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2. Intestinal Barrier Dysfunction Exacerbates Neuroinflammation via the TLR4 Pathway in Mice With Heart Failure

Author

Jun-Yu Huo, Wan-Ying Jiang, Ting Yin, Hai Xu, Yi-Ting Lyu, Yuan-Yuan Chen, Meng Chen, Jie Geng, Zhi-Xin Jiang, and Qi-Jun Shan

Subjects
heart failure, neuroinflammation, intestinal barrier, lipopolysaccharide, TLR4, Physiology, QP1-981
Abstract

AimsThe present study aimed to investigate alterations in neuroinflammation after heart failure (HF) and explore the potential mechanisms.MethodsMale wild-type (WT) and Toll-like receptor 4 (TLR4)-knockout (KO) mice were subjected to sham operation or ligation of the left anterior descending coronary artery to induce HF. 8 weeks later, cardiac functions were analyzed by echocardiography, and intestinal barrier functions were examined by measuring tight junction protein expression, intestinal permeability and plasma metabolite levels. Alterations in neuroinflammation in the brain were examined by measuring microglial activation, inflammatory cytokine levels and the proinflammatory signaling pathway. The intestinal barrier protector intestinal alkaline phosphatase (IAP) and intestinal homeostasis inhibitor L-phenylalanine (L-Phe) were used to examine the relationship between intestinal barrier dysfunction and neuroinflammation in mice with HF.ResultsEight weeks later, WT mice with HF displayed obvious increases in intestinal permeability and plasma lipopolysaccharide (LPS) levels, which were accompanied by elevated expression of TLR4 in the brain and enhanced neuroinflammation. Treatment with the intestinal barrier protector IAP significantly attenuated neuroinflammation after HF while effectively increasing plasma LPS levels. TLR4-KO mice showed significant improvements in HF-induced neuroinflammation, which was not markedly affected by intestinal barrier inhibitors or protectors.ConclusionHF could induce intestinal barrier dysfunction and increase gut-to-blood translocation of LPS, which could further promote neuroinflammation through the TLR4 pathway.

Published
2021
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3. Renal Denervation Attenuates Neuroinflammation in the Brain by Regulating Gut-Brain Axis in Rats With Myocardial Infarction

Author

Jun-Yu Huo, Wan-Ying Jiang, Yi-Ting Lyu, Lin Zhu, Hui-Hui Liu, Yuan-Yuan Chen, Meng Chen, Jie Geng, Zhi-Xin Jiang, and Qi-Jun Shan

Subjects
renal denervation, myocardial infarction, neuroinflammation, intestinal injury, gut microbiota, Diseases of the circulatory (Cardiovascular) system, RC666-701
Abstract

Aims: The development of neuroinflammation deteriorates the prognosis of myocardial infarction (MI). We aimed to investigate the effect of renal denervation (RDN) on post-MI neuroinflammation in rats and the related mechanisms.Methods and Results: Male adult Sprague-Dawley rats were subjected to sham or ligation of the left anterior descending coronary artery to induce MI. One week later, the MI rats received a sham or RDN procedure. Their cardiac functions were analyzed by echocardiography, and their intestinal structures, permeability, and inflammatory cytokines were tested. The intestinal microbiota were characterized by 16S rDNA sequencing. The degrees of neuroinflammation in the brains of rats were analyzed for microglia activation, inflammatory cytokines, and inflammation-related signal pathways. In comparison with the Control rats, the MI rats exhibited impaired cardiac functions, intestinal injury, increased intestinal barrier permeability, and microbial dysbiosis, accompanied by increased microglia activation and pro-inflammatory cytokine levels in the brain. A RDN procedure dramatically decreased the levels of renal and intestinal sympathetic nerve activity, improved cardiac functions, and mitigated the MI-related intestinal injury and neuroinflammation in the brain of MI rats. Interestingly, the RDN procedure mitigated the MI-increased intestinal barrier permeability and pro-inflammatory cytokines and plasma LPS as well as ameliorated the gut microbial dysbiosis in MI rats. The protective effect of RDN was not significantly affected by treatment with intestinal alkaline phosphatase but significantly reduced by L-phenylalanine treatment in MI rats.Conclusions: RDN attenuated the neuroinflammation in the brain of MI rats, associated with mitigating the MI-related intestinal injury.

