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Fraxinus rhynchophylla Hance, is a deciduous trees cultivated on a commercial scale focused on medicinal and wood production. In September 2021, leaf spot was observed on F. rhynchophylla in Heilongjiang Province (127.34°E, 45.19°N), China. These symptoms were observed on 100% F. rhynchophylla plants and the incidence of diseased leaves per plant reached 70% in fields measuring 90 ha. Disease symptoms were small yellow flecks initially, and then turned to gray necrotic spot. Ten diseased leaves were collected randomly from 5 plants and surface disinfested. Tissue samples (2 × 2 mm) were cut at the disease-health junction of the leaves, surface sterilized in 75% ethanol for 30 s, submerged in a 7% NaOCl solution for 3 mins, and rinsed three times with sterile water. Leaf segments were placed onto potato dextrose agar (PDA) and incubated at 26â for 5 days. After isolation and purification of monospore, the colonies of the all isolates were inky black, with aerial fluffy mycelium, and concentric whorls on PDA. The conidiophore is septate, single-branched, brown, smooth and 35 - 313 × 2 - 5 µm in size (n = 50), while the conidia are brown, bow-shaped, mostly four cells, with three septa and 12 - 385 × 5 - 20 µm in size (n = 150). The morphological characters matched those of Curvularia muehlenbeckiae (Madrid et al. 2014). DNA was extracted from isolates HQLa and HQLb and used for PCR amplification of RNA polymerase II gene (RPB2) and glyceraldehyde 3-phosphate dehydrogenase (GAPDH) gene sequences using the primer fRPB2-SF/fRPB2-7Cr (Schoch et al. 2009), gpd1/gpd2 (Berbee et al. 1999), respectively. The RPB2 (OM984674, OM984675) and GAPDH (OM984672, OM984673) were deposited in GenBank. The phylogenetic tree was constructed by combining other published sequences of RPB2 and GAPDH genes using the maximum likelihood method, and the results showed that the obtained isolates clustered into the same clear branch as C. muehlenbeckiae CBS 144.63 (HG779180, HG779108), with 100% bootstrap support. Combining morphological characteristics and phylogenetic analysis of the fungus, the obtained isolates were identified as C. Muehlenbeckiae. To fulfill the Koch's postulates, pathogenicity tests were carried out on newly grown leaves of F. rhynchophylla. Conidia of the selected isolates grown on PDA plates were flooded with sterile distilled water. Spore suspension was adjusted to 105 spores/mL with the hemocytometer. Three leaves of each plant were disinfected with 1% NaOCl for 2 min, washed with sterilized distilled water three times, and dried with sterile paper towels. Three plants were randomly selected for inoculation under field conditions and each leaf was sprayed with 2 mL of the spore suspension for a total of nine leaves, then the plants were bagged and moistened for 48 h. However, control leaves were sprayed with distilled water. Symptoms were observed nine days after inoculation. No symptoms were observed on control leaves. The same fungus was successfully re-isolated from the lesions. The experiment was replicated three times with the same results and C. muehlenbeckiae identification was confirmed by morphological observations and RPB2 and GAPDH sequencing, indicating that the fungus is the causal pathogen of leaf spot disease on F. rhynchophylla. This is the first report of C. muehlenbeckiae determined as fungal pathogens on F. rhynchophylla plant in China. The results of the study laid the foundation for the future occurrence and epidemiological pattern of the disease and scientific control.
