A novel bioprospecting strategy via 13C-based high-throughput probing of active methylotrophs inhabiting oil reservoir surface soil.

Methane-oxidizing bacteria (MOB) have long been considered as a microbial indicator for oil and gas prospecting. However, due to the phylogenetically narrow breath of ecophysiologically distinct MOB, classic culture-dependent approaches could not discriminate MOB population at fine resolution, and accurately reflect the abundance of active MOB in the soil above oil and gas reservoirs. Here, we presented a novel microbial anomaly detection (MAD) strategy to quantitatively identify specific indicator methylotrophs in the surface soils for bioprospecting oil and gas reservoirs by using a combination of 13C-DNA stable isotope probing (SIP), high-throughput sequencing (HTS), quantitative PCR (qPCR) and geostatistical analysis. The Chunguang oilfield of the Junggar Basin was selected as a model system in western China, and type I methanotrophic Methylobacter was most active in the topsoil above the productive oil wells, while type II methanotrophic Methylosinus predominated in the dry well soils, exhibiting clear differences between non- and oil reservoir soils. Similar results were observed by quantification of Methylobacter pmoA genes as a specific bioindicator for the prediction of unknown reservoirs by grid sampling. A microbial anomaly distribution map based on geostatistical analysis further showed that the anomalous zones were highly consistent with petroleum, geological and seismic data, and validated by subsequent drilling. Over seven years, a total of 24 wells have been designed and drilled into the targeted anomaly, and the success rate via the MAD prospecting strategy was 83 %. Our results suggested that molecular techniques are powerful tools for oil and gas prospecting. This study indicates that the exploration efficiency could be significantly improved by integrating multi-disciplinary information in geophysics and geomicrobiology while reducing the drilling risk to a greater extent.

Light/glutathione-ignited nanobombs integrating azo and tetrasulfide bonds for multimodal therapy of colorectal cancer.

Reactive chemical bonds are associated with the generation of therapeutic radicals and gases under internal-external stimuli, which are highly attractive for cancer treatments. However, designing multifunctional nanostructures that incorporate multiple chemical bonds remains a significant challenge. Herein, novel core-shell nanobombs integrating azo (NN) and tetrasulfide bonds (SSSS) have been constructed with sensitive ignition by both near-infrared (NIR) laser and tumor microenvironments (TME) for treating colorectal tumors. The nanobombs (GNR/AIPH@MON@PVP, GAMP) were prepared by the in-situ growth of tetrasulfide-contained mesoporous organosilica nanoshell (MON) on gold nanorods (GNR) as the photothermal initiator, the load of azo compound (AIPH) as the radical producer and polymer modification. Upon NIR irradiation, the GNR core exhibits stable and high photothermal effects because of the passivation of the MON shell, leading to the thermal ablation of cancer cells. Simultaneously, the local hyperthermia ignites AIPH to release alkyl radicals to cause extensive oxidative stress without oxygen dependence. Moreover, the MON shell can be gradually decomposed in a reduced environment and release therapeutic H2S gas because of the cleavage of SSSS bonds by the glutathione (GSH) overexpressed in TME, causing mitochondrial injury. Owing to multifunctional functions, the GAMP significantly inhibits the growth rate of tumors upon NIR irradiation and achieves the highest efficacy among treatments. Therefore, this study presents activatable nanoagents containing multiple chemical bonds and provides insights into developing comprehensive antitumor strategies.

Hotspots and future trends of autophagy in Traditional Chinese Medicine: A Bibliometric analysis.

Objective: To discuss the hotspots and future trends of autophagy in traditional Chinese medicine (TCM) and provide a reference for researchers in this field. Method: Using visual analysis tools, metrological statistics and visual research on the pertinent literature in the area of autophagy use in TCM were undertaken in the core collection database of the Web of Science. By examining the authors, keywords, research circumstances, research hotspots, and trends of linked research, the use of autophagy in TCM was investigated. Results and Conclusions: A total of 916 studies were included, among which Beijing University Chinese Medicine was the largest number of advantageous research institutions, followed by Shanghai University Traditional Chinese Medicine and Guangzhou University Chinese Medicine.The keywords of literature research primarily comprise apoptosis, activation, inhibition, pathway, mechanism, oxidative stress, proliferation, NF-κB, cancer, mtor, etc. At present, the research on autophagy in the field of TCM is increasing on a year-to-year basis. The research has focused on the role played by TCM in malignant tumors, atherosclerosis, Alzheimer's disease through autophagy, and the regulation of autophagy signaling pathways (e.g., PI3K/AKT/mTOR signaling pathway, TLR4 signaling pathway,nrf2 signaling pathway and NF-κB signaling pathway). In the future, the therapeutic effect of TCM on chemotherapy-resistant tumor cells through autophagy pathway, the role of TCM mediating mitophagy and activating autophagy function, and the therapeutic effect of TCM components represented by luteolin on tumors, asthma, myocardial injury and other diseases through autophagy mechanism will be the research hotspots in the future.

