Tumour microvessel endothelial cell KIT and stem cell factor expression in human solid tumours.

AIMS: To assess KIT receptor tyrosine kinase and stem cell factor (SCF, KIT ligand) expression in tumour microvessel endothelial cells. METHODS AND RESULTS: KIT and SCF expression were studied in 248 human tumours consisting of 15 different histological types using immunohistochemistry and in situ hybridization for KIT messenger RNA. Moderate to strong intratumoral endothelial cell KIT expression was present in 11 of the 15 tumour types, and was most common in glioblastoma (58%), mixed embryonal carcinoma with teratoma (33%) and renal clear cell carcinoma (29%). Results of in situ hybridization were in line with those obtained with immunohistochemistry in the cases studied (n = 9). Marked SCF expression was uncommon in tumour endothelial cells, but frequent in perinecrotic tumour cells. Patients with glioblastoma with moderate to strong endothelial cell KIT expression had more favourable survival than those whose tumour showed little or no expression (P = 0.024). Glioblastoma patients whose tumour expressed SCF had an unfavourable outcome compared with those with tumour with weak or no expression (P = 0.034). CONCLUSIONS: Intratumoral microvessels of several types of human malignant tumours express KIT. Tumour cell SCF expression and absence of marked endothelial cell KIT expression are novel adverse prognostic features in glioblastoma.

Molecular genetic analysis of the REST/NRSF gene in nervous system tumors.

The gene for RE1-silencing transcription factor (REST) alias neuron-restrictive silencer factor NRSF, acts as a transcriptional repressor in the neuronal differentiation pathways in non-neuronal cells, and plays an important role in neuronal development. Inactivating mutations or overexpression of REST have previously been reported in various types of cancer, but no data is available for the role of REST alterations in gliomas. REST gene was screened for mutations in 161 nervous system tumors consisting of astrocytomas, glioblastomas, oligodendrogliomas, oligoastrocytomas, medulloblastomas, meningiomas and schwannomas. REST exons 1-3 were analyzed using denaturing high-performance liquid chromatography (DHPLC) and direct sequencing. The gene copy numbers of REST were investigated by chromogenic (CISH) and fluorescence in situ hybridization (FISH) techniques. Non-synonymous SNPs (P797L, P815S) were found in eight different brain tumor samples. No truncating or activating novel mutations of REST were discovered. Since REST is located at 4q12, a chromosome region implicated in brain tumorigenesis, we conducted gene copy number analyses in medulloblastomas and gliomas. The majority of gliomas (67%) demonstrated low-level amplifications of REST, and only one oligodendroglioma showed high-level amplification of the gene. In medulloblastomas, 38% of samples were determined as aneuploidic, no high-level amplifications were found. Our data suggests that REST is neither activated nor inactivated via mutations in gliomas, while high-level amplification may rarely occur.