The epidemiology of alcohol burns at a major burn centre in North China.

This study was designed to explore the epidemiological characteristics and potential preventive strategies of alcohol burns. In this five-year, retrospective study, 163 patients with alcohol burns (admitted from 1 January 2015 to 31 May 2020 were included. There was a male-to-female ratio of 1.1:1, a mean age of 34.1±16.8 years, and a mean burn size of 13.3±13.7% total body surface area (TBSA). The number of patients with alcohol burns was similar year by year during the five-year period. Just over half of patients (n=84, 51.5%) sustained a third-degree burn injury, which was significantly associated with a longer hospital stay and the need for surgery. The most prevalent aetiology was cupping (n=49, 29.5%), followed by cooking hotpot (n=37, 22.7%). Of the patients, seven (4.29%) sustained injuries during experiments at school and one patient sustained injury when using alcohol spray for disinfection against COVID-19. The incidence of facial burn injury (n=105, 64.4%) was significantly higher than previously reported data (33.2%). The result of the study showed that cupping and hotpot were the main causes of alcohol burns in Beijing, which should be taken into consideration for prevention. It is necessary to strengthen safety management of classes at school where experiments are undertaken and to educate the general public on the proper means of disinfecting against COVID-19.

Molecular targets and mechanisms involved in the action of Banxia Shumi decoction in insomnia treatment.

Insomnia is a common sleep-wake rhythm disorder, which is closely associated with the occurrence of many serious diseases. Recent researches suggest that circadian rhythms play an important role in regulating sleep duration and sleep quality. Banxia Shumi decoction (BSXM) is a well-known Chinese formula used to treat insomnia in China. However, the overall molecular mechanism behind this therapeutic effect has not yet been fully elucidated. This study aimed to identify the molecular targets and mechanisms involved in the action of BSXM during the treatment of insomnia. Using network pharmacology and molecular docking methods, we investigated the molecular targets and underlying mechanisms of action of BSXM in insomnia therapy. We identified 8 active compounds from Traditional Chinese Medicine Systems Pharmacology Database and Analysis Platform and the traditional Chinese medicine integrative database that corresponded to 26 target genes involved in insomnia treatment. The compound-differentially expressed genes of the BXSM network indicated that cavidine and gondoic acid could potentially become key components of drugs used for insomnia treatment. Further analysis revealed that GSK3B, MAPK14, IGF1R, CCL5, and BCL2L11 were core targets significantly associated with the circadian clock. Pathway enrichment analysis of Kyoto Encyclopedia of Genes and Genomes revealed that epidermal growth factor receptor tyrosine kinase inhibitor resistance was the most prominently enriched pathway for BSXM in the insomnia treatment. The forkhead box O signaling pathway was also found to be significantly enriched. These targets were validated using the Gene Expression Omnibus dataset. Molecular docking studies were performed to confirm the binding of cavidine and gondoic acid to the identified core targets. To our knowledge, our study confirmed for the first time that the multi-component, multi-target, and multi-pathway characteristics of BXSM may be the potential mechanism for treating insomnia with respect to the circadian clock gene. The results of this study provided theoretical guidance for researchers to further explore its mechanism of action.

Anti-inflammatory effect of flavonoids from chestnut flowers in lipopolysaccharide-stimulated RAW 264.7 macrophages and acute lung injury in mice.