Eight new 2-(2-phenylethyl)chromone derivatives from agarwood of Aquilaria sinensis with anti-inflammatory activity.

Eight previously unknown 2-(2-phenylethyl)chromone derivatives, called aquichromones A - E (1-3, 5 and 6) and 8-epi-aquichromone C (4), including two pairs of enantiomers [(±)-1 and (±)-2] were isolated from the agarwood of Aquilaria sinensis. The structures and absolute stereochemistry of these natural products were elucidated by using spectroscopic and computational methods. The result of biological assay showed that two members of this group, 4 and 5, have significant dose-dependent anti-inflammatory activity.

Construction of PEGylated chlorin e6@CuS-Pt theranostic nanoplatforms for nanozymes-enhanced photodynamic-photothermal therapy.

Multifunctional nanoagents with photodynamic therapy (PDT) and photothermal therapy (PTT) functions have shown great promise for cancer treatment, while the design and synthesis of efficient nanoagents remain a challenge. To realize nanozyme-enhanced PDT-PTT combined therapy, herein we have synthesized the Ce6@CuS-Pt/PEG nanoplatforms as a model of efficient nanoagents. Hollow CuS nanospheres with an average diameter of âˆ¼ 200 nm are first synthesized through vulcanization using Cu2O as the precursor. Subsequently, CuS nanospheres are surface-decorated with Pt nanoparticles (NPs) as nanozyme via an in-situ reduction route, followed by modifying the DSPE-PEG5000 and loading the photosensitizer Chlorin e6 (Ce6). The obtained Ce6@CuS-Pt/PEG NPs exhibit high photothermal conversion efficiency (43.08%), good singlet oxygen (1O2) generation ability, and good physiological stability. In addition, Ce6@CuS-Pt/PEG NPs show good catalytic performance due to the presence of Pt nanozyme, which can effectively convert H2O2 to O2 and significantly enhance the production of cytotoxic 1O2. When Ce6@CuS-Pt/PEG NPs dispersion is injected into mice, the tumors can be wholly suppressed owing to nanozyme-enhanced PDT-PTT combined therapy, providing better therapeutic effects compared to single-mode phototherapy. Thus, the present Ce6@CuS-Pt/PEG NPs can act as an efficient multifunctional nanoplatform for tumor therapy.

Retro-dihydrochalcones from the resin of Daemonorops draco and their inhibitory activities against renal fibrosis.

Daedracoflavan A-E (1-5), five new flavonoids were isolated from the resin of Daemonorops draco. Their structures including absolute configurations were established by using spectroscopic and computational methods. All the compounds are new chalcones with the same retro-dihydrochalcone skeleton. Compound 1 features the presence of a cyclohexadienone unit originating from a benzene ring, and the ketone group of C-9 reduced to a hydroxyl group. The bioactivity of all isolated compounds was evaluated in kidney fibrosis and found that compound 2 could dose-dependently inhibit the expression of fibronectin, collagen I, and α-SMA in TGF-ß1-induced rat kidney proximal tubular cells (NRK-52E). Interestingly, the replacement of a proton by a hydroxyl group at C-4' seems to play a crucial role in anti-renal fibrosis activity.

Design and synthesis of cancer-cell-membrane-camouflaged hemoporfin-Cu9S8 nanoagents for homotypic tumor-targeted photothermal-sonodynamic therapy.

