Your search keyword '"Du, Hongxia"' showing total 15 results

1. Rare earth elements in clay-sized fractions: Implications for weathering fingerprint from parent materials to soils

Author

Zhang, Xianming, Jing, Yuntao, Zhao, Wanfu, Jiang, Yongjun, Guan, Dong-Xing, Du, Hongxia, Qian, Ying, Ye, Fei, and Zhao, Wancang

Published

2024

2. Advances in the structure design of substrate materials for zinc anode of aqueous zinc ion batteries

Author

Yang, Sinian, Du, Hongxia, Li, Yuting, Wu, Xiangsi, Xiao, Bensheng, He, Zhangxing, Zhang, Qiaobao, and Wu, Xianwen

Published

2023

3. Solubility measurement, correlation and dissolution thermodynamics properties of marbofloxacin in binary solvents

Author

Liu, Huixian, Wu, Zhiying, Yu, Ping, Dong, Zhipeng, Du, Hongxia, Guo, Hongyong, and Zhang, Yue

Published

2022

4. Physiological responses of low- and high-cadmium accumulating Robinia pseudoacacia-rhizobium symbioses to cadmium stress.

Author

Gao, Lan, Wang, Shufeng, Zou, Dongchen, Fan, Xu, Guo, Pan, Du, Hongxia, Zhao, Wancang, Mao, Qiaozhi, Li, Hong, Ma, Ming, and Rennenberg, Heinz

Subjects

BLACK locust, CADMIUM, COPPER, SYMBIOSIS, HEAVY metals, RHIZOBIUM

Abstract

The role of rhizobia in alleviating cadmium (Cd) stress in woody legumes is still unclear. Therefore, two types of black locust (Robinia pseudoacacia L.) with high and low Cd accumulation abilities were selected from 11 genotypes in China, and the effects of rhizobium (Mesorhizobium huakuii GP1T11) inoculation on the growth, CO 2 and H 2 O gas exchange parameters, Cd accumulation, and the absorption of mineral elements of the high (SX) and low Cd-accumulator (HB) were compared. The results showed that rhizobium-inoculation significantly increased biomass, shoot Cd contents, Cd accumulation, root-to-shoot translocation factor (TF) and the absorption and accumulation of mineral elements in both SX and HB. Rhizobium-inoculation increased chlorophyll a and carotenoid contents, and the intercellular carbon dioxide concentrations in HB plants. Under Cd exposure, the high-accumulator SX exhibited a significant decrease in photosynthetic CO 2 fixation (Pn) and an enhanced accumulation of Cd in leaves, but coped with Cd exposure by increasing chlorophyll synthesis, regulating stomatal aperture (Gs), controlling transpiration (Tr), and increasing the absorption and accumulation of mineral elements. In contrast, the low-accumulator HB was more sensitive to Cd exposure despite preferential accumulation of Cd in roots, with decreased chlorophyll and carotenoid contents, but significantly increased root biomass. Compared to the low-accumulator HB, non-inoculated Cd-exposed SX plants had higher chlorophyll contents, and rhizobium-inoculated Cd-exposed SX plants had higher Pn , Tr , and Gs as well as higher levels of P, K, Fe, Ca, Zn, and Cu. In conclusion, the high- and low-Cd-accumulator exhibited different physiological responses to Cd exposure. Overall, rhizobium-inoculation of black locust promoted the growth and heavy metal absorption, providing an effective strategy for the phytoremediation of heavy metal-contaminated soils by this woody legume. [Display omitted] • The presence of rhizobia significantly enhanced Cd accumulation. • Rhizobium inoculation increased Cd root-to-shoot TF. • Rhizobium inoculation promoted mineral element absorption. • Rhizobium inoculation enhanced the tolerance of low-Cd accumulator to Cd. • Black locust can be a potential woody plant in phytoremediation. [ABSTRACT FROM AUTHOR]

Published

2024

5. Thymoquinone induces apoptosis in bladder cancer cell via endoplasmic reticulum stress-dependent mitochondrial pathway.