ETHNOPHARMACOLOGICAL RELEVANCE: Chestnut flowers were one of the by-products during chestnut industrial processing. Chestnut (Castanea mollissima Blume) flower is rich in flavonoids and has been used as a traditional medicine to treat a variety of diseases including respiratory disorders for a long history. AIM OF THE STUDY: The present study aims to investigate the potential anti-inflammatory effect of flavonoids from chestnut flower (FCF) in lipopolysaccharide (LPS)-treated RAW 264.7 cells and stimulated acute lung injury (ALI) in mice. MATERIALS AND METHODS: HPLC-ESI-MS/MS was applied to identify flavonoids from Chestnut flower. The ROS content in cells and lung tissue was measured by flow cytometry. The malondialdehyde (MDA) content, superoxide dismutase (SOD) activity and glutathione (GSH) content in cells and bronchoalveolar lavage fluid (BALF) was analyzed by photometry. Furthermore, the level of pro-inflammatory factors was analyzed by ELISA, and the expression of inflammatory gene mRNA by fluorescence quantitative PCR. H&E staining was used to evaluate the degree of lung tissue injury in mice. MPO activity was used to measure the degree of neutrophil infiltration. Total protein content was detected by BCA method. RESULTS: A total of forty-nine flavonoids compounds were tentatively identified in FCF by mass spectrometry analysis. The results of cell experiment suggested that FCF could alleviate oxidative injury via increasing SOD activity and GSH content, as well as inhibiting the production of intracellular ROS and MDA. FCF exerted its protective effect by suppressing the expression of both inducible nitric oxide synthase (iNOS) and cycooxygenase 2 (COX-2) to inhibit the synthesis of pro-inflammatory factors and cytokines, including NO, PGE2, TNF-α, IL-6 and IL-1ß. Besides, FCF treatment could alleviate the thickening of alveolar wall and pulmonary congestion in LPS-treated ALI mice, and significantly inhibit the activity of myeloperoxidas (MPO) and the expression of cytokines in BALF. CONCLUSIONS: FCF could ameliorate inflammation and oxidative stress in LPS-treated inflammation, resulting in an overall improvement in both macroscopic and histological parameters.

Mechanisms Underlying the Effect of Tea Extracts on In Vitro Digestion of Wheat Starch.

The effect of extracts from four types of tea made from Camelia sinensis (green, white, black, and oolong) on in vitro amylolysis of gelatinized starch and the underlying mechanisms were studied. Of the four extracts, black tea extract (BTE) gave the strongest inhibition of starch digestion and on α-amylase activity. Fluorescence quenching and surface plasmon resonance (SPR) showed compounds in BTE bound to α-amylase more strongly than those in the green, white, and oolong tea extracts. Individual testing of five phenolic compounds abundant in tea extracts showed that theaflavins had a greater inhibitory effect than catechins on α-amylase. SPR showed that theaflavins had much lower equilibrium dissociation constants and therefore bound more tightly to α-amylase than catechins. We conclude that BTE had a stronger inhibitory effect on in vitro enzymatic starch digestion than the other tea extracts, mainly due to the higher content of theaflavins causing stronger inhibition of α-amylase.

Inhibition of in vitro enzymatic starch digestion by coffee extract.

There is evidence that moderate coffee consumption is beneficial in the prevention of type 2 diabetes, however, the underlying mechanism is not understood. In this study, the effects of an extract of ground coffee on the in vitro enzymatic digestion of starch were investigated. The coffee extract decreased the rate and extent of starch digestion, with kinetic analysis showing that the extract reduced the binding affinity of the enzymes for the substrate and their catalytic turnover. Fluorescence quenching indicated that the coffee extract formed complexes with the digestive enzymes through a static quenching mechanism. Ultraviolet absorption and circular dichroism spectra of the digestive enzymes confirmed that the coffee extract decreased the proportion of ß-sheet structures in the enzymes. Therefore, we conclude that compounds in the soluble coffee extract can interact with porcine pancreatic amylase and amyloglucosidase causing inhibition of the enzymes and decreasing in vitro starch digestion.

Fabrication of Chinese Traditional Medicines incorporated collagen biomaterials for human bone marrow mesenchymal stem cells.

