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1.
Mar Pollut Bull ; 202: 116353, 2024 May.
Article in English | MEDLINE | ID: mdl-38598929

ABSTRACT

Galaxolide (HHCB) and tonalide (AHTN) are dominant musks added to personal care products. However, the accumulate and trophic transfer of SMs through the marine food chain are unclear. In this study, organisms were collected from three bays in Bohai Sea to investigate the bioaccumulation, trophic transfer, and health risk of SMs. The HHCB and AHTN concentrations in the muscles range from 2.75 to 365.40 µg/g lw and 1.04-4.94 µg/g lw, respectively. The median HHCB concentrations in muscles were the highest in Bohai Bay, followed by Laizhou Bay and Liaodong Bay, consistent with the HHCB concentrations in sediments. The different fish tissues from Bohai Bay were analyzed, and the HHCB and AHTN concentrations followed the heart > liver > gill > muscles. The trophic magnification factors (TMF) were lower than 1 and the health risk assessment showed no adverse health effects. The results provide insights into the bioaccumulation and trophic transfer behavior of SMs in marine environments.


Subject(s)
Environmental Monitoring , Fishes , Food Chain , Water Pollutants, Chemical , Risk Assessment , Water Pollutants, Chemical/analysis , Water Pollutants, Chemical/metabolism , Animals , Fishes/metabolism , China , Bioaccumulation , Benzopyrans , Fatty Acids, Monounsaturated/analysis , Fatty Acids, Monounsaturated/metabolism , Tetrahydronaphthalenes/analysis , Bays
2.
Plant Physiol Biochem ; 198: 107699, 2023 May.
Article in English | MEDLINE | ID: mdl-37054615

ABSTRACT

The toxicity of HHCB in the growth and development of plants is well known, but its uptake, subcellular distribution, and stereoselectivity, especially in a co-contamination environment, is not fully understood. Therefore, a pot experiment was performed to research the physiochemical response, and the fate of HHCB in pakchoi when the Cd co-existed in soil. The Chl contents were significantly lower, and the oxidative stress was aggravated under the co-exposure of HHCB and Cd. The accumulations of HHCB in roots were inhibited, and those in leaves were elevated. The transfer factors of HHCB in HHCB-Cd treatment increased. The subcellular distributions were analyzed in the cell walls, cell organelles, and cell soluble constituents of roots and leaves. In roots, the distribution proportion of HHCB followed cell organelle > cell wall > cell soluble constituent. In leaves, the distribution proportion of HHCB was different from that in roots. And the co-existing Cd made the distribution proportion of HHCB change. In the absence of Cd, the (4R,7S)-HHCB and (4R,7R)-HHCB were preferentially enriched in roots and leaves, and the stereoselectivity of chiral HHCB was more significant in roots than leaves. The co-existing Cd reduced the stereoselectivity of HHCB in plants. Our findings suggested that the fate of HHCB was affected by the co-existing Cd, so the risk of HHCB in the complicated environment should be paid more attention.


Subject(s)
Soil Pollutants , Soil Pollutants/toxicity , Soil Pollutants/analysis , Cadmium/pharmacology , Soil/chemistry , Seedlings , Oxidative Stress , Plant Roots , Plant Leaves
3.
Signal Transduct Target Ther ; 8(1): 22, 2023 01 20.
Article in English | MEDLINE | ID: mdl-36658134

ABSTRACT

Macrophages in tumors (tumor-associated macrophages, TAMs), a major population within most tumors, play key homeostatic functions by stimulating angiogenesis, enhancing tumor cell growth, and suppressing antitumor immunity. Resetting TAMs by simple, efficacious and safe approach(s) is highly desirable to enhance antitumor immunity and attenuate tumor cell malignancy. Previously, we used tumor cell-derived microparticles to package chemotherapeutic drugs (drug-MPs), which resulted in a significant treatment outcome in human malignant pleural effusions via neutrophil recruitments, implicating that drug-MPs might reset TAMs, considering the inhibitory effects of M2 macrophages on neutrophil recruitment and activation. Here, we show that drug-MPs can function as an antitumor immunomodulator by resetting TAMs with M1 phenotype and IFN-ß release. Mechanistically, drug molecules in tumor MPs activate macrophage lysosomal P450 monooxygenases, resulting in superoxide anion formation, which further amplifies lysosomal ROS production and pH value by activating lysosomal NOX2. Consequently, lysosomal Ca2+ signaling is activated, thus polarizing macrophages towards M1. Meanwhile, the drug molecules are delivered from lysosomes into the nucleus where they activate DNA sensor hnRNPA2B1 for IFN-ß production. This lysosomal-nuclear machinery fully arouses the antitumor activity of macrophages by targeting both lysosomal pH and the nuclear innate immunity. These findings highlight that drug-MPs can act as a new immunotherapeutic approach by revitalizing antitumor activity of macrophages. This mechanistic elucidation can be translated to treat malignant ascites by drug-MPs combined with PD-1 blockade.