Published
2021
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4. Renal denervation ameliorates post-infarction cardiac remodeling in rats through dual regulation of oxidative stress in the heart and brain

Author

Wan-Ying Jiang, Jun-Yu Huo, Chu Chen, Ran Chen, Tian-Tian Ge, Qing Chang, Jing-Wen Hu, Jie Geng, Zhi-Xin Jiang, and Qi-Jun Shan

Subjects
Renal denervation, Angiotensin receptor neprilysin inhibitors, Cardiac remodeling, Oxidative stress, Hypothalamus, Therapeutics. Pharmacology, RM1-950
Abstract

Background: Myocardial remodeling is the key step in the development of ischemic cardiomyopathy. We aimed to compare effects of renal denervation (RDN) with those of angiotensin receptor neprilysin inhibitors (ARNi) on cardiac remodeling after myocardial infarction (MI), and explore underlying mechanism. Methods: Sprague-Dawley rats (n = 40; male) were subjected to ligation of left anterior descending coronary artery to induce MI; six rats served as controls. ARNi was administered at a dose of 60 mg/kg/day for 4 weeks starting 1 week after MI. An RDN/Sham-RDN procedure was performed 1 week after MI. Rats in all groups were studied 5 weeks after MI. Echocardiography was used to evaluate cardiac function. Masson staining and TUNEL staining were used to determine the extent of cardiac remodeling. Indicators of oxidative stress in heart and brain were used to analyze the potential mechanisms involved. Results: Five weeks after MI, both RDN and ARNi significantly improved cardiac function and cardiac remodeling; however, RDN was superior to ARNi at attenuating myocardial apoptosis. Compared to ARNi, RDN was also more effective at decreasing the abnormal oxidative stress caused by MI; this was especially true in case of the brain and was confirmed by evaluating the changes in reactive oxygen species (ROS) levels and other oxidative stress parameters following MI. Conclusions: RDN is not inferior to ARNi with respect to the improvement of cardiac remodeling in rats with ischemic cardiomyopathy. The effect of RDN might be associated with effective inhibition of oxidative stress in both the heart and brain.

Published
2019
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6. Hypoxia reoxygenation induces premature senescence in neonatal SD rat cardiomyocytes.

Author

Feng-Xiang Zhang, Ming-Long Chen, Qi-Jun Shan, Jian-Gang Zou, Chun Chen, Bing Yang, Dong-Jie Xu, Yu Jin, and Ke-Jiang Cao

Subjects
HEART cells, HYPOXEMIA, ELECTRON microscopes, CELL proliferation, MUSCLE cells, RATS
Abstract

Aim: To investigate whether hypoxia reoxygenation induces premature senescence in neonatal Sprague-Dawley (SD) rat cardiomyocytes. Methods: Cardiomyocytes were isolated from neonatal SD rat heart and identified by immunohistochemistry. The control cultures were incubated at 37 °C in a humidified atmosphere of 5% CO2 and 95% air. The hypoxic cultures were incubated in a modular incubator chamber filled with 1% O2, 5% CO2, and balance N2 for 6 h. The reoxygenated cultures were subjected to 1% O2 and 5% CO2 for 6 h, then 21% oxygen for 4, 8, 12, 24, and 48 h, respectively. Cell proliferation was determined using bromodeoxyuridine labeling. The ultrastructure of cardiomyocytes was observed by using an electron microscope. β-Galactosidase activity was determined by using a senescence β-galactosidase Staining Kit. p16INK4a and telomerase reverse transcriptase (TERT) mRN A levels were measured by real time quantitative PCR. TERT protein expression was determined by immunohistochemistry. Telomerase activities were assayed by using the Telo TAGGG Telomerase PCR ELISAplus kit. Results: The initial cultures consisted of pure cardiomyocytes identified by immunohistochemistry. The proportion of BrdU positive cells was reduced significantly in the hypoxia reoxygenation-treated group ( P<0.01). Under the condition of hypoxia reoxygenation, mitochondrial dehydration appeared; p16INK4a and TERT mRNA levels, β-galactosidase activity, TERT protein expression and telomerase activities were all significantly increased ( P<0.01 or P<0.05). Conclusion: These data indicate that premature senescence could be induced in neonatal SD rat cardiomyocytes exposed to hypoxia reoxygenation. Although TERT significantly increased, it could not block senescence. [ABSTRACT FROM AUTHOR]

