Prognostic nomogram for microvascular decompression-treated trigeminal neuralgia.

This study aimed to establish an effective prognostic nomogram for microvascular decompression (MVD)-treated trigeminal neuralgia (TN). The nomogram was based on a retrospective cohort study of 1054 patients with TN. During the period 2005-2014, 845 patients at our department treated TN with MVD and served as a development cohort. The predictive accuracy and discriminative ability of the nomogram were determined by concordance index (C-index) and calibration curve. The model was externally validated by 209 TN patients during 2014-2016. Multivariate cox analysis suggested that the patient's age, atypical pain, vascular type, number of offending vessels, and second MVD were significant factors influencing the prognosis of MVD-treated TN. The C index of nomogram in the development cohort was 0.767 (95% CI, 0.739-0.794), and 0.749 (95% CI, 0.688-0.810) in the validation cohort. We developed and validated a nomogram to predict 3-year overall remission rate after MVD treatment of TN. The nomogram can be used in clinical trials to determine the likelihood of pain recurrence in TN patients treated with MVD for 3 years to aid in the comprehensive treatment of TN.

Prognosis Comparison of Different Branches of Trigeminal Neuralgia.

OBJECTIVE: We explored the remission rate of different branches of the trigeminal nerve after microvascular decompression. METHODS: A retrospective analysis of trigeminal neuralgia patients treated with microvascular decompression in our department from January 2014 to January 2015 was conducted to investigate the prognosis and factors affecting prognosis. RESULTS: One-hundred and fifty-five patients with trigeminal neuralgia including 2 patients with V1 division had a remission rate of 100% at 1 day, 3 months, 1 year, and 3 years after surgery; 93.5%, 93.5%, 90.3%, and 67.7% of patients with V1-2 division. The patients with V1-3 division had rates of 91.7%, 87.5%, 75.0%, and 66.7%; V2 division rates were 88.4%, 81.4%, 76.7%, and 69.8%; V2-3 division rates were 90.2%, 90.2%, 87.8%, and 75.6%; and V3 division were 100%, 100%, 92.9%, and 92.9%. CONCLUSIONS: Postoperative remission rate of non-V2-related branches (V1, V3) are higher than V2-related branches (V2, V1-2, V1-3, V2-3).

The Risk Factors for Facial Numbness After Microvascular Decompression in Patients With Trigeminal Neuralgia.

OBJECT: Microvascular decompression (MVD) is the most popular surgical procedure for treating Trigeminal neuralgia (TN). In this article, the authors conducted a large case series in which patients underwent MVD for TN, and focus on surgical outcomes, intraoperative findings, complications and risk factors. METHODS: From January 2017 to June 2017, a total of 84 patients with TN were treated with MVD in our department. The authors retrospectively analyzed the surgical outcomes and postoperative complications of these patients. Risk factors were analyzed by binary logistic regression analysis. RESULTS: Of the 84 patients, 69 had complete postoperative symptom relief (BNI I-II). A total of 28 patients developed postoperative facial numbness (BNI III-IV) and 1 patient died intraoperatively. With binary logistic regression analysis, significant risk factors for postoperative Facial numbness (FN) were longer operation time (odds ratio [OR] 1.153, P <0.05) and longer hospital stay (OR 1.371, P <0.05). The patients' age, the length of the disease, the gender, and the side of the disease did not affect the occurrence of postoperative FN. CONCLUSIONS: The study found that patients with TN treated with MVD had a good response rate after surgery. The incidence of FN after surgery is not low, and longer duration of surgery and longer hospital stay are risk factors for FN. In the case of ensuring the success rate of surgery, reducing unnecessary operations, reducing the operation time, will help to reduce the occurrence of FN.

Surgical effect and electrophysiological study of patients with hemifacial spasm treated with botulinum toxin or acupuncture before microvascular decompression.

