GFAP-δ, the delta isoform of the glial fibrillary acidic protein, is particularly expressed in the subventricular zone (SVZ) of the brain. GFAP-δ positive cells in the SVZ co-express the neural stem cells (NSCs) marker nestin. According to the theory of glioma oncogenesis, transformation of a cell population with stem features which resides in the SVZ could be the origin of astrocytomas. Moreover, it is known that cancer stem cells promote tumor invasion in cerebral astrocytomas. Therefore, we investigated the immunostaining of GFAP-δ and nestin in cerebral astrocytomas and evaluated the correlation between the positive cell ratio of these markers and the neuroimaging features associated with tumor invasion in forty-four cases of grade II, III and IV cerebral astrocytomas (World Health Organization's classification). Tissue samples were obtained by stereotactic biopsies in all cases. According to the preoperative neuroimaging criteria, tumors were categorized into highly invasive and low invasive. Most of the low-grade and high-grade astrocytomas express GFAP-δ and nestin. The positive cell ratio of GFAP-δ and the positive cell ratio of nestin were statistically significantly higher in highly invasive tumors compared with low-invasive tumors (p < 0.05). Altogether, these results suggest that GFAP-δ and nestin could be clinically relevant markers associated with tumor invasiveness in cerebral astrocytomas.
It is about a 33-year-old female, with a 36 weeks uncomplicated pregnancy and with signs of increased intracranial pressure. Hours after admission and an obstetric evaluation, uterine contraction started and the patient was taken to the delivery room, where she presented a partial motor seizure on the left side with secondary generalization and urine emission. A caesarean section was performed without fetal or maternal complications. The urgent MRI gadolinium-enhanced brain scan revealed a 39/50/54 mm tumoral mass having an aspect of an anterior third falx cerebri meningioma. The patient was transferred to our neurosurgical department and afterwards surgery was performed with gross total removal of the tumoral mass. Histological examination revealed atypical meningioma with direct invasion into the adjacent brain parenchyma. A week later she was discharged from the hospital in good condition. One month after surgery, a contrastenhanced magnetic resonance imaging of the brain did not reveal any signs of tumor recurrence or residual tumor. Our recommendation is for postpartum surgery when is possible. Urgent neurosurgical interventions should be made in case of patients with malignant tumors, active hydrocephalus or benign intracranial tumor such as meningioma associated with signs of impending herniation, progressive neurological deficits.
Lissencephaly-1 (Lis1) protein is a dynein-binding protein involved in neural stem cell division, morphogenesis and motility. To determine whether Lis1 is a key factor in glioblastoma, we evaluated its expression and function in CD133+ glioblastoma cells. Global, Lis1 gene expression is similar in glioblastoma and normal samples. Interestingly, immunohistochemistry data indicate increased Lis1 expression colocalized with CD133 in a subset of glioma cells, including the tumor cells with perivascular localization. Lis1 gene expression is increased up to 60-fold in CD133 positive cells isolated from primary cultures of glioblastoma and U87 glioblastoma cell line as compared to CD133 negative cells. To investigate the potential role of Lis1 in CD133+ glioblastoma cells, we silenced Lis1 gene in U87 cell line obtaining shLis1-U87 cells. In shLis1-U87 cell culture we noticed a significant decrease of CD133+ cells fraction as compared with control cells and also, CD133+ cells isolated from shLis1-U87 were two times less adhesive, migratory and proliferative, as compared with control transfected U87 CD133+ cells. Moreover, Lis1 silencing decreased the proliferative capacity of irradiated U87 cells, an effect attributable to the lower percentage of CD133+ cells. This is the first report showing a preferential expression of Lis1 gene in CD133+ glioblastoma cells. Our data suggest a role of Lis1 in regulating CD133+ glioblastoma cells function.
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