Insights into the mechanisms of triptolide nephrotoxicity through network pharmacology-based analysis and RNA-seq.

Introduction: Triptolide (TPL) is a promising plant-derived compound for clinical therapy of multiple human diseases; however, its application was limited considering its toxicity. Methods: To explore the underlying molecular mechanism of TPL nephrotoxicity, a network pharmacology based approach was utilized to predict candidate targets related with TPL toxicity, followed by deep RNA-seq analysis to characterize the features of three transcriptional elements include protein coding genes (PCGs), long noncoding RNAs (lncRNAs) and circular RNAs (circRNAs) as well as their associations with nephrotoxicity in rats with TPL treatment. Results & Discussion: Although the deeper mechanisms of TPL nephrotoxcity remain further exploration, our results suggested that c-Jun is a potential target of TPL and Per1 related circadian rhythm signaling is involved in TPL induced renal toxicity.

Moxibustion for treating patients with post-stroke depression: a systematic review and meta-analysis.

BACKGROUND: To assess the effectiveness and safety of moxibustion for post-stroke depression (PSD). METHODS: A search was conducted in the following English and Chinese databases: Medline, Embase, Cochrane Central Register of Controlled Trials (CENTRAL), China National Knowledge Infrastructure (CNKI), Chinese Biomedical Literature (CBM), VIP and Wanfang. The outcomes included Hamilton Depression Rating Scale (HAMD), effective rate, and Modified Edinburgh-Scandinavian Stroke Scale (MESSS) scale. The formulation of search strategy, data extraction, and quality evaluation of involved studies was performed according to Cochrane handbook guidelines. The software RevMan 5.4 and Stata 16 were used for data analysis. The evidence quality of each outcome was evaluated by GRADEpro guideline development tool (GDT). RESULTS: A total of 14 trials with 863 participants were included. A certain risk of bias of unclear or high was detected in the included studies. Compared with the control group, adding moxibustion could change the value of HAMD [standardized mean difference (SMD) =-1.17; 95% confidence interval (CI): -1.55 to -0.79; I2=85.5%; P<0.01] and the effective rate [risk ratio (RR) =1.22; 95% CI: 1.13 to 1.32; I2=0.0%; P=0.56], and the differences in the MESSS scale (SMD =-0.72; 95% CI: -1.06 to -0.38; I2=0.0%; P=0.80) had statistical differences. The certainty was low in effective rate, and very low in HAMD and MESSS. Besides, moxibustion was shown to be generally safe. DISCUSSION: This review found that moxibustion may be an effective intervention for PSD. However, the results of this study have a certain limitation. The benefits of moxibustion for PSD need to be confirmed in the future by more high-quality randomized controlled trials (RCTs).

MicroRNA-125b attenuates epithelial-mesenchymal transitions and targets stem-like liver cancer cells through small mothers against decapentaplegic 2 and 4.

UNLABELLED: Emerging evidence suggests that epithelial-mesenchymal transitions (EMTs) play important roles in tumor metastasis and recurrence. Understanding molecular mechanisms that regulate the EMT process is crucial for improving treatment of hepatocellular carcinoma (HCC). MicroRNAs (miRNAs) play important roles in HCC; however, the mechanisms by which miRNAs target the EMT and their therapeutic potential remains largely unknown. To better explore the roles of miRNAs in the EMT process, we established an EMT model in HCC cells by transforming growth factor beta 1 treatment and found that several tumor-related miRNAs were significantly decreased. Among these miRNAs, miR-125b expression was most strongly suppressed. We also found down-regulation of miR-125b in most HCC cells and clinical specimens, which correlated with cellular differentiation in HCC patients. We then demonstrated that miR-125b overexpression attenuated EMT phenotype in HCC cancer cells, whereas knockdown of miR-125b promoted the EMT phenotype in vitro and in vivo. Moreover, we found that miR-125b attenuated EMT-associated traits, including chemoresistance, migration, and stemness in HCC cells, and negatively correlated with EMT and cancer stem cell (CSC) marker expressions in HCC specimens. miR-125b overexpression could inhibit CSC generation and decrease tumor incidence in the mouse xenograft model. Mechanistically, our data revealed that miR-125b suppressed EMT and EMT-associated traits of HCC cells by targeting small mothers against decapentaplegic (SMAD)2 and 4. Most important, the therapeutic delivery of synthetic miR-125b mimics decreased the target molecule of CSC and inhibited metastasis in the mice model. These findings suggest a potential therapeutic treatment of miR-125b for liver cancer. CONCLUSION: miR-125b exerts inhibitory effects on EMT and EMT-associated traits in HCC by SMAD2 and 4. Ectopic expression of miR-125b provides a promising strategy to treat HCC.

