Inhibition of CXCR7 extends survival following irradiation of brain tumours in mice and rats.

BACKGROUND: In experimental models of glioblastoma multiforme (GBM), irradiation (IR) induces local expression of the chemokine CXCL12/SDF-1, which promotes tumour recurrence. The role of CXCR7, the high-affinity receptor for CXCL12, in the tumour's response to IR has not been addressed. METHODS: We tested CXCR7 inhibitors for their effects on tumour growth and/or animal survival post IR in three rodent GBM models. We used immunohistochemistry to determine where CXCR7 protein is expressed in the tumours and in human GBM samples. We used neurosphere formation assays with human GBM xenografts to determine whether CXCR7 is required for cancer stem cell (CSC) activity in vitro. RESULTS: CXCR7 was detected on tumour cells and/or tumour-associated vasculature in the rodent models and in human GBM. In human GBM, CXCR7 expression increased with glioma grade and was spatially associated with CXCL12 and CXCL11/I-TAC. In the rodent GBM models, pharmacological inhibition of CXCR7 post IR caused tumour regression, blocked tumour recurrence, and/or substantially prolonged survival. CXCR7 expression levels on human GBM xenograft cells correlated with neurosphere-forming activity, and a CXCR7 inhibitor blocked sphere formation by sorted CSCs. CONCLUSIONS: These results indicate that CXCR7 inhibitors could block GBM tumour recurrence after IR, perhaps by interfering with CSCs.

Retrosellar intracranial extracerebral glioneuronal heterotopion: case report.

We report the case of an 18-year-old woman with an intradural retroclival retrosellar glioneuronal heterotopion. At the time of surgery, a well circumscribed pale-tan mass was identified posterior to and distinct from the posterior pituitary. Pathologic examination showed disorganized, non-neoplastic glial tissue characteristic of glioneuronal heterotopia. To our knowledge, this is the first report of such a lesion in this location.

Altered islet homeostasis before classic insulitis in BB rats.

Young diabetes-prone BioBreeding (BBdp) rats fed a diabetes-promoting, cereal-based, NIH-07 (NIH) diet have decreased islet area compared with rats fed a diabetes-retardant diet at a time when classic insulitis is minimal. This finding raised the possibility that islet homeostasis in BBdp rats may be abnormal. To investigate this possibility further, comparisons were made between BBdp and BB control (BBc) rats fed a diabetes-promoting NIH diet for 22 days after weaning. Pancreatic sections were fixed in Bouin's solution and evaluated using immunohistochemistry and image analysis by staining with antibodies for islet hormones: insulin, glucagon; cell proliferation markers: PCNA, BrdU; markers of islet neogenesis: PDX-1, cytokeratin 20; apoptosis was assessed by morphological changes and TUNEL staining. Body weight of BBdp rats was significantly smaller than BBc rats. Although the total number of islets was higher in BBdp compared with BBc, both islet and beta-cell fraction were similar. BBdp rats had a lower beta-cell mass than BBc rats, although this was not statistically significant. Alpha-cell fraction and beta-cell size were similar. Apoptotic bodies were rare in beta-cells but more frequent in acinar tissue of BBdp rats. When the day-night cycle was reversed to synchronize the apoptotic process, the number of apoptotic bodies in islets and in acinar cells was increased. Apoptotic bodies and BrdU+ or PCNA+ beta-cells were more frequently encountered in islets of BBdp rats. Although the frequency of CK20+ islets in BBdp rats was not different, CK20+ area fraction was smaller in BBdp. The number of extra-islet insulin+ and glucagon+ clusters (<4 cells) was significantly greater in BBdp rats. These data are consistent with an enhanced compensatory or "repair" process in the pancreas of BBdp rats that attempts to maintain islet cell mass by altering homeostasis through increased islet neogenesis.