Published
2007
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7. First Report of Maize Seedling Blight Caused by Fusarium pseudograminearum in China.

Author

Jiang H, Ma LG, Qi K, Zhang YL, Zhang B, Ma G, and Qi JS

Abstract

Maize ( Zea mays L.) is one of the most important food and feed crops in China, with a cultivation area of more than 40 million hectares (http://www.fao.org/faostat/en/#data/QC). In July 2021, a serious maize seeding blight occurred in Changjia Town, Gaoqing Country, Zibo City, Shandong Province, China, and the disease incidence was up to 50% in some fields. The root system of infected plants displayed poor development. The primary roots were brown and rotted. The leaves at the base of the plants were drying up, then the whole plant withered. To determine the cause agent of the disease, symptomatic roots of diseased seedlings were collected and surface-sterilized (70% ethanol for 30 s and 3% sodium hypochlorite (NaClO) for 90 s), subsequently rinsed three times with sterile distilled water, placed on potato dextrose agar (PDA), then incubated at 25°C for 2 days. Two cultures with similar morphological characteristics were purified through single-spore isolation technique and identified by morphology and molecular methods as Fusarium pseudograminearum O'Donnell & T. Aoki 1999. Plentiful macroconidia formed in 5-day-old carboxymethyl cellulose (CMC) cultures; microconidia were absent. Macroconidia were thick-walled and curved, usually 3- to 5- septa, 31.6 ± 0.6 μm × 4.8 ± 0.1 μm (n = 50). Colony pigmentation on PDA was pink to red, with white to pink aerial mycelia on PDA cultures was abundant and filled the petri dishes. For molecular identification, the rDNA internal transcribed spacer (ITS) gene and translation elongation factor 1 alpha (TEF-1α) gene of two isolates (SAIA41B and SAIA41C) were amplified with ITS1/ITS4 (White et al., 1990) and EF-1/EF-2 (O'Donnell et al., 1998), respectively. Blastn analysis of both the ITS sequence (accession numbers OM108101 and OM108102) and TEF-1α sequence (accession numbers OM142205 and OM142206) revealed 100% (481/481 bp for ITS and 637/637 bp for TEF-1α) sequence identity with the sequences of F. pseudograminearum reported in GenBank (MW699613 for ITS and JN862232 for TEF-1α). The molecular identification was further confirmed by the F. pseudograminearum species-specific PCR primers Fp1-1/Fp1-2 (Aoki and O'Donnell 1999). The expected 523-bp fragments were obtained for isolates SAIA41B and SAIA41C. In the pathogenicity test, healthy germinating maize roots (Zhengdan958) were inoculated with PDA culture blocks of isolate SAIA41C. Plants inoculated only with PDA culture blocks served as controls. Maize plants were put in petri dishes and placed in an incubator with a 12-h photoperiod at 25 oC and 100% relative humidity. Seven days later, roots of the plants inoculated with isolate SAIA41C were poorly developed and became brown necrotic and rotted, which were identical to the symptoms observed in the fields, whereas the roots of control plants were developed normally. The pathogen was re-isolated from the necrotic tissue of the inoculated roots but not from the control plants, and its identity was confirmed by PCR with the primes Fp1-1/Fp1-2 described above, fulfilling Koch's Postulates. To our knowledge, this is the first report of maize seedling blight caused by F. pseudograminearum in China. Our finding indicates the potential spread of F. pseudograminearum on maize, and more attention should be paid to prevention and control of maize seedling blight caused by F. pseudograminearum . The author(s) declare no conflict of interest. Acknowledgements: This research was supported by National Natural Science Foundation of China (No. 32102181), Shandong Provincial Natural Science Foundation (No. ZR2021QC059), Wheat Industry Technology System of Shandong Province (No. SDAIT-01-10), and Agricultural Science and Technology Innovation Project of SAAS (No. CXGC2021A38 and CXGC2021A33).