Chinese Traditional Medicines (CTMs) are very popular for therapeutic applications to cure several chronic diseases. Many researchers are trying to discover the potential application and actual mechanism of CTMs in order to scientifically prove their effects for commercial use. One of the main functions of CTMs is to aid stem cell regeneration. Since, this study was focused to fabricate CTMs incorporated fish collagen film, which has good biocompatibility in mammalian cell growth and thus investigated the effect on human Mesenchymal stem cells (hMSCs) proliferation and differentiation. In this study, three types of CTMs such as Genistein, Icariin, and Naringin were used for film fabrication. Mechanical properties of collagen films were improved by the addition of CTMs, especially in Collagen-Naringin films. Solubility and In-vitro biodegradation of collagen films were enhanced by the hydrophobicity and chemical interaction of CTMs with collagen. The proliferation rate was accelerated in hMSCs cultured on CTMs incorporated collagen films in a dose- and time-dependent manner. Proliferation biomarkers such as Ki-67 and BrdU levels were higher in hMSCs cultured on CTMs incorporated collagen films. The proliferative and differentiation effect of CTMs was further confirmed by higher gene expression of Collagen I, Runx2, c-Fos, SMAD3 and TGF-ß1 in hMSCs. Overall, this study provides a new insight on novel biomaterial fabrication using CTMs and fish collagen for making a compatible platform for in-vitro stem cell culture.

In vitro digestibility of starches with different crystalline polymorphs at low α-amylase activity to substrate ratio.

In this study, potato, lotus seed and wheat starch samples with different degree of gelatinization (DG) were prepared and their in vitro digestibility at low α-amylase activity evaluated by measuring the release of reducing sugar. The hydrolysis rate (k) and the final equilibrium concentration (C∞) of the three starches increased with increasing DG. Kinetic analyses showed that the Michaelis-Menten constant (Km) and the catalytic efficiency (kcat/Km) increased with increasing DG, indicative of the increasing affinity and catalytic efficiency of α-amylase with all three starch samples. Of the three starches, lotus seed starch showed a much greater increase in k and kcat/Km than potato and wheat starches as the DG of starch increased. From this study, we concluded that at low activity of α-amylase, DG is a major determinant for the binding affinity and catalytic efficiency of α-amylase to starch and in turn the digestion rate of starch.

Resveratrol and Celastrol Loaded Collagen Dental Implants Regulate Periodontal Ligament Fibroblast Growth and Osteoclastogenesis of Bone Marrow Macrophages.

Collagen is widely used for dental therapy in several ways such as films, 3D matrix, and composites, besides traditional Chinese medicine (TCM), has been used in tissue regeneration and wound healing application for centuries. Hence, the present study was targeted for the first time to fabricate collagen film with TCM such as resveratrol and celastrol in order to investigate the human periodontal ligament fibroblasts (HPLF) growth and bone marrow macrophages (BMM) derived osteoclastogenesis. Further, the physicochemical, mechanical and biological activities of collagen-TCM films crosslinked by glycerol and EDC-NHS (1-ethyl-3-(3-dimethylaminopropyl)carbodiimide-N-hydroxysulfosuccinimide) were investigated. Collagen film characterization was significantly regulated by the nature of plasticizers like hydrophobic and degree of polarity. Interestingly, the collagen film's denaturation temperature was increased by EDC-NHS than glycerol. FT-IR data confirmed the functional group changes due to chemical interaction of collagen with TCM. Morphological changes of HPLF cells cultured in control and collagen films were observed by SEM. Importantly, the addition of resveratrol upregulated the proliferation of HPLF cells, while osteoclastogenesis of BMM cells treated with mCSF-RANKL was significantly downregulated by celastrol. Accordingly, the collagen-TCM film could be an interesting material for dental regeneration, and especially it is a therapeutic target to restrain the elevated bone resorption during osteoporosis.

[Effect of electroacupuncture on cognitive functions, hippocampal HIF-1α and neurons apoptosis in postoperative cognitive dysfunction rats].