Subject(s)
Antineoplastic Agents , Cell-Derived Microparticles , Heterogeneous-Nuclear Ribonucleoprotein Group A-B , Macrophages , Humans , Antineoplastic Agents/pharmacology , Cell Line, Tumor , Lysosomes , Heterogeneous-Nuclear Ribonucleoprotein Group A-B/metabolism
4.
Environ Sci Technol ; 56(23): 17166-17176, 2022 12 06.
Article in English | MEDLINE | ID: mdl-36286344

ABSTRACT

To advance the understanding of antibiotic resistance propagation from wastewater treatment plants, it is important to elucidate how different effluent disinfection processes affect the dissemination of predominantly extracellular antibiotic resistance genes (eARGs). Here, we show that, by facilitating proximal adsorption to recipient cells, bacterial debris generated by chlorination (but not by UV irradiation) increases the natural transformation frequency of their adsorbed eARG by 2.9 to 7.2-fold relative to free eARGs. This is because chlorination increases the bacterial surface roughness by 1.1 to 6.7-fold and the affinity toward eARGs by 1.6 to 5.8-fold, and 98% of the total eARGs released after chlorination were adsorbed to cell debris. In contrast, UV irradiation released predominantly free eARGs with 18% to 56% lower transformation frequency. The collision theory indicates that the ARG donor-recipient collision frequency increased by 35.1-fold for eARGs adsorbed onto chlorination-generated bacterial debris, and the xDLVO model infers a 29% lower donor-recipient contact energy barrier for these ARGs. Exposure to chlorination-generated bacterial debris also upregulated genes associated with natural transformation in Vibrio vulnificus (e.g., tfoX encoding the major activator of natural transformation) by 2.6 to 5.2-fold, likely due to the generation of chlorinated molecules (5.1-fold higher Cl content after chlorination) and persistent reactive species (e.g., carbon-centered radicals) on bacterial debris. Increased proximal eARG adsorption to bacterial debris was also observed in the secondary effluent after chlorination; this decreased eARG decay by 64% and increased the relative abundance of ARGs by 7.2-fold. Overall, this study highlights that different disinfection approaches can result in different physical states of eARGs that affect their resulting dissemination potential via transformation.


Subject(s)
Disinfection , Halogenation , Adsorption , Wastewater/microbiology , Drug Resistance, Microbial/genetics , Genes, Bacterial , Bacteria/genetics , Anti-Bacterial Agents/pharmacology
5.
Water Res ; 211: 118068, 2022 Mar 01.
Article in English | MEDLINE | ID: mdl-35066257

ABSTRACT

In this article, we show that enzymatic hydrolysis of a biodegradable polyester (poly(ε-caprolactone)) by Amano Lipase PS in an aqueous (buffer) environment yielded rapidly an excessive number of microplastic particles; merely 0.1 g of poly(ε-caprolactone) film was demonstrated to yield millions of particles. There were also indications of non-enzymatic hydrolysis at the same conditions, but this did not yield any particles within the time frame of the experiment (up to 6 days). Microplastic particles formed had irregular shapes with an average size of around 10 µm, with only a few reaching 60 µm. The formation of microplastic particles resulted from the uneven hydrolysis/erosion rate across the polymer film surface, which led to a rough and undulating surface with ridge, branch, and rod-shaped micro-protruding structures. The consequent detachment and fragmentation of these micro-sized protruding structures resulted in the release of microplastics to the surroundings. Together with microplastics, hydrolysis products such as acidic monomers and oligomers were also released during the enzymatic hydrolysis process, causing a pH decrease in the surrounding liquid. The results suggest that the risk of microplastic pollution from biodegradable plastics is notable despite their biodegradation. Special attention needs to be paid when using and disposing of biodegradable plastics, considering the enormous impact of the paradigm shift towards more biodegradable products on the environment.