OBJECTIVE: We investigated patients with hemifacial spasm (HFS) who received a botulinum toxin (BT) injection or acupuncture before receiving microvascular decompression (MVD) to determine whether it affects the success rate of surgery. Abnormal Muscle Response (AMR) and Compound Motor Action Potential (CMAP) are commonly used as electrophysiological monitoring methods in surgery, and we will compare the differences between these patients in this regard. PATIENTS AND METHODS: A total of 539 patients with HFS underwent MVD treatment in our department between January 2014 and June 2017. Among them, 83 patients had received BT injection before surgery and were recorded as BT group. Eighty-three patients underwent acupuncture before surgery and were recorded as acupuncture group. Five patients received both BT injection and acupuncture before surgery and were recorded as mixed group. A total of 368 patients who had not received any treatment before surgery were recorded as simple MVD group. We calculated the immediate and long-term remission rates after surgery. AMR and CMAP monitoring were routinely performed during surgery. RESULTS: Immediate remission rate after surgery was 96.4% (80/83) in BT group, 100% (83/83) in acupuncture group, 100% (5/5) in mixed group, and 95.1% (350/368) in simple MVD group, and the immediate remission rate of BT group is significantly higher than that of simple MVD group (p = 0.04). Long-term remission rate: the remission rates of the four groups were 94.0% (78/83), 97.6% (81/83), 100.0% (5/5) and 92.7%(341/368), respectively, and there is no statistical difference between them (p > 0.05). The amplitude of one branch or several branches of CMAP on the affected side was lower than the healthy side in BT or acupuncture treatment patients. CONCLUSIONS: A preoperative BT injection or acupuncture treatment do not reduce the postoperative remission rate of HFS patients treated with MVD, and the amplitude of CMAP on the affected side was lower than the healthy side.

Evidence for the association of chromatin and microRNA regulation in the human genome.

Both microRNAs (miRNAs) and chromatin regulation play important roles in cellular processes and they function at different regulatory levels of transcription. Although efforts have been devoted to the investigation of miRNA and chromatin regulation, there's still no comprehensive work to illustrate their relationships due tothe lack of whole-genome wide datasets in different human cellular contexts. Based on the recently published large-scale epigenetic data, we examined the association between miRNA and epigenetic machinery. Our work confirmed a general relationship between miRNA biogenesis and chromatin features around pre-miRNA genomic regions. Obvious enrichments of DNA methylation and several histone modifications were observed within the pre-miRNA genomic region, which werecorrelated with miRNA expression levels. Furthermore, chromatin features at genepromoter regionsweretightly associated with miRNA regulation. Interestingly, we found that genes with their promoter regions located in the active chromatin state regions tend to have a higher probability to be targeted by miRNAs. This worksuggests that miRNAs and chromatin features are often highly coordinated, which provides a guide to deeply understand the complexity of gene regulation.

Knockdown of HDAC1 expression suppresses invasion and induces apoptosis in glioma cells.

Glioma is the most common malignant tumor of the central nervous system, with a low survival rate of five years worldwide. Although high expression and prognostic value of histone deacetylase 1 (HDAC1) have been recently reported in various types of human tumors, the molecular mechanism underlying the biological function of HDAC1 in glioma is still unclear. We found that HDAC1 was elevated in glioma tissues and cell lines. HDAC1 expression was closely related with pathological grade and overall survival of patients with gliomas. Downregulation of HDAC1 inhibited cell proliferation, prevented invasion of glioma cell lines, and induced cell apoptosis. The expression of apoptosis and metastasis related molecules were detected by RT-PCR and Western blot, respectively, in U251 and T98G cells with HDAC1 knockdown. We found that HDAC1 knockdown upregulated expression of BIM, BAX, cleaved CASPASE3 and E-CADHERIN, and decreased expression of TWIST1, SNAIL and MMP9 in U251 and T98G cells with HDAC1 knockdown. In vivo data showed that knockdown of HDAC1 inhibited tumor growth in nude mice. In summary, HDAC1 may therefore be considered an unfavorable progression indicator for glioma patients, and may also serve as a potential therapeutic target.

Overexpression of TREM2 enhances glioma cell proliferation and invasion: a therapeutic target in human glioma.