Acupoint Specificity on Colorectal Hypersensitivity Alleviated by Acupuncture and the Correlation with the Brain-Gut Axis.

This project was focused on the study of the effect of the different acupoints on visceral hypersensitivity and the correlation with the brain-gut axis. By using a mouse model of zymosan-induced colorectal hypersensitivity, and observing the response of hypersensitivity model to colorectal distension stimulation in acupuncture at different acupoints, we selected the specific acupoints. With immunohistochemical staining method, we observed c-fos expression, distribution and changes after acupuncture on sensory pathway, including colorectum, spinal dorsal horn and different regions of brain center in the model with colorectal distension stimulation, and evaluated the acupuncture effect on brain-gut axis. The results revealed that the effectiveness of acupuncture for alleviating visceral hypersensitivity was different at individual acupoint, meaning Tianshu (ST25), Zusanli (ST36) and Shangjuxu (ST37) > Quchi (LI11) and Dachangshu (BL25) > Ciliao (BL32). C-fos expression was concentrated in anterior cingulate cortex, hypothalamus, spinal dorsal horn and colorectum in model of zymosan-induced colorectal hypersensitivity and it was down-regulated after acupuncture. The results demonstrates that the acupoint specificity presents in acupuncture for relieving visceral hypersensitivity and the effects are more predominated at the acupoints on stomach meridian innervated by the same or adjacent spinal ganglion segments. The model of zymosan-induced colorectal hypersensitivity can be the animal model simulating brain-gut interaction.

Acupoint specificity on acupuncture regulation of hypothalamic- pituitary-adrenal cortex axis function.

BACKGROUND: The hypothalamus is an essential part of the brain that responds to a variety of signaling including stressful stimulations and acupuncture signals. It is also the key element of the hypothalamic-pituitary-adrenal cortex axis(HPAA). The effect of acupuncture is transmitted into the brain from the distance sensory receptor around the acupoints via peripheral nerves and body fluid. In vivo recording the activities of stress reaction neurons (SRNs, CRH-like neurons) in hypothalamic paraventricular nucleus (PVN) in response to the stimulations from different acupoints could therefore objectively reflect the acupuncture afferent effect. METHODS: In this study, the electrophysiological method was adopted to record synchronously the activities of 43 CRH-like neurons after acupuncture stimulations at 33 acupoints located at the different regions. The acupoints that specifically activate certain CRH-like neurons (specificity acupoints) were selected. Furthermore, we investigated in a rat model of unpredictable chronic mild stress (UCMS) whether these specificity acupoints regulate HPAA function. The endpoints of measurement include corticosterone (CORT) level in peripheral blood, the expressions of corticotrophin releasing hormone (CRH) and glucocorticoid receptor (GR) protein in PVN and the animal behavioral performance. RESULTS: Our results reveal that Shenshu (BL23), Ganshu (BL18), Qimen (LR14), Jingmen (GB25), Riyue (GB24), Zangmen (LR13), Dazui (DU14) and auricular concha region (ACR) are the specificity acupoints; and Gallbladder, Liver and Du Channels were the specificity Channels. The acupoints on Gallbladder Channel and the acupoints innervated by the same spinal cord segments as the adrenal gland demonstrated dramatic effects. CONCLUSIONS: This study provides a new platform to further explore acupoints specificity in the regulation of HPAA activities.

Integrated transcriptomic and proteomic analysis of the global response of Synechococcus to high light stress.