Subject(s)
Microplastics , Water Pollutants, Chemical , Biodegradation, Environmental , Hydrolysis , Plastics , Polymers , Water Pollutants, Chemical/analysis
6.
Adv Mater ; 33(36): e2101519, 2021 Sep.
Article in English | MEDLINE | ID: mdl-34313346

ABSTRACT

Cellulose nanocrystals (CNCs) possess the ability to form helical periodic structures that generate structural colors. Due to the helicity, such self-assembled cellulose structures preferentially reflect left-handed circularly polarized light of certain colors, while they remain transparent to right-handed circularly polarized light. This study shows that combination with a liquid crystal enables modulation of the optical response to obtain light reflection of both handedness but with reversed spectral profiles. As a result, the nanophotonic systems provide vibrant structural colors that are tunable via the incident light polarization. The results are attributed to the liquid crystal aligning on the CNC/glucose film, to form a birefringent layer that twists the incident light polarization before interaction with the chiral cellulose nanocomposite. Using a photoresponsive liquid crystal, this effect can further be turned off by exposure to UV light, which switches the nematic liquid crystal into a nonbirefringent isotropic phase. The study highlights the potential of hybrid cellulose systems to create self-assembled yet advanced photoresponsive and polarization-tunable nanophotonics.

7.
Environ Sci Technol ; 55(15): 10462-10470, 2021 08 03.
Article in English | MEDLINE | ID: mdl-34114802

ABSTRACT

Applications of animal manure and treated wastewater could enrich antibiotic-resistant bacteria (ARB) and antibiotic resistance genes (ARGs) in the plant microbiome. However, the mechanistic studies of the transmission of ARB and ARGs from the environment to plant endophytic bacteria were few. Herein, a genetically engineered fluorescent Escherichia coli harboring a conjugative RP4 plasmid that carries three ARGs was used to trace its spread into Arabidopsis thaliana interior in a tetracycline-amended hydroponic system in the absence or presence of a simulated soil bacterial community. Confocal microscope observation demonstrated that E. coli was internalized into plant tissues and the carried RP4 plasmid was transferred into plant endophytic bacteria. More importantly, we observed that soil bacteria inhibited the internalization of E. coli but substantially promoted RP4 plasmid spread into the plant microbiome. The altered RP4-carrying bacterial community composition in the plant microbiome and the increased core-shared RP4-carrying bacteria number between plant interior and exterior in the presence of soil bacteria collectively confirmed that soil bacteria, especially Proteobacteria, might capture RP4 from E. coli and then translocate into plant microbiome, resulting in the increased RP4 plasmid spread in the plant endophytes. Overall, our findings provided important insights into the dissemination of ARB and ARGs from the environment to the plant microbiome.


Subject(s)
Escherichia coli , Soil , Angiotensin Receptor Antagonists , Angiotensin-Converting Enzyme Inhibitors , Animals , Anti-Bacterial Agents/pharmacology , Bacteria/genetics , Drug Resistance, Microbial , Escherichia coli/genetics , Genes, Bacterial , Plasmids/genetics
8.
Environ Sci Technol ; 54(13): 8061-8071, 2020 07 07.
Article in English | MEDLINE | ID: mdl-32511902