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Clematis brevicaudata DC. is distributed in China, Korea, Mongolia, Russia and Japan. This plant is both ornamental and medical, used in the treatment of nervous disease, dyskinesia and other diseases. In September, 2019, a leaf spot on C. brevicaudata was first found in a 5 ha C. brevicaudata plantation in Harbin, Heilongjiang Province, China. The incidence was about 80%. The symptoms were elliptical, circular, or irregular brown to black necrotic lesions in leaf apex and leaf margin. Ten fresh sample leaves with typical symptoms were collected from ten C. brevicaudata plants. The tissues (5mm×5mm) between symptomatic and healthy junction were cut and surface disinfected in 75% ethanol, and with 7% NaClO for 1 min, then rinsed three times with sterilized water, 30s each time. The sterilized tissues were inoculated on potato dextrose agar (PDA) plates for 7 days at 25â. The colonies were obtained and transferred onto new PDA and potato carrot agar (PCA) plates by single spore method to further purify. After 7 days, the colonies on PDA were 50 to 63 mm in diameter, circular, grayish brown, with white aerial hyphae. A total of 150 conidia on PCA were single or in chains, ovoid, inverted pear, 2 to 7 transverse septa, 0 to 3 longitudinal or oblique septa, 17.5 to 57.5 × 7.5 to 17.5 µm. Beaks and supposititious beaks were mostly columnar, rarely conical, 2.5 to 6.0 × 2.0 to 3.0 µm. Conidiophores were solitary or clustered, pale brown, erect or bent, branched or unbranched, separated, 112.0 to 151.0 × 5.1 to 14.7 µm. Ten isolates purified on PDA were obtained. Morphological identification showed the ten isolates were similar and appeared to be Alternaria alternata (Simmons, 2007). Two strains from ten isolates were selected for molecular identification. Genomic DNA was extracted from mycelia of two isolates (LD2020520 and LD2020521) on PDA using a modified CTAB method. Internal transcribed spacer rDNA regions (ITS), RNA polymerase II second largest subunit gene (RPB2), Alternaria major allergen (Alt a 1), endopolygalacturonase (endoPG) and glyceraldehyde 3-phosphate dehydrogenase (gpd) were amplified and sequenced using two directional sequencing with the primers ITS1/ITS4, RPB2-F/RPB2-R, Alt-F/Alt-R, end-F/end-R and gpd-F/gpd-R (Woudenberg et al. 2015). The sequences obtained were deposited in GenBank (ITS: MT501762, OK571395; RPB2: MT506027, OK631891; Alt a 1: MT506026, OK631890; endoPG: ON054189, ON054188; gpd: ON054191, ON054190). The phylogenetic analysis of maximum-likelihood tree by MEGA 7 software showed that the two isolates had 99% identity with the A. alternata CBS 916.96. For pathogenicity testing, eighteen leaves of six 5-week-old plants were sprayed with spore suspensions (1×106 spores /mL) of the 7 days-old isolates LD2020521 and LD2020520 (Each isolate infected three plants and each infected three leaves). Three plants were sprayed with sterile distilled water as a control group. The plants were incubated at 25â. After 15 days, taupe irregular spots appeared on the leaves. The pathogenicity test was repeated three times. The same fungi were re-isolated from the inoculated leaves and with the same morphological and molecular characteristics as LD2020520 and LD 2020521, fulfilling Koch's postulates. No fungi were isolated from the control group. This is the first report of leaf spot on C. brevicaudata caused by A. alternata. Leaf spot can reduce the yields of C. brevicaudata. This study provides a reference for the prevention and treatment to the leaf spot of C. brevicaudata.
