RESUMEN
Qualitative analysis of the ingredients absorbed into blood and their metabolites of Xihuang pill (XHP) were conducted using high-performance liquid chromatography quadrupole time-of-flight mass spectrometry (HPLC-Q-TOF-MS/MS) technology. Network pharmacology was used to explore the potential anticancer mechanisms of the ingredients against glioma, and their specific mechanisms were validated through molecular docking and experimental verification. SD rats were intragastrically administered with XHP, and rat serum samples were collected. Ingredients absorbed into blood and their metabolites were identified based on the retention time of chromatographic peaks, accurate molecular mass, characteristic fragment ions, and comparisons with reference substances and literature data. PharmMapper and SwissTarget Prediction databases were used to obtain the targets of the XHP-medicated serum, while GeneCards, OMIM, PharmGKB, TTD, and DrugBank databases were used to obtain glioma disease targets. The "component-target" network relationship diagram was constructed using Cytoscape 3.9.1 software. The protein-protein interaction (PPI) network diagram was constructed using the STRING database, and the targets were analyzed using GO and KEGG analyses. Molecular docking was used to verify the binding ability of core targets with their corresponding compounds in XHP-medicated serum. The potential mechanism of the anti-glioma effect of 11-keto-β-boswellic acid (KBA), a representative component of XHP-medicated serum, was verified using CCK-8 and Western blot assays. A total of 40 compounds were identified in the XHP-medicated serum, including 28 prototype components and 12 metabolites. The network pharmacology results showed that elemonic acid, 3-acetyl-β-boswellic acid, KBA, α-boswellic acid, and other 5 compounds might be the active ingredients of XHP-medicated serum in the treatment of glioma. Glutathione reductase (GSR), glucose-6-phosphate dehydrogenase (G6PD), ATP-citrate lyase (ACLY), aldo-keto reductase family 1 member B1 (AKR1B1) and glutaredoxin (GLRX) were identified as key targets, involving pathways such as glutathione metabolism and the pentose phosphate pathway. Further cell experiments showed that KBA significantly inhibited the proliferation of T98G cells with an IC50 of 30.96 μmol·L-1, and KBA (30 μmol·L-1) significantly downregulated the protein expression levels of GSR in T98G cells. In summary, XHP-medicated serum may exert its anti-glioma effect by regulating GSR and G6PD-targeted pathways involved in glutathione metabolism. These results provide valuable evidence for further investigating the mechanism of XHP in treating glioma. The animal welfare and experimental procedures were approved by the Ethical Committee of Laboratory Animals at Nanjing University of Chinese Medicine (approval No. ACU221001).
RESUMEN
The treatment of glioblastoma, the most prevalent malignant tumor in the central nervous system, poses considerable challenges. Glioblastoma multiforme, classified as a grade Ⅳ highly malignant brain glioma by the World Health Organization, is typically managed through a combination of surgery, postoperative chemotherapy, and radiotherapy. The treatment of glioblastoma is complicated by its infiltrative nature, genetic heterogeneity, and presence of the blood-brain barrier. Almost all cases of glioblastoma experience recurrence despite aggressive therapy, exploring the development of updated molecular treatment strategies that can improve overall efficacy. A crucial aspect in modern neurosurgery is the precise delineation of brain regions in terms of their anatomy and function. It serves as the fundamental basis for investigating variations in the distribution of brain gliomas. Hence, this review will elucidate the origin of glioblastomas and analyze the potential factors contributing to the spatially specific distribution of gliomas on the basis of a theoretical framework of brain connectomics research. Molecular characteristics, information pathways, tumor microenvironment landscape, and immunology will inform the analysis. We aim to identify novel biomolecular targets and therapeutic pathways to gain scientific insights for effective glioblastoma treatment.
RESUMEN
ObjectivesTo explore the effect of diffuse glioma with precentral-gyrus invasion on fMRI activation maps by grasping T-fMRI. MethodsA total of 56 diffuse glioma patients were divided into precentral-gyrus invasion (PGI: n=21) and precentral-gyrus non-invasion (PGNI: n=35) groups. Three statistical thresholds (P value: 10-4, P1; 10-6, P2; 10-8, P3) were set to obtain the activation maps accordingly (V1, V2 and V3). The interhemispheric and bilateral precentral gyrus activation volumes ratios (IAVR and PAVR) were calculated, respectively. The activation volumes [△V1=V1-V2; △V2=V2-V3; △Vn (ipsilateral)/△Vn’ (contralateral), n=1, 2] within two statistical thresholds and the corresponding interhemispheric ratio was further compared. In addition, the associations of tumor characteristics with IAVR and PAVR were analyzed. ResultsCompared with PGNI, PGI showed significantly decreased IAVR at p1, and the same trends of PAVR in PGI at P1 and P2 (P<0.05). However, neither IAVR nor PAVR showed significant differences at P3. PGI showed significantly lower ratios of △V1/△V1’ than PGNI (P=0.02), except for △V2/△V2’. Additionally, within PGI, PAVR was negatively correlated with tumor volume (P=0.043), and the distance from the tumor to the hand-knob was positively correlated with the IAVR and PAVR (P<0.05). ConclusionDiffuse glioma invading eloquent areas tended to affect interhemispheric asymmetry of activation at relatively lower statistical thresholds than diffuse glioma without invasion, rather than stricter statistical thresholds. Multiple ranges of statistical thresholds were recommended to analyze T-fMRI.
