Huangqin decoction attenuates spared nerve injury (SNI)-induced neuropathic pain by modulating microglial M1/M2 polarization partially mediated by intestinal nicotinamide metabolism.

BACKGROUND: The incidence of neuropathic pain is progressively increasing over time. The activation of M1-type microglia plays a crucial role in the initiation and progression of neuropathic pain. Huangqin Decoction (HQD) is traditionally used to alleviate dysentery and abdominal pain. However, it remains unclear whether HQD can effectively mitigate neuropathic pain and the underlying mechanisms. PURPOSE: The present study aims to investigate the impact of HQD on neuropathic pain induced by spared nerve injury (SNI) in mice, and to elucidate whether the analgesic effect of HQD is associated with microglia polarization. METHODS: The analgesic effect of HQD on SNI mice was investigated through assessments of mechanical pain threshold, thermal pain threshold, cold pain threshold, and motor ability. We elucidated the molecular mechanisms of HQD in alleviating SNI-induced neuropathic pain by focusing on microglia polarization and intestinal metabolite abnormalities. The expression levels of markers associated with microglia polarization (Iba-1, CD68, CD206, iNOS) was detected by immunofluorescence and Western blot, and the levels of inflammatory factors (IL-4, IL-10, IL-6, TNF-α) were assessed by ELISA. UPLC-QTOF-MS metabolomics was utilized to identify differential metabolites in the intestines of SNI mice. We screened the differential metabolites related to microglial polarization by correlation analysis, subsequently nicotinamide was selected for validation in LPS-induced BV-2 cells. RESULTS: Our findings demonstrated that HQD (20 g/kg) significantly enhanced the mechanical pain threshold, thermal pain threshold, and cold pain threshold, and protected the injured DRG neurons of SNI mice. Moreover, HQD (20 g/kg) obviously suppressed the expression of microglia M1 polarization markers (Iba-1, CD68, iNOS, IL-6, TNF-α), and promoted the expression of microglia M2 polarization markers (CD206, IL-10, IL-4) in the spinal cord of SNI mice. Additionally, HQD (20 g/kg) prominently ameliorated intestinal barrier damage by upregulating Claudin 1 and Occludin expression in the colon of SNI mice. Furthermore, HQD (20 g/kg) rectified 19 metabolite abnormalities in the intestine. Notably, nicotinamide (100 µM), an amide derivative with anti-inflammatory property, effectively suppresses microglia activation and polarization in LPS-induced BV-2 cells by downregulating IL-6 level and CD68 expression while upregulating IL-4 level and CD206 expression. CONCLUSION: In summary, HQD alleviates neuropathic pain in SNI mice by regulating the activation and polarization of microglia, partially mediated through intestinal nicotinamide metabolism.

An ABCG-type transporter intensifies ametryn catabolism by Phase III reaction mechanism in rice.

Pesticide residues in food crops are one of the seriously environmental contaminants that risk food safety and human health. Understanding the mechanism for pesticide catabolism is critical to develop effective biotechniques for rapid eliminating the residues in food crops. In this study we characterized a novel ABC transporter family gene ABCG52 (PDR18) in regulating rice response to pesticide ametryn (AME) widely used in the farmland. Efficient biodegradation of AME was evaluated by measuring its biotoxicity, accumulation, and metabolites in rice plants. OsPDR18 was localized to the plasma membrane and strongly induced under AME exposure. Transgenic rice overexpressing OsPDR18 (OE) conferred rice resistance and detoxification to AME by increasing chlorophyll contents, improving growth phenotypes, and reducing AME accumulation in plants. The AME concentrations in OE plants were only 71.8-78.1% (shoots) and 75.0-83.3% (roots) of the wild type. Mutation of OsPDR18 by CRISPR/Cas9 protocol led to the compromised growth and enhanced AME accumulation in rice. Five AME metabolites for Phase I and 13 conjugates for Phase II reactions in rice were characterized by HPLC/Q-TOF-HRMS/MS. Relative content analysis revealed that the AME metabolic products in OE plants were significantly reduced compared with wild-type. Importantly, the OE plants accumulated less AME metabolites and conjugates in rice grains, suggesting that OsPDR18 expression may actively facilitate the transport of AME for catabolism. These data unveil a AME catabolic mechanism by which OsPDR18 contributes to the AME detoxification and degradation in rice crops.