Sufficient light is essential for the growth and physiological functions of photosynthetic organisms, but prolonged exposure to high light (HL) stress can cause cellular damage and ultimately result in the death of these organisms. Synechococcus sp. PCC 7002 (hereafter Synechococcus 7002) is a unicellular cyanobacterium with exceptional tolerance to HL intensities. However, the molecular mechanisms involved in HL response by Synechococcus 7002 are not well understood. Here, an integrated RNA sequencing transcriptomic and quantitative proteomic analysis was performed to investigate the cellular response to HL in Synechococcus 7002. A total of 526 transcripts and 233 proteins were identified to be differentially regulated under HL stress. Data analysis revealed major changes in mRNAs and proteins involved in the photosynthesis pathways, resistance to light-induced damage, DNA replication and repair, and energy metabolism. A set of differentially expressed mRNAs and proteins were validated by quantitative RT-PCR and Western blot, respectively. Twelve genes differentially regulated under HL stress were selected for knockout generation and growth analysis of these mutants led to the identification of key genes involved in the response of HL in Synechococcus 7002. Taken altogether, this study established a model for global response mechanisms to HL in Synechococcus 7002 and may be valuable for further studies addressing HL resistance in photosynthetic organisms.

[Differentiation potential of CD41⁺ cells derived from the mouse aorta-gonad-mesonephros region, yolk sac and embryonic circulating blood].

OBJECTIVE: To compare the differentiation ability difference of hematopoietic, mesenchymal and endothelial potential between CD41⁺ cells derived from the mouse aorta-gonadmesonephros (AGM) region, yolk sac (YS) and embryonic circulating blood (CB). METHODS: CD41⁺ cells were sorted from AGM, YS and CB. The CD45 and c-kit expression were studied in CD41⁺ cells by flow cytometry. IL-3 and bone morphogenetic protein 4 (BMP-4) treatment together with semi solid culture were used to assess hematopoietic potential difference of CD41⁺ cells. Immunofluorescence staining of α-SMA was used to assess mesenchymal potential difference. The endothelial cell induction system was used to assess endothelial potential difference. RESULTS: The proportions of CD45+ cells in CD41⁺ population were 51.9% (AGM), 45.8% (YS) and 22.2% (CB), respectively, while those of c-kit⁺ cells were 40.0% (AGM), 39.6% (YS) and 36.2% (CB), respectively. After stimulated by IL-3 factor, the number of total colonies increased in all three groups-derived CD41⁺ cells compared to that of unstimulated group[(14.1±1.9) vs (1.2±0.2), (32.4±1.1) vs (18.4±2.2) and (41.8±0.9) vs (10.4±1.8)], (P<0.01). After stimulated by BMP-4 factor, compared to unstimulated group, CFU-Mix colony number in CD41⁺ cells from AGM region and YS were significantly decreased[(0.5±0.6) vs (3.2±0.8), (1.3±0.7) vs (7.4±1.7)](P<0.01), but there was no difference in CB group[(2.5±0.5) vs (3.9±1.5)](P>0.01). The mesenchymal marker α-SMA was highly expressed in CD41⁺ cells from AGM region and YS, but lowly expressed in CD41⁺ cells from CB. CONCLUSION: There are some differences between CD41⁺ cells in AGM region, YS and CB on hematopoietic cell surface marker expression, hematopoietic colony formation with IL-3 and BMP-4 stimulation.

SIRT1 is required for long-term growth of human mesenchymal stem cells.

Human mesenchymal stem cells (MSCs) have therapeutic potential because of their ability to self-renew and differentiate into multiple tissues. However, senescence often occurs in MSCs when they are cultured in vitro and the molecular mechanisms underlying this effect remain unclear. In this study, we found that NAD-dependent protein deacetylase SIRT1 is differentially expressed in both human bone marrow-derived MSCs (B-MSCs) and adipose tissue-derived MSCs after increasing passages of cell culture. Using lentiviral shRNA we demonstrated that selective knockdown of SIRT1 in human MSCs at early passage slows down cell growth and accelerates cellular senescence. Conversely, overexpression of SIRT1 delays senescence in B-MSCs that have undergone prolonged in vitro culturing and the cells do not lose adipogenic and osteogenic potential. In addition, we found that the delayed accumulation of the protein p16 is involved in the effect of SIRT1. However, resveratrol, which has been used as an activator of SIRT1 deacetylase activity, only transiently promotes proliferation of B-MSCs. Our findings will help us understand the role of SIRT1 in the aging of normal diploid cells and may contribute to the prevention of human MSCs senescence thus benefiting MSCs-based tissue engineering and therapies.