of Cur in heart, kidney, lung (at each time point of 0.25-24 h) and liver tissue (at each time point of 0.25-1 h, 12-24 h) of samples were significantly increased in the Cur-SLN group (P<0.05 or P<0.01), while the contents of Cur in liver tissue (at each time point of 2-8 h) were significantly decreased (P<0.01). CONCLUSIONS After Cur was prepared into solid lipid nanoparticles, its distribution in heart, kidney and lung tissues is increased.
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Evasion of apoptosis is a hallmark of cancer, attributed in part to overexpression of the anti-apoptotic protein B-cell lymphoma 2 (Bcl-2). In a variety of cancer types, including lymphoma, Bcl-2 is overexpressed. Therapeutic targeting of Bcl-2 has demonstrated efficacy in the clinic and is the subject of extensive clinical testing in combination with chemotherapy. Therefore, the development of co-delivery systems for Bcl-2 targeting agents, such as small interfering RNA (siRNA), and chemotherapeutics, such as doxorubicin (DOX), holds promise for enabling combination cancer therapies. Lipid nanoparticles (LNPs) are a clinically advanced nucleic acid delivery system with a compact structure suitable for siRNA encapsulation and delivery. Inspired by ongoing clinical trials of albumin-hitchhiking doxorubicin prodrugs, here we developed a DOX-siRNA co-delivery strategy via conjugation of doxorubicin to the surface of siRNA-loaded LNPs. Our optimized LNPs enabled potent knockdown of Bcl-2 and efficient delivery of DOX into the nucleus of Burkitts' lymphoma (Raji) cells, leading to effective inhibition of tumor growth in a mouse model of lymphoma. Based on these results, our LNPs may provide a platform for the co-delivery of various nucleic acids and DOX for the development of new combination cancer therapies.
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Messenger RNA (mRNA) has drawn much attention in the medical field. Through various treatment approaches including protein replacement therapies, gene editing, and cell engineering, mRNA is becoming a potential therapeutic strategy for cancers. However, delivery of mRNA into targeted organs and cells can be challenging due to the unstable nature of its naked form and the low cellular uptake. Therefore, in addition to mRNA modification, efforts have been devoted to developing nanoparticles for mRNA delivery. In this review, we introduce four categories of nanoparticle platform systems: lipid, polymer, lipid-polymer hybrid, and protein/peptide-mediated nanoparticles, together with their roles in facilitating mRNA-based cancer immunotherapies. We also highlight promising treatment regimens and their clinical translation.
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OBJECTIVES@#To investigate the effect and mechanism of lipid nanoparticle (LNP) delivery of small interfering RNA (siRNA) targeting Cyp2e1 gene on subacute alcoholic liver injury in mice.@*METHODS@#siRNA targeting Cyp2e1 gene was encapsulated in LNP (si-Cyp2e1 LNP) by microfluidic technique and the resulting LNPs were characterized. The optimal dose of si-Cyp2e1 LNP administration was screened. Forty female C57BL/6N mice were randomly divided into blank control group, model control group, si-Cyp2e1 LNP group, LNP control group and metadoxine group. The subacute alcoholic liver injury mouse model was induced by ethanol feeding for 10 d plus ethanol gavage for the last 3 d. Serum alanine aminotransferase (ALT) and aspartate aminotransferase (AST) activities, and the superoxide dismutase (SOD) activity as well as malondialdehyde, reactive oxygen species, glutathione, triacylglycerol, total cholesterol contents in liver tissue were measured in each group, and liver index was calculated. The expression of genes related to oxidative stress, lipid synthesis and inflammation in each group of mice were measured by realtime RT-PCR.