Predictors of ninety-day mortality following mechanical thrombectomy for acute large vessel occlusion stroke.

OBJECTIVE: This study focused on the prediction factors of catastrophic outcomes of all-cause mortality at 90 days after mechanical thrombectomy and selection of candidates for clinical decision making up by the generating pre-MT and peri-MT prognostic models. METHOD: A secondary analysis based on the prospective, multicenter, randomized, non-inferiority clinical trial of Jrecan retriever from China were performed in this study. 187 stroke patients with a large-vessel anterior circulation occlusion, NIHSS score ≥ 6, ASPECT ≥ 7, and stroke onset time within 8 h were enrolled from March 1, 2018 to June 30, 2019 and followed up for 90 days. Data with mRS cumulative rates of 6, as well as mortality were analyzed and potential predictors for the mortality risk were identified by univariate and multivariate regression analysis. RESULTS: Among 186 patients, the median age was 66 years (IQR, 58-74) and 106 patients (56.4%) were male. The mortality was 20.8% (39/186) and general favorable outcome was obtained in 78 patients (41.7%, 78/187) at 90 days after MT. Five variables including ASPECT≤ 9 (3.136 [1.239-7.939], P = 0.016), Occlusion location with IC-ICA (3.538 [1.604-7.803], P = 0.002), un-Successful recanalization; PH (7.644 [1.890-30.917], P = 0.004), and END (without PH) with a significance of P < 0.05 were entered into the multivariable logistic regression analysis and were incorporated into pre-procedure model and peri-procedure models respectively. CONCLUSIONS: Occlusion with IC-ICA and PH were the strong predictors for mortality risk at 90-day, which could be reduced through good management and evaluation during pre-procedure and peri-procedure of mechanical thrombectomy.

A Case of Type 1 Triallelic Patterns at D5S818, D18S51, D6S1043, and FGA Demonstrated by Short Tandem Repeat Analysis.

The triallelic pattern of short tandem repeat (STR) is rare; especially, the case where this pattern exists at 4 loci has not been reported. Here, we report the type 1 triallelic patterns at D5S818, D18S51, D6S1043, and FGA from a Chinese family, which were observed during our routine chimerism assays. Before hematopoietic stem cell transplantation, the blood sample of the certain patient was analyzed by performing chimerism analysis. A preliminary STR analysis was also performed on the samples of the patient's parents. STR signal data illustrated that the sum of the peak chart areas of the two types inherited from the father was basically the same as that of the mother, belonging to the type 1 triallelic pattern. In addition, the patient's elder sister's STR result appeared to be normal. Altogether, we presented a pedigree, in which the triallelic pattern was linked by inheritance in the family. This is the first reported case of the triallelic pattern at D5S818, D18S51, D6S1043, and FGA all around the world. We hope that in the future there will be any tools to achieve accurate verification against this possibility.

[Clinical Analysis of Pediatric Acute Myeloid Leukemia with CCLG-AML 2015 Regimen].

