Honeycomb-like porous chitosan films prepared via phase transition of poly(N-isopropylacrylamide) during water evaporation under ambient conditions.

Honeycomb-like porous chitosan (CS) films are attractive tools for developing functional materials for filters, catalyses, adsorbents, biomaterials, etc. A simple method for fabricating honeycomb-like porous CS films without special reagents, facilities, and techniques would make them accessible. Here we introduce an easily available method for fabricating honeycomb-like CS films without a strong acid/base, toxic reagents, or special facilities/techniques. An aqueous solution containing CS and poly(N-isopropylacrylamide) (PNIPAm) was allowed to stand at 25 °C to evaporate water. After 3 days, CS-PNIPAm composite films with homogenously phase-separated PNIPAm particles were obtained. The PNIPAm particles were removed by immersion in methanol, and the resulting films dried under reduced pressure to become honeycomb-like porous CS films. The pore size could be varied in the range of 0.5-3.0 µm by altering the CS concentration and the molecular weight of CS where the pore size was reduced under conditions with stronger interaction between CS molecules. We reveal that the key to success with this system is the decrease of lower critical solution temperature (LCST) of PNIPAm with water evaporation. In addition, we confirmed the removed PNIPAm was recyclable in this system. Furthermore, we found this method was also applicable to alginate. The proposed facile method for fabricating honeycomb-like porous polymeric films could provide various functional porous materials.

Facile preparation of surface N-halamine chitin nanofiber to endow antibacterial and antifungal activities.

N-halamine chitin nanofiber (NF) film was prepared by the reaction of chitin NF film with sodium hypochlorite solution to endow the film with antibacterial and antifungal activities. The amount of active chlorine content loaded on the chitin NF film depended on the sodium hypochlorite concentration and reaction time. FT-IR, UV-vis, XRD, and TG analyses showed that the N-H bond was substituted to the N-Cl bond and that the reaction took place at the chitin NF surface. After chlorination, the characteristic nanochitin morphology was maintained. Although the active chlorine content of the film gradually decreased by disassociation of the N-Cl bond, chlorine was rechargeable into chitin NF by another sodium hypochlorite solution treatment. The chlorinated chitin NF film showed strong efficacies against Gram-negative and -positive bacteria of Escherichia coli and Staphylococcus aureus, respectively. Moreover, the films showed 100% and 80% inhibition of spore germination when faced against Alternaria alternata and Penicillium digitatum fungi, respectively.

Thermoresponsive chitosan/N-isopropylacrylamide copolymer through atom transfer radical polymerization.

Regioseletive copolymerization of N-isopropylacrylamide (NIPAM) onto chitosan was achieved by atom transfer radical polymerization (ATRP) by using a regioselective 3,6-di-O-bromoisobutyryl-2-N-phthaloyl chitosan as a macroinitiator. The degree of polymerization (DP) of polyNIPAM onto the chitosan derivative changed by varying the ratio between NIPAM monomer, macroinitiator, ligand, and transition metal. ATRP successfully proceeded and a DP of polyNIPAM up to 110.5 was obtained. The thermal decomposition temperature of the 3,6-di-O-bromoisobutyryl-2-N-phthaloyl chitosan was significantly improved by increasing the DP of the NIPAM component. The polyNIPAM-g-chitosan derivative showed a thermoresponsive property. Although it formed a stable suspension in water at room temperature, it caused a hydrophilic-to-hydrophobic transition at around 32°C, resulting in precipitate formation.

Characterization of chitosan-carboxymethyl dextran nanoparticles as a drug carrier and as a stimulator of mouse splenocytes.