Gliomas are the most common and aggressive type of primary adult brain tumors. Although TREM2 mutation is reported to be related to Nasu-Hakola disease and Alzheimer's disease, little is known about the association between TREM2 and gliomas. Here, we reported that TREM2 was significantly overexpressed in glioma tissues compared with non-tumorous brain tissues. Furthermore, TREM2 expression was closely related to pathological grade and overall survival of patients with gliomas. Down-regulation of TREM2 in two glioma cell lines, U87 and U373, resulted in a significant reduction in cell proliferation, migration and invasion and a dramatic increase in S phase arrest and apoptosis. In vivo tumorigenesis experiment also revealed that depletion of TREM2 expression inhibited U87 cell proliferation. Moreover, based on gene set enrichment analysis (GSEA) with The Cancer Genome Atlas (TCGA) dataset, we found that TREM2 was positive related to Kyoto Encyclopedia of Genes and Genomes (KEGG) apoptosis, Cromer metastasis and KEGG chemokine pathways, which was further validated by western blot in TREM2 knockdown glioma cells and indicated a possible mechanism underlying its effects on glioma. In summary, our study suggests that TREM2 may work as an oncogene and a new effective therapeutic target for glioma treatment.

TMEM140 is associated with the prognosis of glioma by promoting cell viability and invasion.

BACKGROUND: Gliomas are the most common types of primary brain tumors in the adult central nervous system. TMEM140 is identified as an amplified gene in the human gastric cancer genome. However, the function of TMEM140 in gliomas has not been thoroughly elucidated. The aim of the current study was to determine the clinical significance of TMEM140 expression in patients with gliomas and its effect on tumor cell malignant phenotypes. METHODS: Immunohistochemical analysis and real-time reverse transcription PCR were performed to detect the expression levels of TMEM140 in 70 glioma brain tissue samples. Next, the correlation between the TMEM140 expression levels and the clinical characteristics and outcomes of glioma patients was statistically analyzed. TMEM140 expression was inhibited in two glioma cell lines (i.e., U87 and U373) using a knockdown method with small interfering RNA. Cell Counting Kit-8 and Transwell assays were used to investigate TMEM140 function during cell proliferation, invasion, and migration, respectively. Using flow cytometry and Western blot analysis, we subsequently determined the cell cycle and apoptosis profile of the TMEM140-silenced cells. RESULTS: TMEM140 protein expression was significantly higher in gliomas than in normal brain tissues (p < 0.0001). TMEM140 overexpression was strongly correlated with tumor size, histologic grade, and overall survival time (P < 0.05). TMEM140 decreased cell viability in vitro and dramatically decreased tumor volume in vivo. This phenomenon might be caused by G1 phase cell cycle arrest and cell apoptosis. TMEM140 silencing could suppress the viability, migration, and invasion of glioma cells. CONCLUSIONS: Our results suggest that TMEM140 expression is a prognostic factor that might play an important role in the viability, migration, and invasion of glioma cells. This study highlights the importance of TMEM140 as a novel prognostic marker and as an attractive therapeutic target for gliomas.

The IDO inhibitor coptisine ameliorates cognitive impairment in a mouse model of Alzheimer's disease.

Indoleamine 2,3-dioxygenase (IDO), the first and rate-limiting enzyme in the kynurenine pathway (KP) of tryptophan catabolism, was recently established as one of the potential players involved in the pathogenesis of Alzheimer's disease (AD). Coptisine is a main pharmacological active constituent of the traditional Chinese medicinal prescription Oren-gedoku-to (OGT) which has therapeutic potential for the treatment of AD. Our recent studies have demonstrated that OGT significantly inhibited recombinant human IDO activity, which shed light on the possible mechanism of OGT's action on AD. Here, we characterized the effects of coptisine in an AD mouse model on the basis of its IDO inhibitory ability. Coptisine was found to be an efficient uncompetitive IDO inhibitor with a Ki value of 5.8 µM and an IC50 value of 6.3 µM. In AßPP/PS1 transgenic mice, oral administration of coptisine inhibited IDO in the blood and decreased the activation of microglia and astrocytes, consequently prevented neuron loss, reduced amyloid plaque formation, and ameliorated impaired cognition. Neuronal pheochromocytoma (PC12) cells induced with amyloid-ß peptide 1-42 and interferon-γ showed reduction of cell viability and enhancement of IDO activity, while coptisine treatment increased cell viability based on its reversal effect on the enhanced activity of IDO. In conclusion, our present findings provide further evidence supporting the critical links between IDO, KP, and AD, and demonstrate coptisine, a novel IDO inhibitor, as a potential new class of drugs for AD treatment.