ABSTRACT

Growing evidence has suggested that microbial biofilms are potential environmental "hotspots" for the production and accumulation of a bioaccumulative neurotoxin, methylmercury. Here, we demonstrate that extracellular polymeric substances (EPS), the main components of biofilm matrices, significantly interfere with mercury sulfide precipitation and lead to the formation of nanoparticulate metacinnabar available for microbial methylation, a natural process predominantly responsible for the environmental occurrence of methylmercury. EPS derived from mercury methylating bacteria, particularly Desulfovibrio desulfuricans ND132, substantially increase the methylation potential of nanoparticulate mercury. This is likely due to the abundant aromatic biomolecules in EPS that strongly interact with mercury sulfide via inner-sphere complexation and consequently enhance the short-range structural disorder while mitigating the aggregation of nanoparticulate mercury. The EPS-elevated bioavailability of nanoparticulate mercury to D. desulfuricans ND132 is not induced by dissolution of these nanoparticles in aqueous phase, and may be dictated by cell-nanoparticle interfacial reactions. Our discovery is the first step of mechanistically understanding methylmercury production in biofilms. These new mechanistic insights will help incorporate microbial EPS and particulate-phase mercury into mercury methylation models, and may facilitate the assessment of biogeochemical cycling of other nutrient or toxic elements driven by EPS-producing microorganisms that are prevalent in nature.


Subject(s)
Mercury , Methylmercury Compounds , Nanoparticles , Extracellular Polymeric Substance Matrix , Methylation , Sulfides
9.
J Hazard Mater ; 383: 121129, 2020 02 05.
Article in English | MEDLINE | ID: mdl-31546217

ABSTRACT

Antibiotics ingested in the human gut may create selective pressure to change the composition of the gut microbiota, which could adversely effect the immune system of the host. However, the occurrence and distribution of antibiotics in the human gut remains unclear. A total population of 180 individuals, across three Chinses regions with different economic development levels, including children, adults, and elders, were sampled in 2017. A total of 19 representative antibiotics, including both clinical and veterinary antibiotics, were investigated in human faeces. While clinical use and prescriptions were the main exposure pathways for children, environmental media were the exposure pathway to adults. In addition, significant differences (P < 0.05) in antibiotic residues in human faeces were observed amongst various economic development levels, where human faeces from underdeveloped areas were mostly associated with higher levels of antibiotics. This study first to investigate the occurrence and distribution of typical antibiotics in the faeces of a Chinese population and thereby provide a reference for the intensive study of the effects and mechanisms of antibiotics on human gut microbiota.


Subject(s)
Anti-Bacterial Agents/analysis , Feces/chemistry , Veterinary Medicine , Animals , China , Gastrointestinal Microbiome , Humans
10.
Langmuir ; 35(46): 14861-14869, 2019 Nov 19.
Article in English | MEDLINE | ID: mdl-31663750

ABSTRACT

Superlubricity has been recognized as the future of tribology. However, it is hard to achieve superlubricity under extreme conditions such as a high load and low sliding speed on the macroscale. In this paper, a remarkable synergetic lubricating effect between nanoparticles and silicon nitride (Si3N4) is demonstrated; this effect helps water-lubricated Si3N4 achieve superlubricity under extreme conditions successfully. Different kinds of hairy silica nanoparticles were prepared, dispersed into water, and characterized using a variety of methods. The tribological properties of water-lubricated Si3N4 with nanoparticle additives were tested using a ball-on-disk tribometer under different loads and sliding speeds. The coefficient of friction and wear scar diameter were measured and analyzed. Both the nanoparticle size and surface functional groups have a significant influence on the tribological properties of water-lubricated Si3N4. Amino-modified silica nanoparticles reduce the friction coefficient of water-lubricated Si3N4 by 82.9% under 60 N, compared with that achieved using deionized water, and induce superlubricity after the running-in process. Silica nanoparticles effectively form a homogenous film with silica gel on the worn surface under a high load and thus reduce the wear and maintain the superlubricity under extreme conditions.