OBJECTIVE: To observe the effect of electroacupuncture (EA) on learning and memory ability, hippocampal hypoxia inducible factor-1α(HIF-1α) and apoptosis in postoperative cognitive dysfunction(POCD) rats, and to investigate its mechanism underlying improvement of POCD. METHODS: A total of 90 aged male SD rats were randomized into a sham-operation group, a model group and an EA group, 30 rats in each group, which were further divided into 3 time-point subgroups (1, 3 and 7 days after intevention, 10 rats in each subgroup). In the model group and the EA group, left hepatectomy was adopted to establish the model of POCD. In the sham-operation group, the skin was sectioned and no hepatectomy was operated. In the EA group, EA was applied at "Siguan" ["Hegu" (LI 4) and "Taichong" (LR 3)] with dilatational wave, 2 Hz/100 Hz in frequency, 1 mA in intensity, 20 min each time, once a day. Morris water maze test was adopted to observe the cognitive functions. Real-time PCR and Western blot were used to measure the hippocampal level of HIF-1α. TUNEL method was used to evaluate the hippocampal level of neurons apoptosis. Double immunofluorescence labeling was used to detect the colocalization of HIF-1α and apoptosis in the EA group. RESULTS: Compared with the sham-operation group, the escape latency was prolonged and the frequency of platform leaping was reduced in the model group (P<0.05) after 1, 3, 7 days of intervention. Compared with the model group,the escape latency was shortened and the frequency of platform leaping was increased in the EA group (P<0.05) after 1, 3, 7 days of intervention. After 3 days of intervention, compared with the sham-operation group, the expressions of HIF-1α mRNA and protein, the level of apoptosis were increased in the model group (P<0.05); compared with the model group,the expressions of HIF-1α mRNA and protein, the level of apoptosis were decreased in the EA group (P<0.05). The colocalization of HIF-1α and apoptosis was observed in same cells in the EA group. CONCLUSION: Electroacupuncture improves cognitive functions in postoperative cognitive dysfunction rats, which may be related to its effect in down-regulating the expression of hippocampal HIF-1α and inhibiting the neurons apoptosis.

Revealing the mechanisms of starch amylolysis affected by tea catechins using surface plasmon resonance.

The interaction of polyphenolic catechins from Camellia sinensis tea with α-amylase, and the effects of the interactions on the kinetics of starch amylolysis, were investigated. Binding studies using surface plasmon resonance (SPR) and enzyme kinetic analysis indicated that the in vitro digestibility of gelatinized wheat starch was decreased by the addition of catechins present in tea. Tea catechins decreased enzyme activity by reducing the maximum velocity (Vmax) of the α-amylase, but had little effect on the Michaelis-Menten constant (Km). Binding studies by SPR showed that the structure of the catechins influenced their affinity for α-amylase. Pearson correlation analysis showed that the decreased digestibility of starch in the presence of catechins was due to their binding of α-amylase interaction inhibiting the catalytic effectiveness of the enzyme. From this study, we concluded that the faster and stronger the binding of catechins and α-amylase, the greater reduction of starch digestion is.

Revisiting Mechanisms Underlying Digestion of Starches.

The factors that determine the digestion rate of starches were revealed using different forms of starches and a mixture of α-amylase and amyloglucosidase. Gelatinized starch samples with a degree of gelatinization (DG) from 12.2 to 100% for potato starch and from 7.1 to 100% for lotus seed starch were obtained. With an increasing DG, the short- and long-range molecular orders of both starches were disrupted progressively. The first-order digestion rate constant (k) of both starches increased with an increasing DG, although the positive linear relationships between DG and k differed (R2 = 0.87 for potato starch, and R2 = 0.74 for lotus seed starch). The mean fluorescence intensity showed a positive linear correlation with DG, which was strong for potato starch (R2 = 0.99) and relatively weaker for lotus seed starch (R2 = 0.54). These results indicated that DG is a major determinant for the digestion rate of potato starch and lotus seed starch and that the access/binding of enzymes to starch was the main rate-limiting factor for digestion of starches.

Effect of CaCl2 pre-treatment on the succinylation of potato starch.