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Ligusticum jeholense (Nakai et Kitagawa) Nakai et Kitagawa is one of the sources of Chinese herb "Gao-Ben". It is widely distributed in the Northeastern China. L. jeholense has antipyretic, antibacterial and anti-inflammatory effects (Zhang et al. 2021). In September 2021, a serious leaf blight was found in a 1.2 ha plantation of L. jeholense in Harbin, Heilongjiang Province, and the incidence was about 85%. The foliar symptoms were grayish-brown lesions, surrounded by a yellow margin at the edge of the leaf. In serious cases, the lesions extended into the middle of the leaf, and finally the whole leaf withered. A total of 12 samples (5×5mm) from symptomatic and healthy junction of 12 infected leaves from 6 different plants of L. jeholense with typical symptoms were cut and surface disinfected in 75% ethanol, and with 7% NaClO for 1 min, then rinsed three times with sterilized water. These tissues were placed onto Potato dextrose agar (PDA) plates at 28â in the dark. The colonies cultured for 7 days were obtained and transferred onto new PDA and potato carrot agar (PCA) plates by single spore method to further purify. After 7 days, the colonies on PDA were 63 to 75 mm in diameter, circular, grayish, with white aerial hyphae on the edge, the back of the colonies were grayish green. A total of 150 conidia on PCA were single or in chains, ovoid, inverted pear, 2 to 6 transverse septa, 0 to 3 longitudinal or oblique septa, 16.5 to 67.5 × 8.5 to 20.5 µm. The beaks were conical or cylindrical, 2.5 to 25.3 × 2.0 to 3.0 µm. Conidiophores were grayish brown, erect or bent, separated, 57.0 to 137.0 × 5.1 to 13.7 µm. Morphological characteristic showed the 12 isolates were the same fungus and similar to Alternaria sp. (Simmons 2007). Two typical strains (LGB and LGB2) from twelve isolates were randomly selected for molecular identification. Genomic DNA was extracted from mycelia of two isolates on PDA by modified CTAB method, and internal transcribed spacer rDNA regions (ITS), RNA polymerase II second largest subunit (RPB2) and Alternaria major allergen (Alt a 1), translation elongation factor 1-alpha (TEF) and glyceraldehyde-3-phosphate dehydrogenase (gpd) gene were amplified and sequenced with the primers ITS1/ITS4, RPB2-5F2/RPB2-7CR, Alt-F /Alt-R, TEF-F/TEF-R and gpd-F/gpd-R (Woudenberg et al. 2015). The obtained sequences were deposited in GenBank (ITS: OM319506, OM943431; RPB2: OM393721, OM984854; Alt a 1: OM649816, OM984853; TEF: OM238108, OM984852; gpd: OM296228, OM984851). The phylogenetic analysis of maximum-likelihood tree by MEGA7 showed the LGB and LGB2 had 100% identity with A. alternata CBS 916.96. For pathogenicity test, conidial suspension (1 × 106 spores/mL) of the strain LGB and LGB2 was sprayed on 10 healthy 40-day-old L. jenholense plants and five plants with sterile water as control. The plants were incubated at 25â. After 28 days, grayish withering appeared on the leaves. The test was repeated three times. The same fungi were re-isolated from the inoculated leaves and with the same morphological and molecular characteristics as A. alternata, fulfill the Koch's postulates. No symptoms and fungi were found in the control group. This is the first report of leaf blight on L. jenholense caused by A. alternata. Leaf blight could reduce the yields of L. jenholense. This study provides a reference for the prevention and treatment to the leaf blight of L. jenholense.
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In July 2019, leaf blight on Actaea dahurica, a plant with high value in Chinese traditional medicine, was discovered in a 2 ha planting area in Heilongjiang Province (129.6°E, 44.6°N), China. Disease incidence was 90% in the field. Symptoms consisted of irregular black spots with gray margins on both sides of the leaf, often at the leaf margin, mostly on the older leaves. To isolate the pathogen, ten diseased leaves were randomly collected, surface disinfested, and 5 x 5 mm segments were removed from the margin of the lesions. Leaf segments were placed onto potato dextrose agar (PDA) and incubated at 25 â for 7 days. Ten pure cultures with the same morphological characteristics were obtained from three leaves showing typical symptoms. Cultures on PDA initially had a cottony mycelium, white-gray to gray. After two to three weeks of growth, mycelium color changed from gray to black. Conidiophores were clustered, dark at the base, tapering to the apex, born from simple sublates, unbranched, with 1 to 5 septa, and 70.4-530.3 × 5-7.5 µm