RESUMEN
Gliomas are the most common primary intracranial tumors in adults, among which high-grade glioma patients are characterized by short survival and poor prognosis. The diagnosis, treatment, evaluation of effective treatments, and prognosis prediction of high-grade gliomas are of great significance for improving patient survival. Conventional enhanced magnetic resonance imaging has deficiencies in delineating tumor extent, identifying tumor progression and treatment-related changes. Therefore, there is a broad consensus to incorporate amino acid PET, and 18F-FET PET inparticular, into the diagnostic and therapeutic process of high-grade gliomas. In this article, we review the new research progress of 18F-FET PET in the diagnosis and treatment of adult high-grade glioma in recent years.
RESUMEN
OBJECTIVE To investigate the effects of anlotinib on the malignant phenotype of glioma cells by regulating the nuclear factor-κB (NF-κB) signaling pathway. METHODS Human glioma T98G cells were cultured in vitro, and 5-fluorouracil was used as positive control to investigate the effects of different concentrations of anlotinib (5, 10, 20 μmol/L) on the ability of proliferation, adhesion, migration and invasion, the expressions of epithelial-mesenchymal transition (EMT) related proteins [E-cadherin, N-cadherin, vimentin and fibronectin (FN)]. NF- κB signaling pathway inhibitor (BAY 11-7082) and activator (prostratin) were additionally used to verify the possible mechanism of the above effects of anlotinib. RESULTS Anlotinib with 5, 10, 20 μmol/L could significantly decrease the activity of cell proliferation (except for 5 μmol/L anlotinib group), migration rate, and the number of adherent cells and invasive cells, could significantly up-regulate the expression of E-cadherin protein while down-regulate the expressions of N-cadherin, vimentin and FN protein (P<0.05); the effect of 20 μmol/L anlotinib was similar to that of positive control (P>0.05). Compared with 10 μmol/L anlotinib, pathway inhibitor could significantly decrease the ability of proliferation, adhesion, migration and invasion, and the expressions of N-cadherin, vimentin, FN and phosphorylated NF-κB p65 protein, while could significantly up-regulate the expression of E-cadherin protein (P<0.05); above indexes were reversed significantly by pathway activator (P<0.05). CONCLUSIONS Anlotinib may inhibit the proliferation, adhesion, migration and invasion of human glioma T98G cells, which may be associated with the inhibition of the NF-κB signaling pathway, thus inhibiting cell EMT-like processes.
RESUMEN
Abstract Objectives To compare the efficacy and safety of larotrectinib with those of infigratinib in adult glioma patients with tyrosine kinase alterations. Methods Patients received oral infigratinib 125 mg (IN cohort, n = 125) or oral larotrectinib (LB cohort, n = 105) until unacceptable toxicity or disease progression. Results Duration of treatment was longer in the LB cohort than in the IN cohort (8 [9.5-6.25] months vs. 5.5 [6-5.25] months, p < 0.0001). Patients with partial responses (p = 0.0424) and overall survival (p = 0.03) were higher in the IN cohort than those in the LB cohort. The number of patients with disease progression was higher in the LB cohort (p = 0.0015). All the patients reported diarrhea, fatigue, vomiting, constipation, and decreased appetite. Patients in the IN cohort reported hyperphosphatemia, hyperlipasemia, stomatitis, dry skin, alopecia, dyspepsia, onycholysis, palmar-plantar erythrodysesthesia, nail disorders, and dry eyes. Patients in the LB cohort reported upper respiratory tract infections, pyrexia, cough, anemia, bacterial/viral infections, conjunctivitis, urinary tract infections, headaches, ataxia, dizziness, and muscle tremors. A total of 30 (24 %) and 40 (38 %) patients from the IN and the LB cohorts died at the follow-up of 18 months (p = 0.03). Patients who received bevacizumab initial therapy had higher overall survival (p = 0.048). Conclusions Infigratinib has higher efficacy and overall survival than larotrectinib but has higher adverse effects in the management of both glioma and tyrosine kinase alterations after failure of initial therapies. Initial bevacizumab therapy is associated with a higher overall survival.
