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1. Self-Assembled Supramolecular Hybrid Hydrogels Based on Host–Guest Interaction: Formation and Application in 3D Cell Culture

Author

Jidong Dai, Pengfei Ren, Wanjun Hu, Tianzhu Zhang, Katrien V. Bernaerts, Min Liang, Yifu Fu, Naizhen Zhou, Faming Wang, AMIBM, RS: FSE Biobased Materials, RS: FSE AMIBM, Biobased Materials, Sciences, and RS: FSE Sciences

Subjects
HEALING HYDROGELS, Adamantane, adamantane, Biomedical Engineering, Supramolecular chemistry, Nanotechnology, MONOMERS, ADHESION, Self assembled, beta-cyclodextrin, Biomaterials, chemistry.chemical_compound, 3D cell culture, host-guest interaction, SYSTEMS, EXTRACELLULAR-MATRIX, supramolecular hybrid hydrogel, IN-SITU, Biochemistry (medical), self-assembly, General Chemistry, CANCER, chemistry, Cell culture, Self-healing hydrogels, Self-assembly, Host (network)
Abstract

In recent decades, in vitro three-dimensional (3D) cell culture has been rapidly developed and widely used in many biomedical fields. Based on this background, a kind of self-assembled supramolecular hybrid hydrogel materials based on host-guest interaction of beta-cyclodextrin (beta CD) and adamantane (Ad) is designed for 3D cell culture. First, beta CD is grafted to poly(methyl vinyl ether-alt-maleic acid) (PMM) to obtain the host polymers of beta CD-grafted-PMM (PMM-beta CD). Second, the guest polymers of poly(acrylamide-co-N-adamantyl acrylamide) (PAAm-Ad) are synthesized through free-radical copolymerization of acrylamide and N-adamantyl acrylamide. Finally, the self-assembled supramolecular hybrid hydrogels of PMM-beta CD/PAAm-Ad are formed by simply mixing the aqueous solution of host and guest polymers with a total concentration of 3.3% (w/v) and a beta CD/Ad molar ratio of 1:1. The main cross-linking interactions come from the host-guest interaction of beta CD/Ad as well as hydrogen-bonding interaction of carboxyl/amide groups. The prepared hydrogels with good cytocompatibility have been successfully used as 3D cell culture scaffold for SKOV3, HUVEC, and L929 cells culture. Thus, this work provides a way and biomaterial for the preparation of a functionalized 3D cell culture scaffold, which lays an experimental and theoretical basis for cell follow-up research.

Published
2020

2. Expansion of Ovarian Cancer Stem-like Cells in Poly(ethylene glycol)-Cross-Linked Poly(methyl vinyl ether-alt-maleic acid) and Alginate Double-Network Hydrogels

Author

Tianzhu Zhang, Naizhen Zhou, Katrien V. Bernaerts, Xiaoe Ma, Wanjun Hu, Pengfei Ren, Biobased Materials, RS: FSE Biobased Materials, RS: FSE AMIBM, Sciences, AMIBM, and RS: FSE Sciences

Subjects
IRON TRAFFICKING, Maleic acid, 0206 medical engineering, Cell, Biomedical Engineering, CARCINOMA-CELLS, 02 engineering and technology, Matrix (biology), THERAPY, CULTURE, Biomaterials, chemistry.chemical_compound, In vivo, Cancer stem cell, PEG ratio, EXTRACELLULAR-MATRIX, medicine, alginate, GEL, IDENTIFICATION, PROLIFERATION, technology, industry, and agriculture, 021001 nanoscience & nanotechnology, 020601 biomedical engineering, cation, P(MVE-alt-MA), medicine.anatomical_structure, chemistry, Self-healing hydrogels, Biophysics, double-network hydrogel, cancer stem-like cell, ENRICHMENT, 0210 nano-technology, TUMORSPHERE FORMATION, Ethylene glycol
Abstract

A better understanding of cancer stem cells (CSCs) is essential for research on cancer therapy and drug resistance. Currently, increasingly more investigations are focused on obtaining CSCs to study the mechanism of their enhanced malignancy. In this work, three kinds of double-network hydrogels (PEMM/alginate), consisting of poly(ethylene glycol) (PEG) covalently crosslinked poly(methyl vinyl ether-alt-maleic acid) (P(MVE-alt-MA)) (network 1, denoted as PEMM) and Sr2+ (or Ca2+, Fe3+) ionically cross-linked alginates (network 2, denoted as SrAlg, CaAlg, or FeAlg), were prepared. The stiffness, morphology, and components of the PEMM/alginate hydrogels were systematically investigated to understand their effects on CSC enrichment. Only the PEMM/FeAlg hydrogels could support the long-term growth, proliferation, and spheroid formation of SK-OV-3 cells. The expression of CSC-related markers was evaluated with the levels of protein and gene at different stages. The cell spheroids cultured in the PEMM/FeAlg hydrogels acquired certain CSC-like properties, thus drug resistance was enhanced, especially in the PEMM-1/FeAlg hydrogel. In vivo tumorigenicity experiments also confirmed the presence of more CSCs in the PEMM-1/FeAlg hydrogel. The results suggest that matrix stiffness, morphology, and cations act synergistically on the regulation of the epithelial-mesenchymal transition (EMT), interleukin-6 (IL-6), and Wnt pathways, affecting the invasiveness of ovarian cancer and the conversion of the non-CSCs into CSCs. The PEMM-1/FeAlg hydrogel with lower elastic modulus, a more macroporous morphology, and higher swelling rate can significantly enhance the stemness, malignancy, and tumorigenicity of SK-OV-3 cells.