OBJECTIVE: To analyze the clinical effects of CCLG-AML-2015 protocol on newly diagnosed children with acute myeloid leukemia (AML). METHODS: The clinical data of 60 newly diagnosed AML children in the Department of Hematology and Oncology, Wuhan Children's Hospital from August 2015 to September 2019 were summarized, the effect of chemotherapy using the CCLG-AML-2015 regimen (hereinafter referred to as the 2015 regimen) were retrospectively analyzed. 42 children with AML treated by the AML-2006 regimen (hereinafter referred to as the 2006 regimen) from February 2010 to July 2015 were used as control group. RESULTS: There were no statistical differences between the 2015 regimen group and the 2006 regimen group in sex, age at first diagnosis, and risk stratification (P>0.05). The complete remission rate of bone marrow cytology after induction of 1 course of chemotherapy (84.7% vs 73.1%, P=0.155), and minimal residual disease detection (MRD) negative (42.3% vs 41.4%, P=0.928) in the 2015 regimen group were not statistically different than those in the 2006 regimen group. The bone marrow cytology CR (98.1% vs 80.6%, P=0.004) and MRD negative (83.3% vs 52.8%, P=0.002) in the 2015 regimen group after 2 courses of induction were higher than those in the 2006 regimen group. The 5-year overall survival (OS) rate in the 2015 regimen group (62.3%±6.4% vs 20.6%±6.4%, P=0.001), the 5-year disease-free survival (EFS) rate (61.0%±6.4% vs 21.0% ±6.4% , P=0.001) were better than those in the 2006 regimen group. The 5-year OS and EFS of high-risk transplant patients in the 2015 regimen group were significantly better than those of high-risk non-transplant patients (OS: 86.6%±9.0% vs 26.7%±11.4%, P=0.000; EFS: 86.6%±9% vs 26.7%±11.4%, P=0.000). CONCLUSION: The 2015 regimen can increase the CR rate after 2 courses of induction compared with the 2006 regimen. High-risk children receiving hematopoietic stem cell transplantation can significantly improve the prognosis.

MRI radiomic features-based machine learning approach to classify ischemic stroke onset time.

PURPOSE: We aimed to investigate the ability of MRI radiomics features-based machine learning (ML) models to classify the time since stroke onset (TSS), which could aid in stroke assessment and treatment options. METHODS: This study involved 84 patients with acute ischemic stroke due to anterior circulation artery occlusion (51 in the training cohort and 33 in the independent test cohort). Region of infarct segmentation was manually outlined by 3D-slicer software. Image processing including registration, normalization and radiomics features calculation were done in R (version 3.6.1). A total of 4312 radiomic features from each image sequence were captured and used in six ML models to estimate stroke onset time for binary classification (≤ 4.5 h). Receiver-operating characteristic curve (ROC) and other parameters were calculated to evaluate the performance of the models in both training and test cohorts. RESULTS: Twelve radiomics and six clinic features were selected to construct the ML models for TSS classification. The deep learning model-based DWI/ADC radiomic features performed the best for binary TSS classification in the independent test cohort, with an AUC of 0.754, accuracy of 0.788, sensitivity of 0.952, specificity of 0.500, positive predictive value of 0.769, and negative predictive value of 0.857, respectively. Furthermore, adding clinical information did not improve the performance of the DWI/ADC-based deep learning model. The TSS prediction models can be visited at: http://123.57.65.199:3838/deeptss/ . CONCLUSIONS: A unique deep learning model based on DWI/ADC radiomic features was constructed for TSS classification, which could aid in decision making for thrombolysis in patients with unknown stroke onset.

Minimized Atrazine Risks to Crop Security and Its Residue in the Environment by a Rice Methyltransferase as a Regulation Factor.

Atrazine (ATZ) is an agricultural pesticide for controlling field weeds. ATZ accumulates in many crops, posing high risks to crop production and food safety. Characterizing one of the novel rice MT genes named Oryza sativa atrazine-responsive methyltransferase (OsARM) showed that the expression of OsARM was associated with DNA demethylation (hypomethylation) in its promoter region. The enhancement of OsARM expression was manifested by the attenuated symptoms of ATZ toxicity including better growth and lower ATZ accumulation in plants. The promoted capacity of detoxification was confirmed by transgenic rice overexpression OsARM lines and also functionally proved by CRISPR-Cas9 knockout mutants. The transgenic lines accumulate more ATZ metabolites in rice and lower concentrations in the growth environment, pointing out that ATZ metabolism or degradation can be intensified. The ATZ-induced DNA demethylation is an important hallmark representing the epigenetic mechanism, which is required for the extra OsARM expression to facilitate ATZ disappearance in rice and the environment.

