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Chemoradiation in the SC4 sciatic nerve model. Animals implanted in the sciatic nerve with SC4 cells received one of the following treatments: untreated control, radiation only, lapatinib only, lapatinib + radiation, nilotinib only, and nilotinib + radiation. On Day 15, tumors were excised and weighed (g)
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Neurofibromatosis type 2 (NF2), a neurogenetic condition manifest by peripheral nerve sheath tumors (PNST) throughout the neuroaxis for which there are no approved therapies. In vitro and in vivo studies presented here examine agents targeting signaling pathways, angiogenesis, and DNA repair mechanisms. In vitro dose response assays demonstrated po...
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Vestibular schwannomas (VS) usually manifest between the 5th and 8th decade of life. Most pediatric cases are associated with Neurofibromatosis type 2 and sporadic VS are rare in this age group. Few case series have been published. We report on our institutional series of sporadic VS in children. We included all cases between 2003 and 2021; 28 of 1...
Hearing preservation is a major goal in the treatment of neurofibromatosis type 2 (NF2) associated vestibular schwannoma (VS), particularly in children and adolescents. In this study, we retrospectively reviewed hearing and volumetry data sets of 39 operated tumors (ears) in 23 patients under the age of 25 and in a follow-up period of 21 to 167 mon...
Plexiform schwannoma (PS) is a rare benign encapsulated peripheral nerve sheath tumor characterized by a plexiform pattern of intraneural growth often with a multinodular appearance. It usually presents as a solitary mass with a strong predilection for young adults between 20 and 50 years. Despite its common presentation in the head and neck region...
Background
Neurofibromatosis type 2 (NF2) is an autosomal dominant genetic disease characterized by development of schwannomas on the VIIIth (vestibular) cranial nerves. Bromodomain and extra-terminal domain (BET) proteins regulate gene transcription and their activity is required in a variety of cancers including malignant peripheral nerve sheath...
Citations
... For example, lapatinib showed some activity in a small series of patients with NF2-associated progressive meningiomas. Lapatinib has been shown to be effective in slowing growth of meningiomas in NF2 patients [14,15]. Perry et al. have reported that pediatric NF2-associated meningiomas share the molecular alterations of entities presenting in adults, but a higher fraction is phenotypically and genotypically aggressive. ...
NF2-related schwannomatosis (NF2) is a rare autosomal-dominant genetic disorder characterized by bilateral vestibular schwannomas and multiple meningiomas. This case report presents the extremely rare occurrence of an anaplastic meningioma in a 12-year-old male with previously undiagnosed NF2. The patient presented with a history of abdominal pain and episodic emesis, gait unsteadiness, right upper and lower extremity weakness, and facial weakness. He had sensorineural hearing loss and wore bilateral hearing aids. MR imaging revealed a sizable left frontoparietal, dural-based meningioma with heterogeneous enhancement with mass effect on the brain and midline shift. Multiple additional CNS lesions were noted including a homogenous lesion at the level of T5 indicative of compression of the spinal cord. The patient underwent a frontotemporoparietal craniotomy for the removal of his large dural-based meningioma, utilizing neuronavigation and transdural ultrasonography for precise en bloc resection of the mass. Histopathology revealed an anaplastic meningioma, WHO grade 3, characterized by brisk mitotic activity, small-cell changes, high Ki-67 proliferation rate, and significant loss of P16. We report an anaplastic meningioma associated with an underlying diagnosis of NF2 for which we describe clinical and histopathological features.
... I Paldor и соавт. на культуре клеток вестибулярной шванномы проанализировали результаты различных вариантов комбинированного химиолучевого лечения (с использованием лапатиниба, нилотиниба, бевацизумаба и эверолимуса) [25]. Статистически значимое уменьшение объема опухоли зарегистрировано у пациентов, получавших нилотиниб и лапатиниб. ...
Neurofibromatosis 2 is one of the most prevalence disease among phakomatoses characterized by appearance of new central and peripheral nerve system tumors. The main treatment for this patient is a surgery, but in real time we observe the significant changes in treatment and rehabilitation in this patients including radiation therapy and pharmacotherapy. In this paper, we present the case of a different treatment options in young female with neurofibromatosis. She completed surgical treatment, Gamma Knife radiosurgery and bevacizumab on different stage of disease. Development of genetic and molecular methods and appearance of new way for treatment could help to achieve a good functional result and stable local control but new clinical and fundamental research are needed.