Multimodal therapies have aroused great interest in tumor therapy due to their highly effective antitumor effect. However, immune clearance limits the practical application of nanoagents-based multimodal therapies. To solve this problem, we have designed hemoporfin-Cu9S8 hollow nanospheres camouflaged with the CT26 cell membrane (CCM) as a model of multifunctional agents, achieving homologous-targeted synergistic photothermal therapy (PTT) and sonodynamic therapy (SDT). Hollow Cu9S8 as photothermal agents and carriers have been obtained through sulfurizing cuprous oxide (Cu2O) nanoparticles through "Kirkendall effect", and they exhibit hollow nanospheres structure with a size of ∼200 nm. Then, Cu9S8 nanospheres could be used to load with hemoporfin sonosensitizers, and then hemoporfin-Cu9S8 nanospheres (abbreviated as H-Cu9S8) can be further surface-camouflaged with CCM. H-Cu9S8@CCM nanospheres exhibit a broad photoabsorption in the range of 700-1100 nm and high photothermal conversion efficiency of 39.8% under 1064 nm laser irradiation for subsequent PTT. In addition, under the excitation of ultrasound, the loaded hemoporfin could generate 1O2 for subsequent SDT. Especially, H-Cu9S8@CCM NPs are featured with biocompatibility and homologous targeting capacity. When intravenously (i.v.) injected into mice, H-Cu9S8@CCM NPs display a higher blood circulation half-life (3.17 h, 6.47 times) and tumor accumulation amount (18.75% ID/g, 1.94 times), compared to H-Cu9S8 NPs (0.49 h, 9.68% ID/g) without CCM. In addition, upon 1064 nm laser and ultrasound irradiation, H-Cu9S8@CCM NPs can inhibit tumor growth more efficiently due to high accumulation efficiency and synergistic PTT-SDT functions. Therefore, the present study provides some insight into the design of multifunctional efficient agents for homotypic tumor-targeted therapy.

Xanthotoxol suppresses non-small cell lung cancer progression and might improve patients' prognosis.

BACKGROUND: Developing novel and effective drugs with less toxicity is urgent for non-small cell lung cancer (NSCLC) therapy. Xanthotoxol (Xan) is the major natural component of the medical plant Angelica dahurica with potential anti-cancer activities. PURPOSE: In this study, we aimed to demonstrate the effect and underlying mechanism of Xan in NSCLC and evaluate the effectiveness of Xan in NSCLC patients. METHODS: CCK8, colony formation, EdU, flow cytometry, and transwell assays were carried out to investigate the anti-NSCLC activity of Xan in vitro. In addition, the xenograft mouse model was established to evaluate the anti-NSCLC effect of Xan in vivo. Moreover, bioinformatics analysis was performed to establish a prediction model based on RNA sequencing data. Furthermore, Western blot was used to detect the expression of proteins regulated by Xan. RESULTS: Xan inhibited the cell viability, colony formation capacity, DNA replication, cell cycle transition, migration and invasion, as well as inducing apoptosis of NSCLC cells. In addition, Xan suppressed NSCLC xenograft growth in vivo without obvious toxicity. Interestingly, bioinformatics analyses based on the RNA sequencing data indicated that Xan exerted inhibitory effects on NSCLC cells by down-regulating signals contributing to NSCLC progression and demonstrated that Xan was effective in ameliorating the prognosis of NSCLC patients with a new proposed prediction model. Moreover, Xan was shown to regulate cell cycle arrest, apoptosis, and epithelial-mesenchymal transition (EMT)-associated genes through downregulating PI3K-AKT signaling, thus suppressing NSCLC proliferation and metastasis. CONCLUSIONS: Taken together, our work proved that Xan induced cell cycle arrest, facilitated apoptosis, and inhibited EMT processes through downregulating the PI3K-AKT pathway to suppress NSCLC progress. Moreover, we also proposed a new model for evaluating Xan as a novel and effective drug in NSCLC treatments.

N6-methyladenosine modification of TGM2 mRNA contributes to the inhibitory activity of sarsasapogenin in rheumatoid arthritis fibroblast-like synoviocytes.