Detection on antiserum of Yersinia pestis phage in Marmota himalayana blood in the natural plague foci of Qinghai-Tibet Plateau / 中国热带医学

@#Abstract: Objective　To detect and analyze the antiserum of Yersinia pestis phage in Marmota himalayana blood from the natural plague foci of Qinghai-Tibet Plateau by micro-bolus technique, to provide a theoretical basis for interaction between phages and mammalian immunology, phage therapy and interaction between bacteriophage and ecology in future. Methods　Using diagnostic Yersinia pestis phage and 3 wild plague phages from Qinghai-Tibet Plateau Natural Plague Foci as antigens, 847 serums of Marmota Himalayana blood, from Tongde, Guinan, Gonghe, Xinghai, Tianjun foci counties in Qinghai Plateau, were collected from July to September in 2020, 2021 and determined on antiserum of Yersinia pestis phage by microplate method and double agar plate method. Results　The neutralization reaction experiment lasted for 24 hours between 4 phage and 847 serums by microplate method independently. These mixtures were tested by double agar plate method. All results were negative on antiserum of Yersinia pestis bacteriophage. Conclusions　The positive antiserum of Yersinia pestis phage in Marmota himalayana were not found the natural plague foci of Qinghai-Tibet Plateau, which agreed with plague epidemiology in 5 foci counties in Qinghai plateau from 2020-2021, that was a characteristic of the resting period. In other words, it was in the absence of plague pathogen. It also showed indirectly that the absence or weak presence of Yersinia pestis bacteriophage in the plague foci. It showed a lower frequency on host animals coming into contact with phages naturally. The antiserum of Yersinia pestis phage may be related to the form of plague infection and the intensity of the disease.

[The Relationship between Plasma sST2/Reg3α Levels and Acute Graft-Versus-Host Disease in Children After Allogeneic Hematopoietic Stem Cell Transplantation].

OBJECTIVE: To explore the relationship between plasma sST2/Reg3α levels and acute graft-versus-host disease (aGVHD) in children after allogeneic hematopoietic stem cell transplantation (allo-HSCT). METHODS: The clinical data of 29 pediatric patients received allo-HSCT treatment in Department of Hematology and Oncology of Wuhan Children's Hospital from January 2019 to January 2020 were collected. Peripheral blood samples were collected at 14 and 28 day after allo-HSCT. The plasma concentrations of sST2 and Reg3α were detected by Luminex assay. RESULTS: Among 29 patients there were 15 males and 14 females with a median age of 53 (29-117) months. After allo-HSCT, 18 patients developed grade 0-I aGVHD; while 11 patients developed grade II-IV aGVHD. These included skin aGVHD in 6 cases, gastrointestinal aGVHD (GI-aGVHD) in 3 cases and gastrointestinal/skin aGVHD in 5 cases. Plasma sST2 level in II-IV aGVHD group showed significantly higher than that in 0-I aGVHD group at 28 days after allo-HSCT [101.81 (73.94-150.77) ng/ml vs 48.97 (28.82-56.69) ng/ml, P=0.021]. Also, the plasma sST2 level was significantly higher in GI-aGVHD group than that in no-aGVHD group at 28 days after allo-HSCT [118.74 (87.00-243.36) ng/ml vs 48.97 (23.55-61.40) ng/ml, P=0.004]. Plasma sST2 level ≥65.34 ng/ml at 28 days after allo-HSCT showed a sensitivity of 85.7% and a specificity of 87.5% in predicting II-IV aGVHD. And the patients with a plasma sST2 level ≥65.34 ng/ml showed a significantly higher incidence of II-IV aGVHD than those with plasma sST2 level of < 65.34 ng/ml after allo-HSCT (P=0.021). There was no significant difference in plasma Reg3α level between the patients with II-IV aGVHD and the non-aGVHD ones. CONCLUSION: The increasing plasma sST2 level after allo-HSCT in children indicates the development of II-IV aGVHD, so sST2 is promising as a biomarker for predicting II-IV aGVHD.

Identification of a novel function of a component in the jasmonate signaling pathway for intensive pesticide degradation in rice and environment through an epigenetic mechanism.

