Browsing by Subject "Schwannoma"

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    Expression of claudin-1 in canine peripheral nerve sheath tumours and perivascular wall tumours. Immunohistochemical study
    (F. Hernández y Juan F. Madrid. Universidad de Murcia. Departamento de Biología Celular e Histología, 2012) Jakab, Cs.; Gálfi, P.; Jerzsele, A.; Szabó, Z.; Németh, T.; Sterczer, A.; Rusvai, M.; Ózsvári, L.
    Aims: A peripheral nerve sheath tumour consists of neoplastic Schwann cells or perineurial cells, or a mixture of Schwann cells, perineurial cells and fibroblasts. The first aim of the present study was to characterise the expression of the claudin-1 tight junction protein in canine intact peripheral nerves, canine benign peripheral nerve sheath tumours (cBPNSTs), such as schwannomas, neurofibromas, perineuriomas and canine malignant peripheral nerve sheath tumours (cMPNSTs), and in different other benign and malignant canine spindle cell tumours. The second aim of the present study was to examine whether claudin-1 can help to distinguish the subgroups of canine perivascular wall tumours. Methods and results: The biopsy and necropsy samples (n=203) included 10 intact peripheral nerves, 20 cBPNSTs (4 schwannomas, 8 neurofibromas, 8 perineuriomas), 16 cMPNSTs, 6 psammomatous meningiomas, 6 dermatofibromas, 6 leiomyomas, 6 myxomas, 4 spindle cell hemangiomas, 2 spindle cell lipomas, 6 fibrohistiocytic nodules, 8 fibrosarcomas, 8 leiomyosarcomas, 6 myxosarcomas, 8 hemangiosarcomas, 8 anaplastic sarcomas, 8 amelanotic spindle cell melanomas, 8 histiocytic sarcomas, 8 spindle cell carcinomas, 8 myoepitheliomas, 8 complex carcinomas, 5 cardiac rhabdomyosarcomas, 4 synovial sarcomas, 5 osteosarcomas, 4 chondrosarcomas and 4 liposarcomas; 31 canine perivascular wall tumours: 10 hemangiopericytomas, 8 myopericytomas, 6 angioleiomyomas, 4 angioleiomyosarcomas, 3 angiofibromas. The immunohistochemical panel consisted of humanized antibodies: anti-claudin-1, anti-neuron specific enolase, anti-S-100 protein, anti-α-smooth muscle actin, anti-vimentin, anti-cytokeratin AE1-AE3, anti-claudin-5, anti-Melan-A and anti-heavy caldesmon, anti-calponin and anti-desmin. The intact perineurial cells, all perineuriomas, neurofibromas, cMPNSTs, spindle cell carcinomas and epithelial components of the complex carcinomas, all hemangiopericytomas and myo-pericytomas showed claudin-1 positivity. The schwannomas and other spindle shape cell tumours were negative for claudin-1. Conclusion: Our findings suggest that an antibody against claudin-1, in combination with other antibodies, can be used as a novel diagnostic tool to differentiate canine peripheral nerve sheath tumours from other fusocellular tumours, and anti-claudin-1, together with other antibodies, can also be used to subclassify cBPNSTs. Furthermore, analysis of claudin-1 expression can help to differentiate between subgroups of canine perivascular wall tumours
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    Expression of the chemokines CXCL12 and CX3CL1 and their receptors in human nerve sheath tumors
    (F. Hernández y Juan F. Madrid. Universidad de Murcia. Departamento de Biología Celular e Histología, 2013) Hattermann, Kirsten; Li, Gu; Hugo, Heinz-Hermann; Mentlein, Rolf; Mehdorn, Maximilian; Held-Feind, Janka
    Peripheral nerve sheath tumors are in most cases slowly growing neoplasms that can be adequately cured by surgical resection. However, facing the risk of a neurosurgical intervention and the trend of multiple relapses of nerve sheath tumors the development of additional therapy strategies seems to be favourable, and therefore substantiated knowledge of molecular and cellular mechanisms in nerve sheath tumors should be achieved. Here, we firstly describe the expression of the chemokines CXCL12 (SDF-1) and CX3CL1 (fractal-kine) and their respective receptors CXCR4, CXCR7 and CX3CR1 in different entities of human nerve sheath tumors and normal control tissues. Both ligands and their receptors are expressed in high to moderate levels on mRNA and protein level in benign and malignant nerve sheath tumors. While CXCL12 was mainly found in schwannoma cells (S100+) in situ, its receptor CXCR4 is also partly found on CD11b-positive macrophages / microglia and its alternative receptor CXCR7 is also expressed by endothelial cells and macrophages. CX3CL1 is expressed by parts of the schwannoma and endothelial cells, whereas its receptor CX3CR1 is expressed by nearly all tumor cells and macrophages, but not by endothelial cells. Taken together, we could show the presence of CXCL12 and CX3CL1 and their respective receptors in benign and malignant human nerve sheath tumors. Further investigations may show their functional role in health and disease.
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    The pathobiologic spectrum of Schwannomas
    (Murcia : F. Hernández, 2003) Kurtkaya-Yapicier, O.; Scheithauer, B.W.; Woodruff, J.M.
    In terms of their morphology, clinical associations and behavior, peripheral nerve sheath tumors are among the most varied of human neoplasm. Not surprisingly, such tumors are subject to frequent misdiagnosis. This is particularly true of the spectrum of schwannomas which include: a) conventional schwannoma, a histologically benign tumor which, on occasion, is destructive of surrounding osseous structures, b) the relatively recently described cellular schwannoma, a tumor that histologically simulates malignant peripheral nerve sheath tumor (MPNST), c) plexiform schwannoma which, particularly in cellular form and when occurring in childhood, simulates MPNST, and d) melanotic schwannoma which is often mistaken for melanoma. The psammomatous form of the latter is often associated with Carney complex, a rare heritable disorder that: a) includes cutaneous lentigines, b) myxomas of skin, subcutaneous tissue, and heart, c) and endocrine neoplasms. The tendency to misdiagnose schwannomas and to overestimate their grade makes schwannomas worthy of note. Herein, we discuss the four major schwannoma variants, their essential clinicopathologic features, and differential diagnosis. The distinction from MPNST is given particular attention.