Author

Zhang, Mengzhao, Du, Hongxia, Huang, Zhixin, Zhang, Pu, Yue, Yangyang, Wang, Weiyi, Liu, Wei, Zeng, Jin, Ma, Jianbin, Chen, Guanqiu, Wang, Xinyang, and Fan, Jinhai

Subjects

*APOPTOSIS, *BLADDER cancer, *ENDOPLASMIC reticulum, *MITOCHONDRIAL DNA, *CYTOPLASM

Abstract

Background Thymoquinone (TQ), the major active compound isolated from black seed oil ( Nigella sativa ), has been reported to exhibit anti-inflammatory and anticancer abilities. However, the exact molecular mechanism underlying the anticancer effect of TQ is still poorly understood, especially in regard to TQ's effect on endoplasmic reticulum stress-mediated apoptosis. Methods The cytotoxicity of TQ on T24 and 253J bladder cancer cells was analyzed by MTT assay, colony formation assay and Annexin V-FITC/PI staining, while SV-HUC-1, the SV-40 immortalized human uroepithelial cell line, was used as a normal control. The change in mitochondrial membrane potential was assessed by JC-1 staining. mRNA expression and protein expression were detected by qPCR and western blotting. Caspase-3 activity was detected by colorimetric assay. Key finding TQ has a significant cytotoxicity on bladder cancer cells and can inhibit their proliferation and induce apoptosis. The protein changes of Bcl-2, Bax, cytochrome c and endoplasmic reticulum stress-related proteins (GRP78, CHOP, and caspase-12) revealed that the anticancer effect of TQ was associated with mitochondrial dysfunction and the endoplasmic reticulum stress pathway. Pretreatment with a pan-caspase inhibitor, Z-VAD-fmk, or an ER stress inhibitor, 4-PBA, or knockdown of CHOP by shRNA can partly reverse the pro-apoptotic effect of TQ by enhancing the expression of the anti-apoptotic protein Bcl-2, blocking the release of cytochrome c and the translocation of Bax from the cytoplasm to mitochondria. Significance Our findings provide the first demonstration of the anticancer effect of TQ on bladder cancer, and the relationship between ER stress and mitochondrial dysfunction was clearly understood when the apoptosis progressed is revealed. [ABSTRACT FROM AUTHOR]

Published

2018

6. Differentially-expressed genes related to glutathione metabolism and heavy metal transport reveals an adaptive, genotype-specific mechanism to Hg2+ exposure in rice (Oryza sativa L.).

Author

Wang, Shufeng, Yao, Hesheng, Li, Lingyi, Du, Hongxia, Guo, Pan, Wang, Dingyong, Rennenberg, Heinz, and Ma, Ming

Subjects

HEAVY metals, REGULATOR genes, GLUTATHIONE, GENES, FOOD chains

Abstract

Rice consumption is an essential cause of mercury (Hg) exposure for humans in Asia. However, the mechanism of Hg transport and accumulation in rice plants (Oryza sativa L.) remains unclear. Here, rice genotypes with contrasting Hg uptake and translocation abilities, i.e. H655 (high Hg-accumulator) and H767 (low Hg-accumulator), were selected from 261 genotypes. Through comparative physiological and transcriptome analyses, we investigated the processes responsible for the relationship between Hg accumulation, transport and tolerance. The results showed significant stimulation of antioxidative metabolism, particularly glutathione (GSH) accumulation, and up-regulated expression of regulatory genes of glutathione metabolism for H655, but not for H767. In addition, up-regulated expression of GSH S-transferase (GST) and OsPCS1 in H655 that catalyzes the binding of Hg and GSH, enhances the Hg detoxification capacity, while high-level expression of YSL2 in H655 enhances the transport ability for Hg. Conclusively, Hg accumulation in rice is a consequence of enhanced expression of genes related to Hg binding with GSH and Hg transport. With these results, the present study contributes to the selection of rice genotypes with limited Hg accumulation and to the mitigation of Hg migration in food chains thereby enhancing nutritional safety of Hg-polluted rice fields. [Display omitted] • High and low Hg-accumulators (H655 and H767) were screened from 261 rice genotypes. • Antioxidant capacity of H655 in response to Hg stress was stronger than H767. • Glutathione metabolism responded more exclusively to Hg stress in H655. • Transporter contributed to Hg accumulation difference between H655 and H767. [ABSTRACT FROM AUTHOR]