RESUMEN
ABSTRACT This article reports the case of an 11-year-old male patient with a history of proptosis and low progressive visual acuity in the left eye. He presented with a best corrected visual acuity of 20/25 in the right eye and light perception in the left eye. Exotropia and limitation in adduction were observed in the left eye. On automated perimetry, inferiortemporal quadrantopsia was observed in the right eye, while total scotoma was observed in the left eye. On magnetic resonance imaging, there was an expansive lesion in the left optic nerve, extending to the brainstem with chiasmatic involvement. This article aims to report a case of optic pathway glioma, as well as to discuss its clinical findings and their interconnection with the current literature.
RESUMO Este artigo relata o caso de um paciente do sexo masculino, 11 anos de idade, com história de proptose e baixa de acuidade visual progressiva. Ao exame oftalmológico apresentava melhor acuidade visual de 20/25 em olho direito e percepção de luz em olho esquerdo. Existia exotropia e limitação à adução no olho esquerdo. À campimetria automatizada, observou-se quadrantopsia temporal inferior em olho direito e escotoma total em olho esquerdo. À ressonância magnética, evidenciou-se lesão expansiva em trajeto do nervo óptico esquerdo estendendo-se até região do tronco encefálico, com acometimento quiasmático. O objetivo deste artigo é relatar o glioma de vias ópticas, bem como discutir os achados e sua interligação com a literatura atual.
RESUMEN
Abstract In recent decades, there have been significant advances in the diagnosis of diffuse gliomas, driven by the integration of novel technologies. These advancements have deepened our understanding of tumor oncogenesis, enabling a more refined stratification of the biological behavior of these neoplasms. This progress culminated in the fifth edition of the WHO classification of central nervous system (CNS) tumors in 2021. This comprehensive review article aims to elucidate these advances within a multidisciplinary framework, contextualized within the backdrop of the new classification. This article will explore morphologic pathology and molecular/genetics techniques (immunohistochemistry, genetic sequencing, and methylation profiling), which are pivotal in diagnosis, besides the correlation of structural neuroimaging radiophenotypes to pathology and genetics. It briefly reviews the usefulness of tractography and functional neuroimaging in surgical planning. Additionally, the article addresses the value of other functional imaging techniques such as perfusion MRI, spectroscopy, and nuclear medicine in distinguishing tumor progression from treatment-related changes. Furthermore, it discusses the advantages of evolving diagnostic techniques in classifying these tumors, as well as their limitations in terms of availability and utilization. Moreover, the expanding domains of data processing, artificial intelligence, radiomics, and radiogenomics hold great promise and may soon exert a substantial influence on glioma diagnosis. These innovative technologies have the potential to revolutionize our approach to these tumors. Ultimately, this review underscores the fundamental importance of multidisciplinary collaboration in employing recent diagnostic advancements, thereby hoping to translate them into improved quality of life and extended survival for glioma patients.
Resumo Nas últimas décadas, houve avanços significativos no diagnóstico de gliomas difusos, impulsionados pela integração de novas tecnologias. Esses avanços aprofundaram nossa compreensão da oncogênese tumoral, permitindo uma estratificação mais refinada do comportamento biológico dessas neoplasias. Esse progresso culminou na quinta edição da classificação da OMS de tumores do sistema nervoso central (SNC) em 2021. Esta revisão abrangente tem como objetivo elucidar esses avanços de forma multidisciplinar, no contexto da nova classificação. Este artigo irá explorar a patologia morfológica e as técnicas moleculares/genéticas (imuno-histoquímica, sequenciamento genético e perfil de metilação), que são fundamentais no diagnóstico, além da correlação dos radiofenótipos da neuroimagem estrutural com a patologia e a genética. Aborda sucintamente a utilidade da tractografia e da neuroimagem funcional no planejamento cirúrgico. Destacaremos o valor de outras técnicas de imagem funcional, como ressonância magnética de perfusão, espectroscopia e medicina nuclear, na distinção entre a progressão do tumor e as alterações relacionadas ao tratamento. Discutiremos as vantagens das diferentes técnicas de diagnóstico na classificação desses tumores, bem como suas limitações em termos de disponibilidade e utilização. Além disso, os crescentes avanços no processamento de dados, inteligência artificial, radiômica e radiogenômica têm grande potencial e podem em breve exercer uma influência substancial no diagnóstico de gliomas. Essas tecnologias inovadoras têm o potencial de revolucionar nossa abordagem a esses tumores. Em última análise, esta revisão destaca a importância fundamental da colaboração multidisciplinar na utilização dos recentes avanços diagnósticos, com a esperança de traduzi-los em uma melhor qualidade de vida e uma maior sobrevida.
