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11. Invited Review: The spectrum of age-related small vessel diseases: potential overlap and interactions of amyloid and nonamyloid vasculopathies

Author

Schreiber, S., Wilisch-Neumann, A., Schreiber, F., Assmann, A., Scheumann, V., Perosa, V., Jandke, S., Mawrin, C., Carare, R. O., and Werring, D. J.

Subjects
mental disorders, fungi, nutritional and metabolic diseases, cardiovascular diseases
Abstract

Deep perforator arteriopathy (DPA) and cerebral amyloid angiopathy (CAA) are the commonest known cerebral small vessel diseases (CSVD), which cause ischaemic stroke, intracebral haemorrhage (ICH) and vascular cognitive impairment (VCI). While thus far mainly considered as separate entities, we here propose that DPA and CAA share similarities, overlap and interact, so that ‘pure’ DPA or CAA are extremes along a continuum of age-related small vessel pathologies. We suggest blood-brain barrier (BBB) breakdown, endothelial damage and impaired perivascular β-amyloid (Aβ) drainage are hallmark common mechanisms connecting DPA and CAA. We also suggest a need for new biomarkers (e.g. high-resolution imaging) to deepen understanding of the complex relationships between DPA and CAA.

Published
2019

12. Invited Review: The spectrum of age‐related small vessel diseases: potential overlap and interactions of amyloid and nonamyloid vasculopathies.

Author

Schreiber, S., Wilisch‐Neumann, A., Schreiber, F., Assmann, A., Scheumann, V., Perosa, V., Jandke, S., Mawrin, C., Carare, R. O., and Werring, D. J.

Subjects
*AMYLOID, *CEREBRAL small vessel diseases, *CEREBRAL amyloid angiopathy, *BLOOD-brain barrier, *COGNITION disorders, *ARTERIAL diseases
Abstract

Deep perforator arteriopathy (DPA) and cerebral amyloid angiopathy (CAA) are the commonest known cerebral small vessel diseases (CSVD), which cause ischaemic stroke, intracebral haemorrhage (ICH) and vascular cognitive impairment (VCI). While thus far mainly considered as separate entities, we here propose that DPA and CAA share similarities, overlap and interact, so that 'pure' DPA or CAA are extremes along a continuum of age‐related small vessel pathologies. We suggest blood‐brain barrier (BBB) breakdown, endothelial damage and impaired perivascular β‐amyloid (Aβ) drainage are hallmark common mechanisms connecting DPA and CAA. We also suggest a need for new biomarkers (e.g. high‐resolution imaging) to deepen understanding of the complex relationships between DPA and CAA. [ABSTRACT FROM AUTHOR]

Published
2020
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13. Resveratrol decreases B-cell lymphoma-2 expression and viability in GH3 pituitary adenoma cells of the rat

Author

Voellger B, Kirches E, Wilisch-Neumann A, Weise A, Tapia-Perez JH, Rupa R, Mawrin C, and Firsching R

Subjects
endocrine system, endocrine system diseases, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282, hormones, hormone substitutes, and hormone antagonists
Abstract