Developing a biotechnical system with rapid degradation of pesticide is critical for reducing environmental, food security and health risks. Here, we investigated a novel epigenetic mechanism responsible for the degradation of the pesticide atrazine (ATZ) in rice crops mediated by the key component CORONATINE INSENSITIVE 1a (OsCOI1a) in the jasmonate-signaling pathway. OsCOI1a protein was localized to the nucleus and strongly induced by ATZ exposure. Overexpression of OsCOI1a (OE) significantly conferred resistance to ATZ toxicity, leading to the improved growth and reduced ATZ accumulation (particularly in grains) in rice crops. HPLC/Q-TOF-MS/MS analysis revealed increased ATZ-degraded products in the OE plants, suggesting the occurrence of vigorous ATZ catabolism. Bisulfite-sequencing and chromatin immunoprecipitation assays showed that ATZ exposure drastically reduced DNA methylation at CpG context and histone H3K9me2 marks in the upstream of OsCOI1a. The causal relationships between the DNA demethylation (hypomethylatioin), OsCOI1a expression and subsequent detoxification and degradation of ATZ in rice and environment were well established by several lines of biological, genetic and chemical evidence. Our work uncovered a novel regulatory mechanism implicated in the defense linked to the epigenetic modification and jasmonate signaling pathway. It also provided a modus operandi that can be used for metabolic engineering of rice to minimize amounts of ATZ in the crop and environment.

Long-term biochar addition alters the characteristics but not the chlorine reactivity of soil-derived dissolved organic matter.

Biochar is widely and increasingly applied to farmlands. However, it remains unclear how long-term biochar addition alters the characteristics and chlorine reactivity of soil-derived dissolved organic matter (DOM), an important terrestrial disinfection byproduct (DBP) precursor in watersheds. Here, we analyzed the spectroscopic and molecular-level characteristics of soil-derived DOM and the formation and toxicity of DBP mixtures from DOM chlorination for two long-term (5 and 11 years) biochar addition experimental farmlands. As indicated by spectroscopic indices and Fourier transform ion cyclotron resonance mass spectrometry analyses, 11 years of biochar addition could increase the humic-like and aromatic and condensed aromatic DOM and decrease the microbial-derived DOM, while 5 years of biochar addition at the other site did not. The response of condensed aromatic dissolved black carbon did not increase with increasing cumulative biochar dose but appeared to be affected by biochar aging time. Despite the possible increase in aromatic DOM, biochar addition neither increased the reactivity of DOM in forming trihalomethanes, haloacetonitriles, chloral hydrates, or haloketones nor significantly increased the microtoxicity or genotoxicity of the DBP mixture. This study indicates that biochar addition in watersheds may not deteriorate the drinking water quality via the export of terrestrial DBP precursors like wildfire events.

Molecular mechanism of long-term neuroprotective effects of gradual flow restoration on cerebral ischemia reperfusion injury in MCAO rats.

BACKGROUND AND PURPOSE: Ischemia-reperfusion injuries (IRIs) can aggravate the condition of some patients with acute occlusion of major intracranial artery (AOMIA) who received endovascular thrombectomy. Here, we provided data confirming the association of Repressor Element-1 Silencing Transcription factor (REST) with the long-term neuroprotective effect of the middle cerebral artery occlusion (MCAO) rats underwent Gradual Flow Restoration (GFR). METHODS: Long term neuroprotective effects of GFR intervention were evaluated on MCAO rats model after 3d and 7d reperfusion. The neurological deficit score and TTC staining were performed to evaluate the degree of brain damage in GFR and other interventions at different time. Differentially expressed genes related to cerebral ischemia reperfusion injury (CIRI) were initially screened and identified using GSE32529 microarray analysis. REST protein expression in rat brain cortex infarction was detected by Western blot analysis. RESULTS: MCAO rats intervened with GFR exhibited reduced neurological deficit (P < 0.05) and alleviated brain infarction volume (P < 0.01). The REST gene with up-regulated expression and its downstream genes with down-regulated expression were screened by Microarray analysis. The brain cortex infarction in MCAO rats produced high levels of REST expression. The GFR intervention inhibited REST expression, and alleviated brain injury on MCAO rats. CONCLUSION: Our results demonstrated that GFR intervention plays a long-term neuroprotective role and reduces brain edema and damage at reperfusion, possibly by inhibiting REST expression.