Published
2020

3. Expansion of Ovarian Cancer Stem-like Cells in Poly(ethylene glycol)-Cross-Linked Poly(methyl vinyl ether

Author

Naizhen, Zhou, Xiaoe, Ma, Katrien V, Bernaerts, Pengfei, Ren, Wanjun, Hu, and Tianzhu, Zhang

Subjects
Ovarian Neoplasms, Alginates, Neoplastic Stem Cells, Humans, Female, Hydrogels, Polyvinyls, Maleic Anhydrides, Polyethylene Glycols
Abstract

A better understanding of cancer stem cells (CSCs) is essential for research on cancer therapy and drug resistance. Currently, increasingly more investigations are focused on obtaining CSCs to study the mechanism of their enhanced malignancy. In this work, three kinds of double-network hydrogels (PEMM/alginate), consisting of poly(ethylene glycol) (PEG) covalently cross-linked poly(methyl vinyl ether

Published
2021

4. Mussel-inspired hybrid network hydrogel for continuous adhesion in water

Author

Yifu Fu, Wanjun Hu, Min Liang, Lu Zuhong, Tianzhu Zhang, Naizhen Zhou, Faming Wang, and Pengfei Ren

Subjects
Materials science, Biocompatibility, Surface Properties, Biomedical Engineering, Catechols, Biocompatible Materials, Tissue Adhesions, macromolecular substances, Conjugated system, complex mixtures, chemistry.chemical_compound, Animals, General Materials Science, Particle Size, Catechol, technology, industry, and agriculture, Water, Hydrogels, General Chemistry, General Medicine, Adhesion, Bivalvia, Monomer, chemistry, Chemical engineering, Polymerization, Acrylamide, Tissue Adhesives, Adhesive, Stress, Mechanical
Abstract

The mussel-inspired catechol-based strategy has been widely used in the development of adhesives. However, the properties of the obtained adhesives were still severely limited in a humid environment, particularly in water. In this study, a facile and versatile approach was proposed to prepare an underwater adhesion hydrogel. First, dopamine (DA) was grafted on oxidized carboxymethylcellulose (OCMC) to obtain dopamine-grafted oxidized carboxymethylcellulose (OCMC-DA). Second, the acrylamide (AM) monomer was conjugated with OCMC-DA by a Schiff base reaction, and then polymerized to form an OCMC-DA/PAM hydrogel. The properties of the resulting hydrogel have been fully characterized. The underwater adhesion strength of the hydrogel can reach as high as 86.3 ± 7.2 kPa and reduced to 43 ± 3.4 kPa after being immersed in water for 9 days. More remarkably, we found that the maximal adhesion strength was shown when the G′ and G′′ of the hydrogel were very close. Moreover, we demonstrated the mechanical properties of our fabricated hydrogel by compressive tests and rheological analysis. The adhesive hydrogel also exhibits excellent biocompatibility.

Published
2020

5. Photoresponsive smart hydrogel microsphere via host-guest interaction for 3D cell culture

Author

Xiaoe Ma, Dandan Ma, Ning Gu, Tianzhu Zhang, Naizhen Zhou, and Ke Hu

Subjects
technology, industry, and agriculture, macromolecular substances, 02 engineering and technology, Polyethylene glycol, Adhesion, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Microsphere, chemistry.chemical_compound, 3D cell culture, Colloid and Surface Chemistry, Azobenzene, chemistry, Chemical engineering, Cell culture, PEG ratio, Polymer chemistry, 0210 nano-technology, Cell adhesion
Abstract

In this study, we designed a kind of photoresponsive hydrogel microsphere for three-dimensional (3D) cell culture, which is based on the host-guest interaction of β-cyclodextrin (β-CD) and Azobenzene. The hydrogel microsphere consists of polyethylene glycol (PEG) and β-CD modified poly(methyl vinyl ether-alt-maleic acid) (PMVE-alt-MA) which was allowed to assemble with azobenzene-arginine-glycine-aspartate (Azo-RGD) via host-guest interaction for controlling cell adhesion and detachment. UV irradiation led to the detachment of Azo-RGD from hydrogel microsphere, and the number of cells cultured on the hydrogel microsphere surface was reduced subsequently. This photo-switchable surface can achieve the controllability of cells adhesion and detachment.