RESUMEN
Durante mucho tiempo, la clasificación de los tumores del sistema nervioso central (SNC) se ha basado en hallazgos histológicos respaldados por pruebas complementarias, como la inmunohistoquímica, establecidas en tejidos. La quinta edición de la clasificación de tumores del SNC de la Organización Mundial de la Salud (OMS), publicada en 2021 (SNC-5) incorpora numerosos marcadores moleculares con utilidad clínico-patológica que son importantes para una clasificación más precisa de las neoplasias del SNC. Ello permiten ayudar a definir los gliomas difusos del adulto, oligodendroglioma mutado para el gen de la IDH (isocitrato deshidrogenasa láctica), con codeleción 1p/19q grados 2 a 3, astrocitoma mutado para IDH sin codeleción 1p/19q, grados 2 a 4 y glioblastoma (GBM) silvestre para IDH. La mediana de sobrevida en los pacientes con GBM es de solo 14.6 meses, debido a la resistencia al protocolo de terapia más utilizado en el mundo, el cual involucra cirugía, radioterapia y quimioterapia con temozolamida (TMZ), un potente alquilante genotóxico. Los criterios de selección del tratamiento y la estimación del pronóstico en pacientes con esta enfermedad son clínico-patológicos. En los últimos años se reportaron numerosas alteraciones moleculares que amplían la comprensión de la biología de estos tumores, pero solo unas pocas influyen como biomarcadores en la toma de decisiones clínicas y del tratamiento. En este artículo se revisan las alteraciones moleculares reportadas para gliomas de alto grado en sangre periférica, también se resalta la importancia de estandarizar nuevos biomarcadores junto a los hallazgos histológicos para mejorar el conocimiento de estos tumores.
For a long time, the classification of central nervous system (CNS) tumors has been based on histological findings supported by complementary tests, such as immunohistochemistry, established in tissues. The fifth edition of the World Health Organization (WHO) Classification of Tumors of the Central Nervous System, published in 2021 (CNS-5), incorporates numerous molecular markers with clinical-pathological utility that are important for a more accurate classification of CNS neoplasms. These markers help to define adult diffuse gliomas, including IDH-mutant oligodendroglioma with 1p/19q codeletion (grades 2-3), IDH-mutant astrocytoma without 1p/19q codeletion (grades 2-4), and wild-type IDH glioblastoma (GBM). The median survival in patients with GBM is only 14.6 months, primarily due to resistance to the most widely used treatment protocol worldwide, which involves surgery, radiotherapy, and chemotherapy with temozolomide (TMZ), a potent genotoxic alkylating agent. The selection criteria for treatment and the estimation of prognosis in patients with this disease are predominantly based on clinical and pathological factors. In recent years, numerous molecular alterations have been reported, expanding our understanding on the biology of these tumors. However, only a few of these molecular alterations serve as biomarkers that influence clinical decision-making and treatment strategies. This article reviews the molecular alterations reported in peripheral blood for high-grade gliomas and emphasizes the importance of standardizing new biomarkers alongside histological findings to enhance our knowledge of these tumors.
Por muito tempo, a classificação dos tumores do sistema nervoso central (SNC) baseou-se em achados histológicos respaldados por exames complementares, como a imuno-histoquímica, estabelecidos nos tecidos. A quinta edição da classificação de tumores do SNC da Organização Mundial da Saúde (OMS), publicada em 2021 (CNS-5), incorpora inúmeros marcadores moleculares com utilidade clinicopatológica importantes para uma classificação mais precisa das neoplasias do SNC. Isso permite definir gliomas difusos adultos, oligodendroglioma mutado para o gene IDH (lactic isocitrato desidrogenase), com codeleção 1p/19q graus 2 a 3, astrocitoma mutado para IDH sem codeleção 1p/19q, graus 2 a 4 e wild- tipo glioblastoma (GBM) para IDH. A sobrevida mediana em pacientes com GBM é de apenas 14,6 meses, devido à resistência ao protocolo terapêutico mais utilizado no mundo, que envolve cirurgia, radioterapia e quimioterapia com temozolamida (TMZ), um potente alquilador genotóxico . Os critérios de seleção para o tratamento e estimativa do prognóstico em pacientes com essa doença são clínico-patológicos. Nos últimos anos, foram relatadas inúmeras alterações moleculares que ampliam o entendimento da biologia desses tumores, mas apenas algumas influenciam na decisão clínica e terapêutica como biomarcadores. Este artigo revisa as alterações moleculares relatadas para gliomas de alto grau no sangue periférico, destacando também a importância da padronização de novos biomarcadores juntamente com os achados histológicos para melhorar o conhecimento desses tumores