... The ErbB1 and ErbB2 receptors non-selective antagonist lapatinib (LPT) (Johnston and Leary, 2006;Voigtlaender et al., 2018), is widely used in combination with other anticancer drugs for the treatment of ErbB2 (Her2)-positive breast cancers (Moy and Goss, 2006;Geyer et al., 2006) and it can inhibit the proliferation of human Schwann cells in vitro (Ammoun et al., 2010;Ahmad et al., 2011). The combination of LPT and radical treatment was considered as possible candidates for treatment options in addressing progressive peripheral nerve sheath tumors in patients with neurofibromatosis type 2 (NF2) (Paldor et al., 2017). Our previous study discovered that NRG1/ErbB signaling pathway was highly activated in both sciatic nerves and spinal cord during the process of OPIDN in hens (Xu et al., 2018). ...
Neuregulin-1 (NRG1), a family of EGF-like factors that activates ErbB receptors, can regulate the proliferation, migration, and myelinating of Schwann cells. We previously reported that NRG1/ErbB signal is responsible for organophosphate (OP)-induced delayed neuropathy (OPIDN) in hens, a susceptive animal model to neuropathic organophosphorous compounds. Our previous study discovered that a neuropathic OP, tri-o-cresyl phosphate (TOCP) activated NRG1/ErbB signaling pathway in both spinal cord and sciatic nerve of hens during the formation of OPIDN and lapatinib, a non-selective antagonist of ErbB1 and ErbB2 receptors, alleviated the toxicity. In this study, we intended to further look into the potential role of NRG1 in the pathogenesis of TOCP-induced axon damage in spinal cord and sciatic nerves and whether lapatinib could also rescue this damage in mice, an OPIDN-resistant animal model. The results revealed that no obvious toxic signs were observed after single TOCP exposure. However, slight histopathological wreck in lumbar spinal cord and sciatic nerves was found following TOCP intoxication, and the damage in sciatic nerves was characterized by axon degeneration of myelin sheath but not the loss of neural skeleton. Only histopathological damage induced by TOCP in spinal cord could be prevented by lapatinib. The translational expression of NRG1/ErbB signaling molecules was analyzed by both in vivo and in vitro studies. In general, NRG1/ErbB pathway was activated by TOCP while combined treatment with lapatinib attenuated TOCP-induced NRG1/ErbB signaling cascade. The results implied that NRG1/ErbB system may predominately play functional role in spinal cord (central nervous system) but not in sciatic nerves (peripheral nervous system) of mouse subjected to neurotoxic OP, which was confirmed by the study in vitro that lapatinib was not able to attenuate TOCP-induced neurotoxicity in rodent Schwann cell line RSC 96 cells.
... Also EGFR/HER-2 inhibition by the dual inhibitor lapatinib resulted in enhanced radiosensitivity in cancer cells of various entities, such as bladder cancer, peripheral nerve sheath tumors, pancreatic or breast cancer. This sensitization was shown to be partly dependent on the expression of the specific targets (HER2, EGFR) and to be inhibited through the constitutive activation of downstream signaling factors, such as Ras & Raf mutations (21)(22)(23)(24)(25)(26)(27). ...
Chemoradiation, either alone or in combination with surgery or induction chemotherapy, is the current standard of care for most locally advanced solid tumors. Though chemoradiation is usually performed at the maximum tolerated doses of both chemotherapy and radiation, current cure rates are not satisfactory for many tumor entities, since tumor heterogeneity and plasticity result in chemo- and radioresistance. Advances in the understanding of tumor biology, a rapidly growing number of molecular targeting agents and novel technologies enabling the in-depth characterization of individual tumors, have fuelled the hope of entering an era of precision oncology, where each tumor will be treated according to its individual characteristics and weaknesses. At present though, molecular targeting approaches in combination with radiotherapy or chemoradiation have not yet proven to be beneficial over standard chemoradiation treatment in the clinical setting. A promising approach to improve efficacy is the combined usage of two targeting agents in order to inhibit backup pathways or achieve a more complete pathway inhibition. Here we review preclinical attempts to utilize such dual targeting strategies for future tumor radiosensitization.
... Surgery is recommended in case of symptomatic or growing tumors and GTR can be reached in most cases. Radiotherapy should be used with caution and only when absolutely necessary, especially in hereditary diseases; indeed, in these patients the use of radiation therapy could increase the risk of a malignant tumor in the radiation field (107) Bevacizumab, an antiangiogenic drug, could also be beneficial in spinal cord lesions due to its promising activity in neurofibromatosis type 2-associated vestibular schwannomas (108); moreover, lapatinib and nilotinib in combination with radiotherapy demonstrated some benefit in a preclinical model of NF2 associated peripheral schwannoma (109). ...