Potato starch was pre-treated with CaCl2 solutions prior to modification with octenyl succinic anhydride (OSA). Starch pre-treated with 1.0 M CaCl2 showed higher degree of substitution (DS) and reaction efficiency (RE) on OSA modification, whereas pre-treatment with CaCl2 solutions at 0.05 M, 0.1 M and 0.5 M had no effect on DS and RE. CaCl2 pre-treatment decreased the swelling power, paste clarity, peak viscosity (PV), breakdown (BD) and some textural parameters of potato starch, with the effects being greater at higher concentrations of CaCl2. Pre-treatment with 1.0 M CaCl2 caused a small disruption to starch crystallinity and granule morphology. OSA modification significantly decreased the textural parameters, PV, BD, relative crystallinity, swelling power, gelatinization temperatures and enthalpy of potato starch, but it increased the paste clarity and emulsifying activity. OSA-1.0 M-starch showed improved functional properties over OSA-starch, indicating that CaCl2 pre-treatment provides advantages for improving the functional characters of succinylated starch.

Effect of IgY on Periodontitis and Halitosis Induced by Fusobacterium nucleatum.

Fusobacterium nucleatum is a morbific agent in periodontitis and halitosis. Egg yolk antibody (IgY) was obtained from egg yolks from chickens stimulated with F. nucleatum. This study was to assess the effectiveness of IgY on periodontitis and halitosis caused by F. nucleatum in vitro and in vivo. The growth of F. nucleatum was inhibited (p <0. 05) by different concentrations of IgY in vitro and the results of a Halimeter show volatile sulfur compounds (VSCs) were reduced to 904 ± 57 ppb at a concentration 40 mg/ml of IgY. The changes of fatty acids of F. nucleatum were determined using GC-MS. The scores for odor index of rat saliva were decreased. The major constituent of volatile organic compounds (VOCs) including short-chain acids decreased 46.2% in 10 mg/ml IgY, ammonia decreased 70% in 40 mg/ml IgY, while aldehydes and olefine ketones were almost unchanged. The ELISA assay revealed that IL-6 and TNF-α were decreased after 4 weeks' IgY treatment. Morphometric (X-ray) and histological analyses (HE) showed that IgY reduced alveolar bone loss and collagen fibers became orderly in rat models. As a result, IgY may have the potential to treat periodontitis and halitosis.

Gambogic acid-induced autophagy in nonsmall cell lung cancer NCI-H441 cells through a reactive oxygen species pathway.

AIM OF THE STUDY: Garcinia hanburyi is a traditional herbal medicine with activities of anti-inflammation and hemostasis used by people in South Asia. Gambogic acid (GA) is the main active component extracted from it, which has anticancer and anti-inflammatory effects. The aim of the current study is to investigate the molecular mechanisms of GA's effective anticancer activity. MATERIALS AND METHODS: 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide assay was used to measure cell proliferation. Apoptosis induced by GA was analyzed by flow cytometry. In addition, monodansylcadaverine (MDC) and 2',7'-dichlorofluorescein diacetate were used to evaluate autophagy and reactive oxygen species (ROS) generation, respectively. RESULTS: GA could significantly inhibit nonsmall cell lung cancer (NSCLC) NCI-H441 cell growth. In addition, GA induced NCI-H441 cells autophagy, confirmed by MDC staining, upregulation of Beclin 1 (initiation factor for autophagosome formation), and conversion of LC3 I to LC3 II (autophagosome marker). Moreover, generated ROS was induced by GA in NCI-H441 cells and the ROS scavenger N-acetylcysteine reversed GA-induced autophagy and restored the cell survival, which indicated GA-induced autophagy in NCI-H441 cells through an ROS-dependent pathway. In addition, in vivo results further indicated that GA significantly inhibited the growth of NCI-H441 xenografts. CONCLUSIONS: The results shed new light on the interaction between ROS generation and autophagy in NSCLC cells and provide theoretical support for the usage of GA in clinical treatment.