Asunto(s)
HumanosRESUMEN
Aim: High-grade glial tumors remain as one of the most lethal malignancies. Cyclin D1 is expressed in some human malignancies and is the potential target of intervention. The present study aims to determine the relationship of cyclin D1 expression with other clinicopathological parameters. Materials and Methods: A cross-sectional study was carried out in a tertiary care center. Biopsy proven 66 cases of glial tumor patients were included in the study. The patients with incomplete clinical details were excluded from the study. Immunohistochemistry using antibodies for IDH 1 and cyclin d1 was done in all the cases. Glial tumors were reclassified according to WHO 2016 classification. Data analysis was performed using SPSS 26.0 for the windows. Result: Among 66 patients, 49 (74.3%) were males and 17 (25.7%) were females. The age of the patients ranged from 20 years to 70 years. Overall, 6.02% were of grade I Glial tumors, 22.7% were of grade II Glial tumors, 19.6% patients were of grade III Glial tumors, and 51.6% patients were of grade IV Glial tumors. Of 66 samples tested cyclin D1 was positive in 25 (37.87%) as high expressers and 7 (10.60%) were low expressers. Our study showed a significant correlation between the expression of cyclin D1 with grade and IDH mutation status, No significant correlation of cyclin D1 was noted with age or sex of the patient. Conclusion: Cyclin D1 was associated with a higher grade of the glial tumor. It can be a potential marker both for prognosis and treatment of glial tumors.
RESUMEN
Abstract The purpose of this pictorial essay is to describe the recommendations of the 2021 World Health Organization classification for adult-type and pediatric-type gliomas and to discuss the main modifications in relation to the previous (2016) classification, exemplified by imaging, histological, and molecular findings in nine patients followed at our institutions. In recent years, molecular biomarkers have gained importance in the diagnosis and classification of gliomas, mainly because they have been shown to correlate with the biological behavior and prognosis of such tumors. It is important for neuroradiologists to familiarize themselves with this new classification of central nervous system tumors, so that they can use this knowledge in evaluating and reporting the imaging examinations of patients with glioma.
Resumo O propósito deste ensaio iconográfico é descrever e discutir as novas recomendações da Organização Mundial da Saúde de 2021, referente aos gliomas dos tipos adulto e infantil, e suas principais diferenças com a classificação anterior (2016), exemplificadas com imagens de nove casos de pacientes atendidos nas nossas instituições. Recentemente, há uma crescente significância dos marcadores moleculares no diagnóstico e classificação dos gliomas e tumores do sistema nervoso central, principalmente pela correlação com o comportamento biológico e o prognóstico. É importante que os neurorradiologistas estejam familiarizados com a nova classificação dos tumores do sistema nervoso central para a prática clínica, na avaliação e emissão de laudos e opiniões nas imagens dos pacientes com gliomas.
RESUMEN
El perfil molecular de los gliomas permite garantizar la precisión del diagnóstico, informar el pronóstico e identificar opciones de tratamiento. Esta revisión tiene como objetivo exponer que con la secuenciación de próxima generación (NSG) el diagnóstico de los pacientes con oligodendrogliomas puede ser más exacto. Además, con un dispositivo de diagnóstico in vitro, basado en la NSG (F1CDx), en el que se utilizan los bloques de parafina de gliomas para analizar hasta 395 genes relacionados con cáncer (incluido IDH 1 y 2), se puede también informar la pérdida de la totalidad del brazo corto del cromosoma 1 y del brazo largo del cromosoma 19 (codeleción 1p/19q), a diferencia de la hibridación fluorescente in situ (FISH) que detecta desde la más mínima deleción, lo cual los hace sensibles pero no específicos ya que el FISH es incapaz de distinguir entre la pérdida de la totalidad del brazo del cromosoma y una deleción focal. Esta distinción es importante ya que la sobrevida es inferior en tumores con deleción parcial en relación con los oligodendrogliomas, que tienen por definición la pérdida total de ambos cromosomas. Se hace también alusión a otras plataformas genómicas como GlioSeq y GLIO-DNA panel, que pueden cumplir la misma función. En conclusión, la F1CDx puede determinar con precisión 1p/19q con una concordancia del 96.7% frente a FISH. Los casos en que el FISH dio positivo y no concordaban con F1CDx, era porque no se trataba de oligodendrogliomas. F1CDx también analiza todos los genes que permiten la aproximación más exacta al diagnóstico de oligodendroglioma.