The in vitro drug-release behavior of chitosan-carboxymethyl dextran nanoparticles (CDNP) containing cefmetazole, 5-fluorouracil (5-FU) or indocyanine green (ICG), and the in vitro effect of CDNP on mouse B16 melanoma cell proliferation and in vivo modulation effect of CDNP on serum cytokines and spleen lymphocytes in mice were evaluated in this study. Drug-loaded CDNP were prepared by embedding (for cefmetazole or 5-FU) and absorption (for ICG), and the particle size was increased with increased drug association efficiency (AE) and decreased surface amino group content. Prolonged release of cefmetazole (540 min) or 5-FU (360 min) from CDNP was observed when compared to that of nanoparticle-free cefmetazole (210 min) or 5-FU (50 min), and the release of cefmetazole or 5-FU from CDNP98 (CDNP made with 98% degree of deacetylation (DD) chitosan) was slower than from CDNP78 (CDNP made with 78% DD chitosan). High AE (72.0-98.6%), undetectable surface amino group content and dramatically increased particle size (1076.9-1506.0 nm) of ICG-loaded CDNP with undetectable release of ICG within 48 h revealed the good affinity between ICG and CDNP. Twenty-five to 100 µg/ml of CDNP elicited dose-dependent inhibitory effects on B16 tumor cell proliferation, and CDNP98 was more effective than CDNP78. CDNP78 regulated serum IL-17 level in up-regulating IL-4, IL-6, IL-10, IL-23 and TGF-ß within 3 h; on the other hand, CDNP98 significantly down-regulated TGF-ß and had no induction effect on IL-23 within 24 h. In addition, reduced IL-17 was observed in CDNP at 24 h. CDNP98 was more effective than CDNP78 in stimulating mouse splenic T CD4(+), TCD8(+) and NK cell proliferation within 24 h, while CDNP78 was superior to CDNP98 in stimulating B CD19(+) cells. The ability of CDNP to be the drug carrier and to enhance both humoral and cell-mediated immune response in this study demonstrated its promising potential to be applied as biomedical material.

Palladium adsorbing properties of UV-curable chitosan derivatives and surface analysis of chitosan-containing paint.

The results of X-ray photoelectron spectroscopy (XPS) analyses indicated that palladium chloride was adsorbed on a plastic surface coated with a chitosan-containing paint (C-Paint), and was completely reduced to Pd(0) after reduction with dimethylamine-borane. To improve the stability and hardening properties of C-Paint, UV-curable chitosan derivatives, such as N-[3-methoxy-4-(2-hydroxy-3-methacryloyloxypropoxy)phenyl]methylated chitosan and N-(3-methoxy-4-methacryloyloxyphenyl)methylated chitosan, were synthesized. The derivatives showed better affinity for organic solvents. After UV irradiation for 20s, an acidic solution of these derivatives was transformed to a gel, and the dried films exhibited good palladium(II) adsorption at pH 1.1.

Biological activities of carbohydrate-branched chitosan derivatives.

Two types of biological activities of the carbohydrate-branched chitosan derivatives were investigated. One is the specific interaction with lectins and bacterium. The other is activation of canine polymorphonuclear leukocyte (PMN) cells. The specific bindings of the L-fucose-branched chitosan derivative with Ulex europaeus agglutinin I (UEA-I) and the N-acetyl-D-glucosamine-branched chitosan derivative with Concanavalin A (Con A) were confirmed by a surface plasmon resonance technique. The specific aggregation of the fluorescence-labeled L-fucose-branched chitosan derivative with Pseudomonas aeruginosa was observed by fluorescent microscopic observation. The aggregation would be attributed to the specific binding between the L-fucose-branched chitosan derivative and PA-II receptor on the cell surface of P. aeruginosa. The influence of the chitosan derivatives on the active oxygen species generation from canine PMN cells was also investigated by the luminol-aided chemiluminescence method. The chemiluminescence responses depended on the degree of substitution and water solubility of the chitosan derivatives. The water-insoluble chitosan derivatives would stimulate the PMN cells by a phagocytosis mechanism, and the water-soluble ones would sensitize the PMN cells by a priming mechanism.

Evaluation of different absorbance ratios from infrared spectroscopy for analyzing the degree of deacetylation in chitin.

Various acetylated chitosan derivatives and mixtures of chitin and chitosan, covering the range of the degree of deacetylation (DDA) from 0-100% were analyzed by 1H-NMR spectroscopy and infrared spectroscopy. The use of the 1070 cm-1 or 1030 cm-1 absorption band as an internal standard in the determination of DDA from the absorbance of the amide I bands at 1655 cm-1 and 1630 cm-1 or the amide II band at 1560 cm-1 was studied. There is a good correlation between the results from IR spectroscopy and those from 1H-NMR spectroscopy.

Partially deacetylated chitin and hyaluronan induce glycogenolysis in perfused rat liver.

