Your search keyword '"Stichel D"' showing total 163 results

1. Elimination of factor VIII‐specific B cells by immunotoxins composed of a single factor VIII domain fused to Pseudomonas exotoxin A

Author

Brettschneider, K., Schmidt, A., Kahle, J., Orlowski, A., Stichel, D., Schwabe, D., and Königs, C.

Published

2018

2. PB1301 Low-Titer Inhibitor and Decreased FVIII Activity to 1.1% with Increased Bleeding in a 4 Year Old Patient with Congenital Mild Hemophilia A

Author

Wieland, I., primary, Becker, K., additional, Stichel, D., additional, and Koenigs, C., additional

Published

2023

3. PB0649 Results from the RESIST Study for Tolerance Induction in Patients with Poor Prognosis for ITI Success

Author

Koenigs, C., primary, Schmidt, A., additional, Salzmann-Manrique, E., additional, Orlowski, A., additional, Stichel, D., additional, Carcao, M., additional, Chan, A., additional, Guerrera, M., additional, Jeng, M., additional, Klaassen, R., additional, Kulkarni, R., additional, Rajpurkar, M., additional, Reiss, U., additional, Sanders, J., additional, Santagostino, E., additional, Valentino, L., additional, and Ewing, N., additional

Published

2023

4. JS01.3.A EPIGENETICALLY DEFINED ANGIOCENTRIC GLIOMAS MAY LACK ANGIOCENTRIC GROWTH AND INSTEAD SHOW A VARIETY OF GROWTH PATTERNS

Author

Stegat, L, primary, Rohwer, J L, additional, Stichel, D, additional, Schrimpf, D, additional, Coras, R, additional, Pagès, M, additional, Tauziède-Espariat, A, additional, Varlet, P, additional, Hans, V H, additional, Meyer, J, additional, Schittenhelm, J, additional, Staszewski, O, additional, Cheesman, E, additional, Glatzel, M, additional, Schmid, S, additional, Wesseling, P, additional, Korshunov, A, additional, Sexton-Oates, A, additional, Schüller, U, additional, Kõrgvee, L, additional, Mueller, S, additional, Olar, A, additional, Snuderl, M, additional, Schweizer, L, additional, Aronica, E, additional, Sahm, F, additional, von Deimling, A, additional, Blumcke, I, additional, Jones, D T W, additional, Capper, D, additional, and Wefers, A K, additional

Published

2023

5. Characterization of the influence of heat- and acid-treatment on the FVIII-antibody interaction in order to improve inhibitor diagnostics

Author

Schmidt, A, additional, Stichel, D, additional, Salzmann-Manrique, E, additional, and Königs, C, additional

Published

2023

6. Pan-mutant-IDH1 inhibitor BAY1436032 is highly effective against human IDH1 mutant acute myeloid leukemia in vivo

Author

Chaturvedi, A, Herbst, L, Pusch, S, Klett, L, Goparaju, R, Stichel, D, Kaulfuss, S, Panknin, O, Zimmermann, K, Toschi, L, Neuhaus, R, Haegebarth, A, Rehwinkel, H, Hess-Stumpp, H, Bauser, M, Bochtler, T, Struys, E A, Sharma, A, Bakkali, A, Geffers, R, Araujo-Cruz, M M, Thol, F, Gabdoulline, R, Ganser, A, Ho, A D, von Deimling, A, Rippe, K, Heuser, M, and Krämer, A

Published

2017

7. Anti‐factor VIII antibodies in brothers with haemophilia A share similar characteristics

Author

Kahle, J., Orlowski, A., Stichel, D., Healey, J. F., Parker, E. T., Donfield, S. M., Astermark, J., Berntorp, E., Lollar, P., Schwabe, D., and Königs, C.

Published

2017

8. ETMR-06. Molecular and clinical characteristics of CNS tumors withBCOR(L1) fusion/internal tandem duplication

Author

Gojo, J, Schmitt-Hoffner, F, Mauermann, M, von Hoff, K, Sill, M, Korshunov, A, Stichel, D, Capper, D, Tauziede-Espariat, A, Varlet, P, Aldape, K, Abdullaev, Z, Donson, A, Pahnke, J, Schüller, U, Tran, I, Galbraith, K, Snuderl, M, Alexandrescu, S, Brandner, S, Łastowska, M, Miele, E, Lugt, JV, Meijer, L, Bunt, J, Kramm, C, Hansford, JR, Krskova, L, Zapotocky, M, Nobusawa, S, Solomon, D, Haberler, C, Jones, B, Sturm, D, Sahm, F, Jäger, N, Pfister, SM, Kool, M, Gojo, J, Schmitt-Hoffner, F, Mauermann, M, von Hoff, K, Sill, M, Korshunov, A, Stichel, D, Capper, D, Tauziede-Espariat, A, Varlet, P, Aldape, K, Abdullaev, Z, Donson, A, Pahnke, J, Schüller, U, Tran, I, Galbraith, K, Snuderl, M, Alexandrescu, S, Brandner, S, Łastowska, M, Miele, E, Lugt, JV, Meijer, L, Bunt, J, Kramm, C, Hansford, JR, Krskova, L, Zapotocky, M, Nobusawa, S, Solomon, D, Haberler, C, Jones, B, Sturm, D, Sahm, F, Jäger, N, Pfister, SM, and Kool, M

Abstract

Central nervous system (CNS) tumor with BCOR internal tandem duplication (BCOR-ITD) have recently been introduced in the 5th edition of the WHO classification of CNS tumors, however, their molecular makeup and clinical characteristics remain widely enigmatic. This is further complicated by the recent discovery of tumors characterized by gene fusions involving BCOR or its homologue BCORL1. We identified a cohort of 206 BCOR altered CNS tumors via DNA methylation profiling and conducted in-depth molecular and clinical characterization in an international effort. By performing t-SNE clustering analysis we found that BCOR-fusion tumors form a distinct cluster (n=61), adjacent to BCOR-ITD cases (n=145). The identified fusion partners of BCOR(L1) included EP300 (n=20), CREBBP (n=5), and NUTM2HP (n=1). Notably, three cases within the BCOR-ITD cluster harbored a c-terminal intragenic deletion within BCOR. With respect to clinical characteristics gender ratio was balanced in BCOR-fusion cases (m/f, 1.1), whereas predominance of male patients was observed in the BCOR-ITD group (m/f, 1.5). Moreover, age at diagnosis of BCOR-fusion patients was higher as compared to BCOR-ITD cases (15 vs 4.5 years). Interestingly, BCOR-fusion tumors were exclusively found in the supratentorial region being originally diagnosed as ependymomas or gliomas whereas BCOR-ITD emerged across the entire CNS with diverse original diagnoses. 8% of BCOR-ITD and none of BCOR-fusion cases were disseminated at diagnosis. In line with this observation, 40% of first relapses within the BCOR-ITD group were metastatic which was less frequent in BCOR-fusion tumors. Survival estimates demonstrated no differences, generally showing short median PFS (BCOR-fusion, 2 years, n=15; BCOR-ITD, 1.8 years, n=55) and intermediate OS rates (BCOR-fusion, 6.8 years, n=18; BCOR-ITD 6.3 years, n=60). Further molecular and clinical characterization is ongoing potentially revealing first therapeutic leads for these highly a

Published

2022

9. Integrated Molecular-Morphologic Meningioma Classification: A Multicenter Retrospective Analysis, Retrospectively and Prospectively Validated

Author

Maas, SLN, Stichel, D, Hielscher, T, Sievers, P, Berghoff, AS, Schrimpf, D, Sill, M, Euskirchen, P, Blume, C, Patel, A, Dogan, H, Reuss, D, Dohmen, H, Stein, M, Reinhardt, A, Suwala, AK, Wefers, AK, Baumgarten, P, Ricklefs, F, Rushing, EJ, Bewerunge-Hudler, M, Ketter, R, Schittenhelm, J, Jaunmuktane, Z, Leu, S, Greenway, FEA, Bridges, LR, Jones, T, Grady, C, Serrano, J, Golfinos, J, Sen, C, Mawrin, C, Jungk, C, Hänggi, D, Westphal, M, Lamszus, K, Etminan, N, Jungwirth, G, Herold-Mende, C, Unterberg, A, Harter, PN, Wirsching, H-G, Neidert, MC, Ratliff, M, Platten, M, Snuderl, M, Aldape, KD, Brandner, S, Hench, J, Frank, S, Pfister, SM, Jones, DTW, Reifenberger, G, Acker, T, Wick, W, Weller, M, Preusser, M, von Deimling, A, Sahm, F, and German Consortium on Aggressive Meningiomas (KAM)

Abstract

PURPOSE: Meningiomas are the most frequent primary intracranial tumors. Patient outcome varies widely from benign to highly aggressive, ultimately fatal courses. Reliable identification of risk of progression for individual patients is of pivotal importance. However, only biomarkers for highly aggressive tumors are established (CDKN2A/B and TERT), whereas no molecularly based stratification exists for the broad spectrum of patients with low- and intermediate-risk meningioma. METHODS: DNA methylation data and copy-number information were generated for 3,031 meningiomas (2,868 patients), and mutation data for 858 samples. DNA methylation subgroups, copy-number variations (CNVs), mutations, and WHO grading were analyzed. Prediction power for outcome was assessed in a retrospective cohort of 514 patients, validated on a retrospective cohort of 184, and on a prospective cohort of 287 multicenter cases. RESULTS: Both CNV- and methylation family-based subgrouping independently resulted in increased prediction accuracy of risk of recurrence compared with the WHO classification (c-indexes WHO 2016, CNV, and methylation family 0.699, 0.706, and 0.721, respectively). Merging all risk stratification approaches into an integrated molecular-morphologic score resulted in further substantial increase in accuracy (c-index 0.744). This integrated score consistently provided superior accuracy in all three cohorts, significantly outperforming WHO grading (c-index difference P = .005). Besides the overall stratification advantage, the integrated score separates more precisely for risk of progression at the diagnostically challenging interface of WHO grade 1 and grade 2 tumors (hazard ratio 4.34 [2.48-7.57] and 3.34 [1.28-8.72] retrospective and prospective validation cohorts, respectively). CONCLUSION: Merging these layers of histologic and molecular data into an integrated, three-tiered score significantly improves the precision in meningioma stratification. Implementation into diagnostic routine informs clinical decision making for patients with meningioma on the basis of robust outcome prediction.

Published

2021

10. OS11.5.A PATZ1 fusions define a novel molecularly distinct CNS tumor entity with a broad histological spectrum

Author

Al Halabi, K T, primary, Sievers, P, additional, Stichel, D, additional, Sommerkamp, A C, additional, Sill, M, additional, Jäger, N, additional, Wittmann, A, additional, Kramm, C, additional, Snuderl, M, additional, Pfister, S M, additional, von Deimling, A, additional, Sahm, F, additional, and Jones, D T W, additional

Published

2021

11. PATZ1 fusions define a novel molecularly distinct neuroepithelial tumor entity with a broad histological spectrum

Author

Alhalabi, K.T. Stichel, D. Sievers, P. Peterziel, H. Sommerkamp, A.C. Sturm, D. Wittmann, A. Sill, M. Jäger, N. Beck, P. Pajtler, K.W. Snuderl, M. Jour, G. Delorenzo, M. Martin, A.M. Levy, A. Dalvi, N. Hansford, J.R. Gottardo, N.G. Uro-Coste, E. Maurage, C.-A. Godfraind, C. Vandenbos, F. Pietsch, T. Kramm, C. Filippidou, M. Kattamis, A. Jones, C. Øra, I. Mikkelsen, T.S. Zapotocky, M. Sumerauer, D. Scheie, D. McCabe, M. Wesseling, P. Tops, B.B.J. Kranendonk, M.E.G. Karajannis, M.A. Bouvier, N. Papaemmanuil, E. Dohmen, H. Acker, T. von Hoff, K. Schmid, S. Miele, E. Filipski, K. Kitanovski, L. Krskova, L. Gojo, J. Haberler, C. Alvaro, F. Ecker, J. Selt, F. Milde, T. Witt, O. Oehme, I. Kool, M. von Deimling, A. Korshunov, A. Pfister, S.M. Sahm, F. Jones, D.T.W.

Abstract

Large-scale molecular profiling studies in recent years have shown that central nervous system (CNS) tumors display a much greater heterogeneity in terms of molecularly distinct entities, cellular origins and genetic drivers than anticipated from histological assessment. DNA methylation profiling has emerged as a useful tool for robust tumor classification, providing new insights into these heterogeneous molecular classes. This is particularly true for rare CNS tumors with a broad morphological spectrum, which are not possible to assign as separate entities based on histological similarity alone. Here, we describe a molecularly distinct subset of predominantly pediatric CNS neoplasms (n = 60) that harbor PATZ1 fusions. The original histological diagnoses of these tumors covered a wide spectrum of tumor types and malignancy grades. While the single most common diagnosis was glioblastoma (GBM), clinical data of the PATZ1-fused tumors showed a better prognosis than typical GBM, despite frequent relapses. RNA sequencing revealed recurrent MN1:PATZ1 or EWSR1:PATZ1 fusions related to (often extensive) copy number variations on chromosome 22, where PATZ1 and the two fusion partners are located. These fusions have individually been reported in a number of glial/glioneuronal tumors, as well as extracranial sarcomas. We show here that they are more common than previously acknowledged, and together define a biologically distinct CNS tumor type with high expression of neural development markers such as PAX2, GATA2 and IGF2. Drug screening performed on the MN1:PATZ1 fusion-bearing KS-1 brain tumor cell line revealed preliminary candidates for further study. In summary, PATZ1 fusions define a molecular class of histologically polyphenotypic neuroepithelial tumors, which show an intermediate prognosis under current treatment regimens. © 2021, The Author(s).