Molecular profiling of gliomas helps ensure diagnostic accuracy, inform prognosis, and identify treatment options. This review aims to show that with next generation sequencing (NGS) the diagnosis of patients with oligodendrogliomas can be more accurate. In addition, with an in vitro diagnostic device, based on NSG (F1CDx), in which glioma paraffin blocks are used to analyze up to 395 cancer-related genes (including IDH 1 and 2), it is also possible to report the loss of the entire short arm of chromosome 1 and the long arm of chromosome 19 (1p/19q codeletion), unlike fluorescence in situ hybridization (FISH) that detects even the slightest deletion, making them sensitive but not specific, as FISH is unable to distinguish between the loss of the entire arm of the chromosome and a focal deletion. This distinction is important since survival is lower in tumors with partial deletion compared to oligodendrogliomas, which by definition have the total loss of both chromosomes. Reference is also made to other genomic platforms such as GlioSeq and GLIO-DNA panel, which can fulfill the same function. In conclusion, the F1CDx can accurately determine 1p/19q with a concordance of 96.7% against FISH. The cases in which the FISH was positive and did not agree with F1CDx, it was because they were not oligodendrogliomas. F1CDx also analyzes all the genes that allow the most accurate approach to the diagnosis of oligodendroglioma.
O perfil molecular de gliomas ajuda a garantir a precisão do diagnóstico, informar o prognóstico e identificar as opções de tratamento. Esta revisão tem como objetivo mostrar que com o sequenciamento de próxima geração (NSG) o diagnóstico de pacientes com oligodendrogliomas pode ser mais preciso. Além disso, com um dispositivo de diagnóstico in vitro baseado em NSG (F1CDx), no qual blocos de parafina de glioma são usados para analisar até 395 genes relacionados ao câncer (incluindo IDH 1 e 2), também é possível relatar a perda do todo o braço curto do cromossomo 1 e o braço longo do cromossomo 19 (codeleção 1p/19q), ao contrário da hibridização fluorescente in situ(FISH) que detecta desde a menor deleção, o que os torna sensíveis, mas não específicos, pois o FISH é incapaz de distinguir entre a perda de todo o braço do cromossomo e uma deleção focal. Essa distinção é importante, pois a sobrevida é menor nos tumores com deleção parcial em relação aos oligodendrogliomas, que por definição apresentam a perda total de ambos os cromossomos. Também é feita referência a outras plataformas genômicas, como GlioSeq e painel GLIO-DNA, que podem cumprir a mesma função. Em conclusão, o F1CDx pode determinar com precisão 1p/19q com uma concordância de 96,7% versus FISH. Os casos em que FISH foi positivo e não concordaram com F1CDx, foi porque não eram oligodendrogliomas. O F1CDx também analisa todos os genes que permitem a abordagem mais precisa para o diagnóstico de oligodendroglioma.
Asunto(s)
Humanos , Glioma , Oligodendroglioma , Sobrevida , Técnicas In Vitro , Diagnóstico , NeoplasiasRESUMEN
The most common type of intracranial malignancy is glioma. Although the current treatments are surgery, radiation and chemotherapy, the prognosis for patients with glioma is not promising. Therefore, it becomes critical to find an effective management. The literature shows that microRNA (miRNA) plays an important role in tumorigenesis and progression. Based on this, this study aimed to investigate the molecular mechanism of miR-525-5p in regulating the migration, invasion and proliferation of glioma cells. The TCGA database was used to identify perilipin 3 (PLIN3) differentially expressed in normal tissues and glioma tissues, and the CGGA and GEPIA databases were used to query that high expression of PLIN3 was associated with poor prognosis in glioma patients and Western blot experiments revealed that PLIN3 was highly expressed in glioma cells (P<0. 05) . The results of wound healing assay and Transwell invasion assay showed that knockdown or overexpression of PLIN3 respectively inhibited or promoted the migration and invasion of glioma cells (P < 0. 05) . Dual luciferase assays confirmed that PLIN3 could bind to miR-525-5p target. Real-time fluorescence quantitative polymerase chain reaction (qRT-PCR) showed that miR-525-5p expression was lower in LN229 and U251 glioma cells than in human astrocyte (HA) (P < 0. 05) . Transwell assay and 5-ethynyl-2-deoxyuridine (EdU) cell proliferation assay verified that down- or up-regulation of miR-525-5p could reverse the effects of overexpression or knockdown of PLIN3 on LN229 glioma cells (P<0. 05) . Taken together, miR-525-5p was able to regulate the migration, invasion and proliferation of glioma cells by targeting PLIN3.