[Grade evaluation of Sophorae Tonkinensis Radix et Rhizoma based on quality constant evaluation method].

The traditional Chinese medicine(TCM) quality constant herbal slices evaluation method was applied to evaluate the grade of Sophorae Tonkinensis Radix et Rhizoma based on the combination of traditional character identification and modern scientific and technological methods. The TCM quality constant evaluation method was used to determine the appearance and index content of medicinal slices, calculate the quality constant and percentile quality constant of Sophorae Tonkinensis Radix et Rhizoma from different sources, and discuss their classification. The quality constants of 15 batches of Sophorae Tonkinensis Radix et Rhizoma slices were between 0.004 and 0.063. The slices with the percentage quality constant ≥80% were classified as the first grade; those with the percentage quality constant ≥50% and <80% were classified as the second grade; and those with the percentage quality constant <50% were classified as the third grade. Then the slices with the quality constant ≥0.050 were classified as the first grade; those with the quality constant ≥0.032 and <0.050 were classified as the second grade; and those with the quality constant <0.032 were classified as the third grade. According to the results, the 15 batches of Sophorae Tonkinensis Radix et Rhizoma slices were divided into 1 batch of the first grade, 4 batches of the second grade, and 10 batches of the third grade. The quality constant evaluation method established is scientific, objective, simple and feasible. The application of the method in Sophorae Tonkinensis Radix et Rhizoma slices has reasonable results, which is helpful to promote the classification of Sophorae Tonkinensis Radix et Rhizoma and promotes the high-quality application of Sophorae Tonkinensis Radix et Rhizoma.

A Feasible Way to Produce Carbon Nanofiber by Electrospinning from Sugarcane Bagasse.

Recently, the nanofiber materials derived from natural polymers instead of petroleum-based polymers by electrospinning have aroused a great deal of interests. The lignocellulosic biomass could not be electrospun into nanofiber directly due to its poor solubility. Here, sugarcane bagasse (SCB) was subjected to the homogeneous esterification with different anhydrides, and the corresponding esterified products (SCB-A) were obtained. It was found that the bead-free and uniform nanofibers were obtained via electrospinning even when the mass fraction of acetylated SCB was 70%. According to the thermogravimetric analyses, the addition of SCB-A could improve the thermal stability of the electrospun composite nanofibers. More importantly, in contrast to the pure polyacrylonitrile (PAN) based carbon nanofiber, the SCB-A based carbon nanofibers had higher electrical conductivity and the surface N element content. In addition, the superfine carbon nanofiber mats with minimum average diameter of 117.0 ± 13.7 nm derived from SCB-A were obtained, which results in a larger Brunauer-Emmett-Teller (BET) surface area than pure PAN based carbon nanofiber. These results demonstrated that the combination of the homogeneous esterification and electrospinning could be a feasible and potential way to produce the bio-based carbon nanofibers directly from lignocellulosic without component separation.

Phenotypic plasticity of stomatal and photosynthetic features of four Picea species in two contrasting common gardens.

Global climate change is expected to affect mountain ecosystems significantly. Phenotypic plasticity, the ability of any genotype to produce a variety of phenotypes under different environmental conditions, is critical in determining the ability of species to acclimate to current climatic changes. Here, to simulate the impact of climate change, we compared the physiology of species of the genus Picea from different provenances and climatic conditions and quantified their phenotypic plasticity index (PPI) in two contrasting common gardens (dry vs. wet), and then considered phenotypic plastic effects on their future adaptation. The mean PPI of the photosynthetic features studied was higher than that of the stomatal features. Species grown in the arid and humid common gardens were differentiated: the stomatal length (SL) and width (SW) on the adaxial surface, the transpiration rate (Tr) and leaf mass per area (LMA) were more highly correlated with rainfall than other traits. There were no significant relationships between the observed plasticity and the species' original habitat, except in P. crassifolia (from an arid habitat) and P. asperata (from a humid habitat). Picea crassifolia exhibited enhanced instantaneous efficiency of water use (PPI = 0.52) and the ratio of photosynthesis to respiration (PPI = 0.10) remained constant; this species was, therefore, considered to the one best able to acclimate when faced with the effects of climate change. The other three species exhibited reduced physiological activity when exposed to water limitation. These findings indicate how climate change affects the potential roles of plasticity in determining plant physiology, and provide a basis for future reforestation efforts in China.