Published

2021

12. Intimal sarcomas and undifferentiated cardiac sarcomas carry mutually exclusive MDM2, MDM4, and CDK6 amplifications and share a common DNA methylation signature

Author

Koelsche, C., Benhamida, J.K., Kommoss, F.K.F., Stichel, D., Jones, D.T.W., Pfister, S.M., Heilig, C.E., Fröhling, S., Stenzinger, A., Buslei, R., Mentzel, T., Baumhoer, D., Ladanyi, M., Antonescu, C.R., Flucke, U.E., Gorp, J.V., Bode-Lesniewska, B., Deimling, A.V., Mechtersheimer, G., Koelsche, C., Benhamida, J.K., Kommoss, F.K.F., Stichel, D., Jones, D.T.W., Pfister, S.M., Heilig, C.E., Fröhling, S., Stenzinger, A., Buslei, R., Mentzel, T., Baumhoer, D., Ladanyi, M., Antonescu, C.R., Flucke, U.E., Gorp, J.V., Bode-Lesniewska, B., Deimling, A.V., and Mechtersheimer, G.

Abstract

Item does not contain fulltext, Undifferentiated mesenchymal tumors arising from the inner lining (intima) of large arteries are classified as intimal sarcomas (ISA) with MDM2 amplification as their molecular hallmark. Interestingly, undifferentiated pleomorphic sarcomas (UPS) of the heart have recently been suggested to represent the cardiac analog of ISA due to morphological overlap and high prevalence of MDM2 amplifications in both neoplasms. However, little is known about ISAs and cardiac UPS without MDM2 amplifications and molecular data supporting their common classification is sparse. Here, we report a series of 35 cases comprising 25 ISAs of the pulmonary artery, one ISA of the renal artery and 9 UPS of the left atrium. Tumors were analyzed utilizing the Illumina Infinium MethylationEPIC BeadChip array, enabling copy number profile generation and unsupervised DNA methylation analysis. DNA methylation patterns were investigated using t-distributed stochastic neighbor embedding (t-SNE) analysis. Histologically, all ISAs and UPS of the left atrium resembled extra-cardiac UPS. All cases exhibited highly complex karyotypes with overlapping patterns between ISA and UPS. 29/35 cases showed mutually exclusive amplifications in the cell-cycle associated oncogenes MDM2 (25/35), MDM4 (2/35), and CDK6 (2/35). We further observed recurrent co-amplifications in PDGFRA (21/35), CDK4 (15/35), TERT (11/35), HDAC9 (9/35), and CCND1 (4/35). Sporadic co-amplifications occurred in MYC, MYCN, and MET (each 1/35). The tumor suppressor CDKN2A/B was frequently deleted (10/35). Interestingly, DNA methylation profiling (t-SNE) revealed an overlap of ISA and cardiac UPS. This "ISA" methylation signature was distinct from potential histologic and molecular mimics. In conclusion, our data reveal MDM4 and CDK6 amplifications in ISAs and UPS of the left atrium, lacking MDM2 amplification. We further report novel co-amplifications of various oncogenes, which may have therapeutic implications. Finally, the genetic and epig

Published

2021

13. Clear cell meningiomas are defined by a highly distinct DNA methylation profile and mutations in SMARCE1

Author

Sievers, P., Sill, M., Blume, C., Tauziede-Espariat, A., Schrimpf, D., Stichel, D., Reuss, D.E., Dogan, H., Hartmann, C., Mawrin, C., Hasselblatt, M., Stummer, W., Schick, U., Hench, J., Frank, S., Ketter, R., Schweizer, L., Schittenhelm, J., Puget, S., Brandner, S., Jaunmuktane, Z., Kusters, B., Abdullaev, Z., Pekmezci, M., Snuderl, M., Ratliff, M., Herold-Mende, C., Unterberg, A., Aldape, K., Ellison, D.W., Wesseling, P., Reifenberger, G., Wick, W., Perry, A., Varlet, P., Pfister, S.M., Jones, D.T.W., Deimling, A. von, Sahm, F., Sievers, P., Sill, M., Blume, C., Tauziede-Espariat, A., Schrimpf, D., Stichel, D., Reuss, D.E., Dogan, H., Hartmann, C., Mawrin, C., Hasselblatt, M., Stummer, W., Schick, U., Hench, J., Frank, S., Ketter, R., Schweizer, L., Schittenhelm, J., Puget, S., Brandner, S., Jaunmuktane, Z., Kusters, B., Abdullaev, Z., Pekmezci, M., Snuderl, M., Ratliff, M., Herold-Mende, C., Unterberg, A., Aldape, K., Ellison, D.W., Wesseling, P., Reifenberger, G., Wick, W., Perry, A., Varlet, P., Pfister, S.M., Jones, D.T.W., Deimling, A. von, and Sahm, F.

Abstract

Contains fulltext : 232881.pdf (Publisher’s version ) (Open Access), Clear cell meningioma represents an uncommon variant of meningioma that typically affects children and young adults. Although an enrichment of loss-of-function mutations in the SMARCE1 gene has been reported for this subtype, comprehensive molecular investigations are lacking. Here we describe a molecularly distinct subset of tumors (n = 31), initially identified through genome-wide DNA methylation screening among a cohort of 3093 meningiomas, of which most were diagnosed histologically as clear cell meningioma. This cohort was further supplemented by an additional 11 histologically diagnosed clear cell meningiomas for analysis (n = 42). Targeted DNA sequencing revealed SMARCE1 mutations in 33/34 analyzed samples, accompanied by a nuclear loss of expression determined via immunohistochemistry and a decreased SMARCE1 transcript expression in the tumor cells. Analysis of time to progression or recurrence of patients within the clear cell meningioma group (n = 14) in comparison to those with meningioma WHO grade 2 (n = 220) revealed a similar outcome and support the assignment of WHO grade 2 to these tumors. Our findings indicate the existence of a highly distinct epigenetic signature of clear cell meningiomas, separate from all other variants of meningiomas, with recurrent mutations in the SMARCE1 gene. This suggests that these tumors may arise from a different precursor cell population than the broad spectrum of the other meningioma subtypes.

Published

2021

14. PATZ1 fusions define a novel molecularly distinct neuroepithelial tumor entity with a broad histological spectrum

Author

Alhalabi, KT, Stichel, D, Sievers, P, Peterziel, H, Sommerkamp, AC, Sturm, D, Wittmann, A, Sill, M, Jaeger, N, Beck, P, Pajtler, KW, Snuderl, M, Jour, G, Delorenzo, M, Martin, AM, Levy, A, Dalvi, N, Hansford, JR, Gottardo, NG, Uro-Coste, E, Maurage, C-A, Godfraind, C, Vandenbos, F, Pietsch, T, Kramm, C, Filippidou, M, Kattamis, A, Jones, C, Ora, I, Mikkelsen, TS, Zapotocky, M, Sumerauer, D, Scheie, D, McCabe, M, Wesseling, P, Tops, BBJ, Kranendonk, MEG, Karajannis, MA, Bouvier, N, Papaemmanuil, E, Dohmen, H, Acker, T, von Hoff, K, Schmid, S, Miele, E, Filipski, K, Kitanovski, L, Krskova, L, Gojo, J, Haberler, C, Alvaro, F, Ecker, J, Selt, F, Milde, T, Witt, O, Oehme, I, Kool, M, von Deimling, A, Korshunov, A, Pfister, SM, Sahm, F, Jones, DTW, Alhalabi, KT, Stichel, D, Sievers, P, Peterziel, H, Sommerkamp, AC, Sturm, D, Wittmann, A, Sill, M, Jaeger, N, Beck, P, Pajtler, KW, Snuderl, M, Jour, G, Delorenzo, M, Martin, AM, Levy, A, Dalvi, N, Hansford, JR, Gottardo, NG, Uro-Coste, E, Maurage, C-A, Godfraind, C, Vandenbos, F, Pietsch, T, Kramm, C, Filippidou, M, Kattamis, A, Jones, C, Ora, I, Mikkelsen, TS, Zapotocky, M, Sumerauer, D, Scheie, D, McCabe, M, Wesseling, P, Tops, BBJ, Kranendonk, MEG, Karajannis, MA, Bouvier, N, Papaemmanuil, E, Dohmen, H, Acker, T, von Hoff, K, Schmid, S, Miele, E, Filipski, K, Kitanovski, L, Krskova, L, Gojo, J, Haberler, C, Alvaro, F, Ecker, J, Selt, F, Milde, T, Witt, O, Oehme, I, Kool, M, von Deimling, A, Korshunov, A, Pfister, SM, Sahm, F, and Jones, DTW

Abstract

Large-scale molecular profiling studies in recent years have shown that central nervous system (CNS) tumors display a much greater heterogeneity in terms of molecularly distinct entities, cellular origins and genetic drivers than anticipated from histological assessment. DNA methylation profiling has emerged as a useful tool for robust tumor classification, providing new insights into these heterogeneous molecular classes. This is particularly true for rare CNS tumors with a broad morphological spectrum, which are not possible to assign as separate entities based on histological similarity alone. Here, we describe a molecularly distinct subset of predominantly pediatric CNS neoplasms (n = 60) that harbor PATZ1 fusions. The original histological diagnoses of these tumors covered a wide spectrum of tumor types and malignancy grades. While the single most common diagnosis was glioblastoma (GBM), clinical data of the PATZ1-fused tumors showed a better prognosis than typical GBM, despite frequent relapses. RNA sequencing revealed recurrent MN1:PATZ1 or EWSR1:PATZ1 fusions related to (often extensive) copy number variations on chromosome 22, where PATZ1 and the two fusion partners are located. These fusions have individually been reported in a number of glial/glioneuronal tumors, as well as extracranial sarcomas. We show here that they are more common than previously acknowledged, and together define a biologically distinct CNS tumor type with high expression of neural development markers such as PAX2, GATA2 and IGF2. Drug screening performed on the MN1:PATZ1 fusion-bearing KS-1 brain tumor cell line revealed preliminary candidates for further study. In summary, PATZ1 fusions define a molecular class of histologically polyphenotypic neuroepithelial tumors, which show an intermediate prognosis under current treatment regimens.