@*RESULTS@#Compared with the model control group, the levels of liver index, serum ALT, AST activities, malondialdehyde, reactive oxygen species, triacylglycerol, total cholesterol contents in liver tissue decreased, but the SOD activity as well as glutathione increased in the si-Cyp2e1 LNP group (all P<0.01). Hematoxylin-eosin staining result showed disorganized hepatocytes with sparse cytoplasm and a large number of fat vacuoles and necrosis in the model control group, while the si-Cyp2e1 LNP group had uniformly sized and arranged hepatocytes with normal liver tissue morphology and structure. Oil red O staining result showed si-Cyp2e1 LNP group had lower fat content of the liver compared to the model control group (P<0.01), and no fat droplets accumulated. Anti-F4/80 monoclonal antibody fluorescence immunohistochemistry showed that the si-Cyp2e1 LNP group had lower cumulative optical density values compared to the model control group (P<0.01) and no significant inflammatory reaction. Compared with the model control group, the expression of catalytic genes P47phox, P67phox and Gp91phox were reduced (all P<0.01), while the expression of the antioxidant enzyme genes Sod1, Gsh-rd and Gsh-px were increased (all P<0.01). The mRNA expression of the lipid metabolism genes Pgc-1α and Cpt1 were increased (all P<0.01) and the lipid synthesis-related genes Srebp1c, Acc and Fasn were decreased (all P<0.01); the expression of liver inflammation-related genes Tgf-β, Tnf-α and Il-6 were decreased (all P<0.01).@*CONCLUSIONS@#The si-Cyp2e1 LNP may attenuate subacute alcoholic liver injury in mice mainly by reducing reactive oxygen levels, increasing antioxidant activity, blocking oxidative stress pathways and reducing ethanol-induced steatosis and inflammation.
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Animais , Feminino , Camundongos , Antioxidantes/metabolismo , Colesterol/metabolismo , Etanol/farmacologia , Glutationa/farmacologia , Inflamação , Lipídeos/farmacologia , Fígado , Malondialdeído/farmacologia , Camundongos Endogâmicos C57BL , Estresse Oxidativo , Espécies Reativas de Oxigênio/metabolismo , RNA Interferente Pequeno/farmacologia , Superóxido Dismutase , Triglicerídeos/metabolismo , Citocromo P-450 CYP2E1/metabolismoRESUMO
A fluorescence endoscopic laser confocal microscope(FELCM) was used to direct the injection of sinomenine solid lipid nanoparticles(Sin-SLN) into the joint, and the in vitro effectiveness of Sin-SLN in the treatment of rheumatoid arthritis(RA) was evaluated. Sin-SLN was prepared with the emulsion evaporation-low temperature curing method. The Sin-SLN prepared under the optimal conditions showed the encapsulation efficiency of 64.79%±3.12%, the drug loading of 3.84%±0.28%, the average particle size of(215.27±4.21) nm, and the Zeta potential of(-32.67±0.84) mV. Moreover, the Sin-SLN demonstrated good stability after sto-rage for 30 days. The rabbit model of RA was established by the subcutaneous injection of ovalbumin and complete Freund's adjuvant. Five groups were designed, including a control group, a model group, a Sin(1.5 mg·kg~(-1)) group, a Sin-SLN(1.5 mg·kg~(-1)) group, and a dexamethasone(positive drug, 1.0 mg·kg~(-1), ig) group. The control group and the model group only received puncture treatment without drug injection. After drug administration, the local skin temperature and knee joint diameter were monitored every day. The knee joint diameter and the local skin temperature were lower in the drug administration groups than in the model group(P<0.05, P<0.01). FELCM recorded the morphological alterations of the cartilage of knee joint. The Sin-SLN group showed compact tissue structure and smooth surface of the cartilage. Enzyme-linked immunosorbent assay(ELISA) was employed to determine the serum le-vels of interleukin-1(IL-1) and tumor necrosis factor-α(TNF-α). The findings revealed that the Sin-SLN group had lower IL-1 and TNF-α levels than the model group(P<0.05, P<0.01). Hematoxylin-eosin(HE) staining was employed to reveal the pathological changes of the synovial tissue, which were significantly mitigated in the Sin-SLN group. The prepared Sin-SLN had uniform particle size and high stability. Through joint injection administration, a drug reservoir was formed. Sin-SLN effectively alleviate joint swelling and cartilage damage of rabbit, down-regulated the expression of inflammatory cytokines, and inhibited the epithelial proliferation and inflammatory cell infiltration of the synovial tissue, demonstrating the efficacy in treating RA.