Microvascular decompression surgery: surgical principles and technical nuances based on 4000 cases.

BACKGROUND: As an etiological treatment of trigeminal neuralgia (TN) and hemifacial spasm (HFS), microvascular decompression (MVD) has been popularized around the world. However, as a functional operation in the cerebellopontine angle (CPA), this process can be risky and the postoperative outcomes might not be good enough sometimes. OBJECTIVE: In order to obtain a better result with less complication, this surgery should be further addressed. METHODS: With experience of more than 4000 MVDs, we have gained knowledge about the operative technique. Through abundant intraoperative photos, each step of the procedure was demonstrated in detail and the surgical strategy was focused. RESULTS: The principle of MVD is to separate the nerve-vessel confliction rather than isolate it with prostheses. A prompt identification of the conflict site is important, which hinges on a good exposure. A satisfactory working space can be established by an appropriate positioning of the patient's head and a proper craniectomy as well as a rational approach. A sharp dissection of arachnoids leads to a maximal visualization of the entire intracranial course of the nerve root. All the vessels contacting the trigeminal or facial nerve should be treated. Intraoperative electrophysiological mentoring is helpful to distinguish the offending artery for hemifacial cases. CONCLUSION: MVD is an effective treatment for the patient with TN or HFS. Immediate relief can be achieved by an experienced neurosurgeon with good knowledge of regional anatomy. A safe surgery is the tenet of MVD, and accordingly, no single step of the procedure should be ignored.

Clear cell meningioma: clinical features, CT, and MR imaging findings in 23 patients.

BACKGROUND: Clear cell meningioma (CCM) is a rare meningioma, with radiologic features not well characterized in literature. The purpose of this study was to describe and characterize the clinical features and imaging findings of CCM. MATERIALS AND METHODS: The computed tomography (n = 16) and magnetic resonance (n = 23) images of 23 patients (12 men and 11 women; mean age, 34.6 years) were retrospectively reviewed. All of the patients underwent surgical resection. Follow-up was performed through clinical observations. RESULTS: Cerebellopontine angle was the most frequently presenting location (n = 10). The tumors were isointense (n = 12) or hypointense but associated with isointense (n = 7) appearance to gray matter on T1-weighted images. However, the tumors seemed to be isointense (n = 6) or isointense and hyperintense (n = 13) on T2-weighted images. On gadolinium-enhanced T1-weighted images, heterogeneous enhancement was seen in 14 lesions. Four lesions had amorphous calcifications, 18 showed peritumoral edema, 14 had cystic areas, 2 had bone hyperostosis, and 8 manifested bone destruction. On initial surgery, 17 patients underwent complete resection, whereas 5 patients underwent subtotal resection of their tumors. The operative result for the remaining patient was unknown. Follow-up was possible in 22 patients. Eleven patients had recurrence and 2 had died. CONCLUSIONS: Clear cell meningioma is a rare subtype of meningioma that occurs in younger patients and often recurs. Cerebellopontine angle is the most affected area in this series. The extent of initial surgical resection is the most important prognostic factor. In radiological studies, CCM tends to have marked heterogeneous enhancement, prominent peritumoral edema, intratumoral cystic components, and involvement of the adjacent bone.

Endothelial nitric oxide synthase protects neurons against ischemic injury through regulation of brain-derived neurotrophic factor expression.

AIMS: Several lines of evidence demonstrated that endothelial nitric oxide synthase (eNOS) confers protective effects during cerebral ischemia. In this study, we explored the underlying cellular and molecular mechanisms of neuroprotection by eNOS. METHODS: A series of in vivo and in vitro ischemic models were employed to study the role of eNOS in maintaining neuronal survival and to identify the downstream factors. RESULTS: The current data showed that pretreatment with a specific eNOS inhibitor, L-N5-(1-iminoethyl) ornithine (L-NIO), aggravated the neuronal loss in the rat cerebral ischemic model, accompanied by reduction in brain-derived neurotrophic factor (BDNF) level, which was consistent with the findings in an oxygen-glucose deprivation model (OGD) with two neuronal cells: primary rat cortical neurons and human neuroblastoma SH-SY5Y cells. Furthermore, the extensive neuronal loss induced by L-NIO was totally abolished by exogenous BDNF in both in vitro and in vivo models. On the other hand, eNOS overexpression through an adenoviral vector exerted a prominent protective effect on the neuronal cells subject to OGD, and the protective effect was totally abrogated by a neutralizing anti-BDNF antibody. CONCLUSION: Collectively, our results indicate that the neuroprotection of neuron-derived eNOS against the cerebral ischemia was mediated through the regulation of BDNF secretion. In conclusion, our discovery provides a novel explanation for the neuroprotective effect of eNOS under pathological ischemic conditions such as stroke.