in size. Conidia were 12.5-82.5 × 5.2-20.3 µm, usually in chains, had 2 to 8 transverse septa, 0 to 4 longitudinal or oblique septa, and a smooth brown surface. Simple, pale, vimineous or verrucous beaks developed from the apical cells with 0 to 4 septa. The morphological characteristics were consistent with Alternaria species (Simmons, 2007). To fulfill Koch's postulates, pathogenicity tests were carried out on three-month-old A. dahurica plants. A spore suspension was prepared from PDA cultures of isolates SM0101 and SM0102 and adjusted to 105 spores/mL using a hemocytometer. Each leaf was sprayed with 2 mL of the spore suspension, then incubated at 25 â for 7 days. The same number of healthy A. dahurica plants were sprayed with sterile water as a control. After 7 days, small brown necrotic spots appeared on inoculated plants, but the control group showed no symptoms. A fungus with the same characteristics as that used for inoculation was re-isolated from the lesions. This experiment was replicated three times, and the results of each experiment were consistent. Genomic DNA was extracted from isolates SM0101 and SM0102 and used for PCR amplification of the rDNA internal transcribed spacer regions (ITS), RNA polymerase II gene (RPB2) and Alternaria allergen a 1 (Alt a 1) gene sequences using the primer pairs ITS1/ITS4 (White et al. 1990), RPB2-5F2/RPB2-7CR (Khodaei and Arzanlou, 2013) and Alt-for/Alt-rev (Hong et al. 2005), respectively. The ITS (OL703042, OL616086), RPB2 (OL703043, OL898416), and Alt a 1 sequences (OL616087, OL898415) were deposited in GenBank. The sequences obtained in this study had the highest match to corresponding sequences of Alternaria alternata CBS 916.96 (AF347031, KC584375, AY563301). For isolate SM0101 the matches were ITS (461/461 bp), RPB2 (897/985 bp), and Alt a 1 (488/488 bp). For isolate SM0202 the matches were ITS (457/457 bp), RPB2 (893/985 bp), and Alt a 1 (484/484 bp). A phylogenetic analysis was performed using MEGA7 software. The alignment included sequences from 16 ex-type Alternaria species and the two isolates causing leaf blight on A. dahurica. Branch supports were calculated with 1,000 bootstrap replicates, and phylogenetic inference was performed using the maximum likelihood estimation. The fungus isolated from A. dahurica clustered with A. alternata. This is the first report of A. alternata on A. dahurica in the world. This report will help to identify the disease symptoms in the field and provides a basis for research into the occurrence, distribution, and control of leaf blight on A. dahurica.
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Phedimus aizoon is native to east Asian countries that including China, Siberia, Korea, Mongolia, and Japan. In China, the plant is highly valued for use in folk medicine, for detoxification and analgesia, blood pressure, hemostasis, and used as an ornamental. In August 2021, a leaf spot and blight disease were observed on P. aizoon in a 120-ha field in Pizhou, Jiangsu Province, China where disease incidence reached 90%, and almost every leaf was withered. Early symptoms appeared as dark brown lesions on leaf margins that enlarged and coalesced to form large necrotic areas. In efforts to determine the cause of the disease, ten symptomatic leaves were randomly collected from ten different plants at the site. Diseased leaf pieces that measured 5 mm2 were disinfected in 75% ethyl alcohol for 30 s and 7% NaOCl for 60 s, rinsed three times in sterile distilled water, and placed on potato dextrose agar (PDA). Ten fungal isolates obtained by single-spore isolations were selected for further study. These isolates produced colonies that measured 70 to 82 mm in diameter after 7 days growth on PDA. Colonies were black to brown in color with gray-white aerial hyphae on their surfaces. The isolates produced conidia that were ovate to pear-shaped, brown to black in color, with 1 to 4 transverse septa and 0 to 1 oblique septa, smooth surfaced, parietal cells extending into the beak, and measured 10 to 35.5 × 5.0 to 12.5 µm. Conidiophores were brown, erect or curved, branched, with pronounced spore marks, and measured 7.5 to 37.5 × 2.5 to 5.0 µm. All ten fungal isolates were morphologically similar to Alternaria alternata (Simmons 2007). Two representative isolates FC01 and FC02 were used for molecular identification. The internal transcribed spacer (ITS) region, RNA polymerase second largest subunit (RPB2), glyceraldehyde-3-phosphate dehydrogenase (GAPDH), translation elongation factor 1-alpha (TEF1), and Alternaria major allergen (Alt a 1) were amplified with the primers ITS4/ITS5, RPB2-5F2/RPB2-7CR (Khodaei and Arzanlou 2013), gpd1/gpd2, EF1-728F/EF1-986R (Nishikawa and Nakashima 2020) and Alt-for/Alt-rev (Woudenberg et al. 2015). The resulting sequences were deposited in GenBank (ITS, ON584560, ON564492; RPB2, ON729984, ON703241; GAPDH, ON652866, ON652867; TEF1, ON652868, ON652869; Alta1, ON652870, ON652871). Phylogenetic analyses showed 100% identity between FC01 and FC02 and the type strain CBS 916.96. Thus, the fungus was identified as A. alternata based on morphology and molecular analysis. Pathogenicity tests were done by spraying conidial suspensions containing 106 conidia per ml of A. alternata isolates FC01 and FC02 on leaves of five healthy P. aizoon plants, separately. Five control plants were sprayed with distilled water and both sets of plants covered with plastic bags and placed in a greenhouse maintained at 25° C. Plastic bags were removed from plants after 48 h. Dark brown lesions developed on inoculated plants after 16 days and control plants remained symptomless. The pathogenicity tests were conducted three times. A. alternata was reisolated and identified based on morphological and molecular traits, thus fulfilling Koch's postulates. To our knowledge, this is the first report of A. alternata causing leaf blight on P. aizoon in China and worldwide. Based on the plant's medicinal value, further studies should be directed toward control of this disease.
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Leonurus japonicus is cultivated throughout China and is commonly used for medicinal, cosmetic, ornamental and culinary purposes. A leaf blight on L. japonicus was first observed in September 2021 in a field at a research and development farm in Liupu Town, Zhuji City (120.23°N, 29.72°E), Zhejiang Province, China. Disease incidence was more than 90% across the 30 ha. Symptoms included nearly round black to brown spots on the leaf margins that gradually enlarged causing leaves to wither. To isolate and identify the causal organism, 12 L. japonicus leaves from four different plants with typical symptoms were collected, and 5×5 mm tissues were excised at the junction of the diseased and healthy tissue. Samples were surface-sterilized in 75% ethanol for 30s, followed by 7% NaOCl for 1 min, and rinsed three times with sterile distilled water (Sun et al. 2022), and placed on potato dextrose agar (PDA) at 25â. After 7 d, single-spore isolations were conducted. (Zhu et al. 1992) After 8 d, the colonies on PDA were 75 to 86 mm diam, dark brown, with an irregular shape. A total of 150 conidia on PDA were an inverted rod shape or oval, dark brown, 20 to 45 × 7.5 to 11.3 µm, with a short beak and no septa; or columnar or conical, 2.5 to 20 × 2.5 to 5 µm, with 0 to 6 transverse septa, 0 to 3 longitudinal or oblique septa. The conidiophores were dark or branched, with multiple conidial scars, 15 to 62.5 × 3.0 to 5.0 µm. According to morphological characteristics observation, the 12 isolates were most similar to A. alternata (Simmons 2007). To further identify the fungal species, internal transcribed spacer (ITS) rDNA regions, and the following genes: glyceraldehyde-3-phosphate dehydrogenase (GAPDH), Alternaria major allergen (Alt a 1), RNA polymerase second largest subunit (RPB2) and translation elongation factor 1-alpha (TEF) were amplified and sequenced using the primers ITS4/ITS5, RPB2-5F/RPB2-7CR, gpd1/gpd2, EF1-728F/EF1-986R, and Alt-for/Alt-rev (Woudenberg et al. 2015). Sequences were uploaded (ITS: OM095432, OM095433; RPB2: OM275409, OM275410; GAPDH: OM275411, OM275412; TEF1: OM160771, OM160772; Alta1: OM160773, OM160774). The similarity of YMCLZL, YMCLZL01 and the type strain CBS 59593 T (KP124320, KP124175, KP125096, KP124788, JQ646399) on the phylogenetic tree was 97%. To evaluate pathogenicity, a conidial suspension (106 conidia/ml) of isolates YMCLZL or YMCLZL01 was sprayed on the leaves of six 15-day old healthy plants. The same number of plants were also sprayed with only distilled water as non-inoculated controls. Plants were covered with plastic bags at 25â for 48 h. After 8 d, inoculated plants had round, gray and black spots on leaves, while the control plants did not. The experiment was repeated three times. The fungus was reisolated from all diseased leaves fulfilling Koch's postulates. To our knowledge, this is the first report of L. japonicus leaf blight caused by A. alternata on L. japonicus worldwide. The occurrence of leaf blight will be challenging for the commercial production of L. japonicus.