Published

2021

15. Sarcoma classification by DNA methylation profiling

Author

Koelsche, C, Schrimpf, D, Stichel, D, Sill, M, Sahm, F, Reuss, DE, Blattner, M, Worst, B, Heilig, CE, Beck, K, Horak, P, Kreutzfeldt, S, Paff, E, Stark, S, Johann, P, Selt, F, Ecker, J, Sturm, D, Pajtler, K W, Reinhardt, A, Wefers, AK, Sievers, P, Ebrahimi, A, Suwala, A, Fernandez-Klett, F, Casalini, B, Korshunov, A, Hovestadt, V, Kommoss, FKF, Kriegsmann, M, Schick, M, Bewerunge-Hudler, M, Milde, T, Witt, O, Kulozik, AE, Kool, M, Romero-Perez, L, Grunewald, TGP, Kirchner, T, Wick, W, Platten, M, Unterberg, A, Uhl, M, Abdollahi, A, Debus, J, Lehner, B, Thomas, C, Hasselblatt, M, Paulus, W, Hartmann, C, Staszewski, O, Prinz, M, Hench, J, Frank, S, Versleijen-Jonkers, YMH, Weidema, ME, Mentzel, T, Griewank, K, Alava, E, Martin, JD, Gastearena, MAI, Chang, KTE, Low, SYY, Cuevas-Bourdier, A, Mittelbronn, M, Mynarek, M, Rutkowski, S, Schuller, U, Mautner, VF, Schittenhelm, J, Serrano, J, Snuderl, M, Buttner, R, Klingebiel, T, Buslei, R, Gessler, M, Wesseling, P, Dinjens, Winand, Brandner, S, Jaunmuktane, Z, Lyskjaer, I, Schirmacher, P, Stenzinger, A, Brors, B, Glimm, H, Heining, C, Tirado, OM, Sainz-Jaspeado, M, Mora, J, Alonso, J, del Muro, XG, Moran, S, Esteller, M, Benhamida, JK, Ladanyi, M, Wardelmann, E, Antonescu, C, Flanagan, A, Dirksen, U, Hohenberger, P, Baumhoer, D, Hartmann, W, Vokuhl, C, Flucke, U, Petersen, I, Mechtersheimer, G, Capper, D, Jones, DT, Frohling, S, Pfister, SM, von Deimling, A, Koelsche, C, Schrimpf, D, Stichel, D, Sill, M, Sahm, F, Reuss, DE, Blattner, M, Worst, B, Heilig, CE, Beck, K, Horak, P, Kreutzfeldt, S, Paff, E, Stark, S, Johann, P, Selt, F, Ecker, J, Sturm, D, Pajtler, K W, Reinhardt, A, Wefers, AK, Sievers, P, Ebrahimi, A, Suwala, A, Fernandez-Klett, F, Casalini, B, Korshunov, A, Hovestadt, V, Kommoss, FKF, Kriegsmann, M, Schick, M, Bewerunge-Hudler, M, Milde, T, Witt, O, Kulozik, AE, Kool, M, Romero-Perez, L, Grunewald, TGP, Kirchner, T, Wick, W, Platten, M, Unterberg, A, Uhl, M, Abdollahi, A, Debus, J, Lehner, B, Thomas, C, Hasselblatt, M, Paulus, W, Hartmann, C, Staszewski, O, Prinz, M, Hench, J, Frank, S, Versleijen-Jonkers, YMH, Weidema, ME, Mentzel, T, Griewank, K, Alava, E, Martin, JD, Gastearena, MAI, Chang, KTE, Low, SYY, Cuevas-Bourdier, A, Mittelbronn, M, Mynarek, M, Rutkowski, S, Schuller, U, Mautner, VF, Schittenhelm, J, Serrano, J, Snuderl, M, Buttner, R, Klingebiel, T, Buslei, R, Gessler, M, Wesseling, P, Dinjens, Winand, Brandner, S, Jaunmuktane, Z, Lyskjaer, I, Schirmacher, P, Stenzinger, A, Brors, B, Glimm, H, Heining, C, Tirado, OM, Sainz-Jaspeado, M, Mora, J, Alonso, J, del Muro, XG, Moran, S, Esteller, M, Benhamida, JK, Ladanyi, M, Wardelmann, E, Antonescu, C, Flanagan, A, Dirksen, U, Hohenberger, P, Baumhoer, D, Hartmann, W, Vokuhl, C, Flucke, U, Petersen, I, Mechtersheimer, G, Capper, D, Jones, DT, Frohling, S, Pfister, SM, and von Deimling, A

Abstract

Sarcomas are malignant soft tissue and bone tumours affecting adults, adolescents and children. They represent a morphologically heterogeneous class of tumours and some entities lack defining histopathological features. Therefore, the diagnosis of sarcomas is burdened with a high inter-observer variability and misclassification rate. Here, we demonstrate classification of soft tissue and bone tumours using a machine learning classifier algorithm based on array-generated DNA methylation data. This sarcoma classifier is trained using a dataset of 1077 methylation profiles from comprehensively pre-characterized cases comprising 62 tumour methylation classes constituting a broad range of soft tissue and bone sarcoma subtypes across the entire age spectrum. The performance is validated in a cohort of 428 sarcomatous tumours, of which 322 cases were classified by the sarcoma classifier. Our results demonstrate the potential of the DNA methylation-based sarcoma classification for research and future diagnostic applications.

Published

2021

16. Integrative analysis reveals early and distinct genetic and epigenetic changes in intraductal cholangiocarcinogenesis

Author

Goeppert, B, additional, Stichel, D, additional, Toth, R, additional, Fritzsche, S, additional, Loeffler, M, additional, Schlitter, AM, additional, Neumann, O, additional, Assenov, Y, additional, Vogel, MN, additional, Mehrabi, A, additional, Hoffmann, K, additional, Köhler, B, additional, Springfeld, C, additional, Weichenhan, D, additional, Plass, C, additional, Esposito, I, additional, Schirmacher, P, additional, von Deimling, A, additional, and Rössler, S, additional

Published

2021

17. Diffuse glioneuronal tumour with oligodendroglioma‐like features and nuclear clusters (DGONC) – a molecularly defined glioneuronal CNS tumour class displaying recurrent monosomy 14

Author

Deng, M. Y., primary, Sill, M., additional, Sturm, D., additional, Stichel, D., additional, Witt, H., additional, Ecker, J., additional, Wittmann, A., additional, Schittenhelm, J., additional, Ebinger, M., additional, Schuhmann, M. U., additional, Figarella‐Branger, D., additional, Aronica, E., additional, Staszewski, O., additional, Preusser, M., additional, Haberler, C., additional, Lauten, M., additional, Schüller, U., additional, Hartmann, C., additional, Snuderl, M., additional, Dunham, C., additional, Jabado, N., additional, Wesseling, P., additional, Deckert, M., additional, Keyvani, K., additional, Gottardo, N., additional, Giangaspero, F., additional, Hoff, K., additional, Ellison, D. W., additional, Pietsch, T., additional, Herold-Mende, C., additional, Milde, T., additional, Witt, O., additional, Kool, M., additional, Korshunov, A., additional, Wick, W., additional, Deimling, A., additional, Pfister, S. M., additional, Jones, D. T. W., additional, and Sahm, F., additional

Published

2020

18. Development of a low-titer inhibitor in a boy with congenital mild hemophilia A: clinical and immunological follow up of 1 year.

Author

Wieland, I., Becker, K., Stichel, D., and Christoph, K.

Published

2024

19. Diffuse glioneuronal tumour with oligodendroglioma-like features and nuclear clusters (DGONC) - a molecularly defined glioneuronal CNS tumour class displaying recurrent monosomy 14

Author

Deng, M. Y., Sill, M., Sturm, D., Stichel, D., Witt, H., Ecker, J., Wittmann, A., Schittenhelm, J., Ebinger, M., Schuhmann, M. U., Figarella-Branger, D., Aronica, E., Staszewski, O., Preusser, M., Haberler, C., Lauten, M., Schueller, U., Hartmann, C., Snuderl, M., Dunham, C., Jabado, N., Wesseling, P., Deckert, M., Keyvani, K., Gottardo, N., Giangaspero, F., von Hoff, K., Ellison, D. W., Pietsch, T., Herold-Mende, C., Milde, T., Witt, O., Kool, M., Korshunov, A., Wick, W., von Deimling, A., Pfister, S. M., Jones, D. T. W., Sahm, F., Deng, M. Y., Sill, M., Sturm, D., Stichel, D., Witt, H., Ecker, J., Wittmann, A., Schittenhelm, J., Ebinger, M., Schuhmann, M. U., Figarella-Branger, D., Aronica, E., Staszewski, O., Preusser, M., Haberler, C., Lauten, M., Schueller, U., Hartmann, C., Snuderl, M., Dunham, C., Jabado, N., Wesseling, P., Deckert, M., Keyvani, K., Gottardo, N., Giangaspero, F., von Hoff, K., Ellison, D. W., Pietsch, T., Herold-Mende, C., Milde, T., Witt, O., Kool, M., Korshunov, A., Wick, W., von Deimling, A., Pfister, S. M., Jones, D. T. W., and Sahm, F.

Abstract

Aims DNA methylation-based central nervous system (CNS) tumour classification has identified numerous molecularly distinct tumour types, and clinically relevant subgroups among known CNS tumour entities that were previously thought to represent homogeneous diseases. Our study aimed at characterizing a novel, molecularly defined variant of glioneuronal CNS tumour. Patients and methods DNA methylation profiling was performed using the Infinium MethylationEPIC or 450 k BeadChip arrays (Illumina) and analysed using the 'conumee' package in R computing environment. Additional gene panel sequencing was also performed. Tumour samples were collected at the German Cancer Research Centre (DKFZ) and provided by multinational collaborators. Histological sections were also collected and independently reviewed. Results Genome-wide DNA methylation data from >25 000 CNS tumours were screened for clusters separated from established DNA methylation classes, revealing a novel group comprising 31 tumours, mainly found in paediatric patients. This DNA methylation-defined variant of low-grade CNS tumours with glioneuronal differentiation displays recurrent monosomy 14, nuclear clusters within a morphology that is otherwise reminiscent of oligodendroglioma and other established entities with clear cell histology, and a lack of genetic alterations commonly observed in other (paediatric) glioneuronal entities. Conclusions DNA methylation-based tumour classification is an objective method of assessing tumour origins, which may aid in diagnosis, especially for atypical cases. With increasing sample size, methylation analysis allows for the identification of rare, putative new tumour entities, which are currently not recognized by the WHO classification. Our study revealed the existence of a DNA methylation-defined class of low-grade glioneuronal tumours with recurrent monosomy 14, oligodendroglioma-like features and nuclear clusters.

Published

2020

20. Affinities of FVIII-specific IgG1 and IgG4 during ITI

Author

Kaya, E., additional, Hartmann, J., additional, Beilfuß, M., additional, Stichel, D., additional, Orlowski, A., additional, Heller, C., additional, Klingebiel, T., additional, Königs, C., additional, and Schmidt, A., additional

Published

2019

21. Identification of Plasma Cytokine Levels Correlating with FVIII Inhibitor Titer during ITI

Author

Hartmann, J., additional, Schmidt, A., additional, Beilfuss, M., additional, Stichel, D., additional, Orlowski, A., additional, Heller, C., additional, Schwabe, D., additional, Klingebiel, T., additional, Ewing, N., additional, and Königs, C., additional

Published

2019

22. The Evolution of Antibody Response during Immune Tolerance INDUCTION IN PAtients with Severe Hemophilia A Predicts Outcome

Author

Wieland, I., additional, Sykora, K.-W., additional, Stichel, D., additional, Orlowski, A., additional, and Königs, C., additional

Published

2019

23. Genome-wide methylation profiling and copy number analysis in atypical fibroxanthomas and pleomorphic dermal sarcomas indicate a similar molecular phenotype

Author

Koelsche, C., Stichel, D., Griewank, K.G., Schrimpf, D., Reuss, D.E., Bewerunge-Hudler, M., Vokuhl, C., Dinjens, W.N., Petersen, I., Mittelbronn, M., Cuevas-Bourdier, A., Buslei, R., Pfister, S.M., Flucke, U.E., Mechtersheimer, G., Mentzel, T., Deimling, A. von, Koelsche, C., Stichel, D., Griewank, K.G., Schrimpf, D., Reuss, D.E., Bewerunge-Hudler, M., Vokuhl, C., Dinjens, W.N., Petersen, I., Mittelbronn, M., Cuevas-Bourdier, A., Buslei, R., Pfister, S.M., Flucke, U.E., Mechtersheimer, G., Mentzel, T., and Deimling, A. von

Abstract

Contains fulltext : 203163.pdf (publisher's version ) (Open Access), Background: Atypical fibroxanthomas (AFX) and pleomorphic dermal sarcomas (PDS) are lesions of the skin with overlapping histologic features and unspecific molecular traits. PDS behaves aggressive compared to AFX. Thus, a precise delineation, although challenging in some instances, is relevant. Methods: We examined the value of DNA-methylation profiling and copy number analysis for separating these tumors. DNA-methylation data were generated from 17 AFX and 15 PDS using the Illumina EPIC array. These were compared with DNA-methylation data generated from 196 tumors encompassing potential histologic mimics like cutaneous squamous carcinomas (cSCC; n = 19), basal cell carcinomas (n = 10), melanoma metastases originating from the skin (n = 11), leiomyosarcomas (n = 11), angiosarcomas of the skin and soft tissue (n = 11), malignant peripheral nerve sheath tumors (n = 19), dermatofibrosarcomas protuberans (n = 13), extraskeletal myxoid chondrosarcomas (n = 9), myxoid liposarcomas (n = 14), schwannomas (n = 10), neurofibromas (n = 21), alveolar (n = 19) and embryonal (n = 17) rhabdomyosarcomas as well as undifferentiated pleomorphic sarcomas (n = 12). Results: DNA-methylation profiling did not separate AFX from PDS. The DNA-methylation profiles of the other cases, however, were distinct from AFX/PDS. They reliably assigned to subtype-specific DNA-methylation clusters, although overlap occurred between some AFX/PDS and cSCC. Copy number profiling revealed alterations in a similar frequency and distribution between AFX and PDS. They involved losses of 9p (22/32) and 13q (25/32). Gains frequently involved 8q (8/32). Notably, a homozygous deletion of CDKN2A was more frequent in PDS (6/15) than in AFX (2/17), whereas amplifications were non-recurrent and overall rare (5/32). Conclusions: Our findings support the concept that AFX and PDS belong to a common tumor spectrum. We could demonstrate the diagnostic value of DNA-methylation profiling to delineating AFX/PDS from potentia

Published

2019

24. Integrated molecular characterization of IDH -mutant glioblastomas

Author

Korshunov, A., primary, Casalini, B., additional, Chavez, L., additional, Hielscher, T., additional, Sill, M., additional, Ryzhova, M., additional, Sharma, T., additional, Schrimpf, D., additional, Stichel, D., additional, Capper, D., additional, Reuss, D. E., additional, Sturm, D., additional, Absalyamova, O., additional, Golanov, A., additional, Lambo, S., additional, Bewerunge-Hudler, M., additional, Lichter, P., additional, Herold-Mende, C., additional, Wick, W., additional, Pfister, S. M., additional, Kool, M., additional, Jones, D. T. W., additional, von Deimling, A., additional, and Sahm, F., additional