Published
2022
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8. First report of Pythium aphanidermatum causing root rot of head lettuce in China.

Author

Qi JS, Zhang B, Ma LG, Ma G, Qin SJ, Li CS, Xu ZT, Qi K, and Zhang YL

Abstract

Head lettuce (Lactuca sativa L.) is an important crop for fresh consumption in China. In Shandong Province, head lettuce is planted in spring and in autumn each year. Because of the on-and-off rain for three weeks, head lettuce plants planted directly into the field in Jiyang City, in July 2017, 20% of the plants rapidly showed symptoms of rotting, water-soaked lesions on roots and stem bases, and then death. The diseased plants first appeared in low-lying areas prone to water accumulation. One-millimeter pieces were excised from water-soaked roots and stem bases, dipped in a 0.2% calcium hypochlorite solution for 10 min, then placed on V8 medium, and incubated in the dark at 28°C for 5 d. Two Pythium-like strains were isolated from the roots and stems. The isolates transferred to CMA and grown for 7 d, and the morphological characteristics of the two isolates on corn meal agar (CMA) were white with dense, cottony, aerial and well-branched mycelia. The two isolates produced sporangia, oogonia, antheridia and oospores. Most of the sporangia were lobate. The oogonia were smooth, nearly globose and terminal. Oospores were globose, smooth and aplerotic. The average dimensions of 50 oogonia and oospores respectively ranged from 19.5 to 25.2 (av. 23.1) µm and 17.8 to 22.3 (av. 19.9) µm. The antheridia were broadly sac-shaped. The isolates morphological characteristics were consistent with P. aphanidermatum (van der Plaats-Niterink, 1981). The COI gene and ITS region of the rDNA were amplified and sequenced using primers FM55/FM52R (Long et al. 2012) and ITS1/ITS4 (White et al. 1990), respectively. The two aligned COI sequences were identical for both isolates, as were the two ITS sequences. BLASTn analysis of the 1,133-bp COI sequence (accession no. MT952703) resulted in a 100% identity with accession number AY129164 from Lactuca sativa, which belongs to P. aphanidermatum, and the 808-bp ITS sequence (accession no. MT921597) showed a 99% identity with Genbank accession number HQ643442 belonging to P. aphanidermatum. Koch's postulates were conducted by first soaking corn kernels for 24 h in water, and then autoclaving for 2 h at 121˚C. Isolate SDHL-1 was grown on CMA for 10 days, after which agar plugs were transferred to the sterilized corn kernels and incubated at 28℃ for approximately 15 d, until the corn kernels were covered in white hyphae. Ten healthy head lettuce plants were transplanted into a sterilized loam potting soil artificially infested with the corn inoculum (3 g inoculum per 100 g loam mixture). Inoculated plants and noninoculated controls were maintained in a greenhouse at 28°C and 100% relative humidity with a 12-h photoperiod; the experiment was repeated once. All twenty inoculated plants exhibited symptoms within one week similar to those observed. Pythium aphanidermatum was recovered only from the water-soaked roots and stem bases of inoculated plants and the re-isolated cultures again identified based on morphological characteristics and sequencing of the ITS and COI genes. No symptoms were observed on the control plants. Sclerotinia sclerotiorum is reported to cause stem base rot of L. sativa in China (Zhou et al. 2011). To our knowledge, however, this is the first report of root rot of head lettuce caused by Pythium aphanidermatum. Identification of the pathogen will assist in devising strategies to reduce yield loss.

Published
2021
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9. First Report of Root and Crown Rot of American Ginseng Caused by Pythium spinosum in China.