Benjamin Voellger,1 Elmar Kirches,2 Annette Wilisch-Neumann,2 Andreas Weise,1 Jorge Humberto Tapia-Perez,1 Rosita Rupa,1 Christian Mawrin,2 Raimund Firsching11Department of Neurosurgery, 2Department of Neuropathology, Otto von Guericke University, Magdeburg, GermanyObjective: Resveratrol is a phytoestrogen with various antiproliferative and proapoptotic effects. This in vitro study aimed to analyze the effect of resveratrol on the viability and expression of modulators of apoptosis in GH3 pituitary adenoma cells of the rat.Methods: GH3 cells were incubated with resveratrol concentrations from 20 to 100 µM for 48–72 hours. Cell viability was quantified using a hemocytometer. We assessed the ability of resveratrol to kill GH3 cells by an enzyme-linked immunosorbent assay (ELISA) of nucleosome liberation and by DNA degradation (unidimensional gel electrophoresis). Relative messenger RNA (mRNA) expression of survivin, B-cell lymphoma-2 protein (BCL-2) and BCL-2-associated X protein (BAX) normalized to β2 microglobulin was measured using quantitative real-time polymerase chain reaction (qRT-PCR).Results: GH3 cell survival significantly decreased with increasing concentrations of resveratrol. In GH3 cells treated with 100 µM resveratrol, ELISA demonstrated a significant rise of nucleosome liberation, which typically occurs during apoptosis. In parallel, gel electrophoresis showed degradation of DNA into random fragments, pointing to a necrotic mode of cell death in most GH3 cells. In GH3 cells treated with 100 µM resveratrol, qRT-PCR detected a significant decrease of BCL-2 mRNA expression and a decrease of survivin mRNA expression, whereas a change of BAX mRNA expression could not be found. The BAX/BCL-2 ratio was significantly increased in GH3 cells after resveratrol treatment.Conclusions: Resveratrol reduces GH3 cell viability in a dose-dependent manner by inducing nonapoptotic cell death and apoptosis. Apoptosis in GH3 cells is probably mediated by resveratrol-dependent downregulation of apoptosis inhibitors, namely BCL-2 and possibly survivin. Further investigation of the potential effects of resveratrol on pituitary adenoma cells is warranted.Keywords: resveratrol, phytoestrogens, viability, GH3 cells

Published
2013

14. Simultaneous administration of statins and pioglitazone induces tumor reduction in an animal rat model of glioblastoma

Author

Tapia-Pérez, Jorge Humberto, Reinhold, Annegret, Kirches, Elmar, Preininger, Robert, Butzmann, Jana, Wilisch-Neumann, Annette, Prilloff, Sylvia, Gehring, Sonja, Mawrin, Christian, and Schneider, Thomas

Subjects
ddc: 610, glioma, statin, lipids (amino acids, peptides, and proteins), thiazolidinedione, 610 Medical sciences, Medicine
Abstract

Objective: Statins are cholesterol reducers with a considerable dose-dependent anti-tumoral effect. The apoptotic effect could be increased by combining statins or by adding pioglitazone (PGZ). The last one is an anti-diabetic drug, an agonist of PPAR-y receptor. We have demonstrated the efficacy of[for full text, please go to the a.m. URL], 65. Jahrestagung der Deutschen Gesellschaft für Neurochirurgie (DGNC)