Published

2023

7. Biotically mediated mercury methylation in the soils and sediments of Nam Co Lake, Tibetan Plateau.

Author

Ma, Ming, Du, Hongxia, Wang, Dingyong, Kang, Shichang, and Sun, Tao

Subjects

METHYLATION, RIBOSOMAL RNA, METHYLMERCURY, LAKES

Abstract

Previous research found that methylmercury (MeHg) levels in the fish of Nam Co Lake of Tibetan Plateau were remarkably higher than those obtained from Hg-polluted areas, probably indicating a stronger biomagnification and higher MeHg transfer efficient. Until now, little research has been carried out on the distribution of Hg methylators here, which maybe important to explain the higher fish MeHg levels. MeHg concentrations were remarkably different between the soil and sediment samples in both seasons. Illumina MiSeq sequencing of 16S rRNA gene amplicons showed that species richness estimates of the soil and sediment samples were both quite low based on Ace and Chao estimators. Community composition differed between the sediment and bank soil samples. DsrB gene quantities were relatively high, but the hgcA quantities were low, which indicated that most of the SRB found may not be Hg methylators. It is predicted that strains in Ruminococcaceae may be the main Hg methylators in the sediment, whose Hg methylation abilities were lower comparing with those in δ-proteobacteria. The relative abundances of the genera that contain known Hg methylators were all below 0.8%, which may explain the relatively lower levels of MeHg in the sediment of Nam Co Lake compared to other aquatic systems. This may also reflect that Hg methylators were relatively rare among most clades and abiotically regulated Hg methylation may exert relatively more important role here. [ABSTRACT FROM AUTHOR]

Published

2017

8. QiShenYiQi ameliorates salt-induced hypertensive nephropathy by balancing ADRA1D and SIK1 expression in Dahl salt-sensitive rats.

Author

Du, Hongxia, Xiao, Guangxu, Xue, Zhifeng, Li, Zhixiong, He, Shuang, Du, Xiaoli, Zhou, Zhengchan, Cao, Linghua, Wang, Yule, Yang, Jian, Wang, Xiaoying, and Zhu, Yan

Subjects

*HYPERTENSIVE crisis, *RATS, *HYPERTENSION, *ANTIHYPERTENSIVE agents, *BLOOD pressure, *REGULATION of blood pressure

Abstract

Hypertension is a leading risk factor for developing kidney disease. Current single-target antihypertensive drugs are not effective for hypertensive nephropathy, in part due to its less understood mechanism of pathogenesis. We recently showed that QiShenYiQi (QSYQ), a component-based cardiovascular Chinese medicine, is also effective for ischemic stroke. Given the important role of the brain-heart-kidney axis in blood pressure control, we hypothesized that QSYQ may contribute to blood pressure regulation and kidney protection in Dahl salt-sensitive hypertensive rats. The therapeutic effects of QSYQ on blood pressure and kidney injury in Dahl salt-sensitive rats fed with high salt for 9 weeks were evaluated by tail-cuff blood pressure monitoring, renal histopathological examination and biochemical indicators in urine and serum. RNA-seq was conducted to identify QSYQ regulated genes in hypertensive kidney, and RT-qPCR, immunohistochemistry, and Western blotting analysis were performed to verify the transcriptomics results and validate the purposed mechanisms. QSYQ treatment significantly decreased blood pressure in Dahl salt-sensitive hypertensive rats, alleviated renal tissue damage, reduced renal interstitial fibrosis and collagen deposition, and improved renal physiological function. RNA-seq and subsequent bioinformatic analysis showed that the expression of ADRA1D and SIK1 genes were among the most prominently altered by QSYQ in salt-sensitive hypertensive rat kidney. RT-qPCR, immunohistochemistry and Western blotting results confirmed that the mRNA and protein expression levels of alpha-1D adrenergic receptor (ADRA1D) in the kidney tissue of the QSYQ-treated rats were markedly down-regulated, while the mRNA and protein levels of salt inducible kinase 1 (SIK1) were significantly increased. QSYQ not only lowered blood pressure, but also alleviated renal damage via reducing the expression of ADRA1D and increasing the expression of SIK1 in the kidney of Dahl salt-sensitive hypertensive rats. [Display omitted] • A first report that a compont-based Chinese medicine QiShenYiQi is effective against hypertension. • QSYQ not only lowers salt-induced high blood pressure, but also ameliorates the sequential kidney injury. • Coordinated ADRA1D downregulation and SIK1 upregulation as a mechanism of renal protection by QSYQ. [ABSTRACT FROM AUTHOR]

Published

2021

9. Bacteria and archaea involved in anaerobic mercury methylation and methane oxidation in anaerobic sulfate–rich reactors.