Author

Qi JS, Ma LG, Zhang B, Li CS, Xu ZT, Jingyan W, Qi K, and Zhang YL

Abstract

American ginseng (Panax quinquefolius) is a perennial herb whose dried roots are used for health care products, medicine, and food in China (Yuan et al. 2010). Shandong Province is the main area growing American ginseng and contributes more than 50% of the production in China. Wendeng city, located in the east of Shandong Peninsula, is the primary production area of American ginseng in Shandong Province since it has four distinct seasons, sufficient light, loose soil (pH 5.5~7.0), and with thus a similar geographical environment and climate conditions to the American ginseng production area of the United States and Canada. In March 2016, 2-year old American ginseng plants that were planted directly into the ground in the greenhouses in Wendeng city, contained up to 6-10% stunted plants. Water-soaked lesions were observed on the crowns and the tips of fine roots. The leaves of the infected plants became scalded, dark green starting at the top of the plants and gradually move downward. Moreover, the leaves and petioles gradually curled withered and drooped, and the whole plant collapsed. Tissue samples, 10 mm in size, were excised from the water-soaked roots and crowns of diseased plants, rinsed under running water for 24 hours, dipped in a 0.2% calcium hypochlorite solution for 10 minutes, placed on sterile filter paper to dry and then placed on V8 medium (200 mL V8 Campbell Soup, 15 g agar, 0.2 g CaCO3, and 1 L distilled water) and incubated in the dark at 28 °C for 5 days. Five Pythium-like isolates which were arachnoid-cottony on cornmeal agar were isolated and they all produced hyphal swellings, oogonia, antheridia and oospores. Oospores were globose, smooth and plerotic, with some being aplerotic. The dimensions of hyphal swellings, oogonia and oospores respectively ranged from 9.0 to 21.3 (average 14.1) µm, 12.9 to 22.5 (average 18.2) µm, and 12.5 to 20.5 (average 16.7) µm. Finger-like projections were uniformly distributed on the walls of the oogonia and the antheridia were curved rods. The five Pythium-like isolates were identified as P. spinosum based on morphological characteristics (van der Plaats-Niterink, 1981). Genomic DNA was extracted from the isolates of the Pythium sp. using a DNA extraction kit (OMEGA, U.S.A.). The cytochrome c oxidase subunit I (COI) gene and internal transcribed spacer (ITS) region rDNA were amplified and sequenced using primers FM55/FM52R (Long et al. 2012) and ITS1/ITS4, respectively (White et al.1990). The five COI sequences were aligned and were identical for all five isolates, as well as the five ITS sequences. BLASTn analysis of the 538-bp COI sequence (accession no. MT822775) resulted in a 99% identity with that of the P. spinosum strain CBS122663 (accession no. HQ708832.1), and the 916-bp ITS sequence (accession no. MN847595) showed 100% identity with Genbank accession number AB217665 belonging to P. spinosum. Koch's postulates were confirmed. Corn kernels that had been soaked in water for 24 hours in water, autoclaved for 2 hours at 121˚C and allowed to cool were inoculated with agar plugs of P. spinosum grown on corn meal agar medium (CMA) for 10 days. The inoculated corn kernels were incubated at 28 ℃ for 13~15 days, until the corn kernels were covered with white hypha of P. spinosum. Ten healthy approximately 2-years old American ginseng plants growing in Wengdeng greenhouses were transplanted into a sterilized potting soil that was artificially infested with the corn inoculum (3 g inoculum per 100 g loam mixture). Inoculated and non-inoculated control plants were maintained in a greenhouse with a roof covered with sunshade net at 28 °C and 100% relative humidity. The experiment was repeated once. Four days after inoculation (DAI), the crown of inoculated plants developed water-soaked symptoms similar to those observed in field. No symptoms developed on the control plants. By 7 DAI, the inoculated fine roots and crowns showed water-soaked lesions identical to those observed in field, whereas control plants remained symptomless. The re-isolated isolate of P. spinosum was identical morphologically and by DNA sequence analysis to the original isolate. To our knowledge, this is the first report of root rot on American ginseng caused by P. spinosum in China and worldwide. Identification of the pathogen will assist in devising strategies to protect this important medicine plant from the pathogen, and to prevent yield losses.

Published
2020
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