Overall, tumors of primary central nervous system (CNS) are quite common in adults with an incidence rate close to 30 new cases/100,000 inhabitants per year. Significant clinical and biological advances have been accomplished in the most common adult primary CNS tumors (i.e., diffuse gliomas). However, most CNS tumor subtypes are rare with an incidence rate below the threshold defining rare disease of 6.0 new cases/100,000 inhabitants per year. Close to 150 entities of primary CNS tumors have now been identified by the novel integrated histomolecular classification published by the World Health Organization (WHO) and its updates by the c-IMPACT NOW consortium (the Consortium to Inform Molecular and Practical Approaches to CNS Tumor Taxonomy). While these entities can be better classified into smaller groups either by their histomolecular features and/or by their location, assessing their treatment by clinical trials and improving the survival of patients remain challenging. Despite these tumors are rare, research, and advances remain slower compared to diffuse gliomas for instance. In some cases (i.e., ependymoma, medulloblastoma) the understanding is high because single or few driver mutations have been defined. The European Union has launched European Reference Networks (ERNs) dedicated to support advances on the clinical side of rare diseases including rare cancers. The ERN for rare solid adult tumors is termed EURACAN. Within EURACAN, Domain 10 brings together the European patient advocacy groups (ePAGs) and physicians dedicated to improving outcomes in rare primary CNS tumors and also aims at supporting research, care and teaching in the field. In this review, we discuss the relevant biological and clinical characteristics, clinical management of patients, and research directions for the following types of rare primary CNS tumors: medulloblastoma, pineal region tumors, glioneuronal and rare glial tumors, ependymal tumors, grade III meningioma and mesenchymal tumors, primary central nervous system lymphoma, germ cell tumors, spinal cord tumors and rare pituitary tumors.
... Evaluation of NF2-associated tumors has been limited to date, but one study showed PD-L1 expression (> 5% of tumor cells) in a substantial subset of NF2-associated schwannomas, suggesting that this may be an interesting avenue for further clinical study [73]. Inhibition of EGFR signaling via lapatinib or nilotinib, particularly in combination with radiation therapy, showed efficacy in NF2-deficient mouse models suggesting this as a further avenue for therapeutic study [74]. A subset of NF2-associated schwannomas may also harbor the SH3PXD2A-HTRA1 gene fusion that has been identified in sporadic schwannoma [75]. ...
Neurofibromatosis type II (NF2) is a tumor predisposition syndrome characterized by the development of distinctive nervous system lesions. NF2 results from loss-of-function alterations in the NF2 gene on chromosome 22, with resultant dysfunction of its protein product merlin. NF2 is most commonly associated with the development of bilateral vestibular schwannomas; however, patients also have a predisposition to development of other tumors including meningiomas, ependymomas, and peripheral, spinal, and cranial nerve schwannomas. Patients may also develop other characteristic manifestations such as ocular lesions, neuropathies, meningioangiomatosis, and glial hamartia. NF2 has a highly variable clinical course, with some patients exhibiting a severe phenotype and development of multiple tumors at an early age, while others may be nearly asymptomatic throughout their lifetime. Despite the high morbidity associated with NF2 in severe cases, management of NF2-associated lesions primarily consists of surgical resection and treatment of symptoms, and there are currently no FDA-approved systemic therapies that address the underlying biology of the syndrome. Refinements to the diagnostic criteria of NF2 have been proposed over time due to increasing understanding of clinical and molecular data. Large-population studies have demonstrated that some features such as the development of gliomas and neurofibromas, currently included as diagnostic criteria, may require further clarification and modification. Meanwhile, burgeoning insights into the molecular biology of NF2 have shed light on the etiology and highly variable severity of the disease and suggested numerous putative molecular targets for therapeutic intervention. Here, we review the clinicopathologic features of NF2, current understanding of the molecular biology of NF2, particularly with regard to central nervous system lesions, ongoing therapeutic studies, and avenues for further research.
... 63 Giovannini et collègues. 32,68 De fait les auteurs n'ont pas testé l'association de l'irradiation avec une thérapie ciblant mTOR dans ce modèle de greffe de lignée murine SC4. Ces données seront donc à produire grâce au modèle orthotopique proposé ici et avec un dosage de rapamycine plus proche de celui ayant démontré son efficacité. ...
... 48 Le second rapporte l'évaluation in vivo à partir d'un modèle murin de greffe sous-cutanée de cellules de Schwann inactivées pour Nf2 (SC4#9). 68 Dans ce modèle, l'irradiation est réalisée à 3 Gy compte tenu d'une réponse complète obtenue dès une exposition de 5 Gy in vivo. Cette observation est discordante des résultats obtenus in vitro dans le même article ou la dose inhibitrice 50% est de 6.6 Gy. ...