Published

2018

25. The miR‐139‐5p regulates proliferation of supratentorial paediatric low‐grade gliomas by targeting the PI3K/AKT/mTORC1 signalling

Author

Catanzaro, G., primary, Besharat, Z. M., additional, Miele, E., additional, Chiacchiarini, M., additional, Po, A., additional, Carai, A., additional, Marras, C. E., additional, Antonelli, M., additional, Badiali, M., additional, Raso, A., additional, Mascelli, S., additional, Schrimpf, D., additional, Stichel, D., additional, Tartaglia, M., additional, Capper, D., additional, von Deimling, A., additional, Giangaspero, F., additional, Mastronuzzi, A., additional, Locatelli, F., additional, and Ferretti, E., additional

Published

2018

26. DNA methylation-based classification of central nervous system tumours

Author

Capper, D, Jones, DTW, Sill, M, Hovestadt, V, Schrimpf, D, Sturm, D, Koelsche, C, Sahm, F, Chavez, L, Reuss, DE, Kratz, A, Wefers, AK, Huang, K, Pajtler, KW, Schweizer, L, Stichel, D, Olar, A, Engel, NW, Lindenberg, K, Harter, PN, Braczynski, AK, Plate, KH, Dohmen, H, Garvalov, BK, Coras, R, Hoelsken, A, Hewer, E, Bewerunge-Hudler, M, Schick, M, Fischer, R, Beschorner, R, Schittenhelm, J, Staszewski, O, Wani, K, Varlet, P, Pages, M, Temming, P, Lohmann, D, Selt, F, Witt, H, Milde, T, Witt, O, Aronica, E, Giangaspero, F, Rushing, E, Scheurlen, W, Geisenberger, C, Rodriguez, FJ, Becker, A, Preusser, M, Haberler, C, Bjerkvig, R, Cryan, J, Farrell, M, Deckert, M, Hench, J, Frank, S, Serrano, J, Kannan, K, Tsirigos, A, Brueck, W, Hofer, S, Brehmer, S, Seiz-Rosenhagen, M, Haenggi, D, Hans, V, Rozsnoki, S, Hansford, JR, Kohlhof, P, Kristensen, BW, Lechner, M, Lopes, B, Mawrin, C, Ketter, R, Kulozik, A, Khatib, Z, Heppner, F, Koch, A, Jouvet, A, Keohane, C, Muehleisen, H, Mueller, W, Pohl, U, Prinz, M, Benner, A, Zapatka, M, Gottardo, NG, Driever, PH, Kramm, CM, Mueller, HL, Rutkowski, S, von Hoff, K, Fruehwald, MC, Gnekow, A, Fleischhack, G, Tippelt, S, Calaminus, G, Monoranu, C-M, Perry, A, Jones, C, Jacques, TS, Radlwimmer, B, Gessi, M, Pietsch, T, Schramm, J, Schackert, G, Westphal, M, Reifenberger, G, Wesseling, P, Weller, M, Collins, VP, Bluemcke, I, Bendszus, M, Debus, J, Huang, A, Jabado, N, Northcott, PA, Paulus, W, Gajjar, A, Robinson, GW, Taylor, MD, Jaunmuktane, Z, Ryzhova, M, Platten, M, Unterberg, A, Wick, W, Karajannis, MA, Mittelbronn, M, Acker, T, Hartmann, C, Aldape, K, Schueller, U, Buslei, R, Lichter, P, Kool, M, Herold-Mende, C, Ellison, DW, Hasselblatt, M, Snuderl, M, Brandner, S, Korshunov, A, von Deimling, A, Pfister, SM, Capper, D, Jones, DTW, Sill, M, Hovestadt, V, Schrimpf, D, Sturm, D, Koelsche, C, Sahm, F, Chavez, L, Reuss, DE, Kratz, A, Wefers, AK, Huang, K, Pajtler, KW, Schweizer, L, Stichel, D, Olar, A, Engel, NW, Lindenberg, K, Harter, PN, Braczynski, AK, Plate, KH, Dohmen, H, Garvalov, BK, Coras, R, Hoelsken, A, Hewer, E, Bewerunge-Hudler, M, Schick, M, Fischer, R, Beschorner, R, Schittenhelm, J, Staszewski, O, Wani, K, Varlet, P, Pages, M, Temming, P, Lohmann, D, Selt, F, Witt, H, Milde, T, Witt, O, Aronica, E, Giangaspero, F, Rushing, E, Scheurlen, W, Geisenberger, C, Rodriguez, FJ, Becker, A, Preusser, M, Haberler, C, Bjerkvig, R, Cryan, J, Farrell, M, Deckert, M, Hench, J, Frank, S, Serrano, J, Kannan, K, Tsirigos, A, Brueck, W, Hofer, S, Brehmer, S, Seiz-Rosenhagen, M, Haenggi, D, Hans, V, Rozsnoki, S, Hansford, JR, Kohlhof, P, Kristensen, BW, Lechner, M, Lopes, B, Mawrin, C, Ketter, R, Kulozik, A, Khatib, Z, Heppner, F, Koch, A, Jouvet, A, Keohane, C, Muehleisen, H, Mueller, W, Pohl, U, Prinz, M, Benner, A, Zapatka, M, Gottardo, NG, Driever, PH, Kramm, CM, Mueller, HL, Rutkowski, S, von Hoff, K, Fruehwald, MC, Gnekow, A, Fleischhack, G, Tippelt, S, Calaminus, G, Monoranu, C-M, Perry, A, Jones, C, Jacques, TS, Radlwimmer, B, Gessi, M, Pietsch, T, Schramm, J, Schackert, G, Westphal, M, Reifenberger, G, Wesseling, P, Weller, M, Collins, VP, Bluemcke, I, Bendszus, M, Debus, J, Huang, A, Jabado, N, Northcott, PA, Paulus, W, Gajjar, A, Robinson, GW, Taylor, MD, Jaunmuktane, Z, Ryzhova, M, Platten, M, Unterberg, A, Wick, W, Karajannis, MA, Mittelbronn, M, Acker, T, Hartmann, C, Aldape, K, Schueller, U, Buslei, R, Lichter, P, Kool, M, Herold-Mende, C, Ellison, DW, Hasselblatt, M, Snuderl, M, Brandner, S, Korshunov, A, von Deimling, A, and Pfister, SM

Abstract

Accurate pathological diagnosis is crucial for optimal management of patients with cancer. For the approximately 100 known tumour types of the central nervous system, standardization of the diagnostic process has been shown to be particularly challenging-with substantial inter-observer variability in the histopathological diagnosis of many tumour types. Here we present a comprehensive approach for the DNA methylation-based classification of central nervous system tumours across all entities and age groups, and demonstrate its application in a routine diagnostic setting. We show that the availability of this method may have a substantial impact on diagnostic precision compared to standard methods, resulting in a change of diagnosis in up to 12% of prospective cases. For broader accessibility, we have designed a free online classifier tool, the use of which does not require any additional onsite data processing. Our results provide a blueprint for the generation of machine-learning-based tumour classifiers across other cancer entities, with the potential to fundamentally transform tumour pathology.

Published

2018

27. The miR-139-5p regulates proliferation of supratentorial paediatric low-grade gliomas by targeting the PI3K/AKT/mTORC1 signalling

Author

Catanzaro, G., Besharat, Z. M., Miele, E., Chiacchiarini, M., Po, A., Carai, A., Marras, C. E., Antonelli, M., Badiali, M., Raso, A., Mascelli, S., Schrimpf, D., Stichel, D., Tartaglia, M., Capper, D., von Deimling, A., Giangaspero, F., Mastronuzzi, A., Locatelli, Franco, Ferretti, E., Locatelli F. (ORCID:0000-0002-7976-3654), Catanzaro, G., Besharat, Z. M., Miele, E., Chiacchiarini, M., Po, A., Carai, A., Marras, C. E., Antonelli, M., Badiali, M., Raso, A., Mascelli, S., Schrimpf, D., Stichel, D., Tartaglia, M., Capper, D., von Deimling, A., Giangaspero, F., Mastronuzzi, A., Locatelli, Franco, Ferretti, E., and Locatelli F. (ORCID:0000-0002-7976-3654)

Abstract

Aims: Paediatric low-grade gliomas (pLGGs) are a heterogeneous group of brain tumours associated with a high overall survival: however, they are prone to recur and supratentorial lesions are difficult to resect, being associated with high percentage of disease recurrence. Our aim was to shed light on the biology of pLGGs. Methods: We performed microRNA profiling on 45 fresh-frozen grade I tumour samples of various histological classes, resected from patients aged ≤16 years. We identified 93 microRNAs specifically dysregulated in tumours as compared to non-neoplastic brain tissue. Pathway analysis of the microRNAs signature revealed PI3K/AKT signalling as one of the centrally enriched oncogenic signalling. To date, activation of the PI3K/AKT pathway in pLGGs has been reported, although activation mechanisms have not been fully investigated yet. Results: One of the most markedly down-regulated microRNAs in our supratentorial pLGGs cohort was miR-139-5p, whose targets include the gene encoding the PI3K's (phosphatidylinositol 3-kinase) catalytic unit, PIK3CA. We investigated the role of miR-139-5p in regulating PI3K/AKT signalling by the use of human cell cultures derived from supratentorial pLGGs. MiR-139-5p overexpression inhibited pLGG cell proliferation and decreased the phosphorylation of PI3K target AKT and phosphorylated-p70 S6 kinase (p-p70 S6K), a hallmark of PI3K/AKT/mTORC1 signalling activation. The effect of miR-139-5p was mediated by PI3K inhibition, as suggested by the decrease in proliferation and phosphorylation of AKT and p70 S6K after treatment with the direct PI3K inhibitor LY294002. Conclusions: These findings provide the first evidence that down-regulation of miR-139-5p in supratentorial pLGG drives cell proliferation by derepressing PI3K/AKT signalling.

Published

2018

28. Integrated molecular characterization of IDH‐mutant glioblastomas.

Author

Korshunov, A., Casalini, B., Chavez, L., Hielscher, T., Sill, M., Ryzhova, M., Sharma, T., Schrimpf, D., Stichel, D., Capper, D., Reuss, D. E., Sturm, D., Absalyamova, O., Golanov, A., Lambo, S., Bewerunge‐Hudler, M., Lichter, P., Herold‐Mende, C., Wick, W., and Pfister, S. M.

Subjects

GLIOBLASTOMA multiforme, ISOCITRATE dehydrogenase, DISEASE progression, DNA methylation, DNA fingerprinting

Abstract

Aims: Mutations of isocitrate dehydrogenase (IDH)1/2 affect almost all astrocytomas of WHO grade II and III. A subset of IDH‐mutant astrocytic tumours progresses to IDH‐mutant glioblastoma or presents with the histology of a glioblastoma at first presentation. We set out here to assess the molecular spectrum of IDH‐mutant glioblastomas. Methods: We performed an integrated molecular analysis of a mono‐centric cohort (n = 97); assessed through genome‐wide DNA methylation analysis, copy‐number profiling and targeted next generation sequencing using a neurooncology‐tailored gene panel. Results: Of these 97 IDH‐mutant glioblastomas, 68 had a glioblastoma at first presentation ('de novo' IDH‐mutant glioblastoma) and 29 emerged from a prior low‐grade lesion ('evolved' IDH‐mutant glioblastoma). Unsupervised hierarchical clustering of DNA methylation data disclosed that IDH‐mutant glioblastoma ('de novo' and 'evolved') formed a distinct group separate from other diffuse glioma subtypes. Homozygous deletions of CDKN2A/B were found to be associated with shorter survival. Conclusions: This study demonstrates DNA methylation patterns in IDH‐mutant glioblastoma to be distinct from lower‐grade astrocytic counterparts but homogeneous within de novo and evolved IDH‐mutant glioblastomas, and identifies CDKN2A as a marker for possible genetic sub‐stratification. [ABSTRACT FROM AUTHOR]

Published

2019

29. T-13-49: Characterization of the influence of heat- and acid-treatment on the FVIII-antibody interaction in order to improve inhibitor diagnostics.

Author

Schmidt, A., Stichel, D., Salzmann-Manrique, E., and Kβnigs, C.

Published

2023

30. Anti-factor VIII antibodies in brothers with haemophilia A share similar characteristics

Author

Kahle, J., primary, Orlowski, A., additional, Stichel, D., additional, Healey, J. F., additional, Parker, E. T., additional, Donfield, S. M., additional, Astermark, J., additional, Berntorp, E., additional, Lollar, P., additional, Schwabe, D., additional, and Königs, C., additional

Published

2016

31. Elimination of factor VIII‐specific B cells by immunotoxins composed of a single factor VIII domain fused to Pseudomonasexotoxin A

Author

Brettschneider, K., Schmidt, A., Kahle, J., Orlowski, A., Stichel, D., Schwabe, D., and Königs, C.

