Intracellular delivery of siRNAs mediated by ultrasound targeted microbubbles destruction and biodegradable nanoparticles carriers / 中华超声影像学杂志

Objective To investigate the intracellular delivery of siRNAs through the applications of ultrasound targeted microbubbles destruction(UTMD)and biodegradable nanoparticles carriers.Methods Preparation of nanoparticles with and without RGD sequences,parameters optimization via L16(45)orthogonal design,control experiments in groups of optimization,RGD targeted nanoparticles,non-RGD nanoparticles and blank control, and determinations by inverted fluorescence microscope and flow cytometry were performed.Results The uptake and fluorescence intensity of PC-3 cells in group of RGD targeted nanoparticle was (93.49±1.37)% and 34.28±2.06 respectively,and that in group of optimization was (88.33±1.24)% and 30.59±3.93 respectively(P＞0.05).Whereas the uptake and fluorescence intensity of PC-3 cells in group of non-RGD nanoparticles was(71.24±2.80)% and 18.39±0.90 respectively,and that in group of optimization was (84.78±2.13)% and 27.18±0.91 respectively(P＜0.05).ConclusionsThe applications of UTMD with RGD targted nanoparticles cannot increase the intracellular delivery of siRNAs.

Advances in encapsulation of siRNA with PEI and its copolymers for cancer gene therapy / 国际生物医学工程杂志

The gene silence induced by small interfering RNA (siR N A) provides a powerful tool for gene therapy of neoplasm. However, safe and efficient delivery of exogenous siRNA is still the key issue for clinical application. Polyethyenimines ( PEI ) and its copolymers can encapsulate siRNA into complex in the formation of nanoparticle wherein the stability and activity of siRNA are closely related to the structure and molecular weight of PEI, N/P ratio, and the composition of copolymers.The siRNA-encapsulated nanoparticles can effectively inhibit the proliferation of tumor cell not only in vitro, but also in vivo by administration via intratumoral,intraperitoneal or venous injections.

Effect of physical exercise on the efficacy of mitoxantrone-loaded nanoparticles in treating early breast cancer / 生物医学工程学杂志

Physical exercise of moderate intensity is becoming readily accepted as an adjunct therapy to enhance curative effects of chemotherapy in patients with breast cancer. In this study, we investigated the putative effect of physical exercise on inhibition of breast cancer and the possible mechanism therein involoved. Balb/c female mice were transplanted with BCAP-37 breast xenografts and randomly assigned to four groups: (a) saline control, (b) exercise-only, (c) DHAQ-loaded NPs, (d) exercise + DHAQ-loaded NPs. The mice in exercise groups performed progressive wheel running up to 15 m/min for 30 minutes, 6 d/wk for 4 weeks. Tumor growth delay was significantly longer in the DHAQ-loaded NPs group and the exercise + DHAQ-loaded NPs groups compared with that in the control group (P < 0.05; P < 0.01, respectively). Tumor volume and the value of hemoglobin (HGB) showed significant difference between the DHAQ-loaded NPs and exercise + DHAQ-loaded NPs groups (P < 0.05), suggesting that physical exercise of moderate intensity can significantly induce an influence of DHAQ-loaded NPs on delay in tumor growth, and can enhance the anti-tumor efficacy of DHAQ-loaded PLA-PLL-RGD NPs. It is a contributor to adjuvant therapy for breast cancer.

Cellular uptake study of CAP/GPC-MPEG nanoparticle in breast cancer cells / 中国癌症杂志

Background and purpose:A pressing obstacle in clinical chemotherapy is drug resistance in breast cancer.A nano-delivery system,which has many advantages as a drug carrier,such as carrying anticancer drugs,can be used effectively to overcome drug resistance in tumors.This paper examined a new nano-delivery system,called calcium phosphate and glycerophosphocholine-mPEG(CAP/GPC-MPEG)composite nanoparticle and its influence on the cellular drug uptake of BCRP-over expressing mitoxantrone(MIT)-resistant breast cancer cell MCF-7/MIT.This paper will also examine its effect on overcoming drug resistance in the MCF-7/MIT cells.Methods:After the calcium phosphate and GPC-mPEG composite nanoparticles were designed and prepared,the entrapment efficiency and in vitro drug release of mitoxantrone-loaded nanoparticles were investigated.Quantitative comparisons were made between cellular uptake of drug-loaded nanoparticles and free drugs.Finally,a confocal laser scanning microscopy Was used to compare the subcellular distribution of drug-loaded nanoparticles and the free drugs.Results:Calcium phosphate and GPC-mPEG composite nanoparticles were nanoporous spherical particles with diameters between 50-100 mn.The MIT-loaded nanoparticles have an entrapment efficiency of(89.45±0.05)%.Although the drug-loaded nanoparticles showed an initial burst of drug release,it was followed by a more sustained release.The concentration of mitoxantrone was 1.89 times treated with MIT-loaded nanoparticles for 1 h compared to that treated with free mitoxantrone for 1 h in MCF-7/MIT cells.and which was 2.33 times in MCF-7 cells.Fluorescent red mitoxantrone appeared in the cytoplasm and nucleus of the MCF-7 and MCF-7,MIT cells treated with MlT-loaded nanoparticles whereas it is almost undetected in both cells treated with free mitoxantrone.Conclusion:Calcium phosphate and GPC-mPEG composite nanoparticles Can promote the cellular uptake and entering of mitoxantrone to the nucleus in MCF-7 and its corresponding BCRP-over expressing MIT-resistant MCF-7/MIT breast cancer cell lines.This nanoparticle is a potential nano-carrier for overcoming drug resistance in tumors.