Published
2017

6. Enrichment of Ovarian Cancer Stem Cells by PEG Cross-Linked PMVE-co-MA Hydrogel with Controllable Elastic Modulus

Author

Xiaoxiang Chen, Xiaoe Ma, Dandan Ma, Ning Gu, Zhenchao Guo, Tianzhu Zhang, and Naizhen Zhou

Subjects
Materials science, Biomedical Engineering, Bioengineering, 02 engineering and technology, General Chemistry, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, medicine.disease, 01 natural sciences, 0104 chemical sciences, PEG ratio, medicine, Biophysics, General Materials Science, Stem cell, 0210 nano-technology, Ovarian cancer, Elastic modulus
Published
2016

7. Effect of RGD content in poly(ethylene glycol)-crosslinked poly(methyl vinyl ether-alt-maleic acid) hydrogels on the expansion of ovarian cancer stem-like cells

Author

Pengfei Ren, Wanjun Hu, Xiaoe Ma, Tianzhu Zhang, Naizhen Zhou, and Youliang Zhao

Subjects
Materials science, Cell, Bioengineering, macromolecular substances, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Polyethylene Glycols, Biomaterials, Extracellular matrix, chemistry.chemical_compound, Cancer stem cell, medicine, Humans, Cells, Cultured, Maleic Anhydrides, Ovarian Neoplasms, biology, technology, industry, and agriculture, Hydrogels, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Fibronectin, medicine.anatomical_structure, chemistry, Mechanics of Materials, Cancer cell, Self-healing hydrogels, Neoplastic Stem Cells, biology.protein, Biophysics, Female, Polyvinyls, Vitronectin, 0210 nano-technology, Oligopeptides, Ethylene glycol
Abstract

The extracellular matrix (ECM) affects cell behaviors, such as survival, proliferation, motility, invasion, and differentiation. The arginine-glycine-aspartic acid (RGD) sequence is present in several ECM proteins, such as fibronectin, collagen type I, fibrinogen, laminin, vitronectin, and osteopontin. It is very critical to develop ECM-like substrates with well-controlled features for the investigation of influence of RGD on the behavior of tumor cells. In this study, poly(ethylene glycol) (PEG)-crosslinked poly(methyl vinyl ether-alt-maleic acid) (P(MVE-alt-MA)) hydrogels (PEMM) with different RGD contents were synthesized, fully characterized, and established as in vitro culture platforms to investigate the effects of RGD content on cancer stem cell (CSC) enrichment. The morphology, proliferation, and viability of SK-OV-3 ovarian cancer cells cultured on hydrogels with different RGD contents, the expression of CSC markers and malignant signaling pathway-related genes, and drug resistance were systematically evaluated. The cell aggregates formed on the hydrogel surface with a lower RGD content acquired certain CSC-like properties, thus drug resistance was enhanced. In contrast, the drug sensitivity of cells on the higher RGD content surface increased because of less CSC-like properties. However, the presence of RGD in the stiff hydrogels (PEMM2) had less effect on the stemness expression than did its presence in the soft hydrogels (PEMM1). The results suggest that RGD content and matrix stiffness can lead to synergetic effects on the expression of cancer cell stemness and the epithelial-mesenchymal transition (EMT), interleukin-6 (IL-6), and Wnt pathways.

Published
2021

8. Sliced Magnetic Polyacrylamide Hydrogel with Cell-Adhesive Microarray Interface: A Novel Multicellular Spheroid Culturing Platform

Author

Yang Li, Tianzhu Zhang, Naizhen Zhou, Qiying Zhang, Ke Hu, Meng Cao, Jianfei Sun, Siyu Ma, Zhaobin Guo, and Ning Gu

Subjects
Polyacrylamide Hydrogel, Materials science, Cell, Polyacrylamide, Acrylic Resins, Cell Culture Techniques, Nanotechnology, 02 engineering and technology, 010402 general chemistry, 01 natural sciences, Hydrogel, Polyethylene Glycol Dimethacrylate, Extracellular matrix, Magnetics, chemistry.chemical_compound, 3D cell culture, Cell–cell interaction, Cell Line, Tumor, Spheroids, Cellular, Cell Adhesion, medicine, Humans, General Materials Science, technology, industry, and agriculture, 021001 nanoscience & nanotechnology, 0104 chemical sciences, medicine.anatomical_structure, chemistry, Tissue Array Analysis, Cell culture, embryonic structures, MCF-7 Cells, Biophysics, Magnetic nanoparticles, 0210 nano-technology
Abstract