[Optimization of method for determination of Forsythia Fructus and discussion on the establishment of quality control standard for green (old) Forsythia Fructus].

In order to obtain the optimum method for content determination of Forsythia Fructus (FF), a variety methods for the sample preparation of FF were evaluated by the content determination methods of Chinese Pharmacopoeia. And an optimum method was screened and as follows: 30 times with 70% ethanol solution in ultrasonic extractor for half an hour. The method can achieve the best effect of simultaneously extracting forsythoside A and forsythin. Then, a HPLC method for simultaneous determination of forsythoside A and forsythin was established by methodology. The HPLC chromatographic conditions: the mobile phase consisted of acetonitrile (A)-0.4% acetic acid solution (B) with gradient elution [0-33 min，15%A，33-43 min，15%-25%A，43-60 min，25% A] was at the flow rate of 1 mL·min⁻¹, the column temperature was 25 °C, and the detection wavelength was 330 and 277 nm. Moreover, the contents of forsythoside A and forsythin for 10 Green Forsythia Fructus (GF) and 5 Old Forsythia Fructus (OF) were determined by this method and Chinese Pharmacopoeia. The result not only displayed that the established method is effective, rapid, and simple, but also showed that the contents of forsythoside A and forsythin for GF and OF were significantly different. Which implied that the forsythoside A and forsythin limit standard for GF and OF should be controled by different values. This studies provide an important basis for the establishment of the content determination of FF and the quality control standard for GF and OF.

Physcion 8­O­ß­glucopyranoside extracted from Polygonum cuspidatum exhibits anti­proliferative and anti­inflammatory effects on MH7A rheumatoid arthritis­derived fibroblast­like synoviocytes through the TGF­ß/MAPK pathway.

The present study aimed to investigate the anti­arthritic effect of physcion 8­O­ß­glucopyranoside (POGD) and its possible mechanisms. The anti­proliferative effects of POGD on MH7A cells were detected using a CCK­8 assay, and the release of pro­inflammatory cytokines, interleukin (IL)­1ß, IL­6, IL­8, IL­12 and IL­17A, were determined by ELISA. A type II collagen­induced arthritis (CIA) rat model was established to evaluate the anti­arthritic effect of POGD in vivo. The paw volumes, arthritis indices and serum levels of tumor necrosis factor (TNF)­α, IL­1ß, IL­6, IL­8, IL­17A were determined by ELISA. The mRNA expression levels of matrix metalloproteinase (MMP)­2, MMP­3, MMP­9, vascular endothelial growth factor and cyclooxygenase­2 were determined by reverse transcription­quantitative polymerase chain reaction analysis, and the expression levels of transforming growth factor (TGF)­ß1, small mothers against decapentaplegic (Smad)4, Smad7, c­Jun N­terminal kinase (JNK), phosphorylated (p­)JNK, p­P38, P38, p­extracellular signal­regulated kinase (ERK)1/2, ERK1/2, nuclear factor (NF)­κB p65 in the nucleus (N), cytosolic NF­κB p65 (C), and inhibitor of NF­κB (IκB) were determined by western blot analysis. The results indicated that POGD significantly inhibited MH7A cell growth. POGD markedly inhibited paw swelling and the arthritis indices of the CIA rats, and POGD may also inhibit the release of pro­inflammatory cytokines. Furthermore, POGD downregulated the expression levels of TGF­ß1, Smad4, NF­κB p65 (N), p38, p­p38, p­ERK1/2, JNK, p­JNK, TGF­ß1, Smad4, p­JNK, JNK, p­P38, P38, p­ERK1/2, ERK1/2 and NF­κB p65 (N), and upregulated the Smad7, NF­κB p65 (C) and IκB in TNF­α induced MH7A cells. In conclusion, the results suggested that POGD is a promising potential anti­inflammatory drug, and that POGD may decrease the expression of pro­inflammatory cytokines and mediators via inhibiting the TGF­ß/NF­κB/mitogen­activated protein kinase pathways.

