Development of a vestibular schwannoma tumor slice model for pharmacological testing.

BACKGROUND: Our goal was to develop a 3D tumor slice model, replicating the individual tumor microenvironment and for individual pharmaceutical testing in vestibular schwannomas with and without relation to NF2. METHODS: Tissue samples from 16 VS patients (14 sporadic, 2 NF2-related) were prospectively analyzed. Slices of 350 µm thickness were cultured in vitro, and the 3D tumor slice model underwent thorough evaluation for culturing time, microenvironment characteristics, morphology, apoptosis, and proliferation rates. Common drugs - Lapatinib (10 µM), Nilotinib (20 µM), and Bevacizumab (10 µg/ml) - known for their responses in VS were used for treatment. Treatment responses were assessed using CC3 as an apoptosis marker and Ki67 as a proliferation marker. Standard 2D cell culture models of the same tumors served as controls. RESULTS: The 3D tumor slice model accurately mimicked VS ex vivo, maintaining stability for three months. Cell count within the model was approximately tenfold higher than in standard cell culture, and the tumor microenvironment remained stable for 46 days. Pharmacological testing was feasible for up to three weeks, revealing interindividual differences in treatment response to Lapatinib and intraindividual variability in response to Lapatinib and Nilotinib. The observed effects were less pronounced in tumor slices than in standard cell culture, indicating the model's proximity to in vivo tumor biology and enhanced realism. Bevacizumab had limited impact in both models. CONCLUSION: This study introduces a 3D tumor slice model for sporadic and NF2-related VS, demonstrating stability for up to 3 months, replication of the schwannoma microenvironment, and utility for individualized pharmacological testing.

Imaging as an early biomarker to predict sensitivity to everolimus for progressive NF2-related vestibular schwannoma.

PURPOSE: NF2-related schwannomatosis (NF2) is characterized by bilateral vestibular schwannomas (VS) often causing hearing and neurologic deficits, with currently no FDA-approved drug treatment. Pre-clinical studies highlighted the potential of mTORC1 inhibition in delaying schwannoma progression. We conducted a prospective open-label, phase II study of everolimus for progressive VS in NF2 patients and investigated imaging as a potential biomarker predicting effects on growth trajectory. METHODS: The trial enrolled 12 NF2 patients with progressive VS. Participants received oral everolimus daily for 52 weeks. Brain imaging was obtained quarterly. As primary endpoint, radiographic response (RR) was defined as ≥ 20% decrease in target VS volume. Secondary endpoints included other tumors RR, hearing outcomes, drug safety and quality of life (QOL). RESULTS: Eight participants completed the trial and four discontinued the drug early due to significant volumetric VS progression. After 52 weeks of treatment, the median annual VS growth rate decreased from 77.2% at baseline to 29.4%. There was no VS RR and 3 of 8 (37.5%) participants had stable disease. Decreased or unchanged VS volume after 3 months of treatment was predictive of stabilization at 12 months. Seven of eight participants had stable hearing during treatment except one with a decline in word recognition score. Ten of twelve participants reported only minimal changes to their QOL scores. CONCLUSIONS: Volumetric imaging at 3 months can serve as an early biomarker to predict long-term sensitivity to everolimus treatment. Everolimus may represent a safe treatment option to decrease the growth of NF2-related VS in patients who have stable hearing and neurological condition. TRN: NCT01345136 (April 29, 2011).

Merlina y nuevos tratamientos de schwannomas vestibulares en pacientes con neurofibromatosis tipo 2 / Merlin and new treatments for vestibular schwannomas in patients with Neurofibromatosis type 2

Los schwannomas vestibulares son tumores benignos que habitualmente se presentan en forma esporádica y unilateral, pero pueden aparecer de manera bilateral en el contexto de una neurofibromatosis tipo 2 (NF2). En aquellos asociados a NF2 se han identificado mutaciones del gen NF2 que codifica para merlina, una proteína citoplasmática que se localiza primariamente en protrusiones celulares ricas en actina, y en sitios de contacto entre células y matriz extracelular. La evidencia sugiere que merlina ejerce un rol como proteína supresora de tumores ya que regula la cascada de activación de diversos tipos de receptores de factores de crecimiento celular De esta manera, el déficit de merlina provoca un patrón de proliferación celular aumentado, alteraciones del citoesqueleto, apoptosis disminuida, y un incremento de la adhesión a la matriz extracelular. Se han desarrollado terapias clínicas para la NF2 con anticuerpos monoclonales e inhibidores dirigidos contra distintas moléculas involucradas en las cascadas de señalización celular moduladas por merlina. En este artículo se revisan y discuten los mecanismos celulares dependientes de merlina y los diversos estudios clínicos y experimentales que se han probado en pacientes con NF2.

Vestibular schwannomas are benign tumors that may occur bilaterally in the context of neurofibromatosis type 2 (NF2). A mutation in the NF2 gene coding for merlin protein has been identified in those cases associated with NF2. Merlin is a cytoplasmic protein localized in actin rich cell protrusions, and near contact sites between cells and extracellular matrix. The evidence suggests that merlin plays a role as tumor suppressor protein, regulating the activation cascade of different types of receptors for cell growth factors. Thus, merlin deficiency causes a pattern of increased cell proliferation, cytoskeletal alterations, decreased apoptosis and increased cell adhesion to the extracellular matrix. Several clinical therapies have been developed for NF2 patients including monoclonal antibodies and inhibitors directed against different molecules involved in cell signaling cascades modulated by merlin. In this article we review and discuss cellular mechanisms dependent of merlin and some clinical and experimental studies that have been studied in patients with NF2.