BACKGROUND: Developing alternative targets and drugs for rheumatoid arthritis (RA) treatment is currently an urgent issue. The relationship between TGM2 and the abnormal immune microenvironment in synovium tissues, as well as the specific role of TGM2 in RA are yet to be elucidated. Sarsasapogenin (Sar) is a sapogenin extracted from the Chinese medical herb Anemarrhena asphodeloides Bunge. and served as a representative anti-inflammatory drug capable of ameliorating inflammatory responses in several human diseases. However, the therapeutic effect of Sar on RA remains unknown. PURPOSE: This investigation aims to elucidate the role of TGM2 in RA and investigate whether Sar is a candidate drug to target TGM2 of fibroblast-like synoviocytes (FLS). METHODS: Bioinformatics analyses were applied for elucidating the role of N(6)-methyladenine (m6A) RNA methylation in RA and identifying the specific target regulated by m6A methylation in RA-FLS. Methylated RNA immunoprecipitation, CCK8 assay, Edu assay, flow cytometry, RT-qPCR and Western blot were utilized to investigate the function of Sar and TGM2 in RA-FLS. RESULTS: Bioinformatics analyses emphasized the importance of m6A RNA methylation in RA and identified an m6A methylation-mediated gene TGM2. Interestingly, both m6A RNA methylation and TGM2 expression in RA synovium tissues correlated with activated immuno-inflammatory phenotype and associated with clinical characteristics and therapy response of RA patients. TGM2 served as a promoter of RA-FLS proliferation by inducing DNA replication and cell cycle transition and inhibiting apoptosis through activating NF-κB signaling. Intriguingly, Sar could impair m6A methylation of TGM2 mRNA and downregulate TGM2 expression. Downregulated TGM2 contributed to the suppressive role of Sar in DNA replication and the stimulatory role of Sar in cell cycle arrest and apoptosis of RA-FLS. Mechanically, Sar inhibited the expression of key regulators in DNA replication, cell cycle, and apoptosis by impairing NF-κB signaling, thus abolishing FLS proliferation to ameliorate RA progression. CONCLUSIONS: This cross-validated work based on three independent datasets is detailedly delineated using cell lines and clinical samples, recognizing that TGM2 can be an attractive target and Sar might be a novel anti-RA drug.

Demethyleneberberine induces cell cycle arrest and cellular senescence of NSCLC cells via c-Myc/HIF-1α pathway.

BACKGROUND: Demethyleneberberine (DMB) is a natural active component of medicinal plant Cortex phellodendri chinensis with favorable bioactivity. However, the role of DMB in suppressing non-small cell lung cancer (NSCLC) remains unknown. PURPOSE: In this study, we aimed to examine the effect and underlying mechanism of DMB in suppressing NSCLC. METHODS: CCK8 assay and colony formation assay were utilized to assess the efficiency of DMB on the viability and colony formation capacity of NSCLC cells. Flow cytometry and ß-Galactosidase Staining Kit were utilized to determine the efficiency of DMB on the cell cycle and cellular senescence of NSCLC cells. RT-qPCR and Western blot were used to detect the effect of DMB on cell cycle and cellular senescence related gene and protein expression of NSCLC cells. In vivo tumor model was established to evaluate the anti NSCLC effect of DMB. In addition, RNA-seq analysis was performed to detect the differential gene expression after DMB treatments. RESULTS: In this study, we revealed that DMB exhibits efficient inhibitory effect on NSCLC cell proliferation and tumor xenografts growth in vivo. We also demonstrated that DMB could inhibit cell migration by suppressing epithelial-mesenchymal transition (EMT) and trigger cell cycle arrest by down-regulating the expression of cell cycle related genes in NSCLC cells. In addition, DMB treatment efficiently induces cellular senescence of NSCLC cells. From the RNA-seq analysis, we found that DMB accelerates senescence through suppressing HIF-1α expression, which was further elucidated by overexpressing HIF-1α in NSCLC to reduce the inhibitory effect of DMB. Furthermore, we also revealed that DMB decreases the expression of c-Myc, an up-stream protein of HIF-1α. CONCLUSIONS: Taken together, we first report that DMB inhibits NSCLC progress through inducing cell cycle arrest and triggering cellular senescence by downregulating c-Myc/HIF-1α pathway.

[Clinical effect and mechanism of Jin's three-needle combined with Tongdu Tiaoshen acupuncture for intellectual disability in children].