Cell-adhesive properties are of great significance to materials serving as extracellular matrix mimics. Appropriate cell-adhesive property of material interface can balance the cell-matrix interaction and cell-cell interaction and can promote cells to form 3D structures. Herein, a novel magnetic polyacrylamide (PAM) hydrogel fabricated via combining magnetostatic field induced magnetic nanoparticles assembly and hydrogel gelation was applied as a multicellular spheroids culturing platform. When cultured on the cell-adhesive microarray interface of sliced magnetic hydrogel, normal and tumor cells from different cell lines could rapidly form multicellular spheroids spontaneously. Furthermore, cells which could only form loose cell aggregates in a classic 3D cell culture model (such as hanging drop system) were able to be promoted to form multicellular spheroids on this platform. In the light of its simplicity in fabricating as well as its effectiveness in promoting formation of multicellular spheroids which was considered as a prevailing tool in the study of the microenvironmental regulation of tumor cell physiology and therapeutic problems, this composite material holds promise in anticancer drugs or hyperthermia therapy evaluation in vitro in the future.

Published
2016

9. In situ formation of multiple stimuli-responsive poly[(methyl vinyl ether)-alt-(maleic acid)]-based supramolecular hydrogels by inclusion complexation between cyclodextrin and azobenzene

Author

Zhu Changhao, Xiaoe Ma, Dandan Ma, Zhenchao Guo, Wanjun Hu, Ning Gu, Tianzhu Zhang, and Naizhen Zhou

Subjects
chemistry.chemical_classification, Cyclodextrin, Maleic acid, General Chemical Engineering, technology, industry, and agriculture, Supramolecular chemistry, macromolecular substances, 02 engineering and technology, General Chemistry, Polymer, Methyl vinyl ether, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, chemistry.chemical_compound, Azobenzene, chemistry, Polymer chemistry, Self-healing hydrogels, Drug delivery, 0210 nano-technology
Abstract

Biocompatible external stimuli-responsive hydrogels are of interest for drug delivery, cell and gene therapy, tissue engineering, protein patterning, and other biomedical applications. In this work, based on the biocompatible polymer poly(methyl vinyl ether-alt-maleic acid) (P(MVE-alt-MA)), host polymer β-cyclodextrin-grafted P(MVE-alt-MA) (P(MVE-alt-MA)-g-β-CD) and guest polymer azobenzene-grafted P(MVE-alt-MA) (P(MVE-alt-MA)-g-azo) were first prepared. Then through taking advantage of the traditional host–guest interaction of β-cyclodextrin and azobenzene, novel multiple stimuli-responsive physical P(MVE-alt-MA)-g-β-CD/P(MVE-alt-MA)-g-azo supramolecular hydrogels were obtained after simply mixing the aqueous solutions of the host polymer and guest polymer. The formation of the supramolecular hydrogels was also confirmed by 2D-NOESY. This kind of supramolecular hydrogels not only exhibits photo-, pH- and thermo-sensitivity, but also cytocompatibility. Ovarian cancer SKOV3 cells can survive within different hydrogel layers, which were observed by confocal microscopy. These results suggest that this multiple stimuli-responsive P(MVE-alt-MA)-based supramolecular hydrogel may be expected to have a powerful potential in biomedical applications as a three-dimensional (3D) cell culture matrix or as a vehicle for the delivery of drugs and therapeutic cells.

Published
2016

10. The effects of macroporosity and stiffness of poly[(methyl vinyl ether)-alt-(maleic acid)] cross-linked egg white simulations of an aged extracellular matrix on the proliferation of ovarian cancer cells

Author

Kun Fang, Ning Gu, Tianzhu Zhang, Xiaoe Ma, Naizhen Zhou, Jun Dou, and Zhenchao Guo

Subjects
0301 basic medicine, Maleic acid, Chemistry, General Chemical Engineering, Cell, Cell migration, General Chemistry, Matrix (biology), 010402 general chemistry, medicine.disease, 01 natural sciences, 0104 chemical sciences, Metastasis, Cell biology, Extracellular matrix, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, medicine.anatomical_structure, Biochemistry, Cancer cell, medicine, Egg white
Abstract

Ageing and remodelling of the extracellular matrix (ECM) leads to enzyme activation, resulting in a fibrotic microenvironment and fluctuating ECM stiffness. In this study, prepared egg white (EW) cross-linked with poly[(methyl vinyl ether)-alt-(maleic acid)] (P(MVE-alt-MA)) with macroporous structures were used to simulate an aged extracellular matrix that affected the malignant behaviour of cancer cells at different stages. Increased macroporosity and stiffness properties clearly enhanced the proliferation of cancer cells. In other words, different levels of EW cross-linking had different effects on cell malignancy, thereby determining the ability and speed of cell migration in scaffolds. The study showed that porosity and stiffness changes in the matrix were possible mechanisms for cancer cell invasion and metastasis besides blood vessels and lymphatic invasion in human body. P(MVE-alt-MA)-cross-linked EW contained a major component of ECM and provided a useful model to evaluate the proliferation and metastasis of cancer cells in vitro. This has important significance when it comes to exploring the effects of the material microenvironment on tumour prevention and treatment.