Author

Du, Hongxia, Sun, Tao, Liu, Yang, An, Siwei, Xie, Haiying, Wang, Dingyong, Igarashi, Yasuo, Imanaka, Tadayuki, Luo, Feng, and Ma, Ming

Subjects

*ANAEROBIC reactors, *METHANOTROPHS, *ARCHAEBACTERIA, *SWINE manure, *DEMETHYLATION, *SULFATE-reducing bacteria, *METHYLATION, *BIOGAS production

Abstract

The identification of dominant microbes in anaerobic mercury (Hg) methylation, methylmercury (MeHg) demethylation, and methane oxidation as sulfate-reducing bacteria, methanogens or, probably, anaerobic methanotrophic archaea (ANMEs) is of great interest. To date, however, the interrelationship of bacteria and archaea involved in these processes remains unclear. Here, we demonstrated the dynamics of microorganisms participating in these processes. Anaerobic fixed-bed reactors were operated with swine manure and sludge to produce methane stably, and then, sulfate (reactor C), sulfate and Hg(II) (reactor H), and sulfate and MeHg (reactor M) were added, and the reactors were operated for 120 d, divided equally into four periods, P1–P4. The bacterial compositions changed nonsignificantly, whereas Methanosaeta in reactors H and M decreased significantly, revealing that it was irrelevant for Hg transformation. The abundances of Syntrophomonadaceae , Methanoculleus , Candidatus Methanogranum and Candidatus Methanoplasma increased continuously with time; these species probably functioned in these processes, but further evidence is needed. Desulfocella and Desulfobacterium dominated first but eventually almost vanished, while the dominant archaeal genera Methanogenium , Methanoculleus and Methanocorpusculum were closely related to ANME–1 and ANME–2. PLS-DA results indicated that both bacteria and archaea in different periods in the three reactors were clustered separately, implying that the microbial compositions in the same periods were similar and changed markedly with time. [Display omitted] • Methanosaeta decreased significantly after adding Hg and was unrelated to Hg transformation. • Desulfocella and Desulfobacterium dominated first but finally almost vanished. • The dominant archaeal genera were closely related to ANME–1 and ANME–2. • Microbes in different periods clustered separately, showing a significant change with time. [ABSTRACT FROM AUTHOR]

Published

2021

10. Significant bioaccumulation and biotransformation of methyl mercury by organisms in rice paddy ecosystems: A potential health risk to humans.

Author

Du, Hongxia, Guo, Pan, Wang, Tao, Ma, Ming, and Wang, Dingyong

Subjects

MERCURY poisoning, METHYLMERCURY, ECOSYSTEM health, PADDY fields, BIOCONVERSION, BIOACCUMULATION

Abstract

Rice has been confirmed as one of the principal intake pathways for methylmercury (MeHg) in human, however, the impact of edible organisms, such as snails, loaches and eels, living in the rice-based ecosystem to the overall MeHg intake has been overlooked. Here, we conducted a cross-sectional ecological study, and the results showed that bioaccumulation of MeHg in these edible organisms was significantly higher than in paddy soils and rice roots (p < 0.001), even though rice roots and grains have significantly higher total Hg (THg) (p < 0.001). The MeHg/THg ratios were consistently and significantly higher in those edible organisms than in rice grains, suggesting a potential elevated MeHg exposure risk through consumption. Based on results of bioaccumulation factors (BAFs) for MeHg, it was clear that MeHg was bioaccumulated and biotransformed from paddy soils to earthworms and then to eels, as well as from paddy soils to snails and then to eels and loaches, potentially indicating that the consumption of eels and loaches was absolutely pernicious to people regularly feeding on them. Overall, MeHg was biomagnified along the food chain of the paddy ecosystem from soil to the organisms, and it was of potential higher risks for local residents to eat them, especially eels and loaches. Therefore, it is intensely indispensable for people fond of such diets to attenuate their consumption of rice, eels and loaches, thus mitigating their MeHg exposure risks. Image 1 • MeHg was significantly accumulated in organisms than in rice roots and grains. • MeHg/THg ratios enhanced significantly in major organisms. • BAFs for MeHg in eels (not loaches) as opposed to that in earthworms surpassed 1. • MeHg was biotransformed from earthworms to eels, and from snails to eels and loaches. Apart from rice grains, major edible organisms in the rice paddy ecosystems showed significant bioaccumulation and biotransformation of methyl mercury, demonstrating a potential health risk to humans. [ABSTRACT FROM AUTHOR]

Published

2021

11. Thymoquinone suppresses invasion and metastasis in bladder cancer cells by reversing EMT through the Wnt/β-catenin signaling pathway.