11.
Sci Total Environ ; 621: 1176-1184, 2018 Apr 15.
Article in English | MEDLINE | ID: mdl-29070451

ABSTRACT

The increasing global prevalence of antibiotic resistance genes (ARGs) in the environment is attributed to anthropogenic activities, particularly the misuse of antimicrobial drugs in human care and animal production. In the present study, we first examined Arctic/sub-Arctic (polar) sediments for the abundance and diversity of 30 ARGs against sulfonamide, tetracycline, aminoglycoside, quinolone, macrolide, and ß-lactam antibiotics. Polar sediment ARGs were detected by qPCR at relatively low levels (10-9 to 10-5 copies/16S rRNA gene copies) compared to the reference sites, which were heavily impacted regions of China (the Haihe River, the Tianjin Water Park water and the Qilihai Wetland water, at 10-8 to 10-2 copies/16S rRNA gene copies). A human mitochondrial gene target, Hmt, was first used to aid in the identification of ARGs associated with anthropogenic activities, being relatively persistent, in high copy number and a human-specific molecular marker. Hmt was consistently present in easily quantifiable amounts in the polar sediment samples, indicating their relationship with human-impact, and it was also positively correlated with the relative abundance of ARGs and to the concentrations of modern-day antibiotics. Phylogenetic analyses of resistance sequences from both the Arctic marine sediments and a major database of human pathogens indicated that the ARGs in polar region were the result of a mix of human influence and natural origins. To our knowledge, this is the first study to show that ARGs in Arctic marine sediments appear to be a mixture of both natural origins and recent human influence. This study provides a significant reference regarding the global reach of antibiotic resistance, which is associated with anthropogenic activities.


Subject(s)
Drug Resistance, Microbial/genetics , Genes, Bacterial , Geologic Sediments/chemistry , Anti-Bacterial Agents , Arctic Regions , China , Human Activities , Humans , Phylogeny , RNA, Ribosomal, 16S/analysis
12.
Saudi J Biol Sci ; 23(1): S93-8, 2016 Jan.
Article in English | MEDLINE | ID: mdl-26858572

ABSTRACT

It is always a challenge to determine the total cellulase activity efficiently without reducing accuracy. The most common total cellulase activity assay is the filter paper assay (FPA) established by the International Union of Pure and Applied Chemistry (IUPAC). A new procedure to measure the FPA with microplate-based assay was studied in this work, which followed the main idea of IUPAC to dilute cellulase preparation to get fixed glucose release. FPAs of six cellulase preparations were determined with the microplate-based assay. It is shown that FPAs of cellulase Youtell, RCconc, R-10, Lerkam, Yishui and Sinopharm were 67.9, 46.0, 46.1, 27.4, 7.6 and 8.0 IU/ml respectively. There was no significant difference at the 95% confidence level between the FPA determined with IUPAC and the microplate-based assay. It could be concluded that the FPA could be determined by the microplate-based assay with the same accuracy and much more efficiency compared with that by IUPAC.

13.
Front Microbiol ; 6: 864, 2015.
Article in English | MEDLINE | ID: mdl-26379641

ABSTRACT

Antibiotic resistance genes (ARGs) have become a global health concern. In our previous study, an ionic liquid (IL) 1-butyl-3-methylimidazolium hexafluorophosphate ([BMIm][PF6]) had been proven to facilitate the dissemination of ARGs in the environment. However, enhanced alkyl group chain length or the substitution of alkyl groups with the cation ring corresponded with increased antimicrobial effects. In this study, we investigated how different structures of ILs with 4, 6, and 8 C atoms in the longer alkyl chain on the imidazolium cations facilitated the dissemination of ARGs. The promotion of plasmid RP4 transfer frequency decreased with [CnMIM][BF4] increasing the alkyl chain length from 4 carbon atoms to 8 carbon atoms on the imidazolium cations, which is observed with [BMIM][BF4] (n = 4, 5.9 fold) > HMIM][BF4] (n = 6, 2.2 fold) > [OMIM][BF4] (n = 8, 1.7 fold). This illustrates that [CnMIM][BF4] with increasing the alkyl chain length exert decreasing ability in facilitating plasmid RP4 horizontal transfer, which is possibly related to IL-structure dependent toxicity. The IL-structure dependent plasmid RP4 transfer frequency was attributable to bacterial cell membrane permeability weaken with increasing alkyl chain length of [CnMIM][PF4], which was evidenced by flow cytometry. In freshwater microcosm, [CnMIm][BF4] promoted the relative abundance of the sulI and intI genes for 4.6 folds, aphA and traF for 5.2 folds higher than the untreated groups, promoting the propagation of ARGs in the aquatic environment. This is the first report that ILs with different structure of varying alkyl chain length facilitate horizontal transfer of plasmid RP4 which is widely distributed in the environment, and thus add the adverse effects of the environmental risk of ILs.