Published
2016

11. Thermoresponsive Poly(2-propyl-2-oxazoline) Surfaces of Glass for Nonenzymatic Cell Harvesting

Author

Tianzhu Zhang, Naizhen Zhou, Yifu Fu, Wanjun Hu, Katrien V. Bernaerts, Faming Wang, Pengfei Ren, AMIBM, RS: FSE Biobased Materials, RS: FSE AMIBM, Biobased Materials, Sciences, and RS: FSE Sciences

Subjects
Glycidyl methacrylate, Materials science, Annealing (metallurgy), Biomedical Engineering, poly(2-propyl-2-oxazoline)s, engineering.material, ADHESION, DETACHMENT, GENE DELIVERY, Biomaterials, chemistry.chemical_compound, Coating, X-ray photoelectron spectroscopy, poly(glycidyl methacrylate), nonenzymatic cell harvesting, COATINGS, 2-ISOPROPYL-2-OXAZOLINE, Biochemistry (medical), General Chemistry, Epoxy, Adhesion, COPOLYMERS, L929 and Vero cells, BRUSHES, Surface coating, chemistry, Chemical engineering, visual_art, surface coating, visual_art.visual_art_medium, engineering, POLYMERS, Layer (electronics)
Abstract

As one of the nonenzymatic cell-harvesting technologies, a thermal-responsive surface based on poly(2-oxazoline)s has achieved initial success in supporting the adhesion and thermal-induced detachment of animal cells. However, because of the laborious preparation procedure, this technique was only limited to research purposes. In this work, through using poly(glycidyl methacrylate) (PGMA) as the anchor layer, poly(2-propyl-2-oxazoline)s (PPOx) were grafted onto glass wafers through a facile two-step coating and annealing procedure for nonenzymatic cell harvesting. In the first step, the piranha solution-activated glass wafers were immersed into the chloroform solution of PGMA and then annealed for a given period of time to immobilize PGMA onto the glass wafers through the bonding between epoxy groups and hydroxyl groups. In the second step, the PGMA-coated glass wafers were further immersed into the chloroform solution of carboxyl-functionalized PPOx. After annealing, PPOx were immobilized onto the PGMA layer through the bonding between carboxyl groups and the residual epoxy groups. Atomic force microscopy, X-ray photoelectron spectroscopy, and ellipsometry were used to characterize the modified glass wafers. The results of cytocompatibility evaluation showed that the PPOx-coated glass wafers were almost nontoxic and were able to support the adhesion and proliferation of L929 cells well. By lowering the temperature to 8 °C, L929 and Vero cells were successfully detached from the PPOx-coated glass wafers without any enzymatic treatment. Further cultivation has demonstrated that the cooling procedure had little effect on cell viability, and the cells still retained good viability after harvesting.https://doi.org/10.1021/acsabm.0c00650

Published
2020

12. A biomimetic nano-hydroxyapatite/chitosan/poly(methyl vinyl ether-alt-maleic anhydride) composite with excellent biocompatibility

Author

Tianzhu Zhang, Jinhai Ye, Naizhen Zhou, Tiantian Zhan, Wanjun Hu, Pengfei Ren, and Faming Wang

Subjects
Materials science, Biocompatibility, Composite number, 02 engineering and technology, Methyl vinyl ether, 010402 general chemistry, Bone tissue, 01 natural sciences, Chitosan, chemistry.chemical_compound, medicine, General Materials Science, chemistry.chemical_classification, Mechanical Engineering, technology, industry, and agriculture, Maleic anhydride, Polymer, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 0104 chemical sciences, Compressive strength, medicine.anatomical_structure, chemistry, Chemical engineering, Mechanics of Materials, 0210 nano-technology
Abstract

Nano-hydroxyapatite/chitosan/poly(methyl vinyl ether-alt-maleic anhydride) (NHA/CS/P(MVE-alt-MA)) composite was formed through electrostatic interaction. The results of characterization indicated that the nano-hydroxyapatite (NHA) in the composites was uniformly distributed in the polymer matrices (chitosan/poly(methyl vinyl ether-alt-maleic anhydride) (CS/P(MVE-alt-MA)). With the increase of NHA content, the porosity and strength of the composites increase first and then decrease. The mechanical properties of composite were better than those of the three kinds of single component, the maximum compressive strength of composite was up to 8.48 MPa. Moreover, this composite showed excellent biocompatibility through SD rat bone marrow mesenchymal stem cells (SDBMSCs) culture. Therefore, this composite which combined the advantages of various materials exhibited good mechanical properties and biocompatibility, it was expected to be applied in bone tissue repair.