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Animais , Coelhos , Fator de Necrose Tumoral alfa , Fluorescência , Artrite Reumatoide/tratamento farmacológico , Interleucina-1 , Artrite Experimental/tratamento farmacológicoRESUMO
Abstract Donepezil-HCl is a member of the acetylcholinesterase inhibitors that is indicated for the symptomatic treatment of Alzheimer's disease (AD) and has many side effects. In this study, to reduce the side effects of Donepezil-HCl and increase the penetration of the drug through the blood-brain barrier, we aimed to design a solid lipid nanoparticle (SLN) formulation. The effects of the different formulation parameters, such as homogenization speed, sonication time, lipid and drug concentration, surfactant type and concentration, and volume of the aqueous phase, were assessed for optimization. The particle size and PDI increased with increasing lipid concentration but decreased with increasing amounts of surfactant (Tween 80) and co-surfactant (lecithin). When the homogenization rate and sonication time increased, the particle size decreased and the encapsulation efficiency increased. The optimized formulation exhibited particle size, PDI, encapsulation efficiency, and zeta potential of 87.2±0.11 nm; 0.22±0.02; 93.84±0.01 %; -17.0±0.12 mV respectively. The in vitro release investigation revealed that approximately 70% of Donepezil-HCl was cumulatively released after 24 hours. TEM analysis proved that spherical and smooth particles were obtained and formulations had no toxic effect on cells. The final optimized formulation could be a candidate for Donepezil-HCl application in Alzheimer's treatment with reduced side effects and doses for patients
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Padrões de Referência , Pesquisa/instrumentação , Nanopartículas/análise , Donepezila/efeitos adversos , Técnicas In Vitro/métodos , Preparações Farmacêuticas/administração & dosagem , Doença de Alzheimer/patologiaRESUMO
Background & objectives: The treatment of brain cancer is still challenging for an oncologist due to the presence of the blood-brain barrier (BBB) which inhibits the entry of more than 98 per cent of drugs used during the treatment of brain disease. The cytotoxic drugs used in chemotherapy for brain cancer treatment also affect the normal cells due to lack of targeting. Therefore, the objective of the study was to develop tween 80-coated solid lipid nanoparticles (SLNs) loaded with folic acid-doxorubicin (FAD) conjugate for site-specific drug delivery to brain cancer cells. Methods: The FAD conjugate was synthesized by the conjugation of folic acid with doxorubicin and characterized by Fourier transform infrared spectroscopy and proton nuclear magnetic resonance spectroscopy. SLNs loaded with FAD were prepared by the solvent injection method. The SLNs were characterized by the particle size, zeta potential, surface morphology, entrapment efficiency, etc. Results: The average particle size of FAD conjugate-loaded SLNs (SLN-C) was found to be 220.4±2.2 nm, with 36.2±0.6 per cent entrapment efficiency. The cytotoxicity and cellular uptake were determined on U87 MG cell lines. Half maximal inhibitory concentration value of the SLN-C was found to be 2.5 ?g/ml, which confirmed the high antitumour activity against brain cancer cells. Interpretation & conclusions: The cell line studies confirmed the cytotoxicity and internalization of SLN-C in U87 MG brain cancer cells. The results confirmed that tween 80-coated SLNs have the potential to deliver the doxorubicin selectively in the brain cancer cells.
