Objective To explore the role and expression of cell apoptosis regulatory genes in patients with temporal lobe epilepsy characterized by hippocampus sclerosis.Methods The experimental specimens were obtained from 15 patients with temporal lobe epilepsy (epilepsy group) and 6 control samples (control group) were obtained from temporal lobe excision of brain trauma decompression,investigated neuron apoptosis by HE stain,TdT-mediated dUTP-biotin nick end labeling (TUNEL) method,and determined the expression of bcl-2,bax and caspase-3 by immunohistochemistry.Results The evidence of neuron apoptosis was not found by HE stain in both control group and epilepsy group.Positive cells was not found in control group,but was obviously observed in epilepsy group by TUNEL staining [(4.39 ± 2.04) numbers/100].Unlike that in normal adult brain,bcl-2 immunoreactivity was obviously observed in some neurons in epilepsy group[(6.72 ± 3.36) numbers/100] (P ＜ 0.01).Compared with control group,bax protein in epilepsy group was mild expression (P ＞ 0.05).Two cases in control group were detected the expression of caspase-3 protein,and caspase-3 significantly increased in epilepsy group [(1.07 ± 0.43),(9.54 ± 3.68) numbers/100] (P ＜ 0.01).Conclusions Neuron apoptosis is an important cause of hippocampal sclerosis of human epilepsy.bcl-2 and caspase-3 may play an important role in this process.

Objective:To investigate the therapeutic efficacy of the combination therapy with CD47-based nanoparticles and anti-PD-L1 monoclonal antibody (αPD-L1) for preventing tumor recurrence and metastasis in vivo.Methods:BALB/c mice were used to construct 4T1 tumor-bearing mouse models. The mouse model was treated with the combination therapy to analyze the effects on local tumor recurrence, tumor growth volume, survival time and lung metastasis in the 4T1 mammary tumor-bearing mouse model.Results:The combination therapy could effectively inhibit local tumor recurrence and prolong the survival time of tumor-bearing mice ( P<0.001). Compared with the αPD-L1 group, the combination therapy can increase the expression of cytokines tumor necrosis factor-α (TNF-α) and interferon-γ (IFN-γ) in mouse serum (all P<0.05) and effector memory T cells in mouse spleen ( P<0.001). In addition, the results on the 4T1-Luc mammary tumor-bearing mouse lung metastasis model showed that the combination therapy could effectively inhibit tumor lung metastasis. Conclusions:The results strongly suggested that combination therapy with CD47-based nanoparticles and αPD-L1 can effectively elicit the memory immune response, and prevent tumor recurrence and lung metastasis.

OBJECTIVE: To observe the clinical effect of single acupoint [Yaotu (extra)] electroacupuncture (EA) therapy on lumbar intervertebral disc herniation (LIDH) and its promotion and application in community medical institutions. METHODS: This research adopted a three-level promotion model, and used multi-center collaboration topics as a platform. A total of 240 patients with LIDH were divided into a group A (top three hospital, 80 cases, 3 cases dropped off), a group B (secondary hospital, 80 cases, 8 cases dropped off), and a group C (community health center, 80 cases, 7 cases dropped off). All groups were treated with EA at a single acupoint [Yaotu (extra)] under the guidance of a unified experimental protocol. The EA was given 60 min each time and performed 3 times a week for a total of 2 weeks. The changes of visual analogue scale (VAS) scores of three groups before and after each treatment were compared, and the clinical efficacy was evaluated. RESULTS: Compared with before each treatment, the VAS scores of three groups after each treatment decreased ( CONCLUSION The single acupoint EA therapy has a significant effect in the treatment of LIDH, can quickly relieve the pain symptoms, and has the characteristics of simple operation and easy control, suitable for promotion and application in primary hospitals.
Acupuncture Points ; Electroacupuncture ; Humans ; Intervertebral Disc ; Intervertebral Disc Degeneration ; Intervertebral Disc Displacement/therapy*

Objective:To explore the mechanism of miR-205-5p/E2F1 signal axis in regulating the glioma U251, U87 radiotherapy resistance.Methods:X-ray gradual ascending and intermittent induction method was used to irradiate the glioma U251 cells to establish U251/TR, U87/TR radiation-resistant cell lines. Then, the morphology, migration, invasion and proliferation abilities of cells (U251/TR, U87/TR radiation-resistant cells and U251, U87 radiation-sensitive cells) were analyzed. Luciferase gene detection system and point mutation technique were employed to analyze the mechanism of miR-205-5p and E2F1 gene activity on U251 and U87 radiation-resistant cell lines.Results:Compared with the radiation-sensitive U251 cells, the radiation-resistant cells U251/TR, U87/TR showed increased proliferation activity, enhanced migration and invasion abilities and decreased apoptosis under X-ray irradiation. miR-205-5p mimics transfection could down-regulate the expression of E2F1 factor in U251/TR cells, inhibit cell proliferation, invasion and migration and increase the radiosensitivity of U251/TR cells. miR-205-5p mimics transfection combined with with E2F1 down-regulation exerted anti-tumor effect and decreased cell tolerance by suppressing the Wnt/β-catenin signaling pathway activity.Conclusions:The glioma radiation-resistant cell line U251/TR, U87/TR can be established by X-ray gradual ascending and intermittent induction method. The miR-205-5p/E2F1 signal axis exerts tumor-suppressing effect through the classical Wnt/β-catenin signaling pathway, which can be used as an therapeutic target to increase the radiosensitivity of glioma.

BACKGROUND: Hair follicles are easily accessible and contain stem cells with different developmental origins, including mesenchymal stem cells (MSCs), that consequently reveal the potential of human hair follicle (hHF)-derived MSCs in repair and regeneration. However, the role of hHF-MSCs in Achilles tendinopathy (AT) remains unclear. The present study investigated the effects of hHF-MSCs on Achilles tendon repair in rabbits. METHODS: First, we extracted and characterized hHF-MSCs. Then, a rabbit tendinopathy model was constructed to analyze the ability of hHF-MSCs to promote repair in vivo . Anatomical observation and pathological and biomechanical analyses were performed to determine the effect of hHF-MSCs on AT, and quantitative real-time polymerase chain reaction, enzyme-linked immunosorbent assay, and immunohistochemical staining were performed to explore the molecular mechanisms through which hHF-MSCs affects AT. Furthermore, statistical analyses were performed using independent sample t test, one-way analysis of variance (ANOVA), and one-way repeated measures multivariate ANOVA as appropriate. RESULTS: Flow cytometry, a trilineage-induced differentiation test, confirmed that hHF-derived stem cells were derived from MSCs. The effect of hHF-MSCs on AT revealed that the Achilles tendon was anatomically healthy, as well as the maximum load carried by the Achilles tendon and hydroxyproline proteomic levels were increased. Moreover, collagen I and III were upregulated in rabbit AT treated with hHF-MSCs (compared with AT group; P  < 0.05). Analysis of the molecular mechanisms revealed that hHF-MSCs promoted collagen fiber regeneration, possibly through Tenascin-C (TNC) upregulation and matrix metalloproteinase (MMP)-9 downregulation. CONCLUSIONS hHF-MSCs can be a treatment modality to promote AT repair in rabbits by upregulating collagen I and III. Further analysis revealed that treatment of AT using hHF-MSCs promoted the regeneration of collagen fiber, possibly because of upregulation of TNC and downregulation of MMP-9, thus suggesting that hHF-MSCs are more promising for AT.
Animals ; Humans ; Rabbits ; Hair Follicle ; Achilles Tendon/pathology* ; Tendinopathy/pathology* ; Proteomics ; Collagen Type I ; Mesenchymal Stem Cells