Mannan interacts with mannose/N-acetylglucosamine (GlcNAc) receptors on the surface of both Kupffer cells and endothelial cells in the liver, and induces glycogenolysis through production of peptide-leukotriene (LT) in the perfused rat liver. In the present study, we examined whether positively and negatively charged GlcNAc-containing polysaccharides stimulate glycogenolysis in perfused rat liver. Infusion of the former, 67% deacetylated chitin (DAC), induced biphasic increases in glucose production and a steep decrease in oxygen consumption by the liver. ONO-1078, an LT D4 receptor antagonist, abolished the suppression of oxygen consumption and reduced the glucose production by DAC. Infusion of the latter, hyaluronan, stimulated glucose production with a concomitant increase in oxygen consumption. Ibuprofen, a cyclooxygenase inhibitor, reduced the glucose production by hyaluronan. Sequential infusions of mannan and DAC, but not hyaluronan, did not induce glycogenolytic responses when mannan was infused 20 min before the second stimulation. These results suggest that DAC, but not hyaluronan, stimulates mannose/GlcNAc receptors in the perfused rat liver, and that potent immunological activity induced by DAC may be mediated by activation of the receptors.

Polymeric N-acetyl-D-glucosamine (chitin) induces prostaglandin E2 in dogs.

The level of prostaglandin E2 (PGE2) in the exudate induced by subcutaneous implantation of a complex formed from non-woven fabric of polyester (NWF) and polymeric N-acetyl-D-glucosamine (chitin) (chitin/NWF) or by implantation of NWF in dogs was measured by radioimmunoassay. The amount of PGE2 in the exudate induced by chitin/NWF was about five times as high as that in the exudate induced by NWF (p < 0.05), while the level of PGE2 in the exudate was similar to that in serum.

Synthetic calicheamicin mimics with novel initiation mechanisms: DNA cleavage, cytotoxicity, and apoptosis.

BACKGROUND: Calicheamicin gamma 1I is a bacterial product that is a prominent member of the enediyne class of antitumor antibiotics, and has been extensively studied. Calicheamicin gamma 1I binds to DNA, causing double-stranded breaks, and cells exposed to it eventually become apoptotic. It can now be made synthetically, and highly potent biological mimics have been designed. Such molecules have many potential clinical applications, but are complex to make. We therefore investigated whether simplified versions of these molecules are biologically active. RESULTS: We designed and synthesized a number of simple calicheamicin mimics and evaluated their biological activity. We also constructed mimics that are particularly suitable for conjugation to proteins, oligonucleotides, and other delivery systems. Several active mimics were found, and two in particular, which lack the trisulfide and oligosaccharide moieties of calicheamicin, had potent DNA-cleaving and cytotoxic activities. They caused chiefly single-stranded cuts in DNA, however, unlike the natural molecule, which causes double-stranded DNA cuts. Although they were able to induce apoptosis, they were less potent than the natural compound in this assay. CONCLUSIONS: The simple enediyne mimics were less potent than calicheamicin gamma 1I, presumably because they lack the oligosaccharide DNA-binding domain. Nevertheless, considering their relatively primitive structures, they have remarkable biological properties. They may be useful biological tools and are potential leads for the development of chemotherapeutic agents. We propose that the ability of the enediynes to induce apoptosis is related to their ability to make double-stranded cuts in DNA.

Enzymatic degradation of chitins and partially deacetylated chitins.

The enzymatic (lysozyme, chitinase etc.) digestibility of chitins obtained from squid pen and shrimp shell, and of partially deacetylated chitins (DA-chitins) was investigated. The digestibility of various chitins by the chitinase from Bacillus sp. PI-7S was much higher than that by lysozyme, and beta-chitin was digested more smoothly than alpha-chitin. DA-chitin deacetylated under homogeneous conditions (DAC) was hydrolysed by lysozyme more rapidly than that deacetylated under heterogeneous conditions (DAC). DACs from shrimp shell and squid pen showed the same degree of digestibility by lysozyme in spite of a difference in the crystal structure of the original chitins. The crystal structure of chitin and the degree of N-acetyl group aggregation among DA-chitin molecules affect the enzymatic digestibility of chitin and DA-chitin, respectively.

Application of polymeric N-acetyl-D-glucosamine (chitin) to veterinary practice.

