Transient inhibition of the ERK pathway prevents cerebellar developmental defects and improves long-term motor functions in murine models of neurofibromatosis type 1.

Individuals with neurofibromatosis type 1 (NF1) frequently exhibit cognitive and motor impairments and characteristics of autism. The cerebellum plays a critical role in motor control, cognition, and social interaction, suggesting that cerebellar defects likely contribute to NF1-associated neurodevelopmental disorders. Here we show that Nf1 inactivation during early, but not late stages of cerebellar development, disrupts neuronal lamination, which is partially caused by overproduction of glia and subsequent disruption of the Bergmann glia (BG) scaffold. Specific Nf1 inactivation in glutamatergic neuronal precursors causes premature differentiation of granule cell (GC) precursors and ectopic production of unipolar brush cells (UBCs), indirectly disrupting neuronal migration. Transient MEK inhibition during a neonatal window prevents cerebellar developmental defects and improves long-term motor performance of Nf1-deficient mice. This study reveals essential roles of Nf1 in GC/UBC migration by generating correct numbers of glia and controlling GC/UBC fate-specification/differentiation, identifying a therapeutic prevention strategy for multiple NF1-associcated developmental abnormalities.

Malignant peripheral nerve sheath tumor cell invasion is facilitated by Src and aberrant CD44 expression.

Malignant peripheral nerve sheath tumors (MPNSTs) are aggressive malignancies that arise within peripheral nerves. These tumors occur with increased incidence in patients with neurofibromatosis type 1 (NF1), exhibiting increased Ras activity due to loss of the NF1 gene product, neurofibromin, and abnormal expression of the epidermal growth factor receptor (EGFR). We previously found that MPNSTs express increased levels of the CD44 family of transmembrane glycoproteins that have been implicated in tumor cell invasion and metastasis. In two MPNST cell lines, we have found that elevated CD44 expression and cell invasion are dependent on Src kinase activity but are independent of mitogen-activated protein kinases (MAPK) kinase (MEK) activity. In contrast, inhibition of Src kinase activity has no influence on MPNST cell proliferation. Reduction of CD44 levels, using antisense oligonucleotides, results in reduced MPNST cell invasion in vitro, suggesting that Src contributes in part to MPNST cell invasion by increasing CD44 levels. At least some of this increased CD44 expression results from elevated EGFR levels through a Src-dependent mechanism, consistent with the notion that EGFR promotes constitutive Src activation in MPNSTs. These data indicate that Src and CD44 are putative targets for the treatment of MPNST invasion and metastasis.

Characterization of over-expressed alkaline phosphodiesterase I in tumour-derived fibroblasts from patients with neurofibromatosis.

Alkaline phosphodiesterase I from cultured fibroblasts from patients with neurofibromatosis was partially purified and characterized following extraction with Triton X-100, and fractionation with high-performance liquid chromatography. Some properties were compared with the enzyme extracted from normal-appearing fibroblasts. The isoelectric points of both the tumour and normal-appearing cell enzymes were 6.0. The enzyme required Zn2+ for its activity, was heat labile, and nicked superhelical covalently closed circular phi X174 DNA. The activity was inhibited by GTP, DTT and EDTA. The native molecular weight of alkaline phosphodiesterase I was determined to be 430,000. No differences were found in properties of the tumour-derived and normal cell enzymes. On purification it was observed that the peak pattern of enzyme activity corresponded to that of 125 kDa protein, which was more abundant upon SDS-PAGE analysis in tumour cells than in normal cells. The most active fraction of isoelectric focusing, which was performed using disulfide cross-linked polyacrylamide gel, was used to produce an antibody. The bands of 125, 60 and 40 kDa were immuno-stained in tumour cell preparation. These results indicate that alkaline phosphodiesterase I, of which the molecular weight is probably 125 kDa, is over-expressed in tumour-derived fibroblasts from neurofibromatosis patients.