[Study on protective effect of water extract from Sabia parviflora on liver injury in mice induced by acetaminophen].

The aim of this study was to observe the protective effect of water extract from Sabia parviflora on mice with acute liver injury induced by acetaminophen, and investigate its possible mechanism. Fifty-eight Kunming mice were divided into 6 groups, 8 in the normal group, 10 in the model group, 10 in the biphenyl diester group, and 10 each in the low, medium and high dose groups. After adaptive feeding for one week, the mice in normal group were intragastrically administered with an equal volume of 0.5% sodium carboxymethylcellulose sodium(CMC-Na), and the mice in other groups were intragastrically administered with corresponding drugs at 20 mL·kg~(-1) once a day. Then acetaminophen(200 mg·kg~(-1)) was administered after the above drug administration except the normal group. The behavior and signs of the experimental animals were observed every day and the samples were taken for experiments on the next day of the final administration. The liver mass and mass index were calculated. The blood was collected from the abdominal aorta and centrifuged to obtain the serum for detecting aspartate aminotransferase(AST) activity and alanine aminotransferase(ALT) activity. The liver tissue homogenate was used to detect superoxide dismutase(SOD) activity, glutathione(glutathione, r-glutamyl cysteingl+glycine, GSH) activity and malondialdehyde(MDA) content. Liver tissue was analyzed for histological analysis. The results showed that S. parviflora could alleviate the lipid peroxidation damage in the liver caused by acetaminophen, reduce the ALT and AST activities in serum, increase the levels of SOD and GSH in liver tissue, decrease the content of MDA in liver tissue, and inhibit the apoptosis. S. parviflora could also improve the live histopathological profile, protect liver cells and restore liver function. Among them, the high dose had the most significant effect and showed dose-effect relationship. This study indicated that S. parviflora had a significant protective effect on acetaminophen-induced liver injury in mice, and its mechanism may be related to its anti-oxidation effect and inhi-bitory effect on apoptosis.

Synchrotron radiation micro-CT as a novel tool to evaluate the effect of agomir-210 in a rat spinal cord injury model.

MicroRNA-210 (miR-210) was initially reported to be associated with hypoxia and plays a vital role in modulating angiogenesis. However, the potential effect and underlying mechanisms of miR-210 activity in rat spinal cord injury (SCI) have not yet been fully illuminated. In the present study, differential microRNA expression after SCI was determined by Microarray analysis. To explore the effect of miR-210 after SCI, we intrathecally injected agomir-210 with Alzet Osmotic Pumps to up-regulated the endogenous miR-210 expression. Then, synchrotron radiation micro-CT (SRµCT) imaging was used to investigate the effect of agomir-210 in rat SCI model. We found that the endogenous miR-210 expression could be up-regulated by intrathecal agomir-210 injection. The administration of agomir-210 significantly promoted angiogenesis, as evidenced by increased vessel number and volume detected by SRµCT, attenuated the lesion size and improved functional recovery after SCI. Additionally, agomir-210 attenuated cellular apoptosis and inflammation in the injured rat spinal cord. Expression levels of pro-apoptotic protein (Bax) and pro-inflammatory cytokines (TNF-α and IL-1ß) were significantly decreased after agomir-210 treatment, whereas expression levels of anti-apoptotic (Bcl-2) and anti-inflammatory (IL-10) proteins were up-regulated. In conclusion, our results indicated that SRµCT is a powerful imaging tool to evaluate the effects of angiogenesis after agomir-210 administration in rat SCI model. The up-regulation of endogenous miR-210 expression following agomir-210 administration promoted angiogenesis and anti-apoptotic protein expression, and attenuated inflammation. MiR-210 played a positive role in neurological functional recovery and could be a potential new therapeutic target for SCI.

New isoindolinones from the fruiting bodies of Hericium erinaceum.

Hericium erinaceus is a well-known medicinal and edible mushroom, which is considered as a potential source to obtain antitumor candidates. In this work, five new isoindolinones, named erinaceolactams A-E (1-5), along with five known compounds (6-10), were isolated from 70% ethanol extract of the fruiting bodies of H. erinaceus. The structures of new compounds were validated by HRESIMS and 1D, 2D NMR. It's worth mentioning that there are two pairs of isomers included in the new compounds. Moreover, their cytotoxicity against metastatic human hepatocellular carcinoma cell lines SMMC-7221 and MHCC-97H were evaluated. The results showed that compounds 6 and 7 exhibited promising inhibitory potency against the growth of two cell lines.