Published
2014

15. EXPERIMENTAL THERAPEUTICS AND PHARMACOLOGY

Author

C. Aaberg-Jessen, L. Fogh, B. Halle, V. Jensen, N. Brunner, B. W. Kristensen, T. Abe, Y. Momii, J. Watanabe, I. Morisaki, A. Natsume, T. Wakabayashi, M. Fujiki, B. Aldaz, A. W. M. Fabius, J. Silber, G. Harinath, T. A. Chan, J. T. Huse, S. Anai, T. Hide, H. Nakamura, K. Makino, S. Yano, J.-i. Kuratsu, I. V. Balyasnikova, M. S. Prasol, D. K. Kanoija, K. S. Aboody, M. S. Lesniak, T. Barone, C. Burkhart, A. Purmal, A. Gudkov, K. Gurova, R. Plunkett, K. Barton, K. Misuraca, F. Cordero, E. Dobrikova, H. Min, M. Gromeier, D. Kirsch, O. Becher, L. B. Pont, J. Kloezeman, M. van den Bent, R. Kanaar, A. Kremer, S. Swagemakers, P. French, C. Dirven, M. Lamfers, S. Leenstra, R. Balvers, A. Kleijn, S. Lawler, X. Gong, A. Andres, J. Hanson, J. Delashaw, D. Bota, C.-C. Chen, N.-W. Yao, W.-J. Chuang, C. Chang, P.-Y. Chen, C.-Y. Huang, K.-C. Wei, Y. Cheng, Q. Dai, R. Morshed, Y. Han, B. Auffinger, D. Wainwright, L. Zhang, A. Tobias, E. Rincon, B. Thaci, A. Ahmed, C. He, M. Lesniak, Y. A. Choi, H. Pandya, D. M. Gibo, I. Fokt, W. Priebe, W. Debinski, Y. Chornenkyy, S. Agnihotri, P. Buczkowicz, P. Rakopoulos, A. Morrison, M. Barszczyk, C. Hawkins, S. Chung, S. Decollogne, P. Luk, H. Shen, W. Ha, B. Day, B. Stringer, P. Hogg, P. Dilda, K. McDonald, S. Moore, M. Hayden-Gephart, J. Bergen, Y. Su, H. Rayburn, M. Edwards, M. Scott, J. Cochran, A. Das, A. K. Varma, G. C. Wallace, Y. N. Dixon-Mah, W. A. Vandergrift, P. Giglio, S. K. Ray, S. J. Patel, N. L. Banik, T. Dasgupta, A. Olow, X. Yang, S. Mueller, M. Prados, C. D. James, D. Haas-Kogan, N. D. Dave, P. B. Desai, G. A. Gudelsky, L. M. L. Chow, K. LaSance, X. Qi, J. Driscoll, K. Ebsworth, M. J. Walters, L. S. Ertl, Y. Wang, R. D. Berahovic, J. McMahon, J. P. Powers, J. C. Jaen, T. J. Schall, Z. Eroglu, J. Portnow, A. Sacramento, E. Garcia, A. Raubitschek, T. Synold, S. Esaki, S. Rabkin, R. Martuza, H. Wakimoto, S. Ferluga, C. L. Tome, H. E. Forde, I. A. Netland, L. Sleire, B. Skeie, P. O. Enger, D. Goplen, M. Giladi, A. Tichon, R. Schneiderman, Y. Porat, M. Munster, M. Dishon, U. Weinberg, E. Kirson, Y. Wasserman, Y. Palti, D. Gramatzki, M. Staudinger, K. Frei, M. Peipp, M. Weller, C. Grasso, L. Liu, N. Berlow, L. Davis, M. Fouladi, A. Gajjar, E. Huang, E. Hulleman, M. Hutt, C. Keller, X.-N. Li, P. Meltzer, M. Quezado, M. Quist, E. Raabe, P. Spellman, N. Truffaux, D. van Vurden, N. Wang, K. Warren, R. Pal, J. Grill, M. Monje, A. L. Green, S. Ramkissoon, D. McCauley, K. Jones, J. A. Perry, L. Ramkissoon, C. Maire, S. Shacham, K. L. Ligon, A. L. Kung, K. Zielinska-Chomej, V. Grozman, J. Tu, K. Viktorsson, R. Lewensohn, S. Gupta, A. Mladek, K. Bakken, B. Carlson, F. Boakye-Agyeman, S. Kizilbash, M. Schroeder, J. Reid, J. Sarkaria, P. Hadaczek, T. Ozawa, L. Soroceanu, Y. Yoshida, L. Matlaf, E. Singer, E. Fiallos, C. S. Cobbs, R. Hashizume, M. Tom, Y. Ihara, R. Santos, J. D. L. Torre, E. Lepe, T. Waldman, D. James, X. Huang, L. Yu-Jen, N. Gupta, D. Solomon, Z. Zhang, T. Hayashi, K. Adachi, S. Nagahisa, M. Hasegawa, Y. Hirose, M. H. Gephart, Y. S. Su, S. Hingtgen, R. Kasmieh, I. Nesterenko, J.-L. Figueiredo, R. Dash, D. Sarkar, P. Fisher, K. Shah, E. Horne, P. Diaz, N. Stella, C. Huang, H. Yang, K. Wei, T. Huang, J. Hlavaty, D. Ostertag, F. L. Espinoza, B. Martin, H. Petznek, M. Rodriguez-Aguirre, C. Ibanez, N. Kasahara, W. Gunzburg, H. Gruber, D. Pertschuk, D. Jolly, J. Robbins, B. Hurwitz, J. Y. Yoo, C. Bolyard, J.