Evaluation of blood compatibility of surface modification treated poly (D, L-lactic and glycolic acid) with mPEG block copolymer / 生物医学工程学杂志

To identify the advantages of modification treated poly (D, L-lactic and glycolic acid) with poly (ethylene glycol) (PLGA/mPEG, PELGA) block copolymer, blood compatibility was evaluated in vitro. Three different proportional block copolymers (LA/GA80: 20, 70: 30, 50: 50) with 15% mPEG were synthesized. According to the international standard organization (ISO10993) and National Standards of P. R. China GB/T 16886, siliconized glass tube was used as a negative control sample, while non-siliconized glass tube as a positive one. Blood compatibility of PELGA was evaluated by hemolytic ratio analysis, platelet adhesion investigation, dynamic clotting time, plasma recalcification time (PRT) measurements, plasma prothrombin time (PT) and clotting time (CT) test. The results revealed that blood compatibility of the synthesized materials was good. Nanoparticles made by this kind of materials might be promising for intravenous use.

Preparation and degradation behavior of PELGE nanoparticles / 生物医学工程学杂志

A series of poly (lacticacid-co-glycolicacid)-poly(ethylene glycol) (PLGA-PEG, PELGA) block copolymers and poly (ethylene glycol)-poly (lacticacid-co-glycolicacid)-poly (ethylene-glycol) (PELGE) was synthesized by ring-opening polymerization. PELGA nanoparticles and PELGE nanoparticles were prepared using the emulsion-solvent evaporation technique (O/W). To study the behavior and mechanism of the degradation of PELGA-NP and PELGA-NP, we determined the lactic acids by UV spectrophotometry. The method confirmed that degradation was much faster for polymers with a decrease in the LA content of the polymers or an increase in the PEG content of the polymers.

A study of bone-like apatite formation on calcium phosphate ceramics in different kinds of animals in vivo / 生物医学工程学杂志

Bone-like apatite formation on the surface of calcium phosphate ceramics has been believed to be necessary for new bone to grow on the ceramics and to be related to the osteoinductivity of the material. The research of bone-like apatite formation is a great help to understanding the mechanism of osteoinduction. Synthetic porous calcium phosphate ceramics (HA/TCP = 70/30) were implanted intramuscularly in pigs, dogs, rabbits and rats to make a comparative study of the bone-like apatite formation onto the porous HA/TCP ceramics in different animals. Specimens were harvested at 14 days after implantation. Samples were detected for the surface morphology with SEM. The chemical composition of the sample surface after implantation was analyzed with reflection infrared (R-IR). Obvious bone-like apatite formation could be detected in the sections of porous specimens harvested from all animals after 14 days intramuscular implantation. Crystal deposition could be only observed on the surface of the concave regions of the samples collected from dogs, rabbits and rat. On the contrary, evenly distributed flake-shaped crystal could be found on the pore surface and also on the outer surface of the materials implanted in pigs. The morphology of bone-like apatite in pigs was different from that in the others animals. Bone-like apatite was not observed in dense specimen implanted intramuscularly. Bone-like apatite formed faster on specimens implanted in rabbit than that in other animals. This formation sequence is different from the sequence of osteoinductivity of biphasic calcium phosphate ceramics implanted in these animals. The results demonstrated that the formation of bone-like apatite on materials is a prerequisite condition to their osteoinduction but other factors also play important roles in osteoinduction.

A study of bone-like apatite formation on porous calcium phosphate ceramics in dynamic SBF / 生物医学工程学杂志

This study aimed at investigating the influence of the flow rate of simulated body fluid (SBF) (2 ml/100 ml.min) of body fluid in skeletal muscle upon the formation of bone-like apatite on porous calcium phosphate ceramics. The in vitro immersion experiment in SBF flowing at normal physiological rate is referred to as dynamic SBF. The results showed that bone-like apatite could only formed in the pores of porous calcium phosphate when SBF flow at physiological rate (2 ml/100 ml.min) of body fluid in skeletal muscle. At the same time, bone-like apatite could form both in the pores and on the surface of the samples if the flowing physiological solution is 1.5 SBF. When the flowing speed of SBF is higher than normal physiological speed (10 ml/100 ml.min), no bone-like apatite could be detected both on the surface and in the pores of the materials. This result is in concordance with animal experiments. The dynamic SBF simulates the biological environment of bone-like apatite formation in body better than static SBF (SBF does not flow). This method is very useful for the research of the mechanism of bonelike apatite formation, which is the key step of bone growth on biomaterials, and can be used as an effective approach to investigate mechanism of the osteoinduction of calcium phosphate in nonosseous tissues in vivo.

The effects of surface morphology of calcium phosphate ceramics on apatite formation in dynamic SBF / 生物医学工程学杂志

Bone-like apatite formation on the surface of calcium phosphate ceramics has been believed to be the prerequisite of new bone growth on ceramics and to be related to the osteoinductivity of the material. The research of the factors effecting bone-like apatite formation is a great help in understanding the mechanism of osteoinduction. This paper is aimed to a comparative study of in vitro formation of bone-like apatite on the surface of dense and rough calcium phosphate ceramics with SBF flowing at different rates. The results showed that the rough surface was beneficial to the formation of bone-like apatite, and the apatite formed faster in 1.5 SBF than in SBF. Rough surface, namely, larger surface area, increased the dissolution of Ca2+ and HPO4(2-) and higher concentration of Ca2+ and HPO4(2-) ions of SBF and was in turn advantageous to the accumulation of Ca2+, HPO4(2-), PO4(3-) near the ceramic surface. Local supersaturating concentration of Ca2+, HPO4(2-), PO4(3-) near sample surface was essential to nucleation of apatite on the surface of sample.