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Abstract Glucose exposure induces toxic effects on the function of the pancreatic islets. Moreover, myricitrin as a flavonoid glycoside may have favorable effects on insulin secretion of Langerhans islets. The present study aimed to investigate the effect of Myricitrin and its solid lipid nanoparticles (SLN) on the insulin secretion as well as the content of isolated pancreatic islets from male mice. In this experimental study, Langerhans islets were separated from adult male NMRI mice using the collagenase method. The insulin secretion and content of islets were assessed in glucose-containing medium (2.8, 5.6, and 16.7mM). Further, islets treated were prepared by the administration of Myricitrin and its SLN (1, 3 and 10µM). Myricitrin 3µM, and SLN containing Myricitrin 3 and 10µM increased insulin secretion in medium containing glucose concentration 2.8mM. Accordingly, this variable increased in Myricitrin 3 and 10µM, SLN containing Myricitrin 1, 3, and 10µM utilization as well as glucose concentration 5.6mM. Afterward, the insulin secretion increased in medium containing 16.7mM glucose after the addition of Myricitrin and SLN containing Myricitrin 1, 3, and 10µM. Also, the insulin content increased in Myricitrin and SLN containing Myricitrin 1, 3, and 10µM administered groups in all medium containing glucose concentrations. Myricitrin and its SLN increased islets insulin secretion and content in low, moderate, and high glucose concentration mediums
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Animais , Masculino , Camundongos , Pâncreas/efeitos dos fármacos , Ilhotas Pancreáticas/anormalidades , Secreção de Insulina/imunologia , Organização e Administração , Nanopartículas , Insulina/efeitos adversosRESUMO
Abstract Doxorubicin (DOX) induced myocardial toxicity may limit its therapeutic use in clinic. Psoralen (PSO), a major active tricyclic furocoumarin extracted from Psoralea corylifolia, is widely used as an antineoplastic agent in treatment of leukemia and other cancers. This study is aim to find the protective effect of psoralen polymer lipid nanoparticles (PSO-PLN) on doxorubicin-induced myocardial toxicity in mice. The model of myocardial toxicity induced by DOX was established. The experiment was divided into 6 groups: normal saline group, DOX + Sulfotanshinone Sodium, DOX + PSO-PLN (3 mg/kg), DOX + PSO-PLN (6 mg/kg), DOX + PSO-PLN (9 mg/ kg), DOX group. DOX alone treated mice lead to a significant decrease in the body weight, heart weight, and increase in the serum levels of lactate dehydrogenase (LDH), creatine kinase (CK) and malondialdehyde (MDA) markers of cardiotoxicity. However, DOX reduced glutathione (GSH) content and activities of antioxidant enzymes, including superoxide dismutase (SOD) and glutathione peroxidase (GPX), were recovered by PSO-PLN. And PSO-PLN also decreased markers of cardiotoxicity in the serum. Western blotting data showed that the protective effects of PSO-PLN might be mediated via regulation of protein kinase A (PKA) and p38. Our study suggest that PSO-PLN possesses antioxidant activities, inactivating PKA and p38 effect, which in turn protect the heart from the DOX-induced cardiotoxicity.
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Animais , Feminino , Camundongos , Doxorrubicina/efeitos adversos , Nanopartículas/classificação , Ficusina/análise , Western Blotting/instrumentação , Cardiotoxicidade/complicações , Antioxidantes/efeitos adversosRESUMO
Abstract This study was aimed to develop the haloperidol (HPL) loaded solid lipid nanoparticles (SLNs) for brain targeting through the intranasal route. SLNs were fabricated by the emulsification diffusion technique using glyceryl behenate as lipid and tween 80 as a surfactant. SLNs were evaluated for particle size, zeta potential, structure, entrapment efficiency, solid state characterization by differential scanning calorimetry (DSC), and in-vitro release. In-vivo biological evaluation was performed on albino Wistar rats for the determination of pharmacokinetic as well as brain targeting parameters. Particle size, PDI, zeta potential, and entrapment efficiency of optimized formulation (HPL-SLNs 6) were found to be 103±09 nm, 0.190±0.029, -23.5±1.07 mV, and 79.46±1.97% respectively. In-vitro drug release studies exhibited that 87.21± 3.63% of the entrapped drug was released from the SLNs within 24 h. DSC curves confirmed that during entrapment in SLNs, the drug was solubilized in the lipid matrix and converted into the amorphous form. Enhanced HPL targeting to the brain was observed from HPL-SLNs as compared to HPL-Sol when administered intranasally. The value of AUC 0-∞ in the brain for HPL-SLNs i.n. was found to be nearly 2.7 times higher than that of HPL-Sol i.v., whereas 3.66 times superior to HPL-Sol administered i.n. Stability studies revealed that the formulation remains unchanged when stored at 4±2 °C (refrigerator) and 25±2 °C /60 ±5% RH up to six months. Finally, it could be concluded that SLN is a suitable carrier for HPL with enhanced brain targeting through i.n administration, as compared to the HPL-Sol, administered i.n. and i.v.