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BACKGROUND/AIMS: Bitter-tasting chloroquine can suppress T cell activation by inhibiting Ca(2+) signaling. However, the mechanism of inhibition remains largely unclear. METHODS: In this study, CD4(+) T cells were isolated from the thymus, and the calcium content of CD4(+) thymocytes was measured using fura-2 AM and a TILL imaging system. Pyrazole-3 (Pyr3), thapsigargin (TG), and caffeine were used to assess the effects of chloroquine on the intracellular Ca(2+) content of CD4(+) T cells. RESULTS: In murine CD4(+) thymocytes, chloroquine decreased the TG-triggered intracellular Ca(2+) increase in a dose-dependent manner. In the absence of chloroquine under Ca(2+)-free conditions (0 mM Ca(2+) and 0.5 mM EGTA), TG induced a transient Ca(2+) increase. After restoration of the extracellular Ca(2+) concentration to 2 mM, a dramatic Ca(2+) increase occurred. This elevation was completely blocked by chloroquine and was markedly inhibited by Pyr3, a selective antagonist of transient receptor potential C3 (TRPC3) channel and stromal interaction molecule (STIM)/Orai channel. Furthermore, the TG-induced transient Ca(2+) increase under Ca(2+)-free conditions was eliminated in the presence of chloroquine. Chloroquine also blocked the dialyzed inositol-1,4,5-trisphosphate (IP3)-induced intracellular Ca(2+) increase. However, chloroquine was not able to decrease the caffeine-induced Ca(2+) increase. CONCLUSION: These data indicate that chloroquine inhibits the elevation of intracellular Ca(2+) in thymic CD4(+) T cells by inhibiting IP3 receptor-mediated Ca(2+) release from intracellular stores and TRPC3 channel-mediated and/or STIM/Orai channel-mediated Ca(2+) influx.
Assuntos
Linfócitos T CD4-Positivos/efeitos dos fármacos , Sinalização do Cálcio/efeitos dos fármacos , Cálcio/metabolismo , Cloroquina/farmacologia , Timócitos/efeitos dos fármacos , Animais , Linfócitos T CD4-Positivos/metabolismo , Cafeína/farmacologia , Células Cultivadas , Regulação da Expressão Gênica/efeitos dos fármacos , Masculino , Camundongos , Pirazóis/farmacologia , Tapsigargina/farmacologia , Timócitos/citologia , Timócitos/metabolismoRESUMO
It has been reported that bitter tastants decrease blood pressure and relax precontracted vascular smooth muscle. However, the underlying mechanisms remain unclear. The aim of the present study was to determine the mechanism underlying the vasorelaxant effect of the bitter tastants. Thoracic aortic rings were isolated from Wistar rats and contractions were measured using an isometric myograph. Intracellular Ca(2+) ([Ca(2+)]i) in single rat thoracic aortic smooth muscle cells was recorded by calcium imaging. Calcium currents in single cells were recorded using patch-clamp techniques. High K(+) (140 mmol/L) induced contractions in rat thoracic aortic rings that were inhibited by 3 mmol/L chloroquine, 3 mmol/L denatonium and 10 µmol/L nifedipine. In single rat thoracic aortic smooth muscle cells, high K(+) increased [Ca(2+)]i and this effect was also blocked by 3 mmol/L chloroquine and 10 µmol/L nifedipine. Under Ca(2+) -free conditions, high K(+) failed to induce contractions in rat thoracic aortic rings. On its own, chloroquine had no effect on the muscle tension of rat aortic rings and [Ca(2+) ]i. The vasorelaxant effects of chloroquine on precontracted rat thoracic aortic rings were not altered by either 1 µg/mL pertussis toxin (PTX), an inhibitor of Gαo/i-protein, or 1 mmol/L gallein, an inhibitor of Gßγ-protein. The results of patch-clamp analysis in single cells indicate that 1 mmol/L chloroquine blocks voltage-dependent L-type Ca(2+) channel (VDLCC) currents from both extracellular and intracellular sides. Together, the results indicate that chloroquine can block VDLCC, independent of PTX- and gallein-sensitive G-proteins, resulting in relaxation of high K(+)-precontracted thoracic aortic smooth muscle.