Contexte : Le schwannome vestibulaire (SV) est une tumeur bénigne de la gaine du nerf vestibulaire. La plupart des SV présentent une inactivation somatique bi-allèlique du gène suppresseur de tumeur NF2. L’inactivation congénitale du gène NF2 est impliquée dans le développement de la Neurofibromatose de type 2, une maladie génétique autosomique dominante prédisposant au développement de tumeurs multiples du système nerveux central et en particulier de schwannomes vestibulaires bilatéraux. Le traitement des schwannomes vestibulaires repose sur la chirurgie ou la radiothérapie délivrée en conditions stéréotaxiques. La réduction de la dose d’irradiation des schwannomes vestibulaires a permis d’améliorer le pronostic fonctionnel auditif tout en garantissant un taux de réponse satisfaisant. Pourtant de nombreux patients présenteront une surdité neurosensorielle progressive. Afin de poursuivre cette réduction de dose d’irradiation, des modèles biologiques fidèles récapitulant le statut d’inactivation du gène NF2 et la surdité neurosensorielle sont nécessaires à l’élaboration d’une approche préclinique.Problématique : Nous avons proposé de développer des systèmes modèles in-vitro et in-vivo compatibles avec l’étude de la radiosensibilité des schwannomes vestibulaires en combinaison avec des thérapies ciblant les voies de signalisation spécifiquement activées par la perte de fonction NF2.Méthodes : Les lignées cellulaires humaines de schwannomes vestibulaires NF2 (HEI_193, HEI_182), et de cellules de Schwann vestibulaire contrôle (HEI_286) ont été cultivées en essai clonogénique afin de déterminer le nombre d’unité formatrices de colonies à doses croissantes d’inhibiteur mTOR (Rapamycine), PI3K (GDC_0941), mTOR et PI3K (BEZ_235) pour déterminer le 50% d’inhibition de croissance (GI50%) puis en combinaison à doses croissantes de radiation gamma (Co60). La lignée cellulaire murine inactivée pour nf2 (SC4#9) a été utilisée pour réaliser des greffes syngéniques orthotopiques. La croissance des tumeurs a été suivie par IRM et bioluminescence et l’audition déterminée par potentiels évoqués auditifs. L’analyse histologique des cochlées a été réalisée par coloration en hématoxyline et éosine puis par fluorescence après clarification cochléaire. Des volumes complets ont été obtenus par microscopie confocale à balayage laser.Résultats : Les essais clonogéniques réalisés en Agarose ont identifié une radiorésistance relative des lignées humaines de schwannomes mutées pour NF2 par comparaison au contrôle humain non muté. Cette résistance identifiée en réponse à l’exposition à une dose unique d’irradiation gamma peut être contournée par l’inhibition de la voie mTOR au moment de l’irradiation restituant une sensibilité comparable au contrôle humain non muté. Une tendance à un bénéfice de l’association d’une inhibition mTOR à un inhibiteur PI3 kinase a été retrouvée à une dose maximum d’irradiation. Un modèle murin de schwannome vestibulaire qui récapitule la croissance dans l’angle ponto-cérébelleux et la perte d’audition a été développé par injection stéréotaxique dans le paquet acoustico faciale. Le suivi de croissance de ce schwannome a été caractérisé par IRM et bio-luminescence in-vivo. Enfin un protocole de clarification cochléaire a été adapté aux mammifères murins pour permettre l’étude histologique de cochlées intactes compatible avec l’étude de l’otoxicité des schwannomes et/ou de leur traitement .Conclusion : Les modèles décrits dans cette thèse permettent l’évaluation pré-clinique de stratégies thérapeutiques combinant thérapie ciblée et irradiation gamma en dose unique. L’amélioration des connaissances des mécanismes participant à l’ototoxicité des schwannomes et de leur traitement permettra d’améliorer le ciblage moléculaire afin de réduire les effets auditifs secondaires de la radiochirurgie.
Vestibular schwannomas continue to cause hearing loss, facial nerve paralysis, imbalance, and tinnitus. These symptoms are compounded by germline neurofibromatosis type 2 (NF2) gene loss and multiple intracranial and spinal cord tumors associated with NF2-related schwannomatosis. The current treatments of observation, microsurgical resection, or stereotactic radiation may prevent catastrophic brainstem compression but are all associated with the loss of cranial nerve function, particularly hearing loss. Novel targeted treatment options to stop tumor progression include small molecule inhibitors, immunotherapy, anti-inflammatory drugs, radio-sensitizing and sclerosing agents, and gene therapy.