Published
2020

13. Assembled anti-adhesion polypropylene mesh with self-fixable and degradable in situ mussel-inspired hydrogel coating for abdominal wall defect repair

Author

Pengfei Ren, Wanjun Hu, Zhigang Zhang, Faming Wang, Shenglin Lu, Tianzhu Zhang, Naizhen Zhou, Yang Yang, and Zhenling Ji

Subjects
In situ, Materials science, Biocompatibility, Cell Survival, Surface Properties, Dopamine, Biomedical Engineering, Biocompatible Materials, Tissue Adhesions, 02 engineering and technology, engineering.material, 010402 general chemistry, Polypropylenes, 01 natural sciences, Rats, Sprague-Dawley, chemistry.chemical_compound, Mice, Coating, Animals, Humans, General Materials Science, Herniorrhaphy, Polypropylene, Chitosan, Abdominal Wall, Hydrogels, Adhesion, 3T3 Cells, Surgical Mesh, 021001 nanoscience & nanotechnology, 0104 chemical sciences, Bivalvia, Surgical mesh, chemistry, Carboxymethylcellulose Sodium, Self-healing hydrogels, engineering, 0210 nano-technology, Rheology, Layer (electronics), Biomedical engineering
Abstract

Abdominal adhesion to polypropylene (PP) mesh remains one of the major complications in hernia repair. Thus, a challenge exists to endow PP mesh with powerful anti-adhesion properties in hernia repair. To investigate potential options, the assembled PP mesh was developed with effective anti-adhesion properties through an in situ coating of the mesh surface with self-fixable and biodegradable mussel-inspired hydrogels. Through mixing oxidized-carboxymethylcellulose functionalized with dopamine (OCMC-DA) with carboxymethylchitosan (CMCS), a layer of hydrogel (OCMC-DA/CMCS) can be formed in situ on the PP mesh without the addition of crosslinking agents; the dopamine then acts as an immobilization group to fix these hydrogels to the PP mesh and the tissue surface. In this way, the assembled PP mesh (OCMC-DA/CMCS/PP) was obtained. The properties of the OCMC-DA/CMCS hydrogels were optimized, and the OCMC-DA4/CMCS hydrogel was selected to construct the assembled PP mesh. The lap-shear test revealed that OCMC-DA4/CMCS has tissue-adhesive properties. In vitro cell tests proved the excellent biocompatibility of the hydrogel. An optimized bioabsorption time and significant anti-adhesion properties were demonstrated through an in vivo test with a rat model. The adhesion area and tenacity of the OCMC-DA4/CMCS/PP group were more than 80% lower than those of the native PP mesh group and created a slightly inflammatory reaction.

Published
2018

14. H727 Multicellular Spheroids and Its Resistance to Antitumor Drugs Sunitinib and Axitinib

Author

Zhengyang Wang, Tianzhu Zhang, Naizhen Zhou, Gang Chen, Hao Chen, and Pengfei Ren

Subjects
0301 basic medicine, Drug, Materials science, Axitinib, media_common.quotation_subject, Biomedical Engineering, Bioengineering, Antineoplastic Agents, Matrix (biology), Neuroendocrine tumors, 03 medical and health sciences, 0302 clinical medicine, Cell Line, Tumor, Spheroids, Cellular, medicine, Sunitinib, Humans, General Materials Science, media_common, Spheroid, General Chemistry, Condensed Matter Physics, medicine.disease, 030104 developmental biology, Apoptosis, Cell culture, 030220 oncology & carcinogenesis, Cancer research, medicine.drug
Abstract

The three-dimensional (3D) culture model of neuroendocrine tumor H727 cells was established by using the agarose gel as culture matrix, which provided a new method for drug screening of neuroendocrine tumors. As VEGFR inhibitor, sunitinib and axitinib were applied to inhibit human neuroendocrine H727 cell line in two-dimensional (2D) and 3D culture models. The inhibitory rate of H727 cells with different drug concentration were assessed by CCK-8 assay method and combined with using the FDA/PI double staining and the digital microscope analysis system. When the concentration of sunitinib ≥4.0 μmol/L, the H727 spheroids began to split, and the apoptosis of H727 cells occurred, the sizes of multicellular spheroids was significantly reduced in the groups of high-dose axitinib. These results illustrated that sunitinib and axitinib can effectively inhibit the growth and proliferation of neuroendocrine tumor H727 cells. Sunitinib and axitinib can also promote apoptosis of H727 cells.

