The association of loss of FUBP1 protein expression and either 1p

The association of loss of FUBP1 protein expression and either 1p/19q LOH or IDH-1 mutation was analysed using the likelihood-ratio Chi-square test. A significance level of alpha = 0.05 was selected for all tests. The sensitivity was calculated by dividing the number of genetically selleck kinase inhibitor confirmed mutated cases by the number of FUBP1-negative cases as assessed by immunohistochemical analyses in the cohort of genetically tested samples.

The specificity was calculated by dividing the number of genetically confirmed nonmutated cases by the number of FUBP1-positive cases in immunohistochemical analysis. Statistical analysis was performed using JMP 8.0 software (SAS, Cary, NC, USA). Evaluation of the immunohistochemical preparations and photographic documentation was performed using an Olympus Talazoparib mouse BX50 light microscope. We first screened normal CNS tissue to examine the cellular distribution of FUBP1 protein under nonpathological conditions. In the cortex, neuronal nuclei exhibited strong FUBP1 expression, while intermingled glial or endothelial cells were negative or displayed only very weak FUBP1 expression

(Figure S2A). Moreover, normal white matter displayed only single cells with weak to moderate FUBP1 expression levels and FUBP1 signals were almost completely absent in oligodendrocytes constituting the largest white matter cell selleck products population (Figure S2B). NIH REMBRANDT database analyses revealed significantly elevated FUBP1 mRNA expression levels in human glial neoplasms as compared with normal CNS specimens (URL: https://caintegrator.nci.nih.gov/rembrandt/legal.jsp) (Figure S3). However, no significant differences in the FUBP1 expression profile were observed between the various glioma subtypes. We next examined whether this increase in FUBP1 mRNA correlated with FUBP1 protein levels in glial neoplasms. Most cases of oligodendrogliomas (Figure 1),

astrocytomas and glioblastomas (Figure 2) displayed a strong increase in FUBP1 protein expression as compared with normal glial cells (Figure S2B). To analyse whether FUBP1 protein expression is associated with markers currently assessed in routine neuropathological diagnostics, we further examined the expression levels of FUBP1 (Figures 1A,E,I,M,2A,E,I), mutated IDH1 (R132H) (Figures 1B,F,J,N,2B,F,J), the MIB-1 index (Ki-67) (Figures 1C,G,K,O,2C,G,K) and p53 (Figures 1D,H,L,P,2D,H,L) in glioma subtypes. The median FUBP1 expression score was comparable for all glioma subtypes with WHO grade II oligodendrogliomas showing the lowest median expression score (median score, 7; range, 0–12).

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