RESUMEN
Objective To investigate the effect of microRNA (miR)-138 regulation of Wnt signaling pathway on the biological behavior of human glioma cells in vitro. Methods Glioma cell lines U-87MG and U251 were selected and randomly divided into blank group, miR-NC group, miR-138 mimics group and miR-138 inhibitor group. Real-time PCR was used to detect the miR-138 expression in each group; MTT, flow cytometry, Transwell assay and scratch assay were used to detect proliferation, apoptosis, invasion and migration ability of each group respectively, and Western blotting was used to detect Wnt pathway-related protein expression in each group. Results The miR-138 expression level was higher in the miR-138 mimics group compared with the remaining 3 groups, and that in the miR-138 inhibitor group was lower than that in the blank group and the miR-NC group (P<0. 05) ; Compared with the blank group, the cell proliferation rate was lower in the miR-138 mimics group and higher in the miR-138 inhibitor group, and was time-dependent (P<0. 05) ; The apoptosis rate in the miR-138 mimics group was higher than that in the blank group, miR-NC group, and miR-138 inhibitor group, while the apoptosis rate in the miR-138 inhibitor group was lower than that in the rest other groups (P<0. 05) ; The number of cell-invading cells in the miR-138 mimics group was lower than that in the blank group, miR-NC group, and miR-138 inhibitor group, while all miR-138 inhibitor group were higher than the remaining three groups (P<0. 05) ; The cell migration rate of miR-138 mimics group was lower than that of blank group, miR-NC group and miR-138 inhibitor group, while all miR-138 inhibitor group were higher than the remaining three groups (P<0. 05) ; Wnt3a, Wntl, glycogen synthase kinase 3(3(GSK-3(3) and (3-catenin protein expression in the miR-138 mimics group was lower than that in the blank group, miR-NC group, and miR-138 inhibitor group; While miR-138 inhibitor groups were higher than the remaining three groups(P<0. 05). Conclusion MiR-138 overexpression effectively inhibite the proliferation, invasion and migration of glioma cells and promote their apoptosis, probably achieved by pathway inhibition of the Wnt signaling pathway.
RESUMEN
Aim To investigate the effects of dichloroacetate(DCA)combined with vitamin C(VC)on the malignant behavior of glioma U87 and U251 cells, and to explore the potential mechanism. Methods U87 and U251 cells were treated with different concentrations of DCA alone or in combination with 5 mmol·L-1 VC. The proliferation rate of each group was detected by CCK-8 method and the cooperative index was calculated. U87 and U251 cells were treated with DMSO, 15 mmol·L-1 DCA, 5 mmol·L-1 VC and their combination. The changes of clonal formation, reactive oxygen species content, apoptosis, cell cycle, migration and invasion were detected via in vitro experiments, while the proliferation of U251 cells in vivo in each group was detected by subcutaneous tumor-forming model. Western blot was used to detect the expression levels and degradation rates of BCL2A1 and CDC25A in each group of cells after network pharmacological analysis of DCA and VC targets and their value in glioma, and the expression levels of CDK4, CDK6, cytochrome C, caspase-7 and cleaved-caspase-7 were detected. Results The combined index of 15 mmol·L-1 DCA and 5 mmol·L-1 VC was the highest. Compared with the control and single drug groups, the clonal formation, migration and invasion ability of cells in combination group in vitro significantly decreased, the proliferation rate in vivo also decreased, and the content of reactive oxygen species, apoptosis rate and G1 phase arrest rate significantly increased. BCL2A1 and CDC25A proteins were important targets of DCA and VC in glioma. Compared with the control and single-drug groups, the expression levels of BCL2A1, CDC25A, CDK4, and CDK6 in the combination group were significantly reduced, and the expression levels of cytochrome C and cleaved-caspase-7 markedly increased, and the protein degradation rates of BCL2A1 and CDC25A significantly increased in the combination group. Conclusions VC can cooperate with DCA to promote the degradation of BCL2A1 and CDC25A, and inhibit the malignant behavior of glioma cells.
RESUMEN
OBJECTIVE@#To determine whether miRNA-128-3p regulates malignant biological behavior of glioma cells by targeting KLHDC8A.@*METHODS@#Dual-luciferase reporter assays, qRT-PCR and Western blotting were used to verify the targeting of miRNA-128-3p to KLHDC8A. Edu assay, flow cytometry, Transwell assay and would healing assay were used to determine the effects of changes in miRNA-128-3p and KLHDC8A expression levels on malignant behavior of glioma cells. Rescue experiment was carried out to verify that miRNA-128-3p regulated glioma cell proliferation, apoptosis, invasion and migration by targeting KLHDC8A.@*RESULTS@#The expression level of KLHDC8A was significantly increased in high-grade glioma tissue and was closely related to a poor survival outcome of the patients. Overexpression of KLHDC8A promoted glioma cell proliferation, migration and invasion, and miRNA-128-3p overexpression inhibited proliferative and metastatic capacities of glioma cells. Mechanistically, KLHDC8A expression was directly modulated by miRNA-128-3p, which, by targeting KLHDC8A, inhibited malignant behavior of glioma cells.@*CONCLUSION@#Upregulation of miRNA-128-3p inhibits uncontrolled growth of glioma cells by negatively regulating KLHDC8A expression and its downstream effectors, suggesting that the miRNA-128-3p-KLHDC8A axis may serve as a potential prognostic indicator and a therapeutic target for developing new strategies for glioma treatment.