Author

Zhang, Mengzhao, Du, Hongxia, Wang, Lu, Yue, Yangyang, Zhang, Pu, Huang, Zhixin, Lv, Wei, Ma, Jianbin, Shao, Qiuya, Ma, Minghai, Liang, Xiao, Yang, Tao, Wang, Weiyi, Zeng, Jin, Chen, Guanqiu, Wang, Xinyang, and Fan, Jinhai

Subjects

*BLADDER cancer, *CATENINS, *CANCER cells, *METASTASIS, *CANCER cell proliferation, *BLACK cumin, *RESPIRATORY organs

Abstract

Epithelial mesenchymal transformation plays a crucial role in the metastasis of bladder cancer, which makes bladder cancer difficult to cure. Bladder cancer is the most common malignancy of the urinary system, and distant metastasis is the leading cause of death. Therefore, finding a bioactive drug that can specifically inhibit epithelial mesenchymal transformation may be a new direction for bladder cancer treatment in the future. Thymoquinone (TQ), the major active compound isolated from black seed oil (Nigella sativa), has been reported to exhibit anti-inflammatory and anticancer abilities. TQ can exhibit its antitumor effect by inhibiting the proliferation and metastasis of cancer cells. However, the underlying mechanism of TQ as a tumor inhibitor in bladder cancer remains poorly understood. First, in this research, we demonstrate that TQ can reverse EMT by upregulating epithelial markers, such as E-cadherin, and downregulating mesenchymal markers, such as N-cadherin and vimentin. Furthermore, we demonstrate that TQ can suppress the activation of the Wnt/β-catenin signaling pathway and inhibit the expression of β-catenin target genes, such as MYC, Axin-2, MMP7, CyclinD1 and MET, which play crucial roles in EMT and cancer progression. Additionally, we demonstrate that TQ can inhibit the growth of xenografts and restrict the formation of tumor metastatic foci in the lung. Taken together, our findings confirm the antimetastatic effect of TQ in bladder cancer cells for the first time and also provide new evidence for the development of TQ as a novel treatment for metastatic bladder cancer. • Thymoquinone inhibits migration and invasion in bladder cancer cells. • Thymoquinone suppresses EMT in bladder cancer cells. • Thymoquinone inhibits the activation of Wnt/β-catenin signaling pathway. • β-catenin plays a key role in EMT inhibition induced by TQ. • Thymoquinone exerts an anti-metastasis effect of bladder cancer in vivo. [ABSTRACT FROM AUTHOR]

Published

2020

12. Mercury transport, transformation and mass balance on a perspective of hydrological processes in a subtropical forest of China.

Author

Sun, Tao, Ma, Ming, Wang, Xun, Wang, Yongmin, Du, Hongxia, Xiang, Yuping, Xu, Qinqin, Xie, Qing, and Wang, Dingyong

Subjects

MERCURY vapor, FOREST canopies, ATMOSPHERIC mercury, MERCURY, BIOGEOCHEMICAL cycles, SOIL mineralogy