Mechanisms Underlying the Formation of Complexes between Maize Starch and Lipids.

This study aimed to reveal the mechanism of formation of complexes between native maize starch (NMS) and different types of lipids, namely palmitic acid (PA), monopalmitate glycerol (MPG), dipalmitate glycerol (DPG), and tripalmitate glycerol (TPG). The complexing index followed the order of MPG (96.3%) > PA (41.8%) > TPG (8.3%) > DPG (1.1%), indicating that MPG formed more complexes with NMS than PA, and that few complexes were formed between NMS and DPG and TPG. The NMS-PA complex presented higher thermal transition temperatures and lower enthalpy change than the NMS-MPG complex, indicating that although MPG formed more starch complexes, they had less stable crystalline structures than the complex between NMS and PA. X-ray diffraction (XRD) and Raman spectroscopy showed that both MPG and PA formed V-type crystalline structures with NMS, and confirmed that no complexes were formed between NMS and DPG and TPG. We conclude that the monoglyceride formed more starch-lipid complex with maize starch than PA, but that the monoglyceride complex had a less stable structure than that formed with PA. The di- and triglycerides did not form complexes with maize starch.

Coumestrol inhibits autoantibody production through modulating Th1 response in experimental autoimmune thyroiditis.

Coumestrol is a common phytoestrogen found in plants and Chinese medicinal herbs. Its influences on experimental autoimmune thyroiditis (EAT) were investigated in this study. Female adult CBA/J mice were fed with drinking water containing 1% Tween80 only (Control group), 0.8 mg/l (L group) and 8 mg/l coumestrol (H group) from 6 to 15 weeks of age, respectively. Their serum coumestrol concentrations were determined by high performance liquid chromatography, which were undetectable, 43.70 ± 21.74 ng/ml and 135.07 ± 70.40 ng/ml, respectively. In addition, the mice (n = 14-16/group) were immunized twice with thyroglobulin (Tg) and Freund's adjuvant to induce EAT during the meantime. Although no overt changes in the extent of intrathyroidal mononuclear cell infiltration were shown in the two coumestrol-treated groups as compared with the controls, serum anti-Tg IgG2a, IgG3 and IgG1 titers, ratio of IgG2a to IgG1 and the percentage of T helper (Th)1 cells in the splenocytes were significantly reduced in the L group. Another consistent change was the significantly decreased expression of splenic IFN-γ mRNA after low dose of coumestrol exposure. Uterine weight was also markedly reduced in the mice of L group. These findings suggest that coumestrol treatment may have some beneficial actions against thyroid-specific autoantibody production in the development of autoimmune thyroiditis through suppression of Th1 response due to its anti-estrogenic activity.

Production of pullulan from raw potato starch hydrolysates by a new strain of Auerobasidium pullulans.

In the present study, hydrolysis of potato starch with marine cold-adapted α-amylase and pullulan production from the hydrolysates by a new strain of Auerobasidium pullulans isolated from sea mud were conducted. The hydrolysis conditions were optimized as follows: reaction time 2h, pH 6.5, temperature 20°C, and α-amylase amount 12 U/g. Under these optimum hydrolysis conditions, the DE value of the potato starch hydrolysates reached to 49.56. The potato starch hydrolysates consist of glucose, maltose, isomaltose, maltotriose, and trace of other maltooligosaccharides with degree of polymerization ranged 4-7. The maximum production of pullulan at 96 h from the hydrolysate of potato starch was 36.17 g/L, which was higher than those obtained from glucose (22.07 g/L, p<0.05) and sucrose (31.42 g/L, p<0.05). Analysis of the high performance liquid chromatography of the hydrolysates of the pullulan product with pullulanase indicated that the main composition is maltotriose, thus confirming the pullulan structure of this pullulan product.