14.
Pak J Pharm Sci ; 28(3 Suppl): 1115-20, 2015 May.
Article in English | MEDLINE | ID: mdl-26051733

ABSTRACT

Hydrolysis of cellulose to glucose is the critical step for transferring the lignocellulose to the industrial chemicals. For improving the conversion rate of cellulose of corn stover to glucose, the cocktail of celllulase with other auxiliary enzymes and chemicals was studied in this work. Single factor tests and Response Surface Methodology (RSM) were applied to optimize the enzyme mixture, targeting maximum glucose release from corn stover. The increasing rate of glucan-to-glucose conversion got the higher levels while the cellulase was added 1.7µl tween-80/g cellulose, 300µg ß-glucosidase/g cellulose, 400µg pectinase/g cellulose and 0.75mg/ml sodium thiosulphate separately in single factor tests. To improve the glucan conversion, the ß-glucosidase, pectinase and sodium thiosulphate were selected for next step optimization with RSM. It is showed that the maximum increasing yield was 45.8% at 377µg/g cellulose Novozyme 188, 171µg/g cellulose pectinase and 1mg/ml sodium thiosulphate.


Subject(s)
Cellulase/metabolism , Glucose/metabolism , Lignin/metabolism , Polygalacturonase/metabolism , Zea mays/metabolism , beta-Glucosidase/metabolism , Hydrolysis , Kinetics , Multienzyme Complexes , Polysorbates/chemistry , Surface-Active Agents/chemistry , Thiosulfates/chemistry
15.
Biotechnol Lett ; 37(10): 2039-45, 2015 Oct.
Article in English | MEDLINE | ID: mdl-26087947

ABSTRACT

OBJECTIVES: To optimize nisin production in Lactococcus lactis by using different aeration and fermentation strategies. RESULTS: The nisin titer and specific nisin production rate reached maximum values of 11,900 IU/ml and 4110 IU/g/h, respectively, in aerobic batch fermentation with glucose as C source. These values were higher than in anaerobic batch fermentation (10,700 IU/ml and 3260 IU/g/h, respectively). The maximum specific nisin production rates appeared earlier in aerobic batch fermentation, which suggests that nisin production is stimulated by aeration. Different fermentation strategies were compared: maximum nisin production (15,400 IU/ml) was achieved with fed-batch fermentation with a variable rate of feeding under aerobic conditions. CONCLUSION: Nisin production can be stimulated by aeration, which goes against the typical conditions involving strict anaerobiosis.


Subject(s)
Lactococcus lactis/metabolism , Nisin/metabolism , Aerobiosis , Anaerobiosis , Carbon/metabolism , Fermentation , Glucose/metabolism , Lactococcus lactis/growth & development
16.
Biochemistry (Mosc) ; 79(7): 653-62, 2014 Jul.
Article in English | MEDLINE | ID: mdl-25108328

ABSTRACT

Eyes absent (Eya) is a highly conserved transcription cofactor and protein phosphatase that regulates multiple developmental processes throughout the metazoans. It is a dual function protein, working as a transcription factor in the nucleus and as a tyrosine phosphatase in the cytoplasm. In this study, we isolated EYA-1 of Caenorhabditis elegans, the only homolog of Eyes absent, and set up an effective feeding-based RNAi (RNA interference) against the gene. We found that knockdown of EYA-1 decreased heat and oxidative stress tolerance and accelerated the onset of paralysis mediated by Aß1-42 proteotoxicity and polyQ. Under heat stress (35°C), EYA-1 knockdown shortened the mean lifespan by 16.8%, which could be attributed to decrease in heat shock protein-16.2 (hsp-16.2) expression. Under oxidative stress, EYA-1 knockdown could shorten the mean lifespan by 18.7%, which could be attributed to intracellular ROS accumulation and the decrease of superoxide dismutase-3 (sod-3) protein expression. Moreover, EYA-1 knockdown animals also showed increased lipofuscin accumulation under oxidative stress. Further studies demonstrated that EYA-1 knockdown could not inhibit daf-16 nuclear accumulation in wild-type worms in response to stress. On the other hand, EYA-1 deficiency did not further reduce stress resistance of daf-16 mutants, which are stress sensitive. Quantitative real-time PCR results also showed that the expression of two daf-16 target genes, hsp-12.3 and sod-3, was downregulated in EYA-1 RNAi-treated worms under stress. All this evidence indicates EYA-1 is required for stress resistance of worms, and it might act downstream of daf-16 to regulate expression of stress resistance-associated genes.