Abstract

Forest ecosystem has long been suggested as a vital component in the global mercury (Hg) biogeochemical cycling. However, there remains large uncertainties in understanding total Hg (THg) and methylmercury (MeHg) variations and their controlling factors during the whole hydrological processes in forest ecosystems. Here, we quantified Hg mass flow along hydrological processes of wet deposition, throughfall, stemflow, litter leachate, soil leachate, surface runoff, and stream, and litterfall Hg deposition, and air-forest floor elemental Hg (Hg0) exchange flux to set up a Hg mass balance in a subtropical forest of China. Results showed that THg concentration in stream was lower than that in wet deposition, while an opposite characteristic for MeHg concentration, and both THg and MeHg fluxes of stream were lower than those of wet deposition. Variations of THg and MeHg in throughfall and litter leachate had strong direct and indirect effects on controlling variations of THg and MeHg in surface runoff, soil leachate and stream, respectively. Especially, the net Hg methylation was suggested in the forest canopy and forest floor layers, and significant particulate bound Hg (PBM) filtration was observed in soil layers. The Hg mass balance showed that the litterfall Hg deposition was the main Hg input for forest floor Hg, and the elemental Hg vapor (Hg0) re-emission from forest floor was the dominant Hg output. Overall, we estimated the net THg input flux of 13.8 μg m−2 yr−1 and net MeHg input flux of 0.6 μg m−2 yr−1 within the forest ecosystem. Our results highlighted the important roles of forest canopy and forest floor to shape Hg in output flow, and the forest floor is a distinct sink of MeHg. Image 1 • Forest canopy and forest floor shape mercury concentrations in runoff. • Both forest canopy and forest floor induce net Hg methylation. • Mineral soil is a distinct methylmercury sink. • Subtropical forest in south China plays a sink role of atmospheric mercury. [ABSTRACT FROM AUTHOR]

Published

2019

13. Bacterial assemblages imply methylmercury production at the rice-soil system.

Author

Guo, Pan, Rennenberg, Heinz, Du, Hongxia, Wang, Tao, Gao, Lan, Flemetakis, Emmanouil, Hänsch, Robert, Ma, Ming, and Wang, Dingyong

Subjects

*METHYLMERCURY, *PLANT development, *MICROBIAL diversity, *RHIZOSPHERE, *PLANT health, *MERCURY vapor, *MERCURY

Abstract

[Display omitted] • Methylators were dominating in rice rhizosphere, rather than the bulk soil. • Hg-promoted methylators are key taxa in the rhizosphere at the flowering stage. • In planta demethylation and methylation in rice roots are possible. • Desulfovibrionaceae may play an important role in Hg detoxification of rice. The plant microbiota can affect plant health and fitness by promoting methylmercury (MeHg) production in paddy soil. Although most well-known mercury (Hg) methylators are observed in the soil, it remains unclear how rice rhizosphere assemblages alter MeHg production. Here, we used network analyses of microbial diversity to identify bulk soil (BS), rhizosphere (RS) and root bacterial networks during rice development at Hg gradients. Hg gradients greatly impacted the niche-sharing of taxa significantly relating to MeHg/THg, while plant development had little effect. In RS networks, Hg gradients increased the proportion of MeHg-related nodes in total nodes from 37.88% to 45.76%, but plant development enhanced from 48.59% to 50.41%. The module hub and connector in RS networks included taxa positively (Nitrososphaeracea, Vicinamibacteraceae and Oxalobacteraceae) and negatively (Gracilibacteraceae) correlating with MeHg/THg at the blooming stage. In BS networks, Deinococcaceae and Paludibacteraceae were positively related to MeHg/THg, and constituted the connector at the reviving stage and the module hub at the blooming stage. Soil with an Hg concentration of 30 mg kg−1 increased the complexity and connectivity of root microbial networks, although microbial community structure in roots was less affected by Hg gradients and plant development. As most frequent connector in root microbial networks, Desulfovibrionaceae did not significantly correlate with MeHg/THg, but was likely to play an important role in the response to Hg stress. [ABSTRACT FROM AUTHOR]

Published

2023

14. Recovery of post-stroke cognitive and motor deficiencies by Shuxuening injection via regulating hippocampal BDNF-mediated Neurotrophin/Trk Signaling.

Author

Li, Zhixiong, Wang, Huanyi, Xiao, Guangxu, Du, Hongxia, He, Shuang, Feng, Yuxin, Zhang, Boli, and Zhu, Yan

Subjects

*INJECTIONS, *ISCHEMIC stroke, *LABORATORY mice, *HIPPOCAMPUS (Brain), *ARTERIAL occlusions