Published
2018

15. Thermo-Sensitive PLGA-PEG-PLGA Tri-Block Copolymer Hydrogel as Three-Dimensional Cell Culture Matrix for Ovarian Cancer Cells

Author

Junsong Chen, Zhaobin Guo, Tianzhu Zhang, Ke Hu, Naizhen Zhou, Ning Gu, and Qiying Zhang

Subjects
Materials science, Cell, Biomedical Engineering, Bioengineering, macromolecular substances, 02 engineering and technology, Matrix (biology), 010402 general chemistry, 01 natural sciences, Polyethylene Glycols, medicine, Copolymer, Tumor Cells, Cultured, Humans, General Materials Science, Polyglactin 910, Ovarian Neoplasms, technology, industry, and agriculture, Hydrogels, General Chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, medicine.disease, In vitro, 0104 chemical sciences, medicine.anatomical_structure, Cell culture, Self-healing hydrogels, Ovarian cancer cells, Biophysics, Female, 0210 nano-technology, Ovarian cancer
Abstract

Thermo-sensitive hydrogels which could encapsulate cells and provide a three dimensional (3D) microenvironment have great potential in building new cell culture models in vitro. In this study, a thermal responsive hydrogel based on PLGA-PEG-PLGA tri-block copolymers was developed as matrix for 3D ovarian cancer cell culturing. The gelation of PLGA-PEG-PLGA tri-block copolymer was concentration-dependent. SEM images showed the pores were suitable for the formation of 3D cell structures. Cell morphological results showed that large aggregates of ovarian cancer cells (HO8910) were formed after cultured for 10 days. Therefore, hydrogel based on PLGA-PEG-PLGA tri-block copolymers hold potential as in vitro cell culture matrix for ovarian cancer cells.

Published
2018

16. Distribution of endocrine cells in the digestive tract of Alligator sinensis during the active and hibernating period

Author

Chaolin Wang, Shengzhou Zhang, Huan Wang, Xiao-Bing Wu, and Naizhen Zhou

Subjects
Alligators and Crocodiles, medicine.medical_specialty, Enteroendocrine Cells, Stomach, digestive, oral, and skin physiology, Vasoactive intestinal peptide, Enteroendocrine cell, Cell Biology, General Medicine, Biology, Immunohistochemistry, Small intestine, Jejunum, medicine.anatomical_structure, Endocrinology, Hibernation, Internal medicine, Duodenum, medicine, Animals, Endocrine system, Developmental Biology, Gastrin
Abstract

The digestive tract is the largest endocrine organ in the body; the distribution pattern of endocrine cells varies with different pathological and physiological states. The aim of the present study was to investigate the distributed density of 5-hydroxytryptamine (5-HT), gastrin (GAS), somatostatin (SS) and vasoactive intestinal peptide (VIP) immunoreactive (IR) cells in the digestive tract of Alligator sinensis during the active and hibernating period by immunohistochemical (IHC) method. The results indicated that 5-HT-IR cells were distributed throughout the entire digestive tract, which were most predominant in duodenum and jejunum. The density increased significantly in stomach and duodenum during hibernation. GAS-IR cells were limited in small stomach and small intestine. The density decreased significantly in small stomach during hibernation, while increased in duodenum. What's more, most of the endocrine cells in duodenum were generally spindle shaped with long cytoplasmic processes ending in the lumen during hibernation. SS-IR cells were limited in stomach and small stomach. The density increased in stomach while decreased in small stomach during hibernation, meanwhile, fewer IR cells occurred in small intestine. VIP-IR cells occurred in stomach and small stomach. The density decreased in small stomach, while increased in stomach during hibernation. These results indicated that the endocrine cells in different parts of digestive tract varied differently during hibernation, their changes were adaptive response to the hibernation.

Published
2014

19. The aeroelastic effects on the scatter phenomenon of wind-tunnel data

Author

NaiZhen Zhou, Ye Zhengyin, JiZhou He, BaoFang Song, and YueWen Jiang

Subjects
Airfoil, Engineering, Wing, business.industry, General Engineering, Stall (fluid mechanics), Structural engineering, Aerodynamics, Aeroelasticity, Aerodynamic force, Swept wing, General Materials Science, business, Wind tunnel
Abstract

The unsteady Reynolds-averaged Navier-Stokes equations coupled with the k-ω SST turbulence model are solved to obtain the steady and unsteady aerodynamic forces for airfoils and wings. The effects of vibration types and amplitudes on aerodynamic forces of airfoils and wings are studied. The deformation characteristics of a swept wing induced by steady aerodynamic load are presented. It is found that for a vibrating elastic wing at small and medium incidences, its mean aerodynamic loads are almost the same as those obtained from the static one. On the contrary, at high incidences especially around the stall incidence, the vibration may change the mean values. In addition, the larger amplitude is, the larger discrepancy will be. For a swept wing, the steady aerodynamic loads usually lead to the “pitching down” effect on the wing tip which delays the stall compared with a rigid one; But this phenomenon dose not occur on a aeroelastic wing which can induce the separation ahead and trigger the stall. The above conclusions are in good agreement with the scatter characteristics of wind-tunnel data. The reason why the data obtained from wind tunnel and CFD are different is also analyzed. Meanwhile, it can be an explanation for scatter phenomenon of wind-tunnel data, especially for high incidence cases, which remains a puzzle so far.