Up-regulation of USP2a and FASN in gliomas correlates strongly with glioma grade.

Gliomas are the most common neoplasms in the central nervous system. The lack of efficacy of glioma therapies necessitates in-depth studies of glioma pathology, especially of the underlying molecular mechanisms that transform normal glial cells into tumor cells. Here we report that a deubiquitinating enzyme, ubiquitin-specific protease 2a (USP2a), and its substrate, fatty acid synthase (FASN), are over-expressed in glioma tissue. Using real-time quantitative polymerase chain reaction (PCR), Western blot and immunohistochemistry, we examined the expression and cellular distribution of USP2a and FASN in human glioma tissues. The expression patterns of USP2a and FASN correlated with the pathologic and clinical characteristics of the patients. Real-time PCR analysis showed that the expression levels of USP2a and its substrate FASN were higher in high-grade (World Health Organization [WHO] grades III and IV) glioma tissues than in low-grade (WHO grades I and II) glioma tissues. Western blot analysis indicated that the average optical densitometry ratio of USP2a and its substrate FASN in high-grade gliomas was higher than in low-grade gliomas. Moreover, statistical analysis of grade-classified glioma samples showed that the level of USP2a and FASN expression increased with the elevation of the WHO grade of glioma. USP2a protein expression was detected in the nucleus of glioma tissues and an increase in expression was significantly associated with the elevation of the WHO grade of glioma by immunohistochemistry. These findings expand our understanding of the molecular profiling of glioma and could shed light on new diagnostic criteria for gliomas.

Knockdown of CDK6 enhances glioma sensitivity to chemotherapy.

Chemotherapy is widely used for the treatment of glioma. Given the high resistance of brain neoplasm tissues to chemotherapy, it is important to find new methods to improve the effects of chemotherapy. However, the molecular mechanisms underlying glioma resistance to chemotherapy are largely unknown. Here, we demonstrate that CDK6, a cell cycle regulator, is significantly upregulated in glioma cells, and the increasing expression of CDK6 correlates well with the grades of glioma malignancy. Using shRNA-mediated CDK6 knockdown, we found that the proliferation and survival of tumor cells were dramatically inhibited. Moreover, CDK6 knockdown in the U251 glioma cell line caused significant increase in the apoptosis of U251 cells treated with temozolomide (TMZ). Furthermore, CDK6 knockdown reduced the expression level of drug resistance genes such as MRP and MDR. These data indicate that CDK6 is an important mediator of glioma resistance to chemotherapy. Our findings provide a new strategy for the development of chemotherapy sensitizer.

Downregulation of ABCG2 expression in glioblastoma cancer stem cells with miRNA-328 may decrease their chemoresistance.

ABCG2, which encodes an ATP-binding cassette transporter protein, is associated with the phenotype of cancer stem cells and is used to define the pluripotential side population cells by flow cytometry and slide-cytometry. MicroRNAs control a wide array of biological processes (e.g., cell differentiation, proliferation and apoptosis) whose dysregulation is a hallmark of cancer. MicroRNA-328 (miR-328) is underexpressed in many cancers including glioblastoma multiforme and contributes to tumor resistance to chemotherapy. ABCG2 is associated with multi-drug resistance and is also highly expressed in glioblastoma. Some preliminary studies have shown that ABCG2 is the target gene for miRNA-328. Thus, we hypothesize that modulating ABCG2 expression by targeting miRNA-328 in glioblastoma cancer stem cells could represent a promising strategy for therapeutic manipulation to increase the efficacy of chemotherapeutic agents for glioblastoma, a highly lethal type of cancer.