The sponge-, cotton-, and flake-type remedies made of chitin (chitin-sponge, chitin-cotton, and chitin-flake, respectively), and non-woven fabric of polyester (NWF) composited with chitin (chitin-NWF) were applied to various types of trauma, abscess, surgical tissue defect and herniorrhaphy in 147 clinical cases including 72 dogs, 38 cows, 33 cats, 2 rabbits, one monkey and one horse. Chitin-sponge was applied in 30 cases as filling agent of surgical tissue defect, and in 25 cases of trauma, 31 cases of abscess as wound dressing or tissue defect filling agent. In 77 out of 86 cases (89.5%), good healing developed. When chitin-sponge was buried in surgical tissue defects due to oncotomy in 20 cases, recurrence of the tumor developed in one case on one month post-operatively, but was not recognized for 3-24 months in 19 cases. Chitin-NWF was applied in 2 cases of trauma and 12 cases of abscess as wound dressing or tissue defect filling agent, 6 cases as filling agent of surgical tissue defect, and 12 cases of umbilical hernia as prosthesis of suture site of hernia ring. In 28 out of 32 cases (87.5%), good healing developed. Chitin-cotton was applied in 8 cases of trauma and 12 cases of abscess as wound dressing or tissue defect filling agent. In 18 out of 20 cases (90.0%), good healing developed. Chitin-flake was applied in 9 cases of trauma as wound dressing or tissue defect filling agent. In 8 out of 9 cases (88.9%), good healing developed. In all cases, no side effects were observed.

Polymeric N-acetyl-D-glucosamine (chitin) induces histionic activation in dogs.

Analyses on the effects of polymeric N-acetyl-D-glucosamine (chitin), which was obtained from squid pen, on histiogenic activation in dogs were carried out with subcutaneous implants (5 x 5 cm2) of polyester non-woven fabric (NWF) supplemented with chitin (chitin group) and NWF (control group). These materials were implanted at 4 sites, on the lumbodorsal and lumbosacral subcutaneous tissues on both sides of the midline in each dog under general anesthesia. The implants and their surrounding tissues were isolated on post-implantation days (PIDs) 2, 4, 8, and 18 under general anesthesia. In the chitin group, the implant was organized gradually and its organization was completed on PID 18, when obvious angiogenesis toward the NWF was observed. On the other hand, in the control group, obvious angiogenesis toward the NWF was not observed macroscopically. Numbers of mononuclear (MN) and polymorphonuclear (PMN) cells concentrated around the implants on PID 2 were larger in the chitin than control group. In the chitin group, formation of granulating tissue around the implant was indicated on PID 4, whereas such a phenomenon was not observed in the control group. From these results, chitin accelerates the migration of MN and PMN cells to the NWF site with rapid follow-up organization of the NWF accompanied by angiogenesis.

N-Acetyl group distribution in partially deacetylated chitins prepared under homogeneous conditions.

The distribution of N-acetyl group in partially deacetylated chitin (DA-chitin) was investigated by nitrous acid deamination. Most deamination products of various DA-chitins (over 50% of deacetylation), prepared under homogeneous conditions, were oligomers of less than six units. These results would suggest a random distribution of N-acetyl groups in the DA-chitin molecule.

Lysozyme susceptibility of partially deacetylated chitin.

Lysozyme susceptibility of partially deacetylated chitins (DACs) was investigated by viscometric and gel permeation chromatographic procedures. The highest lysozyme susceptibility was shown by the DAC of around 70% deacetylation which have already been reported to have the highest immunoadjuvant activity through mouse peritoneal macrophage activation.

Properties and roles of bacterial symbionts of polyvinyl alcohol-utilizing mixed cultures.

From several polyvinyl alcohol (PVA)-utilizing mixed cultures, two component bacterial strains essential for PVA utilization were isolated, and their properties and roles in PVA utilization were studied. Each pair of essential component strains consisted of a type I strain, which produced a PVA-degrading enzyme and constituted the predominant population of the mixed culture in PVA, and a type II strain, which produced a certain growth stimulant for the former strain. All of the type I strains were taxonomically identical and assigned as Pseudomonas sp. In contrast, type II strains were taxonomically different from each other, belonging to Pseudomonas spp. and Alcaligenes sp. PVA utilization occurred in each mixed culture of a type I strain with Pseudomonas putida VM15A as a substitute for the type II strain of the original pair and also in each mixed culture of a type II strain with Pseudomonas sp. VM15C. The growth rates of these substituted, mixed cultures differed from each other.