Subject(s)
Caenorhabditis elegans Proteins/physiology , Caenorhabditis elegans/physiology , Intracellular Signaling Peptides and Proteins/physiology , Nuclear Proteins/physiology , Protein Tyrosine Phosphatases/physiology , Adaptation, Physiological , Animals , Caenorhabditis elegans Proteins/metabolism , Forkhead Transcription Factors , Genes, Essential , Heat-Shock Response , Oxidative Stress , Transcription Factors/metabolism
17.
Biotechnol Lett ; 36(12): 2495-9, 2014 Dec.
Article in English | MEDLINE | ID: mdl-25135181

ABSTRACT

Protoplast fusion was used to obtain a higher production of lignocellulolytic enzymes with protoplast fusion in Trichoderma reesei. The fusant strain T. reesei JL6 was obtained from protoplast fusion from T. reesei strains QM9414, MCG77, and Rut C-30. Filter paper activity of T. reesei JL6 increased by 18% compared with that of Rut C-30. ß-Glucosidase, hemicellulase and pectinase activities of T. reesei JL6 were also higher. The former activity was 0.39 Uml(-1), while those of QM9414, MCG77, and Rut C-30 were 0.13, 0.11, and 0.16 Uml(-1), respectively. Pectinase and hemicellulase activities of JL6 were 5.4 and 15.6 Uml(-1), respectively, which were slightly higher than those of the parents. The effects of corn stover and wheat bran carbon sources on the cellulase production and growth curve of T. reesei JL6 were also investigated.


Subject(s)
Cellulases/metabolism , Lignin/metabolism , Protoplasts/enzymology , Trichoderma/enzymology , Trichoderma/genetics , Trichoderma/growth & development , Triticum , Zea mays
18.
Lasers Med Sci ; 28(5): 1383-92, 2013 Sep.
Article in English | MEDLINE | ID: mdl-23455655

ABSTRACT

The objective of this study was to generate an effective vaccine against lung cancer using photosensitizing drug-mediated photodynamic therapy (PDT) and to study the mechanism. The efficiency of a photosensitizing drug (DTPP) was investigated by singlet oxygen yield determination, killing effect analysis, and cell apoptosis induction effect assessment. DTPP-based PDT tumor cell lysates and cell surface antigens obtained from acid-eluted adherent cells were then used as vaccines to prevent lung cancer using LA795 murine lung cells. The optimal protocol for PDT vaccine preparation was selected based on the tumor growth retardation effect of the vaccines, DTPP concentration, illumination dose, and numbers of DTPP-based PDT cells. To study the mechanism of the anti-tumor effect of vaccines, host anti-tumor immune responses were studied, including CD4(+)/CD8(+) ratios and percentage of NK cells and serum cytokine levels. A comparison of cytokine (IFN-γ and IL-1) secretion from splenocytes and tumor pathologic features from mice immunized with vaccines were compared with controls and showed that the optimal protocol for PDT vaccine preparation was LA795 cells exposed to 10 µg/ml DTPP photosensitizer for 24 h, illuminated with 7.2 J/cm(2) at 20 mW/cm(2) (630 nm) and 2 × 10(7) PDT cell lysates injected per mouse. DTPP-based PDT cell lysate vaccination had a significant inhibitory effect on tumor growth based on increased CD4(+)/CD8(+) ratios, NK cell percentages, elevated serum IFN-γ and IL-1 levels, and lymphocyte aggregation at the edge of tumors. Thus, DTPP-based PDT can induce LA795 cell apoptosis that can generate anti-tumor effects without use of an adjuvant.


Subject(s)
Cancer Vaccines/pharmacology , Lung Neoplasms/drug therapy , Photochemotherapy/methods , Animals , Apoptosis/drug effects , Cell Line, Tumor , Cell Survival/drug effects , Interferon-gamma/blood , Interleukin-1/blood , Lung Neoplasms/immunology , Lung Neoplasms/pathology , Lymphocyte Subsets/drug effects , Mice , Neoplasm Transplantation , Photosensitizing Agents/therapeutic use , Porphyrins/therapeutic use
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