OBJECTIVE: To observe the effect of Jin's three-needle combined with Tongdu Tiaoshen acupuncture on development level and activity of daily living in children with intellectual disability, and explore its mechanism. METHODS: A total of 60 children with intellectual disability were randomly divided into an observation group (30 cases, 2 cases dropped off) and a control group (30 cases, 2 cases dropped off). In the control group, rehabilitation training and routine acupuncture were adopted, 30 min each time, once a day, 6 times a week for 3 months. On the base of the treatment as the control group, Jin's three-needle combined with Tongdu Tiaoshen acupuncture were adopted in the observation group. Jin's three-needle was applied at Sishenzhen, Zhisanzhen, Naosanzhen and Niesanzhen for 1 h, Shouzhizhen and Zuzhizhen for 30 min. Tongdu Tiaoshen acupuncture was applied at Baihui (GV 20), Shenting (GV 24), Shuigou (GV 26), etc. for 30 min, once a day, 6 times a week for 3 months. Before and after treatment，the scores of developmental quotient (DQ) and activity of daily living (ADL) were recorded, and the serum levels of neuron-specific enolase (NSE) and monoamine neurotransmitters (dopamine [DA], norepinephrine [NE] and 5-hydroxytryptamine [5-HT]) were detected in the two groups. RESULTS: Compared before treatment, the scores of DQ and ADL and the serum levels of DA, NE, 5-HT after treatment were increased (P<0.05), the serum levels of NSE were decreased (P<0.05) in the two groups. After treatment, the scores of DQ and ADL and the serum levels of DA, NE, 5-HT in the observation group were higher than the control group (P<0.05), while the serum level of NSE was lower than the control group (P<0.05). CONCLUSION: On the base of rehabilitation training and routine acupuncture, Jin's three-needle combined with Tongdu Tiaoshen acupuncture can significantly improve development level and activity of daily living in children with intellectual disability, and its mechanism may be related to the regulation of serum levels of NSE and monoamine neurotransmitter.

Clinical effect and mechanism of / 中国针灸

OBJECTIVE@#To observe the effect of @*METHODS@#A total of 60 children with intellectual disability were randomly divided into an observation group (30 cases, 2 cases dropped off) and a control group (30 cases, 2 cases dropped off). In the control group, rehabilitation training and routine acupuncture were adopted, 30 min each time, once a day, 6 times a week for 3 months. On the base of the treatment as the control group, @*RESULTS@#Compared before treatment, the scores of DQ and ADL and the serum levels of DA, NE, 5-HT after treatment were increased (@*CONCLUSION@#On the base of rehabilitation training and routine acupuncture,

Highly efficient synthesis and monoamine oxidase B inhibitory profile of demethyleneberberine, columbamine and palmatine.

The biosynthesis of berberine alkaloids is thought to begin with the demethylation of berberine followed by methylation reactions to generate other type berberine alkaloids. This seemingly expeditious way to access berberine alkaloids has been stagnated for over half a century due to certain vexing synthetic problems, such as low isolated yield, complex operations and toxic reagents. We further investigated this bioinspired semi-synthesis strategy and significantly improved the synthetic efficacy, by providing a practical synthetic process for demethyleneberberine (DMB), columbamine and palmatine. Furthermore, we found that DMB (IC50, 9.06 µM) inhibited the activity of monoamine oxidase B (MAO-B), an enzyme that deaminates dopamine and is particularly involved in the pathology of Parkinson's disease. Besides, columbamine was able to decrease MAO-B activity by approximately 40%. These findings provide perquisites for further in vivo investigation to confirm the therapeutic potentiality of berberine alkaloids, DMB in particular.

CuS-NiS2 nanomaterials for MRI guided phototherapy of gastric carcinoma via triggering mitochondria-mediated apoptosis and MLKL/CAPG-mediated necroptosis.

Gastric carcinoma is one of the most lethal malignant tumors. As part of our long-term efforts on seeking effective diagnosis and therapeutic strategies of gastric cancer, we present herein novel ternary copper-based chalcogenide nanoplatform CuS-NiS2 nanomaterials with outstanding photothermal (PT)/photodynamic (PD) property that could effectively suppress human gastric cancer in vitro and in vivo without obvious side effects. We revealed that CuS-NiS2 induced reactive oxygen species (ROS) generation, leading to apoptosis through Bcl-2/Bax pathway of human gastric cancer cells under 808 nm near-infrared (NIR) irradiation. In addition, we also confirmed that the combination of CuS-NiS2 and 808 nm NIR laser treatment triggered necroptosis by regulating the novel pathway MLKL/CAPG of human gastric cancer cells. Moreover, the CuS-NiS2 exhibited excellent contrast enhancement according to magnetic resonance imaging (MRI). Taken together, we reported new ternary copper-based chalcogenide nanomaterials CuS-NiS2, which could be successfully applied for MRI-guided PT/PD therapy of gastric carcinoma through mitochondria-mediated apoptosis and MLKL/CAPG-mediated necroptosis.