Assuntos
Aorta Torácica/efeitos dos fármacos , Aromatizantes/farmacologia , Potássio/farmacologia , Vasoconstrição/efeitos dos fármacos , Animais , Aorta Torácica/fisiologia , Cálcio , Cloroquina/farmacologia , Toxina Pertussis/farmacologia , Ratos , Ratos Wistar , Xantenos/farmacologiaRESUMO
A zinc-based metal organic framework, Zn-MOF-74, which has a unique one-dimensional (1D) channel and nanoscale aperture size, was rapidly obtained in 10 min using a de novo mild water-based system at room temperature, which is an example of green and sustainable chemistry. First, catalase (CAT) enzyme was encapsulated into Zn-MOF-74 (denoted as CAT@Zn-MOF-74), and comparative assays of biocatalysis, size-selective protection, and framework-confined effects were investigated. Electron microscopy and powder X-ray diffraction were used for characterization, while electrophoresis and confocal microscopy confirmed the immobilization of CAT molecules inside the single hexagonal MOF crystals at loading of â¼15 wt %. Furthermore, the CAT@Zn-MOF-74 hybrid was exposed to a denaturing reagent (urea) and proteolytic conditions (proteinase K) to evaluate its efficacy. The encapsulated CAT maintained its catalytic activity in the decomposition of hydrogen peroxide (H2O2), even when exposed to 0.05 M urea and proteinase K, yielding an apparent observed rate constant (kobs) of 6.0 × 10-2 and 6.6 × 10-2 s-1, respectively. In contrast, free CAT exhibited sharply decreased activity under these conditions. Additionally, the bioactivity of CAT@Zn-MOF-74 for H2O2 decomposition was over three times better than that of the biocomposites based on zeolitic imidazolate framework 90 (ZIF-90) owing to the nanometer-scaled apertures, 1D channel, and less confinement effects in Zn-MOF-74 crystallites. To demonstrate the general applicability of this strategy, another enzyme, α-chymotrypsin (CHT), was also encapsulated in Zn-MOF-74 (denoted as CHT@Zn-MOF-74) for action against a substrate larger than H2O2. In particular, CHT@Zn-MOF-74 demonstrated a biological function in the hydrolysis of l-phenylalanine p-nitroanilide (HPNA), the activity of ZIF-90-encapsulated CHT was undetectable due to aperture size limitations. Thus, we not only present a rapid eco-friendly approach for Zn-MOF-74 synthesis but also demonstrate the broader feasibility of enzyme encapsulation in MOFs, which may help to meet the increasing demand for their industrial applications.
