A mesenchymal glioma stem cell profile is related to clinical outcome.

Recent studies have demonstrated a relationship between the expression of stem cell-associated genes and relapses in glioblastoma (GBM), suggesting a key role for tumor stem cells in this process. Although there is increasing interest in this field, glioma stem cells (GSCs) are still poorly characterized, their 'stemness' state and factors maintaining these properties remain largely unknown. We performed an expression profiling analysis of pluripotency in gliomaspheres derived from 11 patients. Comparative analysis between GSCs and H1 and H9 human embryonic stem cells as well as H9-derived neural stem cells indicates major variations in gene expression of pluripotency factors Nanog and OCT4, but a stable pattern for SOX2 suggesting its important function in maintaining pluripotency in GSCs. Our results also showed that all GSC lines have the capacity to commit to neural differentiation and express mesenchymal or endothelial differentiation markers. In addition, hierarchical clustering analysis revealed two groups of GSCs reflecting their heterogeneity and identified COL1A1 and IFITM1 as the most discriminating genes. Similar patterns have been observed in tumors from which gliomaspheres have been established. To determine whether this heterogeneity could be clinically relevant, the expression of both genes was further analyzed in an independent cohort of 30 patients with GBM and revealed strong correlation with overall survival. In vitro silencing of COL1A1 and IFTM1 confirmed the effect of these mesenchymal-associated genes on cell invasion and gliomasphere initiation. Our results indicate that COL1A1 and IFITM1 genes could be considered for use in stratifying patients with GBM into subgroups for risk of recurrence at diagnosis, as well as for prognostic and therapeutic evolution.

JC human polyomavirus is associated to chromosomal instability in peripheral blood lymphocytes of Hodgkin's lymphoma patients and poor clinical outcome.

BACKGROUND: B cells are potential sites for latency and reactivation of the human neurotropic JC polyomavirus (JCV). We investigated JCV and Epstein-Barr virus (EBV) status in peripheral blood lymphocytes (PBL) from 74 Hodgkin's lymphoma (HL) and 91 B-cell non-Hodgkin's lymphoma (B-NHL) patients. PATIENTS AND METHODS: JCV and EBV DNA were assessed by PCR, and FISH technique was used to localize viral infection and to estimate chromosomal instability (rogue cells, 'chromosomal aberrations') throughout evolution. The influence of viral infection and chromosomal instability on freedom from progression (FFP) was investigated in HL patients. RESULTS: PCR product sequencing of PBL identified JCV in 42 (57%) circulating lymphocytes of HL patients. FISH analysis revealed that the presence of cells with a high JCV genome copy number--associated to the presence of rogue cells and 'higher frequency of chromosomal aberrations'--increased from 15% before treatment to 52% (P < 10(-5)) after. The co-activation of JCV and EBV was independent of known prognostic parameters and associated with a shorter FFP (JCV and EBV co-activation P < 0.001, rogue cells P < 0.002). CONCLUSION: In HL, JCV activation and chromosomal instability have been identified in PBL and associated with a poorer prognosis, especially in EBV+.

Osteopontin is upregulated by BCR-ABL.

Chronic myelogenous leukemia (CML) is characterized by its hallmark oncogene BCR-ABL and the progression from a chronic phase toward an acute leukemia, with a differentiation arrest of the leukemic clone. In the present study, we conducted a microarray analysis using an inducible model of BCR-ABL expression based on the TET-OFF system, and we found that osteopontin (OPN), a component of stem cell niche, is overexpressed in BCR-ABL-expressing cells. Studies using mutant forms of BCR-ABL demonstrated that the BCR-ABL-induced OPN overexpression was a tyrosine kinase-dependent event. Furthermore, OPN concentration was significantly increased in the serum of leukemic mice generated by transplantation of BCR-ABL-expressing bone marrow cells. Most importantly, a significant increase of OPN concentration was observed in the serum of CML patients as compared to controls. Overall these results show that OPN is deregulated by BCR-ABL oncogene and suggest that OPN could be involved in CML stem cell biology.