A smart theranostic platform for photoacoustic and magnetic resonance dual-imaging-guided photothermal-enhanced chemodynamic therapy.

The use of smart theranostic agents in multimodal imaging and treatment is a promising strategy to overcome the limitations of single mode diagnosis and treatment, and can greatly improve the diagnosis and effects of treatment. In this study, a gold@manganese dioxide (Au@MnO2) core-shell nanostructure was designed as a glutathione (GSH)-triggered smart theranostic agent for photoacoustic and magnetic resonance (MR) dual-imaging-guided photothermal-enhanced chemodynamic therapy. Both in vitro and in vivo experiments demonstrated not only that the photoacoustic and MR imaging function of Au@MnO2 could be activated by a high endogenous GSH concentration, but also that after being triggered by the endogenous GSH, Au@MnO2 had an excellent synergistic treatment effect in photothermal-enhanced chemodynamic therapy under the guidance of photoacoustic and MR imaging. This study demonstrated that the use of GSH-triggered Au@MnO2 in photoacoustic and MR dual-imaging-guided photothermal-enhanced chemodynamic therapy is a smart theranostic nanoplatform for the accurate diagnosis and efficient treatment of cancer.

Activation of heme oxygenase-1 by Ginkgo biloba extract differentially modulates endothelial and smooth muscle-like progenitor cells for vascular repair.

Vascular progenitors such as endothelial progenitor cells (EPCs) and smooth muscle-like progenitor cells (SMPCs) may play different roles in vascular repair. Ginkgo biloba extract (GBE) is an exogenous activator of heme oxygenase (HO)-1, which has been suggested to improve vascular repair; however, the detailed mechanisms have yet to be elucidated. This study aimed to investigate whether GBE can modulate different vascular progenitor cells by activating HO-1 for vascular repair. A bone marrow transplantation mouse model was used to evaluate the in vivo effects of GBE treatment on wire-injury induced neointimal hyperplasia, which is representative of impaired vascular repair. On day 14 of GBE treatment, the mice were subjected to wire injury of the femoral artery to identify vascular reendothelialization. Compared to the mice without treatment, neointimal hyperplasia was reduced in the mice that received GBE treatment for 28 days in a dose-dependent manner. Furthermore, GBE treatment increased bone marrow-derived EPCs, accelerated endothelial recovery, and reduced the number of SMPCs attached to vascular injury sites. The effects of GBE treatment on neointimal hyperplasia could be abolished by co-treatment with zinc protoporphyrin IX, an HO-1 inhibitor, suggesting the in vivo role of HO-1. In this in vitro study, treatment with GBE activated human early and late EPCs and suppressed SMPC migration. These effects were abolished by HO-1 siRNA and an HO-1 inhibitor. Furthermore, GBE induced the expression of HO-1 by activating PI3K/Akt/eNOS signaling in human late EPCs and via p38 pathways in SMPCs, suggesting that GBE can induce HO-1 in vitro through different molecular mechanisms in different vascular progenitor cells. Accordingly, GBE could activate early and late EPCs, suppress the migration of SMPCs, and improve in vivo vascular repair after mechanical injury by activating HO-1, suggesting the potential role of pharmacological HO-1 activators, such as GBE, for vascular protection in atherosclerotic diseases.

Mn-Porphyrin-Based Metal-Organic Framework with High Longitudinal Relaxivity for Magnetic Resonance Imaging Guidance and Oxygen Self-Supplementing Photodynamic Therapy.

A nanoplatform for magnetic resonance imaging guidance and oxygen self-supplementing photodynamic therapy (PDT) was constructed on the basis of a porous metal-organic framework (PCN-222(Mn)), which was built by simple Mn-porphyrin ligands and biocompatible Zr4+ ions. Because of the good dispersibility of Mn3+ in the open framework and the high water affinity of the channel, PCN-222(Mn) exhibits a high longitudinal relaxivity of ∼35.3 mM-1 s-1 (1.0 T). In addition, it shows good catalytic activity for the conversion of endogenous hydrogen peroxide into oxygen, thereby improving tumor hypoxia during photodynamic therapy. The intravenous injection of PCN-222(Mn) into tumor-bearing mice mode provided good T1-weighted contrast of the tumor site and effectively inhibited tumor growth upon a single-laser irradiation. The findings provide insights for the development of multifunctional theranostic nanoplatforms based on simple components.