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The effects of Ca2+ sparks on cerebral artery smooth muscle cells (CASMCs) and airway smooth muscle cells (ASMCs) tone, as well as the underlying mechanisms, are not clear. In this investigation, we elucidated the underlying mechanisms of the distinct effects of Ca2+ sparks on cerebral artery smooth muscle cells (CASMCs) and airway smooth muscle cells (ASMCs) tone. In CASMCs, owing to the functional loss of Ca2+-activated Cl- (Clca) channels, Ca2+ sparks activated large-conductance Ca2+-activated K+ channels (BKs), resulting in a decreases in tone against a spontaneous depolarization-caused high tone in the resting state. In ASMCs, Ca2+ sparks induced relaxation through BKs and contraction via Clca channels. However, the integrated result was contraction because Ca2+ sparks activated BKs prior to Clca channels and Clca channels-induced depolarization was larger than BKs-caused hyperpolarization. However, the effects of Ca2+ sparks on both cell types were determined by L-type voltage-dependent Ca2+ channels (LVDCCs). In addition, compared with ASMCs, CASMCs had great and higher amplitude Ca2+ sparks, a higher density of BKs, and higher Ca2+ and voltage sensitivity of BKs. These differences enhanced the ability of Ca2+ sparks to decrease CASMC and to increase ASMC tone. The higher Ca2+ and voltage sensitivity of BKs in CASMCs than ASMCs were determined by the ß1 subunits. Moreover, Ca2+ sparks showed the similar effects on human CASMC and ASMC tone. In conclusions, Ca2+ sparks decrease CASMC tone and increase ASMC tone, mediated by BKs and Clca channels, respectively, and finally determined by LVDCCs.
Assuntos
Sinalização do Cálcio/fisiologia , Cálcio/metabolismo , Músculo Liso/metabolismo , Animais , Sinalização do Cálcio/genética , Artérias Cerebrais/metabolismo , Artérias Cerebrais/fisiologia , Humanos , Camundongos , Músculo Liso/fisiologia , Músculo Liso Vascular/metabolismo , Músculo Liso Vascular/fisiologia , Miócitos de Músculo Liso/metabolismo , Miócitos de Músculo Liso/fisiologia , Técnicas de Patch-ClampRESUMO
The traditional herb Plumula Nelumbinis is widely used in the world because it has many biological activities, such as anti-inflammation, antioxidant, antihypertension, and butyrylcholinesterase inhibition. However, the action of Plumula Nelumbinis on airway smooth muscle (ASM) relaxation has not been investigated. A chloroform extract of Plumula Nelumbinis (CEPN) was prepared, which completely inhibited precontraction induced by high K(+) in a concentration-dependent manner in mouse tracheal rings, but it had no effect on resting tension. CEPN also blocked voltage-dependent L-type Ca(2+) channel- (VDCC-) mediated currents. In addition, ACh-induced precontraction was also completely blocked by CEPN and partially inhibited by nifedipine or pyrazole 3. Besides, CEPN partially reduced ACh-activated nonselective cation channel (NSCC) currents. Taken together, our data demonstrate that CEPN blocked VDCC and NSCC to inhibit Ca(2+) influx, resulting in relaxation of precontracted ASM. This finding indicates that CEPN would be a candidate of new potent bronchodilators.
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The participation of large-conductance Ca2+ activated K+ channels (BKs) in chloroquine (chloro)-induced relaxation of precontracted airway smooth muscle (ASM) is currently undefined. In this study we found that iberiotoxin (IbTx, a selective inhibitor of BKs) and chloro both completely blocked spontaneous transient outward currents (STOCs) in single mouse tracheal smooth muscle cells, which suggests that chloro might block BKs. We further found that chloro inhibited Ca2+ sparks and caffeine-induced global Ca2+ increases. Moreover, chloro can directly block single BK currents completely from the intracellular side and partially from the extracellular side. All these data indicate that the chloro-induced inhibition of STOCs is due to the blockade of chloro on both BKs and ryanodine receptors (RyRs). We also found that low concentrations of chloro resulted in additional contractions in tracheal rings that were precontracted by acetylcholine (ACH). Increases in chloro concentration reversed the contractile actions to relaxations. In the presence of IbTx or paxilline (pax), BK blockers, chloro-induced contractions were inhibited, although the high concentrations of chloro-induced relaxations were not affected. Taken together, our results indicate that chloro blocks BKs and RyRs, resulting in abolishment of STOCs and occurrence of contraction, the latter will counteract the relaxations induced by high concentrations of chloro.