-G. Yu, J. Wojton, J. Zhang, Z. Bailey, D. Eaves, T. Cripe, M. Old, B. Kaur, L. Serwer, N. Le Moan, S. Ng, N. Butowski, A. Krtolica, S. P. L. Cary, T. Johns, S. Greenall, J. Donoghue, T. Adams, G. Karpel-Massler, M.-A. Westhoff, R. E. Kast, A. Dwucet, C. R. Wirtz, K.-M. Debatin, M.-E. Halatsch, N. Merkur, F. Kievit, Z. Stephen, K. Wang, D. Kolstoe, R. Ellenbogen, M. Zhang, G. Kitange, E. Haefner, K. Knubel, B. M. Pernu, A. Sufit, A. M. Pierce, S. K. Nelson, A. K. Keating, S. S. Jensen, J. Lachowicz, M. Demeule, A. Regina, S. Tripathy, J.-C. Curry, T. Nguyen, J.-P. Castaigne, T. Davis, A. Davis, K. Tanaka, T. Keating, J. Getz, G. T. Kapp, J. M. Romero, S. Lee, S. Ramisetti, B. Slagle-Webb, A. Sharma, J. Connor, W.-S. Lee, M. Kluk, J. C. Aster, K. Ligon, S. Sun, D. Lee, A. S. W. Ho, J. K. S. Pu, Z.-q. Zhang, N. P. Lee, P. J. R. Day, G. K. K. Leung, Z. Liu, X. Liu, A. B. Madhankumar, P. Miller, B. Webb, J. R. Connor, Q. X. Yang, M. Lobo, S. Green, M. Schabel, Y. Gillespie, R. Woltjer, M. Pike, Y.-J. Lu, H. A. Luchman, O. Stechishin, S. Nguyen, J. G. Cairncross, S. Weiss, X. Lun, J. C. Wells, X. Hao, N. Grinshtein, D. Kaplan, A. Luchman, D. Senger, S. Robbins, A. Madhankumar, E. Rizk, R. Payne, A. Park, M. Pang, K. Harbaugh, A. Wilisch-Neumann, D. Pachow, E. Kirches, C. Mawrin, S. McDonell, J. Liang, Y. Piao, N. Nguyen, A. Yung, R. Verhaak, E. Sulman, C. Stephan, F. Lang, J. de Groot, Y. Mizobuchi, T. Okazaki, T. Kageji, K. Kuwayama, K. T. Kitazato, H. Mure, K. Hara, R. Morigaki, K. Matsuzaki, K. Nakajima, S. Nagahiro, S. Kumala, M. Heravi, S. Devic, T. Muanza, K. H. Knubel, A. Neuwelt, Y. J. Wu, A. Donson, R. Vibhakar, S. Venkatamaran, V. Amani, E. Neuwelt, L. Rapkin, N. Foreman, F. Ibrahim, P. New, K. Cui, H. Zhao, D. Chow, W. Stephen, K. Nozue-Okada, M. Nagane, K. L. McDonald, D. Ogawa, E. Chiocca, J. Godlewski, A. Patel, N. Pasupuleti, F. Gorin, A. Valenzuela, L. Leon, K. Carraway, C. Ramachandran, S. Nair, K.-W. Quirrin, Z. Khatib, E. Escalon, S. Melnick, A. Phillips, E. Boghaert, K. Vaidya, P. Ansell, D. Shalinsky, Y. Zhang, M. Voorbach, S. Mudd, K. Holen, R. Humerickhouse, E. Reilly, S. Parab, O. Diago, T. Ryken, S. Agarwal, M. Al-Keilani, M. Alqudah, Z. Sibenaller, M. Assemolt, K. Sai, W.-y. Li, W.-p. Li, Z.-p. Chen, R. Saito, Y. Sonoda, M. Kanamori, Y. Yamashita, T. Kumabe, T. Tominaga, G. Sarkar, G. Curran, R. Jenkins, R. Scharnweber, Y. Kato, J. Lin, R. Everson, H. Soto, C. Kruse, L. Liau, R. Prins, S. Semenkow, Q. Chu, C. Eberhart, R. Sengupta, J. Marassa, D. Piwnica-Worms, J. Rubin, R. Shai, T. Pismenyuk, I. Moshe, T. Fisher, S. Freedman, A. Simon, N. Amariglio, G. Rechavi, A. Toren, M. Yalon, Y. Shimazu, K. Kurozumi, T. Ichikawa, K. Fujii, M. Onishi, J. Ishida, T. Oka, M. Watanabe, Y. Nasu, H. Kumon, I. Date, R. W. Sirianni, R. L. McCall, J. Spoor, M. van der Kaaij, M. Geurtjens, O. Veiseh, C. Fang, M. Leung, G. Strohbehn, K.-K. Atsina, T. Patel, J. Piepmeier, J. Zhou, W. M. Saltzman, M. Takahashi, G. Valdes, A. Inagaki, S. Kamijima, K. Hiraoka, E. Micewicz, W. H. McBride, K. S. Iwamoto, H. E. Gruber, J. M. Robbins, D. J. Jolly, C. McCully, J. Bacher, T. Thomas, R. Murphy, E. Steffen-Smith, R. McAllister, D. Pastakia, B. Widemann, P. Chen, M. Hua, H. Liu, E. C. Woolf, M. G. Abdelwahab, K. E. Fenton, Q. Liu, G. Turner, M. C. Preul, A. C. Scheck, W. Shen, D. Brown, H. Pedersen, S. Hariono, T.-W. Yao, A. Sidhu, W. A. Weiss, T. P. Nicolaides, and T. Olusanya