Abstract

Unlabelled Boxce:textbox-body/

Published

2018

32. OS11.5.A PATZ1 fusions define a novel molecularly distinct CNS tumor entity with a broad histological spectrum.

Author

Halabi, K T Al, Sievers, P, Stichel, D, Sommerkamp, A C, Sill, M, Jäger, N, Wittmann, A, Kramm, C, Snuderl, M, Pfister, S M, Deimling, A von, Sahm, F, and Jones, D T W

Published

2021

33. Genetic and epigenetic characterization of posterior pituitary tumors

Author

Carsten Dittmayer, Caterina Giannini, M. Beatriz S. Lopes, Annekathrin Reinhardt, David Capper, Jens Schittenhelm, Roland Coras, Anne Thieme, Martin Hasselblatt, Werner Paulus, Bette K. Kleinschmidt-DeMasters, David A. Solomon, Damian Stichel, Rolf Buslei, Eilís Perez, Ozgur Mete, Arie Perry, Simone Schmid, David T.W. Jones, Christin Siewert, Christoph Nagel, Elisabeth J. Rushing, Arend Koch, Sylvia L. Asa, Andreas von Deimling, Patrick N. Harter, Jürgen Honegger, Stefan M. Pfister, Schmid S., Solomon D.A., Perez E., Thieme A., Kleinschmidt-DeMasters B.K., Giannini C., Reinhardt A., Asa S.L., Mete O., Stichel D., Siewert C., Dittmayer C., Hasselblatt M., Paulus W., Nagel C., Harter P.N., Schittenhelm J., Honegger J., Rushing E., Coras R., Pfister S.M., Buslei R., Koch A., Perry A., Jones D.T.W., von Deimling A., Capper D., and Lopes M.B.

Subjects

Adenoma, Molecular neuropathology, Clinical Sciences, Brain tumor, Copy number analysis, Biology, medicine.disease_cause, Epigenesis, Genetic, Pathology and Forensic Medicine, Cellular and Molecular Neuroscience, Genetic, medicine, Genetics, Adenoma, Oxyphilic, Humans, 2.1 Biological and endogenous factors, Pituitary Neoplasms, HRAS, Epigenetics, ddc:610, Aetiology, Pituicytoma, Epigenomics, Posterior pituitary gland neoplasms, Cancer, Original Paper, Mutation, Neurology & Neurosurgery, Granular cell tumor, Oxyphilic, Human Genome, Neurosciences, medicine.disease, Posterior pituitary gland neoplasm, DNA methylation, Cancer research, Neurology (clinical), Spindle cell oncocytoma, 600 Technik, Medizin, angewandte Wissenschaften::610 Medizin und Gesundheit::610 Medizin und Gesundheit, Epigenesis

Abstract

Pituicytoma (PITUI), granular cell tumor (GCT), and spindle cell oncocytoma (SCO) are rare tumors of the posterior pituitary. Histologically, they may be challenging to distinguish and have been proposed to represent a histological spectrum of a single entity. We performed targeted next-generation sequencing, DNA methylation profiling, and copy number analysis on 47 tumors (14 PITUI; 12 GCT; 21 SCO) to investigate molecular features and explore possibilities of clinically meaningful tumor subclassification. We detected two main epigenomic subgroups by unsupervised clustering of DNA methylation data, though the overall methylation differences were subtle. The largest group (n = 23) contained most PITUIs and a subset of SCOs and was enriched for pathogenic mutations within genes in the MAPK/PI3K pathways (12/17 [71%] of sequenced tumors: FGFR1 (3), HRAS (3), BRAF (2), NF1 (2), CBL (1), MAP2K2 (1), PTEN (1)) and two with accompanying TERT promoter mutation. The second group (n = 16) contained most GCTs and a subset of SCOs, all of which mostly lacked identifiable genetic drivers. Outcome analysis demonstrated that the presence of chromosomal imbalances was significantly associated with reduced progression-free survival especially within the combined PITUI and SCO group (p = 0.031). In summary, we observed only subtle DNA methylation differences between posterior pituitary tumors, indicating that these tumors may be best classified as subtypes of a single entity. Nevertheless, our data indicate differences in mutation patterns and clinical outcome. For a clinically meaningful subclassification, we propose a combined histo-molecular approach into three subtypes: one subtype is defined by granular cell histology, scarcity of identifiable oncogenic mutations, and favorable outcome. The other two subtypes have either SCO or PITUI histology but are segregated by chromosomal copy number profile into a favorable group (no copy number changes) and a less favorable group (copy number imbalances present). Both of the latter groups have recurrent MAPK/PI3K genetic alterations that represent potential therapeutic targets.

Published

2021

34. Subgroup and subtype‑specifc outcomes in adult medulloblastoma

Author

Konstantin Okonechnikov, Charles G. Eberhart, Roger E. McLendon, Ian F. Pollack, Stefan M. Pfister, Kyle S. Smith, Shin Jung, Noriyuki Kijima, Alexandre Vasiljevic, Karisa C. Schreck, Oksana Absalyamova, Paul A. Northcott, Daniela Pretti da Cunha Tirapelli, Rajeev Vibhakar, Sarah Leary, Olga Zheludkova, Kay K.W. Li, Lakshmikirupa Sundaresan, Seung-Ki Kim, Hallie Coltin, Jaume Mora, Erwin G. Van Meir, Wiesława Grajkowska, Marcel Kool, Daniel W. Fults, Pim J. French, Caterina Giannini, Andreas von Deimling, Jennifer A. Chan, Andrey Golanov, Linda M. Liau, Scott Raskin, Michael D. Taylor, Joshua B. Rubin, Cécile Faure-Conter, Roger J. Packer, Luca Massimi, William A. Weiss, Peter Hauser, Andrey Korshunov, Lola B. Chambless, Patryk Skowron, Carlos Gilberto Carlotti, Vijay Ramaswamy, Marie Lise C. van Veelen, Marina Ryzhova, Damian Stichel, Nalin Gupta, Johan M. Kros, Coltin H., Sundaresan L., Smith K.S., Skowron P., Massimi L., Eberhart C.G., Schreck K.C., Gupta N., Weiss W.A., Tirapelli D., Carlotti C., Li K.K.W., Ryzhova M., Golanov A., Zheludkova O., Absalyamova O., Okonechnikov K., Stichel D., von Deimling A., Giannini C., Raskin S., Van Meir E.G., Chan J.A., Fults D., Chambless L.B., Kim S.-K., Vasiljevic A., Faure-Conter C., Vibhakar R., Jung S., Leary S., Mora J., McLendon R.E., Pollack I.F., Hauser P., Grajkowska W.A., Rubin J.B., van Veelen M.-L.C., French P.J., Kros J.M., Liau L.M., Pfister S.M., Kool M., Kijima N., Taylor M.D., Packer R.J., Northcott P.A., Korshunov A., Ramaswamy V., Neurosurgery, Neurology, and Pathology

Subjects

Male, Oncology, Adult, medicine.medical_specialty, Adult Medulloblastoma, Adolescent, medicine.medical_treatment, DNA methylation profiling, Pathology and Forensic Medicine, Cohort Studies, Young Adult, 03 medical and health sciences, Cellular and Molecular Neuroscience, 0302 clinical medicine, Risk Factors, GLI2, Internal medicine, Biomarkers, Tumor, medicine, Humans, Medulloblastoma, Sonic hedgehog, Cerebellar Neoplasms, Risk stratification, Chemotherapy, biology, business.industry, Molecular groups, medicine.disease, Molecular group, NEOPLASIAS CEREBRAIS, Progression-Free Survival, 3. Good health, Radiation therapy, PTCH1, 030220 oncology & carcinogenesis, Cohort, biology.protein, Female, Neurology (clinical), business, 030217 neurology & neurosurgery

Abstract

Medulloblastoma, a common pediatric malignant central nervous system tumour, represent a small proportion of brain tumours in adults. Previously it has been shown that in adults, Sonic Hedgehog (SHH)-activated tumours predominate, with Wingless-type (WNT) and Group 4 being less common, but molecular risk stratification remains a challenge. We performed an integrated analysis consisting of genome-wide methylation profiling, copy number profiling, somatic nucleotide variants and correlation of clinical variables across a cohort of 191 adult medulloblastoma cases identified through the Medulloblastoma Advanced Genomics International Consortium. We identified 30 WNT, 112 SHH, 6 Group 3, and 41 Group 4 tumours. Patients with SHH tumours were significantly older at diagnosis compared to other subgroups (p < 0.0001). Five-year progression-free survival (PFS) for WNT, SHH, Group 3, and Group 4 tumours was 64.4 (48.0-86.5), 61.9% (51.6-74.2), 80.0% (95% CI 51.6-100.0), and 44.9% (95% CI 28.6-70.7), respectively (p = 0.06). None of the clinical variables (age, sex, metastatic status, extent of resection, chemotherapy, radiotherapy) were associated with subgroup-specific PFS. Survival among patients with SHH tumours was significantly worse for cases with chromosome 3p loss (HR 2.9, 95% CI 1.1-7.6; p = 0.02), chromosome 10q loss (HR 4.6, 95% CI 2.3-9.4; p < 0.0001), chromosome 17p loss (HR 2.3, 95% CI 1.1-4.8; p = 0.02), and PTCH1 mutations (HR 2.6, 95% CI 1.1-6.2; p = 0.04). The prognostic significance of 3p loss and 10q loss persisted in multivariable regression models. For Group 4 tumours, chromosome 8 loss was strongly associated with improved survival, which was validated in a non-overlapping cohort (combined cohort HR 0.2, 95% CI 0.1-0.7; p = 0.007). Unlike in pediatric medulloblastoma, whole chromosome 11 loss in Group 4 and chromosome 14q loss in SHH was not associated with improved survival, where MYCN, GLI2 and MYC amplification were rare. In sum, we report unique subgroup-specific cytogenetic features of adult medulloblastoma, which are distinct from those in younger patients, and correlate with survival disparities. Our findings suggest that clinical trials that incorporate new strategies tailored to high-risk adult medulloblastoma patients are urgently needed.

Published

2021

35. FGFR1:TACC1 fusion is a frequent event in molecularly defined extraventricular neurocytoma

Author

Roland Coras, Elisabeth J. Rushing, Rudi Beschorner, Kristian W. Pajtler, David E. Reuss, Walter Stummer, Daniel Schrimpf, Andreas von Deimling, Stefan M. Pfister, Caterina Giannini, Christian Hagel, Felice Giangaspero, Philipp Sievers, Uta Schick, Christel Herold-Mende, Annika K. Wefers, Azadeh Ebrahimi, Patricia Kohlhof, Kristin Huang, Andrey Korshunov, Ori Staszewski, Francesca Diomedi-Camassei, David T.W. Jones, Christian Koelsche, Guido Reifenberger, Felix Sahm, Yanghao Hou, Damian Stichel, Annekathrin Reinhardt, Christian Hartmann, Martin Hasselblatt, Kathy Keyvani, Sievers P., Stichel D., Schrimpf D., Sahm F., Koelsche C., Reuss D.E., Wefers A.K., Reinhardt A., Huang K., Ebrahimi A., Hou Y., Pajtler K.W., Pfister S.M., Hasselblatt M., Stummer W., Schick U., Hartmann C., Hagel C., Staszewski O., Reifenberger G., Beschorner R., Coras R., Keyvani K., Kohlhof P., Diomedi-Camassei F., Herold-Mende C., Giangaspero F., Rushing E., Giannini C., Korshunov A., Jones D.T.W., von Deimling A., University of Zurich, and von Deimling, Andreas

Subjects

Fetal Proteins, Male, 0301 basic medicine, Pathology, Oncogene Proteins, Fusion, 2804 Cellular and Molecular Neuroscience, Medizin, Kaplan-Meier Estimate, DNA methylation profile, Histones, 0302 clinical medicine, Retrospective Studie, Neurocytoma, Nuclear Protein, Brain Neoplasms, FGFR, Nuclear Proteins, Methylation, Isocitrate Dehydrogenase, Histone, 2728 Neurology (clinical), Extraventricular neurocytoma, Molecular classification, DNA methylation, Female, Microtubule-Associated Proteins, Human, medicine.medical_specialty, 10208 Institute of Neuropathology, Clinical Neurology, Brain tumor, Copy number analysis, 610 Medicine & health, Biology, Pathology and Forensic Medicine, Brain Neoplasm, 03 medical and health sciences, Cellular and Molecular Neuroscience, Text mining, Fetal Protein, Parenchyma, medicine, Central neurocytoma, Humans, Receptor, Fibroblast Growth Factor, Type 1, Epigenetics, Fusion, Retrospective Studies, business.industry, Microtubule-Associated Protein, DNA Methylation, medicine.disease, FGFR1–TACC1, 2734 Pathology and Forensic Medicine, Ki-67 Antigen, 030104 developmental biology, 570 Life sciences, biology, brain tumor, extraventricular neurocytoma, fusion, molecular classification, Neurology (clinical), Transcriptome, business, 030217 neurology & neurosurgery

Abstract

Extraventricular neurocytoma (EVN) is a rare primary brain tumor occurring in brain parenchyma outside the ventricular system. Histopathological characteristics resemble those of central neurocytoma but exhibit a wider morphologic spectrum. Accurate diagnosis of these histologically heterogeneous tumors is often challenging because of the overlapping morphological features and the lack of defining molecular markers. Here, we explored the molecular landscape of 40 tumors diagnosed histologically as EVN by investigating copy number profiles and DNA methylation array data. DNA methylation profiles were compared with those of relevant differential diagnoses of EVN and with a broader spectrum of diverse brain tumor entities. Based on this, our tumor cohort segregated into different groups. While a large fraction (n = 22) formed a separate epigenetic group clearly distinct from established DNA methylation profiles of other entities, a subset (n = 14) of histologically diagnosed EVN grouped with clusters of other defined entities. Three cases formed a small group close to but separated from the epigenetically distinct EVN cases, and one sample clustered with non-neoplastic brain tissue. Four additional samples originally diagnosed otherwise were found to molecularly resemble EVN. Thus, our results highlight a distinct DNA methylation pattern for the majority of tumors diagnosed as EVN, but also indicate that approximately onethird of morphological diagnoses of EVN epigenetically correspond to other brain tumor entities. Copy number analysis and confirmation through RNA sequencing revealed FGFR1–TACC1 fusion as a distinctive, recurrent feature within the EVN methylation group (60%), in addition to a small number of other FGFR rearrangements (13%). In conclusion, our data demonstrate a specific epigenetic signature of EVN suitable for characterization of these tumors as a molecularly distinct entity, and reveal a high frequency of potentially druggable FGFR pathway activation in this tumor group.