Surface Plasmon Resonance-Enhanced Photoacoustic Imaging and Photothermal Therapy of Endogenous H2 S-Triggered Au@Cu2 O.

Smart theranostics agents triggered by endogenous H2 S with combined activated photoacoustic imaging and photothermal therapy can improve the diagnosis and treatment of colon cancer. However, the low theranostic performance of the current smart theranostics agents after the triggering step has limited their further application. In this work, the theranostic performance of endogenous H2 S-triggered Au@Cu2 O for the diagnosis and treatment of colon cancer, which is generated from the localized surface plasmon resonance coupling effect between a noble metal (Au) and a semiconductor (Cu2 O), is investigated. Compared with Cu2 O, the prepared H2 S-triggered Au@Cu2 O shows a significantly stronger absorption at the near-infrared region, such as a ≈2.1 times change at 808 nm, giving a photothermal conversion efficiency increase of ≈1.2 times. More importantly, Au@Cu2 O still exhibits good photoacoustic imaging contrast and photothermal properties for treatment of colon cancer in vivo even at very low injection doses. This work not only investigates an endogenous H2 S-triggered Au@Cu2 O theranostic agent with enhanced theranostic performance for colon cancer but also provides a novel strategy for designing high-performance theranostic agents.

Application and safety of hydroxychloroquine sulfate in rheumatic diseases:a multicenter retrospective study in Suzhou / 中国实用内科杂志

OBJECTIVE: A multicenter survey is conducted to study the application,the long-term effect and safety of hydroxychloroquine(HCQ)in the treatment of rheumatic diseases in Suzhou. METHODS: Retrospectively collect the data of outpatients and inpatients from Rheumatology Department of four general hospitals in Suzhou(the First Affiliated Hospital of Suzhou University, and Suzhou Hospital of Traditional Chinese Medicine, the First People's Hospital of Kunshan, the First People's Hospital of Changshu)from June 2017 to July 2018. A special questionnaire was used to collect data on general information, diagnosis, methods and courses in the use of hydroxychloro-quine, duration, efficacy and compliance, combined medication, adverse reactions of ophthalmology and other systems, and the use of hydroxychloroquine(HCQ)during pregnancy.Result Totally there were 856 cases, including 68 males(7.9%)and 788 females(92.1%).Classification of diseases: 147 cases of RA(including secondary SS of RA), 425 cases of SLE,12 cases of APS, 167 cases of PSS,104 cases of others, and 1 case of overlap syndrome(RA with SLE)The treatment course of HCQ: minimum 0.5 years, maximum 22.75 years, with an average of 3.59(SD=3.08)years.Dosage: 0.2 g/day in 604 cases, 0.4 g/day in 424 cases, 193 cases of using 0.4 and 0.2 successively, and 21 in other cases;721 cases used continuously. There were adverse reactions in 183 cases(7 males and 176 females), which were distributed in 30 cases of RA, 105 cases of SLE, 2 cases of APS, 31 cases of SS and 15 other cases. Ophthalmological adverse reactions occurred in 70 cases, with positive correlation in 4 cases. Ophthalmological examination: 121 cases(14.1%)every year;68 cases(7.9%)every two years. There were 92 cases of adverse skin reactions, with 8 cases of positive correlation. Other systems had few adverse reactions and there was no positive correlation. Continuous medication, combination of anti-rheumatic drugs and adverse reactions were associated, and continuous medication or combination of anti-rheumatic drugs were significantly associated with adverse reactions in ophthalmology and skin, respectively. The adverse reactions of ophthalmology were related to the course of treatment, and the adverse reactions of fundus increased after taking medicine for more than 7 years.There were 37 pregnancies and HCQ was used in 17 cases throughout pregnancy, and only 1 case had non-drug-related neonatal defects. CONCLUSION: HCQ is mainly used in the treatment of SLE, SS, RA and APS in Rheumatology Department in Suzhou. HCQ medication is standardized, but ophthalmic follow-up monitoring is not. Adverse reactions are mainly in skin and ophthalmology. Continuous medication and combination of antirheumatic drugs are associated factors of adverse reactions.Long-term treatment with HCQ is safe and well-toleratrd.