Asunto(s)
Humanos , Apoptosis , Línea Celular Tumoral , Movimiento Celular , Proliferación Celular , Regulación Neoplásica de la Expresión Génica , Glioma/patología , MicroARNs/metabolismo , Regulación hacia ArribaRESUMEN
Gliomas are commonly central nervous system tumors. The conventional treatment is surgical resection combined with chemoradiotherapy, but glioma patients often have a poor prognosis. Therefore, there is an urgent need to identify new potential targets in gliomas and develop more effective treatments. Valproic acid has the properties of histone deacetylase inhibitor, which has been proven to have inhibitory effects on various tumors. It is confirmed that valproic acid could promote apoptosis and cell arrest of glioma cells, inhibit cell invasion and glioma stem cells, increase the sensitivity of glioma cells to radiotherapy and chemotherapy by regulating ERK/Akt signaling pathway, Akt/mTOR signaling pathway, and regulating expression levels of RECK, MGMT, Nrf2, PON2, Smad4, GSK3β and other proteins. In addition, valproic acid can also enhance the effectiveness of anticancer drugs by inhibiting the growth of glioma stem cells and inducing their differentiation. In conclusion, valproic acid can inhibit glioma through multiple targeted actions, and may become a new targeted drug for the treatment of glioma.
RESUMEN
Natural Killer (NK) cells are another type of anti-tumor immune cells with promising clinical application in addition to T cells. NK cell activity is mainly regulated by its surface receptors and immune microenvironment. The strong immunosuppressive microenvironment of glioma results in low efficiency of NK cell immunotherapy. This article reviews NK cells in the immunotherapy for glioma from the interaction of glioma-NK cell, and the latest research progress of targeted NK cells compounds, monoclonal antibody, and cytokine therapy, focusing on the genetic modification of NK cells in the present situation and trend of glioma immunotherapy, and molecular mechanism of glioma cells related to immune escape. We hope this article will provide theoretical basis and new ideas for NK cell-based immunotherapy of glioma.
RESUMEN
Glioma is a common primary malignant brain tumor. At present, the main clinical treatment is surgical resection combined with radiotherapy and chemotherapy. Due to the selective permeability of the blood-brain barrier and the characteristics of multi-drug resistance of tumor cells, the therapeutic effect is not ideal. In recent years, studies have found that borneol could open the blood-brain barrier and promote the infiltration of chemotherapy drugs. When borneol is combined with or co-carried with chemotherapy drugs, chemotherapy drugs could target more glioma tissues and increase efficacy. The preclinical studies on the combination of borneol and chemotherapy drugs in recent years were reviewed in this article, in order to provide useful reference for the treatment of glioma.
RESUMEN
Chemotherapy is an important adjuvant treatment of glioma, while the efficacy is far from satisfactory, due not only to the biological barriers of blood‒brain barrier (BBB) and blood‒tumor barrier (BTB) but also to the intrinsic resistance of glioma cells via multiple survival mechanisms such as up-regulation of P-glycoprotein (P-gp). To address these limitations, we report a bacteria-based drug delivery strategy for BBB/BTB transportation, glioma targeting, and chemo-sensitization. Bacteria selectively colonized into hypoxic tumor region and modulated tumor microenvironment, including macrophages repolarization and neutrophils infiltration. Specifically, tumor migration of neutrophils was employed as hitchhiking delivery of doxorubicin (DOX)-loaded bacterial outer membrane vesicles (OMVs/DOX). By virtue of the surface pathogen-associated molecular patterns derived from native bacteria, OMVs/DOX could be selectively recognized by neutrophils, thus facilitating glioma targeted delivery of drug with significantly enhanced tumor accumulation by 18-fold as compared to the classical passive targeting effect. Moreover, the P-gp expression on tumor cells was silenced by bacteria type III secretion effector to sensitize the efficacy of DOX, resulting in complete tumor eradication with 100% survival of all treated mice. In addition, the colonized bacteria were finally cleared by anti-bacterial activity of DOX to minimize the potential infection risk, and cardiotoxicity of DOX was also avoided, achieving excellent compatibility. This work provides an efficient trans-BBB/BTB drug delivery strategy via cell hitchhiking for enhanced glioma therapy.