Published

2018

36. Anaplastic astrocytoma with piloid features, a novel molecular class of IDH wildtype glioma with recurrent MAPK pathway, CDKN2A/B and ATRX alterations

Author

Camelia M. Monoranu, Andreas von Deimling, Albert J. Becker, Joerg Felsberg, Jens Schittenhelm, Martina Deckert, Marco Prinz, Rolf Buslei, Till Acker, Katharina Heß, Ute Pohl, Volker Hovestadt, Wolf Mueller, Patricia Kohlhof, Dorothee Gramatzki, Muin S. A. Tuffaha, Amulya NageswaraRao, Andrey Korshunov, Benjamin Brokinkel, Daniel Schrimpf, David T.W. Jones, Annekathrin Reinhardt, Ulrich W. Thomale, Werner Paulus, Ekkehard Hewer, Christian Koelsche, Christian Mawrin, Damian Stichel, Ori Staszewski, Wolfgang Wick, David E. Reuss, Almuth F. Kessler, Caterina Giannini, Annika K. Wefers, Michael Platten, Martin Sill, Daniel Hänggi, Kristin Huang, Christian Hartmann, Adriana Olar, David Capper, Volkmar Hans, Andreas Unterberg, Zane Jaunmuktane, Sebastian Brandner, Nuno Miguel Nunes, Christel Herold-Mende, Felix Sahm, Uri Tabori, Guido Reifenberger, Arend Koch, Mario Loehr, Michael Weller, Hildegard Dohmen, Stefan M. Pfister, Fausto J. Rodriguez, Reinhardt A., Stichel D., Schrimpf D., Sahm F., Korshunov A., Reuss D.E., Koelsche C., Huang K., Wefers A.K., Hovestadt V., Sill M., Gramatzki D., Felsberg J., Reifenberger G., Koch A., Thomale U.-W., Becker A., Hans V.H., Prinz M., Staszewski O., Acker T., Dohmen H., Hartmann C., Mueller W., Tuffaha M.S.A., Paulus W., Hess K., Brokinkel B., Schittenhelm J., Monoranu C.-M., Kessler A.F., Loehr M., Buslei R., Deckert M., Mawrin C., Kohlhof P., Hewer E., Olar A., Rodriguez F.J., Giannini C., NageswaraRao A.A., Tabori U., Nunes N.M., Weller M., Pohl U., Jaunmuktane Z., Brandner S., Unterberg A., Hanggi D., Platten M., Pfister S.M., Wick W., Herold-Mende C., Jones D.T.W., von Deimling A., and Capper D.

Subjects

0301 basic medicine, Male, Medizin, Kaplan-Meier Estimate, Mitogen-Activated Protein Kinase Kinase, Histones, 0302 clinical medicine, CDKN2A, Retrospective Studie, Age Factor, 610 Medicine & health, Child, DNA Modification Methylases, Aged, 80 and over, Pilocytic astrocytoma, Brain Neoplasms, DNA Repair Enzyme, Age Factors, CDKN2A/B, Middle Aged, Molecular characterization, Isocitrate Dehydrogenase, Histone, ATRX, Child, Preschool, DNA methylation, Female, MGMT, Human, Signal Transduction, Adult, X-linked Nuclear Protein, IDH1, Adolescent, Panel sequencing, Biology, Astrocytoma, Pathology and Forensic Medicine, BRAF, DNA copy number alteration, Brain Neoplasm, 03 medical and health sciences, Cellular and Molecular Neuroscience, Young Adult, Glioma, DNA Modification Methylase, medicine, Humans, Gene, neoplasms, Cyclin-Dependent Kinase Inhibitor p16, Retrospective Studies, Pilocytic astrocytoma with anaplasia, Aged, Mitogen-Activated Protein Kinase Kinases, Tumor Suppressor Protein, Methylation profile based classification, Tumor Suppressor Proteins, Infant, DNA Methylation, medicine.disease, Anaplastic pilocytic astrocytoma, 030104 developmental biology, DNA Repair Enzymes, FGFR1, NF1, Mutation, Cancer research, 570 Life sciences, biology, Neurology (clinical), 030217 neurology & neurosurgery, Anaplastic astrocytoma

Abstract

Tumors with histological features of pilocytic astrocytoma (PA), but with increased mitotic activity and additional high-grade features (particularly microvascular proliferation and palisading necrosis) have often been designated anaplastic pilocytic astrocytomas. The status of these tumors as a separate entity has not yet been conclusively demonstrated and molecular features have only been partially characterized. We performed DNA methylation profiling of 102 histologically defined anaplastic pilocytic astrocytomas. T-distributed stochastic neighbor-embedding(t-SNE) and hierarchical clustering analysis of these 102 cases against 158 reference cases from 12 glioma reference classes revealed that a subset of 83 of these tumors share a common DNA methylation profile that is distinct from the reference classes. These 83 tumors were thus denominated DNA methylation class anaplastic astrocytoma with piloid features (MC AAP). The 19 remaining tumors were distributed amongst the reference classes, with additional testing confirming the molecular diagnosis in most cases. Median age of patients with MC AAP was 41.5years. The most frequent localization was the posterior fossa (74%). Deletions of CDKN2A/B (66/83, 80%), MAPK pathway gene alterations (49/65, 75%, most frequently affecting NF1, followed by BRAF and FGFR1) and mutations of ATRX or loss of ATRX expression (33/74, 45%) were the most common molecular alterations. All tumors were IDH1/2 wildtype. The MGMT promoter was methylated in 38/83 tumors (45%). Outcome analysis confirmed an unfavorable clinical course in comparison to PA, but better than IDH wildtype glioblastoma. In conclusion, we show that a subset of histologically defined anaplastic pilocytic astrocytomas forms a separate DNA methylation cluster, harbors recurrent alterations in MAPK pathway genes in combination with alterations of CDKN2A/B and ATRX, affects patients who are on average older than those diagnosed with PA and has an intermediate clinical outcome.

Published

2018

37. Acid Treatment of FVIII-Containing Plasma Samples Unmasks a Broad Spectrum of FVIII-Specific Antibodies in ELISA.

Author

Schmidt A, Stichel D, Salzmann-Manrique E, and Königs C

Subjects

Humans, Antibodies blood, Factor VIII immunology, Factor VIII therapeutic use, Hemophilia A blood, Hemophilia A drug therapy, Enzyme-Linked Immunosorbent Assay methods

Abstract

During routine treatment, plasma samples of patients with hemophilia A or acquired hemophilia A are frequently analyzed for the presence of FVIII-specific antibodies. While only inhibitory antibodies can be detected by the Bethesda assay, inhibitory and non-inhibitory antibodies can be detected by ELISA. However, plasma samples of patients frequently contain endogenous or substituted FVIII, hence interfering with both types of analyses. One option for the inactivation of FVIII is heat denaturation, which unfortunately has been shown to lead to high background signals complicating the discrimination of negative and positive plasma samples. In the current study, we developed a method of acid denaturation for FVIII-containing plasma samples that can help identify samples containing FVIII-specific antibodies and compared the effects of heat and acid denaturation on the detection of FVIII-antibody interactions in a monoclonal setting. The aim of our study was to establish an analysis that allows safer treatment decisions in the context of tolerance to FVIII., Competing Interests: None declared., (Thieme. All rights reserved.)

Published

2024

38. Author Correction: Multiomic neuropathology improves diagnostic accuracy in pediatric neuro-oncology.

Author

Sturm D, Capper D, Andreiuolo F, Gessi M, Kölsche C, Reinhardt A, Sievers P, Wefers AK, Ebrahimi A, Suwala AK, Gielen GH, Sill M, Schrimpf D, Stichel D, Hovestadt V, Daenekas B, Rode A, Hamelmann S, Previti C, Jäger N, Buchhalter I, Blattner-Johnson M, Jones BC, Warmuth-Metz M, Bison B, Grund K, Sutter C, Hirsch S, Dikow N, Hasselblatt M, Schüller U, Koch A, Gerber NU, White CL, Buntine MK, Kinross K, Algar EM, Hansford JR, Gottardo NG, Schuhmann MU, Thomale UW, Hernáiz Driever P, Gnekow A, Witt O, Müller HL, Calaminus G, Fleischhack G, Kordes U, Mynarek M, Rutkowski S, Frühwald MC, Kramm CM, von Deimling A, Pietsch T, Sahm F, Pfister SM, and Jones DTW

Published

2024

39. Reference on copy number variations in pleomorphic xanthoastrocytoma: Implications for diagnostic approach.

Author

Reuss DE, Schrimpf D, Stichel D, Ebrahimi A, Dampier C, Aldape K, Snuderl M, Capper D, Sill M, Jones DTW, Pfister SM, Sahm F, and von Deimling A

Abstract

Pleomorphic xanthoastrocytoma (PXA) poses a diagnostic challenge. The present study relies on methylation-based predictions and focuses on copy number variations (CNV) in PXA. We identified 551 tumors from patients having received the histologic diagnosis or differential diagnosis pleomorphic xanthoastrocytoma (PXA) uploaded to the web page www.molecularneuropathology.org. Of these 551 tumors, 165 received the prediction "methylation class (anaplastic) pleomorphic xanthoastrocytoma" with a calibrated score >=0.9 by the brain tumor classifier version v12.8 and, therefore, were defined the PXA reference set designated mcPXAref. In addition to these 165 mcPXAref, 767 other tumors received the prediction mcPXA with a calibrated score >=0.9 but without a histological PXA diagnosis. The total number of individual tumors predicted by histology and/or by methylome based classification as PXA, mcPXA or both was 1318, and these were designated the study cohort. The selection of a control cohort was guided by methylation-based predictions recurrently observed for the other 386/551 tumors diagnosed as histologic PXA. 131/386 received predictions for another entity besides PXA with a score >=0.9. Control tumors corresponding to the 11 most common other predictions were selected, adding up to 1100 reference cases. CNV profiles were calculated from all methylation datasets of the study and control cohorts. Special attention was given to the 7/10 signature, gene amplifications and homozygous deletion of CDKN2A/B. Comparison of CNV in the subsets of the study cohort and the control cohort were used to establish relations independent of histological diagnoses. Tumors in mcPXA were highly homogenous in regard to CNV alterations, irrespective of the histological diagnoses. The 7/10 signature commonly present in glioblastoma, IDH-wildtype, was present in 15-20% of mcPXA, whereas amplification of oncogenes (likewise common in glioblastoma) was very rare in mcPXA (<1%). In contrast, the histology-based PXA group exhibited high variance in regard to methylation classes as well as to CNVs. Our data add to the notion, that histologically defined PXA likely only represent a subset of the biological disease.