Published
2012

20. Shape-controlled fabrication of magnetite silver hybrid nanoparticles with high performance magnetic hyperthermia

Author

Jianfei Sun, Zhihai Huang, Fang Yang, Dongfang Liu, Xingyun Pang, Naizhen Zhou, Jun Xie, Ning Gu, Dawei Guo, Qi Ding, and Renchao Che

Subjects
Hyperthermia, Materials science, Silver, Biocompatibility, Drug Compounding, Magnetic Field Therapy, Biophysics, Nanoparticle, Mice, Nude, Bioengineering, Nanotechnology, 02 engineering and technology, Nanoconjugates, 010402 general chemistry, 01 natural sciences, Biomaterials, Cell Line, Tumor, medicine, Animals, Humans, Particle Size, Magnetite Nanoparticles, Nanocomposite, Hyperthermia, Induced, Neoplasms, Experimental, 021001 nanoscience & nanotechnology, medicine.disease, 0104 chemical sciences, Mice, Inbred C57BL, Magnetic hyperthermia, Treatment Outcome, Mechanics of Materials, Ceramics and Composites, Magnetic nanoparticles, Female, 0210 nano-technology, Crystallization, Superparamagnetism
Abstract

Superparamagnetic Fe3O4 nanoparticles (NPs)-based hyperthermia is a promising non-invasive approach for cancer therapy. However, the heat transfer efficiency of Fe3O4 NPs is relative low, which hinders their practical clinical applications. Therefore, it is promising to improve the magnetic hyperthermia efficiency by exploring the higher performance magnetic NPs-based hybrid nanostructures. In the current study, it presents a straightforward in situ reduction method for the shape-controlled preparation of magnetite (Fe3O4) silver (Ag) hybrid NPs designed as magnetic hyperthermia heat mediators. The magnetite silver hybrid NPs with core-shell (Fe3O4@Ag) or heteromer (Fe3O4-Ag) structures exhibited a higher biocompatibility with SMMC-7721 cells and L02 cells than the individual Ag NPs. Importantly, in the magnetic hyperthermia, with the exposure to alternating current magnetic field, the Fe3O4@Ag and Fe3O4-Ag hybrid NPs indicated much better tumor suppression effect against SMMC-7721 cells than the individual Fe3O4 NPs in vitro and in vivo. These results demonstrate that the hybridisation of Fe3O4 and Ag NPs could greatly enhance the magnetic hyperthermia efficiency of Fe3O4 NPs. Therefore, the Fe3O4@Ag and Fe3O4-Ag hybrid NPs can be used to be as high performance magnetic hyperthermia mediators based on a simple and effective preparation approach.

Published
2016

23. Identification and localization of gastrointestinal hormones in the skin of the bullfrog Rana catesbeiana during periods of activity and hibernation

Author

Shengzhou Zhang, Yuan-Yuan Wu, Huan Wang, Naizhen Zhou, Rui Zhang, and Ruidong Zhang

Subjects
Hibernation, medicine.medical_specialty, Histology, Rana catesbeiana, integumentary system, Epidermis (botany), Cell Biology, General Medicine, Biology, Neuropeptide Y receptor, Immunohistochemistry, Rana, Gastrointestinal Hormones, Somatostatin, Endocrinology, Bullfrog, Internal medicine, medicine, Pancreatic polypeptide, Animals, hormones, hormone substitutes, and hormone antagonists, Gastrin, Skin
Abstract

Amphibian skin and its secretions contain a wide variety of biogenic amines and biologically active peptides, some of which are either identical or highly homologous to gastrointestinal hormones (GHs) of higher vertebrates. This study investigated the distribution density and immunoreactive (IR) intensity of 5-hydroxytryptamine (5-HT), gastrin (GAS), somatostatin (SS), pancreatic polypeptide (PP), neuropeptide Y (NPY) and glucagon (GLU) IR cells in the skin of the bullfrog Rana catesbeiana during periods of activity and hibernation. The results indicated that the six types of GHs were all present in the bullfrog skin and were most predominant in the epidermis and mucous glands. In dorsal skin, the density of the GHs-IR cells in mucous glands was higher than that in epidermis except for GAS-IR cells. In ventral skin, the density of 5-HT, PP and NPY-IR cells in mucous glands was also higher than that in the epidermis. During hibernation, the density of the six types of GHs-IR cells and the IR intensity of GAS, SS, NPY and GLU-IR cells in the epidermis of dorsal skin increased significantly. The IR intensity of SS, PP and NPY-IR cells in granular glands of ventral skin also increased significantly during hibernation. These results suggested that multiple types of GHs-IR cells present in the skin of R. catesbeiana, may play important roles in the regulation of the physiological functions of skin. Also, adaptive changes in the density and IR intensity of GHs-IR cells occurred during hibernation.

Published
2014

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