Subjects
Cancer Research, Abstracts, Oncology, business.industry, Medicine, Neurology (clinical), Pharmacology, business
Published
2013

16. The expression of the MSC-marker CD73 and of <italic>NF2</italic>/Merlin are correlated in meningiomas.

Author

Kirches, Elmar, Steffen, Tabea, Waldt, Natalie, Hebert, Eva, Pachow, Doreen, Wilisch-Neumann, Annette, Keilhoff, Gerburg, Schneider, Thomas, Braunsdorf, Werner E. K., Warnke, Jan-Peter, and Mawrin, Christian

Abstract

Mesenchymal stem cells (MSC) have been found in various cancers and were discussed to influence tumor biology. Cells fulfilling the complete MSC criteria, including surface marker expression (CD73, CD90, CD105) and tri-lineage differentiation, have been isolated solely from a low percentage of high-grade meningiomas. In contrast, pure co-expression of the surface-markers was relatively frequent, raising the question for an additional role of these membrane proteins in meningiomas. Therefore, here we analyzed the expression of CD73, CD90 and CD105 in a series of meningiomas of all grades. Although no significant association of any marker with meningeal tumor growth per se or with tumor-grade was observed, we detected a positive Pearson correlation (r = 0.55, p ≤ 0.05) in low-grade tumors between CD73 and the most relevant tumor suppressor NF2/Merlin, supported by a tendency of lower CD73 expression in cases with allelic losses at the NF2-locus, which express significantly lower NF2/Merlin-mRNA (p ≤ 0.05). In two pairs of syngenous meningeal or meningioma cell lines with or without shRNA-mediated knockdown of NF2/Merlin a nearly complete loss of CD73 mRNA expression was observed after the knockdown (p ≤ 0.001). This suggested that the correlation observed in tumors may result from a direct functional link between Merlin and CD73. Since CD73 is a 5′-exonucleotidase (termed NT5E), we discuss a potential role of NT5E-mediated purinergic signaling to modulate actin-cytoskeleton and cell contacts, which may be a functional link to NF2/Merlin. [ABSTRACT FROM AUTHOR]

Published
2018
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17. Resveratrol induces apoptosis in GH3 pituitary adenoma cells of the rat

Author

Voellger, B, Weise, A, Kirches, E, Wilisch-Neumann, AW, Tapia-Perez, JHT, Mawrin, C, and Firsching, R

Subjects
cell culture, ddc: 610, Hypophysenadenom, Zellkultur, Apoptose, apoptosis, food and beverages, pituitary adenoma, 610 Medical sciences, Medicine
Abstract

Objective: Resveratrol is a phytoestrogen with various antiproliferatic and proapoptotic effects. One of the underlying mechanisms is downregulation of apoptosis inhibitors, such as Survivin. In human pituitary adenoma cells, Survivin expression is increased as compared to healthy pituitary gland tissue.[for full text, please go to the a.m. URL], 63. Jahrestagung der Deutschen Gesellschaft für Neurochirurgie (DGNC), Joint Meeting mit der Japanischen Gesellschaft für Neurochirurgie (JNS)

Published
2012
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18. Abundance of Flt3 and its ligand in astrocytic tumors.