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The optimal prescription of tanshinone Ⅱ_A(TSN)-glycyrrhetinic acid(GA) solid lipid nanoparticles(GT-SLNs) was explored and evaluated in vivo and in vitro, and its effect on acne after oral administration was investigated. The preparation processing and prescription were optimized and verified by single factor and response surface methodology. The in vitro release of GA and TSN in GT-SLNs was determined by ultra-performance liquid chromatography(UPLC). The effect of GT-SLNs on acne was investigated by the levels of sex hormones in mice, ear swelling model, and tissue changes in sebaceous glands, and the pharmacokinetics was evaluated. The 24-hour cumulative release rates of GA and TSN in SLNs were 65.87%±5.63% and 36.13%±2.31% respectively. After oral administration of GT-SLNs and the mixture of GA and TSN(GT-Mix), the AUC_(0-t) and AUC_(0-∞) of TSN in GT-SLNs were 1.98 times and 4.77 times those in the GT-Mix group, respectively, and the peak concentration of TSN in the GT-SLNs group was 17.2 times that in the GT-Mix group. After intragastric administration of GT-SLNs, the serum levels of testosterone(T) and the ratio of testosterone to estradiol(T/E2) in the GT-SLNs group significantly declined, and the sebaceous glands of mice were atrophied to a certain extent. The results demonstrated that obtained GT-SLNs with good encapsulation efficiency and uniform particle size could promote the release of GA and TSN. GT-SLNs displayed therapeutic efficacy on acne manifested by androgen increase, abnormal sebaceous gland secretion, and inflammatory damage.
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Animais , Camundongos , Abietanos , Acne Vulgar/tratamento farmacológico , Portadores de Fármacos , Ácido Glicirretínico , Lipossomos , Nanopartículas , Tamanho da Partícula , TestosteronaRESUMO
Sclareol (SC) is arousing great interest due to its cytostatic and cytotoxic activities in several cancer cell lines. However, its hydrophobicity is a limiting factor for its in vivo administration. One way to solve this problem is through nanoencapsulation. Therefore, solid lipid nanoparticles (SLN-SC) and nanostructured lipid carriers (NLC-SC) loaded with SC were produced and compared regarding their physicochemical properties. NLC-SC showed better SC encapsulation than SLN-SC and was chosen to be compared with free SC in human cancer cell lines (MDA-MB-231 and HCT-116). Free SC had slightly higher cytotoxicity than NLC-SC and produced subdiploid DNA content in both cell lines. On the other hand, NLC-SC led to subdiploid content in MDA-MB-231 cells and G2/M checkpoint arrest in HCT-116 cells. These findings suggest that SC encapsulation in NLC is a way to allow the in vivo administration of SC and might alter its biological properties
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Células/classificação , Neoplasias , Organização e Administração , Produtos Biológicos/efeitos adversos , DNA , Linhagem Celular , Células HCT116/classificação , Citostáticos/farmacologia , Interações Hidrofóbicas e HidrofílicasRESUMO
When nanoparticles were introduced into the biological media, the protein corona would be formed, which endowed the nanoparticles with new bio-identities. Thus, controlling protein corona formation is critical to
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The management of the central nervous system (CNS) disorders is challenging, due to the need of drugs to cross the blood‒brain barrier (BBB) and reach the brain. Among the various strategies that have been studied to circumvent this challenge, the use of the intranasal route to transport drugs from the nose directly to the brain has been showing promising results. In addition, the encapsulation of the drugs in lipid-based nanocarriers, such as solid lipid nanoparticles (SLNs), nanostructured lipid carriers (NLCs) or nanoemulsions (NEs), can improve nose-to-brain transport by increasing the bioavailability and site-specific delivery. This review provides the state-of-the-art of
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The use of lipid nanocarriers for drug delivery applications is an active research area, and a great interest has particularly been shown in the past two decades. Among different lipid nanocarriers,