Abstract

A mild ischemic stroke may cause both debilitating locomotor and cognitive decline, for which the mechanism is not fully understood, and no therapies are currently available. In this study, a nonfatal stroke model was constructed in mice by a modified middle cerebral artery occlusion (MCAO) procedure, allowing an extended recovery period up to 28 days. The extended MCAO model successfully mimicked phenotypes of a recovery phase post-stroke, including locomotor motor and cognitive deficiencies, which were effectively improved after Shuxuening injection (SXNI) treatment. Tissue slices staining showed that SXNI repaired brain injury and reduced neuronal apoptosis, especially in the hippocampus CA3 region. Transcriptomics sequencing study revealed 565 differentially expressed genes (DEGs) in the ischemic brain after SXNI treatment. Integrated network pharmacological analysis identified Neurotrophin/Trk Signaling was the most relevant pathway, which involves 15 key genes. Related DEGs were further validated by RT-PCR. Western-blot analysis showed that SXNI reversed the abnormal expression of BDNF, TrkB, Mek3 and Jnk1after stroke. ELISA found that SXNI increased brain level of p-Erk and Creb. At sub-brain level, the expression of BDNF and TrkB was decreased and GFAP was increased on the hippocampal CA3 region in the post-stroke recovery phase and this abnormality was improved by SXNI. In vitro experiments also found that oxygen glucose deprivation reduced the expression of BDNF and TrkB, which was reversed by SXNI. In summary, we conclude that SXNI facilitates the recovery of cognitive and locomotor dysfunction by modulating Neurotrophin/Trk Signaling in a mouse model for the recovery phase of post-ischemic stroke. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2021

15. Shuxuening injection facilitates neurofunctional recovery via down-regulation of G-CSF-mediated granulocyte adhesion and diapedesis pathway in a subacute stroke mouse model.

Author

Li, Zhixiong, Xiao, Guangxu, Lyu, Ming, Wang, Yule, He, Shuang, Du, Hongxia, Wang, Xintong, Feng, Yuxin, and Zhu, Yan

Subjects

*CEREBRAL infarction, *CEREBRAL edema, *ENZYME-linked immunosorbent assay, *STROKE, *TREATMENT effectiveness

Abstract

• SXNI facilitated neurofunctional recovery in subacute stroke mice. • SXNI inhibited granulocyte adhesion and diapedesis pathway in subacute stroke mice. • SXNI down-regulated the expression of G-csf and its downstream E-selectin and Mac-1. Post-stroke neural damage is a serious health concern which does not yet have an effective treatment. We have shown previously that Shuxuening injection (SXNI), a Ginkgo biloba extract-based natural medicine, protects brain after an acute ischemic stroke, but its efficacy for post-stroke recovery is not known. This study was to investigate whether SXNI can improve the prognosis of stroke at a subacute phase. Mice with cerebral ischemia-reperfusion injury (CIRI) were established by middle cerebral artery occlusion (MCAO), and drugs or saline were injected by the tail vein every 12 h after reperfusion. The therapeutic effect of SXNI was evaluated by survival rate, modified neurologic severity scores (mNSS), open-field test, locomotive gait patterns, cerebral infarction volume, brain edema and histopathological changes. Subsequently, a combined method of RNA-seq and Ingenuity® Pathway Analysis (IPA) was performed to identify key targets and pathways of SXNI facilitating the prognosis of stroke in mouse brain. The results of the transcriptome analysis were verified by real time reverse transcription-polymerase chain reaction (RT-PCR), enzyme-linked immunosorbent assay (ELISA), western blot (WB) and immunohistochemistry (IHC). The experimental results showed that in the new subacute stroke model, SXNI markedly improves the survival rate, neurological and motor functions and histopathological changes, and significantly reduces cerebral infarction and edema volume. RNA-seq analysis of subacute stroke mice with or without SXNI (3 mL/kg) indicated 963 differentially expressed genes (DEGs) with a fold change ≥ 1.5 and a P-value ≤ 0.01. IPA analysis of DEGs showed that granulocyte adhesion and diapedesis ranked first in the pathway ranking, and the most critical gene regulated by SXNI was G-csf. Simultaneously, RT-PCR, ELISA, WB and IHC results demonstrated that SXNI not only obviously reduced the mRNA expression levels of key genes G-csf , Sele and Mac-1 in this pathway, but also significantly decreased the protein expression levels of G-CSF in serum and E-selectin and MAC-1 in brain tissues. In summary, our research suggested that SXNI can exert a remarkable neurofunctional therapeutic effect on stroke mice via down-regulating G-CSF to inhibit granulocyte adhesion and diapedesis. This study provides experimental evidence that SXNI may fulfill the need for stroke medicine targeting specifically at the recovery stage. [ABSTRACT FROM AUTHOR]

Published

2020