Published

2023

40. Clinical implementation of integrated molecular-morphologic risk prediction for meningioma.

Author

Hielscher T, Sill M, Sievers P, Stichel D, Brandner S, Jones DTW, von Deimling A, Sahm F, and Maas SLN

Subjects

Humans, Retrospective Studies, Neoplasm Grading, Epigenomics, Meningioma genetics, Meningioma pathology, Meningeal Neoplasms genetics, Meningeal Neoplasms pathology

Abstract

Risk prediction for meningioma tumors was until recently almost exclusively based on morphological features of the tumor. To improve risk prediction, multiple models have been established that incorporate morphological and molecular features for an integrated risk prediction score. One such model is the integrated molecular-morphologic meningioma integrated score (IntS), which allocates points to the histological grade, epigenetic methylation family and specific copy-number variations. After publication of the IntS, questions arose in the neuropathological community about the practical and clinical implementation of the IntS, specifically regarding the calling of CNVs, the applicability of the newly available version (v12.5) of the brain tumor classifier and the need for incorporation of TERT-promoter and CDKN2A/B status analysis in the IntS calculation. To investigate and validate these questions additional analyses of the discovery (n = 514), retrospective validation (n = 184) and prospective validation (n = 287) cohorts used for IntS discovery and validation were performed. Our findings suggest that any loss over 5% of the chromosomal arm suffices for the calling of a CNV, that input from the v12.5 classifier is as good or better than the dedicated meningioma classifier (v2.4) and that there is most likely no need for additional testing for TERT-promoter mutations and/or homozygous losses of CDKN2A/B when defining the IntS for an individual patient. The findings from this study help facilitate the clinical implementation of IntS-based risk prediction for meningioma patients., (© 2022 The Authors. Brain Pathology published by John Wiley & Sons Ltd on behalf of International Society of Neuropathology.)

Published

2023

41. Multiomic neuropathology improves diagnostic accuracy in pediatric neuro-oncology.

Author

Sturm D, Capper D, Andreiuolo F, Gessi M, Kölsche C, Reinhardt A, Sievers P, Wefers AK, Ebrahimi A, Suwala AK, Gielen GH, Sill M, Schrimpf D, Stichel D, Hovestadt V, Daenekas B, Rode A, Hamelmann S, Previti C, Jäger N, Buchhalter I, Blattner-Johnson M, Jones BC, Warmuth-Metz M, Bison B, Grund K, Sutter C, Hirsch S, Dikow N, Hasselblatt M, Schüller U, Koch A, Gerber NU, White CL, Buntine MK, Kinross K, Algar EM, Hansford JR, Gottardo NG, Schuhmann MU, Thomale UW, Hernáiz Driever P, Gnekow A, Witt O, Müller HL, Calaminus G, Fleischhack G, Kordes U, Mynarek M, Rutkowski S, Frühwald MC, Kramm CM, von Deimling A, Pietsch T, Sahm F, Pfister SM, and Jones DTW

Subjects

Adolescent, Humans, Child, Multiomics, Neuropathology, DNA Methylation genetics, Mutation, Glioma diagnosis, Glioma genetics, Brain Neoplasms diagnosis, Brain Neoplasms genetics

Abstract

The large diversity of central nervous system (CNS) tumor types in children and adolescents results in disparate patient outcomes and renders accurate diagnosis challenging. In this study, we prospectively integrated DNA methylation profiling and targeted gene panel sequencing with blinded neuropathological reference diagnostics for a population-based cohort of more than 1,200 newly diagnosed pediatric patients with CNS tumors, to assess their utility in routine neuropathology. We show that the multi-omic integration increased diagnostic accuracy in a substantial proportion of patients through annotation to a refining DNA methylation class (50%), detection of diagnostic or therapeutically relevant genetic alterations (47%) or identification of cancer predisposition syndromes (10%). Discrepant results by neuropathological WHO-based and DNA methylation-based classification (30%) were enriched in histological high-grade gliomas, implicating relevance for current clinical patient management in 5% of all patients. Follow-up (median 2.5 years) suggests improved survival for patients with histological high-grade gliomas displaying lower-grade molecular profiles. These results provide preliminary evidence of the utility of integrating multi-omics in neuropathology for pediatric neuro-oncology., (© 2023. The Author(s).)

Published

2023

42. Correction to: Amplification of the PLAG-family genes-PLAGL1 and PLAGL2-is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification.

Author

Keck MK, Sill M, Wittmann A, Joshi P, Stichel D, Beck P, Okonechnikow K, Sievers P, Wefers AK, Roncaroli F, Avula S, McCabe MG, Hayden JT, Wesseling P, Øra I, Nistér M, Kranendonk MEG, Tops BBJ, Zapotocky M, Zamecnik J, Vasiljevic A, Fenouil T, Meyronet D, von Hoff K, Schüller U, Loiseau H, Figarella-Branger D, Kramm CM, Sturm D, Scheie D, Rauramaa T, Pesola J, Gojo J, Haberler C, Brandner S, Jacques T, Sexton Oates A, Saffery R, Koscielniak E, Baker SJ, Yip S, Snuderl M, Ud Din N, Samuel D, Schramm K, Blattner-Johnson M, Selt F, Ecker J, Milde T, von Deimling A, Korshunov A, Perry A, Pfister SM, Sahm F, Solomon DA, and Jones DTW

Published

2023

43. Amplification of the PLAG-family genes-PLAGL1 and PLAGL2-is a key feature of the novel tumor type CNS embryonal tumor with PLAGL amplification.

Author

Keck MK, Sill M, Wittmann A, Joshi P, Stichel D, Beck P, Okonechnikow K, Sievers P, Wefers AK, Roncaroli F, Avula S, McCabe MG, Hayden JT, Wesseling P, Øra I, Nistér M, Kranendonk MEG, Tops BBJ, Zapotocky M, Zamecnik J, Vasiljevic A, Fenouil T, Meyronet D, von Hoff K, Schüller U, Loiseau H, Figarella-Branger D, Kramm CM, Sturm D, Scheie D, Rauramaa T, Pesola J, Gojo J, Haberler C, Brandner S, Jacques T, Sexton Oates A, Saffery R, Koscielniak E, Baker SJ, Yip S, Snuderl M, Ud Din N, Samuel D, Schramm K, Blattner-Johnson M, Selt F, Ecker J, Milde T, von Deimling A, Korshunov A, Perry A, Pfister SM, Sahm F, Solomon DA, and Jones DTW

Subjects

Child, Child, Preschool, Female, Humans, Infant, Male, Cell Cycle Proteins genetics, DNA Methylation, DNA-Binding Proteins genetics, DNA-Binding Proteins metabolism, RNA-Binding Proteins genetics, Transcription Factors genetics, Transcription Factors metabolism, Tumor Suppressor Proteins genetics, Wnt Signaling Pathway genetics, Central Nervous System Neoplasms genetics, Neuroectodermal Tumors, Primitive genetics

Abstract

Pediatric central nervous system (CNS) tumors represent the most common cause of cancer-related death in children aged 0-14 years. They differ from their adult counterparts, showing extensive clinical and molecular heterogeneity as well as a challenging histopathological spectrum that often impairs accurate diagnosis. Here, we use DNA methylation-based CNS tumor classification in combination with copy number, RNA-seq, and ChIP-seq analysis to characterize a newly identified CNS tumor type. In addition, we report histology, patient characteristics, and survival data in this tumor type. We describe a biologically distinct pediatric CNS tumor type (n = 31 cases) that is characterized by focal high-level amplification and resultant overexpression of either PLAGL1 or PLAGL2, and an absence of recurrent genetic alterations characteristic of other pediatric CNS tumor types. Both genes act as transcription factors for a regulatory subset of imprinted genes (IGs), components of the Wnt/β-Catenin pathway, and the potential drug targets RET and CYP2W1, which are also specifically overexpressed in this tumor type. A derived PLAGL-specific gene expression signature indicates dysregulation of imprinting control and differentiation/development. These tumors occurred throughout the neuroaxis including the cerebral hemispheres, cerebellum, and brainstem, and were predominantly composed of primitive embryonal-like cells lacking robust expression of markers of glial or neuronal differentiation (e.g., GFAP, OLIG2, and synaptophysin). Tumors with PLAGL1 amplification were typically diagnosed during adolescence (median age 10.5 years), whereas those with PLAGL2 amplification were diagnosed during early childhood (median age 2 years). The 10-year overall survival was 66% for PLAGL1-amplified tumors, 25% for PLAGL2-amplified tumors, 18% for male patients, and 82% for female patients. In summary, we describe a new type of biologically distinct CNS tumor characterized by PLAGL1/2 amplification that occurs predominantly in infants and toddlers (PLAGL2) or adolescents (PLAGL1) which we consider best classified as a CNS embryonal tumor and which is associated with intermediate survival. The cell of origin and optimal treatment strategies remain to be defined., (© 2022. The Author(s).)

Published

2023

44. Anaplastic ganglioglioma-A diagnosis comprising several distinct tumour types.

Author

Reinhardt A, Pfister K, Schrimpf D, Stichel D, Sahm F, Reuss DE, Capper D, Wefers AK, Ebrahimi A, Sill M, Felsberg J, Reifenberger G, Becker A, Prinz M, Staszewski O, Hartmann C, Schittenhelm J, Gramatzki D, Weller M, Olar A, Rushing EJ, Bergmann M, Farrell MA, Blümcke I, Coras R, Beckervordersandforth J, Kim SH, Rogerio F, Dimova PS, Niehusmann P, Unterberg A, Platten M, Pfister SM, Wick W, Herold-Mende C, and von Deimling A

Subjects

Child, Humans, Retrospective Studies, Isocitrate Dehydrogenase, Ganglioglioma pathology, Glioma pathology, Astrocytoma pathology, Brain Neoplasms genetics, Central Nervous System Neoplasms pathology

Abstract

Aims: Anaplastic ganglioglioma is a rare tumour, and diagnosis has been based on histological criteria. The 5th edition of the World Health Organization Classification of Tumours of the Central Nervous System (CNS WHO) does not list anaplastic ganglioglioma as a distinct diagnosis due to lack of molecular data in previous publications. We retrospectively compiled a cohort of 54 histologically diagnosed anaplastic gangliogliomas to explore whether the molecular profiles of these tumours represent a separate type or resolve into other entities., Methods: Samples were subjected to histological review, desoxyribonucleic acid (DNA) methylation profiling and next-generation sequencing. Morphological and molecular data were summarised to an integrated diagnosis., Results: The majority of tumours designated as anaplastic gangliogliomas resolved into other CNS WHO diagnoses, most commonly pleomorphic xanthoastrocytoma (16/54), glioblastoma, isocitrate dehydrogenase protein (IDH) wild type and diffuse paediatric-type high-grade glioma, H3 wild type and IDH wild type (11 and 2/54), followed by low-grade glial or glioneuronal tumours including pilocytic astrocytoma, dysembryoplastic neuroepithelial tumour and diffuse leptomeningeal glioneuronal tumour (5/54), IDH mutant astrocytoma (4/54) and others (6/54). A subset of tumours (10/54) was not assignable to a CNS WHO diagnosis, and common molecular profiles pointing to a separate entity were not evident., Conclusions: In summary, we show that tumours histologically diagnosed as anaplastic ganglioglioma comprise a wide spectrum of CNS WHO tumour types with different prognostic and therapeutic implications. We therefore suggest assigning this designation with caution and recommend comprehensive molecular workup., (© 2022 The Authors. Neuropathology and Applied Neurobiology published by John Wiley & Sons Ltd on behalf of British Neuropathological Society.)

Published

2022

45. HIP1R and vimentin immunohistochemistry predict 1p/19q status in IDH-mutant glioma.

Author

Felix M, Friedel D, Jayavelu AK, Filipski K, Reinhardt A, Warnken U, Stichel D, Schrimpf D, Korshunov A, Wang Y, Kessler T, Etminan N, Unterberg A, Herold-Mende C, Heikaus L, Sahm F, Wick W, Harter PN, von Deimling A, and Reuss DE

Subjects

Humans, Isocitrate Dehydrogenase genetics, Isocitrate Dehydrogenase metabolism, Immunohistochemistry, Vimentin metabolism, Proteomics, Mutation, Chromosomes, Human, Pair 1 genetics, Chromosomes, Human, Pair 19 genetics, Microfilament Proteins metabolism, Adaptor Proteins, Signal Transducing metabolism, Oligodendroglioma diagnosis, Oligodendroglioma genetics, Oligodendroglioma pathology, Brain Neoplasms genetics, Brain Neoplasms pathology, Glioma genetics, Glioma pathology, Astrocytoma genetics, Astrocytoma pathology