Identification of key transcription factors associated with cerebral ischemia­reperfusion injury based on gene­set enrichment analysis.

Cerebral ischemia­reperfusion injury (CIRI) usually causes detrimental complications following reperfusion therapy in stroke patients. The present study systematically investigated the regulatory mechanism involved in the pathogenesis of CIRI using gene set enrichment analysis of the transient middle cerebral artery occlusion mouse stroke model. The results revealed a total of 13 CIRI­related transcription factors (TFs), including CCAAT enhancer binding protein b (Cebpb), Cebpa, early growth response­1, Fos, Rela, Jund, signal transduction and activator of transcription 5a/b, transformation related protein 53, GLI family zinc finger 2 (Gli2), Sp3, TF AP­2 α (Tfap2a) and spleen focus forming virus proviral integration oncogene (Spi1). To the best of our knowledge, five TFs (Cebpa, Gli2, Sp3, Tfap2a and Spi1) were the first to be reported associated with CIRI in the present study. The five novel CIRI­related TFs were mainly associated with pathways of inflammation and responses to reperfusion, including the tumor necrosis factor signaling pathway (Gli2, Spi1 and Tfap2a, P=0.0035, 0.0035 and 0.048, respectively), interleuking­17 signaling pathway (Cebpa, Gli2, Sp3, Spi1 and Tfap2a, P=0.019, 0.047, 0.019, 0.035 and 0.005, respectively) and fluid shear stress and atherosclerosis (Gli2, Sp3, Spi1 and Tfap2a, P=0.047, 0.046, 0.013 and 0.003, respectively). These results may improve understanding of the potential molecular mechanism underlying the pathogenesis of CIRI at the genome­wide level.

[Distribution changes and refugia of three spruce taxa since the last interglacial.] / 末次间冰期以来3种云杉属植物的历史分布变迁及避难所.

Based on the current distribution information and 19 environmental variables data, we used the maximum entropy model to simulate the suitable distribution of Picea likiangensis var. likiangensis, P. purpurea and P. wilsonii in the last interglacial, Last Glacial Maximum, Mid- Holocene and present. The results from such modelling were validated by pollen data. We analyzed the relationship between species distribution dynamics and climate change, and then speculated the cryptic refugia of those species. Both the areas under the receiver operating characteristic curves and the verification results from pollen data indicated high accuracy of the model results. Results showed that isothermality was the most important factor influencing the distribution of P. likiangensis var. likiangensis and mean temperature of the warmest quarter was the most important for the distribution of both P. purpurea and P. wilsonii. Temperature was more important than precipitation in driving species distributions. Three species expanded their distribution ranges in Last Glacial Maximum due to their cold-adapted ecological habitat and the deep canyon topography feature which benefited their migration. There might be refugia of both P. wilsonii and P. purpurea in last interglacial, and they respectively located in Shennongjia Mountain in Hubei and Erlang Mountain and its nearby mountains in Sichuan. Our results, to some extent, made accurate prediction of the suitable distribution of three spruce species in the key periods since last interglacial, and speculated refugia of P. purpurea and P. willsonii. Our findings provided reference for better understanding of the formation mechanism of the present distribution of Picea and prediction of distribution changes in the future and sustainable management and protection of three spruce species.

Jasmonic Acids Facilitate the Degradation and Detoxification of Herbicide Isoproturon Residues in Wheat Crops ( Triticum aestivum).