Author

Eßbach, C., Andrae, N., Pachow, D., Warnke, J.-P, Wilisch-Neumann, A., Kirches, E., and Mawrin, C.

Subjects
CYSTS (Pathology), ONCOLOGY, AMINO acids, TYROSINE, PROTEIN-tyrosine kinases
Abstract

Background: Molecular targeted therapies for astrocytic tumors are the subject of growing research interest, due to the limited response of these tumors, especially glioblastoma multiforme, to conventional chemotherapeutic regimens. Several of these approaches exploit the inhibition of receptor tyrosine kinases. To date, it has not been elucidated if fms-like tyrosine kinase-3 (Flt3) and its natural ligand (Flt3L) are expressed in astrocytic tumors, although some of the clinically intended small-molecule receptor tyrosine kinase inhibitors affect Flt3, while others do not. More importantly, the recent proof of principle for successful stimulation of the immune system against gliomas in preclinical models via local Flt3L application requires elucidation of this receptor tyrosine kinase pathway in these tumors in more detail. This therapy is based on recruitment of Flt3-positive dendritic cells, but may be corroborated by activity of this signaling pathway in glioma cells. Methods: Receptor and ligand expression was analyzed by real-time polymerase chain reaction in 31 astrocytic tumors (six diffuse and 11 anaplastic astrocytomas, 14 glioblastomas) derived from patients of both genders and in glioblastoma cell lines. The two most common activating mutations of the Flt3 gene, ie, internal tandem duplication and D835 point mutation, were assessed by specific polymerase chain reaction. Results: A relatively high abundance of Flt3L mRNA (4%-6% of the reference, b2 microglobulin) could be demonstrated in all tumor samples. Flt3 expression could generally be demonstrated by 40 specific polymerase chain reaction cycles and gel electrophoresis in 87% of the tumors, including all grades, although the small quantities of the receptor did not allow reliable quantification. Expression of both mRNAs was verified in the cell lines, excluding a derivation solely from contaminating lymphocytes or macrophages. No activating mutations were found. Conclusion: Our results warrant further analysis of endogenous Flt3 signaling in these tumors prior to application of immunotherapy in human patients. [ABSTRACT FROM AUTHOR]

Published
2013
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19. The integrin inhibitor cilengitide affects meningioma cell motility and invasion.

Author

Wilisch-Neumann A, Kliese N, Pachow D, Schneider T, Warnke JP, Braunsdorf WE, Böhmer FD, Hass P, Pasemann D, Helbing C, Kirches E, and Mawrin C

Subjects
Animals, Cell Cycle drug effects, Cell Line, Tumor, Cell Survival drug effects, Disease Models, Animal, Humans, Immunohistochemistry, Integrins metabolism, Meningeal Neoplasms drug therapy, Meningeal Neoplasms mortality, Meningeal Neoplasms radiotherapy, Meningioma drug therapy, Meningioma mortality, Meningioma radiotherapy, Mice, Neoplasm Invasiveness, Neurofibromin 2 genetics, Neurofibromin 2 metabolism, Receptors, Vitronectin metabolism, Snake Venoms administration & dosage, Tumor Burden drug effects, Cell Movement drug effects, Integrins antagonists & inhibitors, Meningeal Neoplasms metabolism, Meningeal Neoplasms pathology, Meningioma metabolism, Meningioma pathology, Snake Venoms pharmacology
Abstract