Abstract

Background: IDH-mutant gliomas are separate based on the codeletion of the chromosomal arms 1p and 19q into oligodendrogliomas IDH-mutant 1p/19q-codeleted and astrocytomas IDH-mutant. While nuclear loss of ATRX expression excludes 1p/19q codeletion, its limited sensitivity prohibits to conclude on 1p/19q status in tumors with retained nuclear ATRX expression., Methods: Employing mass spectrometry based proteomic analysis in a discovery series containing 35 fresh frozen and 72 formalin fixed and paraffin embedded tumors with established IDH and 1p/19q status, potential biomarkers were discovered. Subsequent validation immunohistochemistry was conducted on two independent series (together 77 oligodendrogliomas IDH-mutant 1p/19q-codeleted and 92 astrocytomas IDH-mutant)., Results: We detected highly specific protein patterns distinguishing oligodendroglioma and astrocytoma. In these patterns, high HIP1R and low vimentin levels were observed in oligodendroglioma while low HIP1R and high vimentin levels occurred in astrocytoma. Immunohistochemistry for HIP1R and vimentin expression in 35 cases from the FFPE discovery series confirmed these findings. Blinded evaluation of the validation cohorts predicted the 1p/19q status with a positive and negative predictive value as well as an accuracy of 100% in the first cohort and with a positive predictive value of 83%; negative predictive value of 100% and an accuracy of 92% in the second cohort. Nuclear ATRX loss as marker for astrocytoma increased the sensitivity to 96% and the specificity to 100%., Conclusions: We demonstrate that immunohistochemistry for HIP1R, vimentin, and ATRX predict 1p/19q status with 100% specificity and 95% sensitivity and therefore, constitutes a simple and inexpensive approach to the classification of IDH-mutant glioma., (© The Author(s) 2022. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2022

46. Prognostic impact of copy number alterations and tumor mutational burden in carcinoma of unknown primary.

Author

Bochtler T, Wohlfromm T, Hielscher T, Stichel D, Pouyiourou M, Kraft B, Neumann O, Endris V, von Deimling A, Stenzinger A, and Krämer A

Subjects

Biomarkers, Tumor genetics, Chromosome Aberrations, DNA Copy Number Variations, Humans, Microsatellite Instability, Mutation, Prognosis, Carcinoma, Chromothripsis, Neoplasms, Unknown Primary genetics

Abstract

Introduction: Chromosomal aberrations are known to drive metastatic spread, but their profile is still elusive in carcinoma of unknown primary (CUP). Therefore, the aim of this study was to characterize the chromosomal aberration pattern in CUP depending on histological and clinical features and to assess its prognostic impact together with chromothripsis, tumor mutational burden (TMB), microsatellite instability (MSI), and mutational profiles as potential prognostic biomarkers., Methods: Chromosomal aberrations and chromothripsis were detected by methylation-based copy number variation (CNV) analysis, whereas TMB and MSI were calculated based on large next-generation sequencing (NGS) panels. Putative primaries were assigned by consensus between two independent oncologists., Results: CNV losses varied depending on putative primaries and were more abundant in patients harboring TP53 mutations and/or deletions 17p. CNV loss was prognostically adverse in localized CUP treated with surgery and/or radiotherapy, but not in disseminated poor-risk CUP treated with palliative chemotherapy. CNV loss also worsened the prognosis in squamous cell CUP. Chromothripsis was detected in 18/59 (30.5%) patients without prognostic effect. TMB was highest in cases with MSI, squamous cell histology, and with lung, anal or cervical putative primaries., Conclusion: Overall, CNV, chromothripsis, TMB, and MSI profiles in CUP are reminiscent of biological characteristics known from other cancer entities without a unifying CUP-specific signature. Markedly, high-level CNV loss is an adverse predictive biomarker in localized but not disseminated chemotherapy-treated CUP. This implies that chromosomal losses drive CUP progression, but also increase susceptibility to chemotherapy, with both effects apparently leveling out in disseminated CUP., (© 2022 The Authors. Genes, Chromosomes and Cancer published by Wiley Periodicals LLC.)

Published

2022

47. Gene expression profiling of Group 3 medulloblastomas defines a clinically tractable stratification based on KIRREL2 expression.

Author

Korshunov A, Okonechnikov K, Stichel D, Schrimpf D, Delaidelli A, Tonn S, Mynarek M, Sievers P, Sahm F, Jones DTW, von Deimling A, Pfister SM, and Kool M

Subjects

Gene Expression Profiling, Humans, Microarray Analysis, Prognosis, Prospective Studies, Cerebellar Neoplasms genetics, Medulloblastoma pathology

Abstract

Medulloblastomas (MB) molecularly designated as Group 3 (Grp 3) MB represent a more clinically aggressive tumor variant which, as a group, displays heterogeneous molecular characteristics and disease outcomes. Reliable risk stratification of Grp 3 MB would allow for appropriate assignment of patients to aggressive treatment protocols and, vice versa, for sparing adverse effects of high-dose radio-chemotherapy in patients with standard or low-risk tumors. Here we performed RNA-based analysis on an international cohort of 179 molecularly designated Grp 3 MB treated with HIT protocols. We analyzed the clinical significance of differentially expressed genes, thereby developing optimal prognostic subdivision of this MB molecular group. We compared the transcriptome profiles of two Grp 3 MB subsets with various outcomes (76 died within the first 60 months vs. 103 survived this period) and identified 224 differentially expressed genes (DEG) between these two clinical groups (Limma R algorithm, adjusted p-value < 0.05). We selected the top six DEG overexpressed in the unfavorable cohort for further survival analysis and found that expression of all six genes strongly correlated with poor outcomes. However, only high expression of KIRREL2 was identified as an independent molecular prognostic indicator of poor patients' survival. Based on clinical and molecular patterns, four risk categories were outlined for Grp 3 MB patients: i. low-risk: M0-1/MYC non-amplified/KIRREL2 low (n = 48; 5-year OS-95%); ii. standard-risk: M0-1/MYC non-amplified/KIRREL2 high or M2-3/MYC non-amplified/KIRREL2 low (n = 65; 5-year OS-70%); iii. high-risk: M2-3/MYC non-amplified/KIRREL2 high (n = 36; 5-year OS-30%); iv. very high risk-all MYC amplified tumors (n = 30; 5-year OS-0%). Cross-validated survival models incorporating KIRREL2 expression with clinical features allowed for the reclassification of up to 50% of Grp 3 MB patients into a more appropriate risk category. Finally, KIRREL2 immunopositivity was also identified as a predictive indicator of Grp 3 MB poor survival, thus suggesting its application as a possible prognostic marker in routine clinical settings. Our results indicate that integration of KIRREL2 expression in risk stratification models may improve Grp 3 MB outcome prediction. Therefore, simple gene and/or protein expression analyses for this molecular marker could be easily adopted for Grp 3 MB prognostication and may help in assigning patients to optimal therapeutic approaches in prospective clinical trials., (© 2022. The Author(s).)

Published

2022

48. Rapid-CNS 2 : rapid comprehensive adaptive nanopore-sequencing of CNS tumors, a proof-of-concept study.

Author

Patel A, Dogan H, Payne A, Krause E, Sievers P, Schoebe N, Schrimpf D, Blume C, Stichel D, Holmes N, Euskirchen P, Hench J, Frank S, Rosenstiel-Goidts V, Ratliff M, Etminan N, Unterberg A, Dieterich C, Herold-Mende C, Pfister SM, Wick W, Loose M, von Deimling A, Sill M, Jones DTW, Schlesner M, and Sahm F

Subjects

High-Throughput Nucleotide Sequencing, Humans, Proof of Concept Study, Sequence Analysis, DNA, Central Nervous System Neoplasms genetics, Nanopores

Published

2022

49. Oligosarcomas, IDH-mutant are distinct and aggressive.

Author

Suwala AK, Felix M, Friedel D, Stichel D, Schrimpf D, Hinz F, Hewer E, Schweizer L, Dohmen H, Pohl U, Staszewski O, Korshunov A, Stein M, Wongsurawat T, Cheunsuacchon P, Sathornsumetee S, Koelsche C, Turner C, Le Rhun E, Mühlebner A, Schucht P, Özduman K, Ono T, Shimizu H, Prinz M, Acker T, Herold-Mende C, Kessler T, Wick W, Capper D, Wesseling P, Sahm F, von Deimling A, Hartmann C, and Reuss DE

Subjects

Adult, Aged, Brain Neoplasms genetics, Female, Humans, Male, Middle Aged, Mutation, Oligodendroglioma genetics, Sarcoma genetics, Brain Neoplasms pathology, Isocitrate Dehydrogenase genetics, Oligodendroglioma pathology, Sarcoma pathology

Abstract

Oligodendrogliomas are defined at the molecular level by the presence of an IDH mutation and codeletion of chromosomal arms 1p and 19q. In the past, case reports and small studies described gliomas with sarcomatous features arising from oligodendrogliomas, so called oligosarcomas. Here, we report a series of 24 IDH-mutant oligosarcomas from 23 patients forming a distinct methylation class. The tumors were recurrences from prior oligodendrogliomas or developed de novo. Precursor tumors of 12 oligosarcomas were histologically and molecularly indistinguishable from conventional oligodendrogliomas. Oligosarcoma tumor cells were embedded in a dense network of reticulin fibers, frequently showing p53 accumulation, positivity for SMA and CALD1, loss of OLIG2 and gain of H3K27 trimethylation (H3K27me3) as compared to primary lesions. In 5 oligosarcomas no 1p/19q codeletion was detectable, although it was present in the primary lesions. Copy number neutral LOH was determined as underlying mechanism. Oligosarcomas harbored an increased chromosomal copy number variation load with frequent CDKN2A/B deletions. Proteomic profiling demonstrated oligosarcomas to be highly distinct from conventional CNS WHO grade 3 oligodendrogliomas with consistent evidence for a smooth muscle differentiation. Expression of several tumor suppressors was reduced with NF1 being lost frequently. In contrast, oncogenic YAP1 was aberrantly overexpressed in oligosarcomas. Panel sequencing revealed mutations in NF1 and TP53 along with IDH1/2 and TERT promoter mutations. Survival of patients was significantly poorer for oligosarcomas as first recurrence than for grade 3 oligodendrogliomas as first recurrence. These results establish oligosarcomas as a distinct group of IDH-mutant gliomas differing from conventional oligodendrogliomas on the histologic, epigenetic, proteomic, molecular and clinical level. The diagnosis can be based on the combined presence of (a) sarcomatous histology, (b) IDH-mutation and (c) TERT promoter mutation and/or 1p/19q codeletion, or, in unresolved cases, on its characteristic DNA methylation profile., (© 2021. The Author(s).)

Published

2022

50. Target Actionability Review: a systematic evaluation of replication stress as a therapeutic target for paediatric solid malignancies.

Author

Keller KM, Krausert S, Gopisetty A, Luedtke D, Koster J, Schubert NA, Rodríguez A, van Hooff SR, Stichel D, Dolman MEM, Vassal G, Pfister SM, Caron HN, Stancato LF, Molenaar JJ, Jäger N, and Kool M

Subjects

Cell Cycle Checkpoints, Child, DNA Repair, Humans, Bone Neoplasms, Cerebellar Neoplasms, Medulloblastoma

Abstract

Background: Owing to the high numbers of paediatric cancer-related deaths, advances in therapeutic options for childhood cancer is a heavily studied field, especially over the past decade. Classical chemotherapy offers some therapeutic benefit but has proven long-term complications in survivors, and there is an urgent need to identify novel target-driven therapies. Replication stress is a major cause of genomic instability in cancer, triggering the stalling of the replication fork. Failure of molecular response by DNA damage checkpoints, DNA repair mechanisms and restarting the replication forks can exacerbate replication stress and initiate cell death pathways, thus presenting as a novel therapeutic target. To bridge the gap between preclinical evidence and clinical utility thereof, we apply the literature-driven systematic target actionability review methodology to published proof-of-concept (PoC) data related to the process of replication stress., Methods: A meticulous PubMed literature search was performed to gather replication stress-related articles (published between 2014 and 2021) across 16 different paediatric solid tumour types. Articles that fulfilled inclusion criteria were uploaded into the R2 informatics platform [r2.amc.nl] and assessed by critical appraisal. Key evidence based on nine pre-established PoC modules was summarised, and scores based on the quality and outcome of each study were assigned by two separate reviewers. Articles with discordant modules/scores were re-scored by a third independent reviewer, and a final consensus score was agreed upon by adjudication between all three reviewers. To visualise the final scores, an interactive heatmap summarising the evidence and scores associated with each PoC module across all, including paediatric tumour types, were generated., Results and Conclusions: 145 publications related to targeting replication stress in paediatric tumours were systematically reviewed with an emphasis on DNA repair pathways and cell cycle checkpoint control. Although various targets in these pathways have been studied in these diseases to different extents, the results of this extensive literature search show that ATR, CHK1, PARP or WEE1 are the most promising targets using either single agents or in combination with chemotherapy or radiotherapy in neuroblastoma, osteosarcoma, high-grade glioma or medulloblastoma. Targeting these pathways in other paediatric malignancies may work as well, but here, the evidence was more limited. The evidence for other targets (such as ATM and DNA-PK) was also limited but showed promising results in some malignancies and requires more studies in other tumour types. Overall, we have created an extensive overview of targeting replication stress across 16 paediatric tumour types, which can be explored using the interactive heatmap on the R2 target actionability review platform [https://hgserver1.amc.nl/cgi-bin/r2/main.cgi?option=imi2&#95;targetmap&#95;v1]., Competing Interests: Conflict of interest statement Louis F. Stancato is full-time employee of Eli Lilly and Company. Ana Rodríguez and Hubert N. Caron are fulltime employees of Hoffmann-La Roche. All remaining authors have declared no conflicts of interest., (Copyright © 2021 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2022