Tetramethylpyrazine accelerates the function recovery of traumatic spinal cord in rat model by attenuating inflammation.

In the present study, we explored the effects of tetramethylpyrazine (TMP), an alkaloid extracted from the Chinese herbal medicine Ligusticum wallichii Franchat (chuanxiong), on a rat model of contusion spinal cord injury (SCI). The contusion SCI model was induced in rats by a modified Allen's weight-drop method with a severity of 5 g × 50 mm impacting on the T10 segment. In the TMP treatment group, rats were injected intraperitoneally (i.p.) with TMP (200mg/kg), every 24h for 5 days, starting half an hour after contusion SCI. The control group was treated with saline. Compared with the control group, the TMP group significantly ameliorated the recovery of hindlimb function of rats. TMP treatment significantly reduced the expression of macrophage migration inhibitory factor, nuclear factor κappa B, pro-inflammatory cytokine interleukin-18 and neutrophil infiltration. On the other hand, TMP enhanced the expression of inhibitor κappa B and anti-inflammation cytokine interleukin-10. In conclusion, our results demonstrate that TMP inhibits the development of inflammation and tissue injury associated with spinal cord contusion in rats which may improve the rats' hindlimb function.

Three-dimensional alteration of microvasculature in a rat model of traumatic spinal cord injury.

Acute spinal cord injury (SCI) always leads to severe destruction of the microvascular networks. To investigate the three-dimensional (3D) alterations of microvasculature following SCI, we utilized an established rat SCI model. Based on the hypothesis that the spinal cord would undergo reorganization and postinjury modification of the vascular networks after SCI, we reconstructed the normal and injured angioarchitecture using micro-CT images of silicone rubber microsphere-perfused specimens. Several morphometric parameters were used to study the 3D vascular alterations in the SCI rat model, including the casting-based vessel volume fraction, connectivity density, separation, thickness and thickness distribution. Our results indicated that the microvascular spatial conformations were significantly different between the normal and injured spinal cord segments. The morphometric changes showed an increase of the vessel volume fraction and separation and a decrease of vessel connectivity density during the vascular healing process after SCI. Our results may contribute to elucidation of the mechanisms of compensatory vascular reconstitution in traumatized spinal cord. The method used here has the potential to improve our understanding of changes in the spatial architecture of vascular networks after SCI compared to the conventional histomorphology techniques. In summary, we developed a new methodology to analyze neurovascular pathology based on 3D vascular network patterns and features in an experimental rat SCI model. This technique could be used as a complementary tool to investigate the efficacy and side effects of therapeutic drugs or rehabilitation regimens.

Effects of QWBZP on T-cell subsets and their cytokines in intestinal mucosa of HRV infection suckling mice.

AIM OF THIS STUDY: Qiwei Baizhu Powder (QWBZP) is a traditional herbal prescription that has been used traditionally for the treatment of infantile diarrhea, including the infantile diarrhea caused by Human Rotavirus (HRV). In this study, we investigated the pharmacological activity of QWBZP extract. MATERIALS AND METHODS: NIH suckling mice with HRV induced diarrhea were used. Density of CD3(+), CD4(+) and CD8(+) T cells, mRNA expression of IL-2, IFN-gamma, IL-4 and IL-10 in intestinal mucosa epithelial cells were assayed. RESULTS: QWBZP extract promoted the expressions of mRNA of IL-2, IL-4, IL-10 and IFN-gamma in intestinal mucosa epithelial cells. Also, we found that the density of CD8(+) cells in intestinal mucosa epithelial cells was significantly lower in QWBZP group than in Model group, while the density of CD8(+) cells was significantly higher in QWBZP group than in Model group. CONCLUSION: These data suggest that QWBZP extract may exhibit antiviral effects through modulating the densities of T-cell subsets and the expressions of their cytokines in small intestinal mucosa epithelial cells.