Jasmonic acid (JA) [or methyl-jasmonic acid (MeJA)] is one of the important regulators of plant growth, development, and defense with respect to environmental stresses, but how JA is involved in mediation of pesticide accumulation and degradation in plants is largely unknown. This study investigated the contribution of MeJA to detoxification and degradation of isoproturon (IPU) residues in wheat ( Triticum aestivum). Wheat plants were exposed to 4 mg of isoproturon kg-1 (environmentally realistic concentration). The level of growth and chlorophyll concentration were reduced, while the electrolyte permeability in plants was enhanced. When plants were sprayed with 0.1 µM MeJA, the phytotoxicity induced by isoproturon was significantly assuaged, which was manifested by an increased chlorophyll concentration and a reduced level of cellular damage in wheat. Activities of several stress marker enzymes with isoproturon were repressed in the presence of MeJA. We measured accumulation of isoproturon in wheat and its residues in soil by high-performance liquid chromatography. The concentration of isoproturon in wheat and soils with MeJA was drastically reduced. Using ultraperformance liquid chromatography-tandem mass spectrometry, 12 isoproturon derivatives (eight metabolites and four conjugates) in wheat were characterized. We further provided evidence that the concentration of endogenous MeJA was significantly increased in IPU-exposed plants. These results suggest that MeJA was able to detoxify or degrade isoproturon in wheat when grown in a realistic environmental isoproturon-polluted soil.

Treatment of dinitrodiazophenol industrial wastewater in heat-activated persulfate system.

Heat-activated persulfate oxidation process was investigated as the treatment of dinitrodiazophenol industrial wastewater to degrade refractory pollutants and improve biodegradability. By studying the effects of 4 factors and carrying out orthogonal tests and scale-up experiments, optimal treatment conditions (temperature 90 °C, reaction time 75 min, PS dosage 20.0 g L-1 and initial pH ∼2.0) were obtained. The results showed that under these conditions, COD and color removal efficiencies were 99.22% and 99.99%, respectively. Moreover, an increase in BOD5/COD ratio (from 0 to 0.31) indicates significantly improved biodegradability. Dinitrodiazophenol dosage was measured by high performance liquid chromatography, which showed that dinitrodiazophenol removal efficiency reached 99.99%. Furthermore, the degradation process was analyzed by ultraviolet-visible spectra and Fourier transform infrared spectra. The former demonstrated that aromatic compounds in the system were destroyed during mineralization and the latter indicated that nitro groups on the benzene ring could be oxidized to nitrate. After verification test of the free radicals, mechanism of heat-activated persulfate system was assumed to be that SO4˙- and ·OH function together and SO4˙- predominate. To conclude, the heat-activated PS oxidation technology performs effectively in treatment of DDNP wastewater and expands applications of sulfate-radical-based advanced oxidation technology in industrial-wastewater treatment.

[Mechanism of Mitochondria-mediated Pathway in the Platelet Apoptosis Resulted from Immune Bone Marrow Failure].

OBJECTIVE: To explore the mechamisms of mitochondria-mediated pathway in apoptosis of platelets resulted from in immune induced bone marrow failure. METHODS: Thirty C57BL/6 mice were randomly divided into 3 groups (10 mice in each group): normal group, model group, cyclosporine A(CsA) group. Mouse model of immune bone marrow failure were established. After mouse model was successfully established, the mice in normal group and model group were given saline orally, the mice in CsA group was treated with CsA orally. Blood routine examination of mice in each group was performed by automatic blood cell analyzer; the mitochondrial membrane potential(ΔΨm), cytochrome C(Cyt C), phosphatidylserine (PS), Ca2+ were measured by flow cytometry; expression of BAX, BAK, caspase-3, caspase-8, caspase-9 was detected by using Western blot method, the changes of bone marrow platelet ultrastructure were observed under transmission electron microscope. RESULTS: Compared with normal group, the platelet count of model group decreased significantly, while the level of ΔΨm, caspase-3, caspase-8, caspase-9 significantly decreased, the level of Cyt C, PS, Ca2+, BAX, BAK increased significantly (P<0.05). Compared with the model group, the platelet count of CsA group increased obviously, while the level of ΔΨm, caspase-3, caspase-8, caspase-9 of CsA group increased significantly, the level of Cyt C, PS, Ca2+, BAX, BAK of CsA group decreased significantly (P<0.05). Electron microscopy showed that compared with the model group, platelet damage in CsA group were alleviated. CONCLUSION: mitochondrial pathway plays an important role in the reduction of platelet resulted from immune bone marrow failure.