Purpose: Meningiomas are frequent intracranial or spinal neoplasms, which recur frequently and can show aggressive clinical behaviour. We elucidated the impact of the integrin inhibitor cilengitide on migration, proliferation, and radiosensitization of meningioma cells., Experimental Design: We analyzed integrin expression in tissue microarrays of human meningiomas and the antimeningioma properties of cilengitide in cell cultures, subcutaneous and intracranial nude mouse models by measuring tumor volumes and survival times., Results: αvβ5 was the predominantly expressed integrin heterodimer in meningiomas, whereas αvβ3 was mainly detected in tumor blood vessels. Application of up to 100 μg/mL cilengitide resulted in only mildly reduced proliferation/survival of meningioma cell lines. Effects on cell survival could be enhanced by irradiation. One μg/mL cilengitide was sufficient to significantly inhibit meningioma cell migration and invasion in vitro. A daily dosage of 75 mg/kg did neither affect tumor volumes nor overall survival (P = 0.813, log-rank test), but suppressed brain invasion in a significant fraction of treated animals. A combination of 75 mg/kg cilengitide daily and irradiation (2 × 5 Gy) led to a 67% reduction of MRI-estimated tumor volumes in the intracranial model (P < 0.01), whereas the corresponding reduction reached by irradiation alone was only 55% (P < 0.05)., Conclusions: These data show that a monotherapy with cilengitide is not likely to achieve major responses in rapidly growing malignant meningiomas, although brain invasion may be reduced because of the strong antimigratory properties of the drug. The combination with radiotherapy warrants further attention., (©2013 AACR.)

Published
2013
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20. mTORC1 inhibitors suppress meningioma growth in mouse models.

Author

Pachow D, Andrae N, Kliese N, Angenstein F, Stork O, Wilisch-Neumann A, Kirches E, and Mawrin C

Subjects
Animals, Apoptosis, Blotting, Western, Cell Adhesion, Cell Proliferation, Genes, Neurofibromatosis 2 physiology, Humans, Immunoenzyme Techniques, Male, Mechanistic Target of Rapamycin Complex 1, Meningeal Neoplasms metabolism, Meningeal Neoplasms pathology, Meningioma metabolism, Meningioma pathology, Mice, Mice, Nude, Multiprotein Complexes genetics, Multiprotein Complexes metabolism, Neoplasm Grading, Protein Kinase Inhibitors pharmacology, RNA, Messenger genetics, Real-Time Polymerase Chain Reaction, Reverse Transcriptase Polymerase Chain Reaction, Sirolimus pharmacology, TOR Serine-Threonine Kinases genetics, TOR Serine-Threonine Kinases metabolism, Tumor Cells, Cultured, Disease Models, Animal, Meningeal Neoplasms prevention & control, Meningioma prevention & control, Multiprotein Complexes antagonists & inhibitors, Sirolimus analogs & derivatives, TOR Serine-Threonine Kinases antagonists & inhibitors
Abstract

Purpose: To evaluate the mTORC1 (mammalian target of rapamycin complex 1) pathway in meningiomas and to explore mTORC1 as a therapeutic target in meningioma cell lines and mouse models., Experimental Design: Tissue microarrays (53 meningiomas of all WHO grades) were stained for phosphorylated polypeptides of mTOR, Akt, and the mTORC1 targets 4EBP1 and p70S6K, the latter being the consensus marker for mTORC1 activity. Expression of proteins and mRNAs was assessed by Western blotting and real-time PCR in 25 tumors. Cell lines Ben-Men-1 (benign), IOMM-Lee and KT21 (malignant), and pairs of merlin-positive or -negative meningioma cells were used to assess sensitivity toward mTORC1 inhibitors in methyl-tetrazolium and bromodeoxyuridine (BrdUrd) assays. The effect of temsirolimus (20 mg/kg daily) on tumor weight or MRI-estimated tumor volume was tested by treatment of eight nude mice (vs. 7 controls) carrying subcutaneous IOMM-Lee xenografts, or of eight (5) mice xenotransplanted intracranially with IOMM-Lee (KT21) cells in comparison to eight (5) untreated controls., Results: All components of the mTORC1 pathway were expressed and activated in meningiomas, independent of their WHO grade. A significant dosage-dependent growth inhibition by temsirolimus and everolimus was observed in all cell lines. It was slightly diminished by merlin loss. In the orthotopic and subcutaneous xenograft models, temsirolimus treatment resulted in about 70% growth reduction of tumors (P < 0.01), which was paralleled by reduction of Ki67 mitotic index (P < 0.05) and reduction of mTORC1 activity (p70S6K phosphorylation) within the tumors., Conclusion: mTORC1 inhibitors suppress meningioma growth in mouse models, although the present study did not measure survival., (©2012 AACR.)

Published
2013
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