Gerard Frigola, Marco Bühler, Marta Marginet, Anna Enjuanes, Ferran Nadeu, Natalia Papaleo, Marta Salido, Eugenia Haralambieva, José Alamo, Federico Garcia-Bragado, Ramiro Álvarez, Rafael Ramos, Iban Aldecoa, Elías Campo, Lluis Colomo, Olga Balagué
{"title":"MYC和TP53改变而非MAPK通路突变是滤泡树突状细胞肉瘤常见的致癌机制。","authors":"Gerard Frigola, Marco Bühler, Marta Marginet, Anna Enjuanes, Ferran Nadeu, Natalia Papaleo, Marta Salido, Eugenia Haralambieva, José Alamo, Federico Garcia-Bragado, Ramiro Álvarez, Rafael Ramos, Iban Aldecoa, Elías Campo, Lluis Colomo, Olga Balagué","doi":"10.5858/arpa.2021-0517-OA","DOIUrl":null,"url":null,"abstract":"<p><strong>Context.—: </strong>Despite their stromal origin, follicular dendritic cells (FDCs) share many functions with hematopoietic system cells. FDC neoplasms are currently classified by the World Health Organization along with those of a histiocytic nature. However, the molecular alterations driving oncogenesis in FDC sarcomas (FDCSs) are beginning to be unveiled and do not seem to concur with those described in histiocytic neoplasms, namely MAPK pathway activation.</p><p><strong>Objective.—: </strong>To identify molecular alterations driving tumorigenesis in FDCS.</p><p><strong>Design.—: </strong>We investigated the role of MYC and TP53 in FDC-derived tumor oncogenesis and assessed comprehensively the status of the MAPK pathway in 16 FDCSs, 6 inflammatory pseudotumor (IPT)-like FDCSs, and 8 IPTs.</p><p><strong>Results.—: </strong>MYC structural alterations (both amplifications and rearrangements) were identified in 5 of 14 FDCSs (35.7%), all associated with MYC overexpression. TP53 mutations were identified in 4 of 14 FDCSs (28.6%), all of which displayed intense and diffuse p53 expression. None of these alterations were identified in any IPT-like FDCSs or in IPT cases. No MAPK pathway gene alterations were identified in any of the cases studied.</p><p><strong>Conclusions.—: </strong>The presence of MYC and TP53 alterations and the lack of association with Epstein-Barr virus segregate classical FDCS from IPT-like FDCS, pointing at different oncogenic mechanisms in both entities. Our results suggest a possible oncogenic role of MYC and TP53 alterations in FDCS. The absence of MAPK pathway alterations confirms the lack of a significant role of this pathway in the oncogenesis of FDC-derived neoplasms.</p>","PeriodicalId":8305,"journal":{"name":"Archives of pathology & laboratory medicine","volume":"147 8","pages":"896-906"},"PeriodicalIF":3.7000,"publicationDate":"2023-08-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"MYC and TP53 Alterations but Not MAPK Pathway Mutations Are Common Oncogenic Mechanisms in Follicular Dendritic Cell Sarcomas.\",\"authors\":\"Gerard Frigola, Marco Bühler, Marta Marginet, Anna Enjuanes, Ferran Nadeu, Natalia Papaleo, Marta Salido, Eugenia Haralambieva, José Alamo, Federico Garcia-Bragado, Ramiro Álvarez, Rafael Ramos, Iban Aldecoa, Elías Campo, Lluis Colomo, Olga Balagué\",\"doi\":\"10.5858/arpa.2021-0517-OA\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Context.—: </strong>Despite their stromal origin, follicular dendritic cells (FDCs) share many functions with hematopoietic system cells. FDC neoplasms are currently classified by the World Health Organization along with those of a histiocytic nature. However, the molecular alterations driving oncogenesis in FDC sarcomas (FDCSs) are beginning to be unveiled and do not seem to concur with those described in histiocytic neoplasms, namely MAPK pathway activation.</p><p><strong>Objective.—: </strong>To identify molecular alterations driving tumorigenesis in FDCS.</p><p><strong>Design.—: </strong>We investigated the role of MYC and TP53 in FDC-derived tumor oncogenesis and assessed comprehensively the status of the MAPK pathway in 16 FDCSs, 6 inflammatory pseudotumor (IPT)-like FDCSs, and 8 IPTs.</p><p><strong>Results.—: </strong>MYC structural alterations (both amplifications and rearrangements) were identified in 5 of 14 FDCSs (35.7%), all associated with MYC overexpression. TP53 mutations were identified in 4 of 14 FDCSs (28.6%), all of which displayed intense and diffuse p53 expression. None of these alterations were identified in any IPT-like FDCSs or in IPT cases. No MAPK pathway gene alterations were identified in any of the cases studied.</p><p><strong>Conclusions.—: </strong>The presence of MYC and TP53 alterations and the lack of association with Epstein-Barr virus segregate classical FDCS from IPT-like FDCS, pointing at different oncogenic mechanisms in both entities. Our results suggest a possible oncogenic role of MYC and TP53 alterations in FDCS. 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MYC and TP53 Alterations but Not MAPK Pathway Mutations Are Common Oncogenic Mechanisms in Follicular Dendritic Cell Sarcomas.
Context.—: Despite their stromal origin, follicular dendritic cells (FDCs) share many functions with hematopoietic system cells. FDC neoplasms are currently classified by the World Health Organization along with those of a histiocytic nature. However, the molecular alterations driving oncogenesis in FDC sarcomas (FDCSs) are beginning to be unveiled and do not seem to concur with those described in histiocytic neoplasms, namely MAPK pathway activation.
Objective.—: To identify molecular alterations driving tumorigenesis in FDCS.
Design.—: We investigated the role of MYC and TP53 in FDC-derived tumor oncogenesis and assessed comprehensively the status of the MAPK pathway in 16 FDCSs, 6 inflammatory pseudotumor (IPT)-like FDCSs, and 8 IPTs.
Results.—: MYC structural alterations (both amplifications and rearrangements) were identified in 5 of 14 FDCSs (35.7%), all associated with MYC overexpression. TP53 mutations were identified in 4 of 14 FDCSs (28.6%), all of which displayed intense and diffuse p53 expression. None of these alterations were identified in any IPT-like FDCSs or in IPT cases. No MAPK pathway gene alterations were identified in any of the cases studied.
Conclusions.—: The presence of MYC and TP53 alterations and the lack of association with Epstein-Barr virus segregate classical FDCS from IPT-like FDCS, pointing at different oncogenic mechanisms in both entities. Our results suggest a possible oncogenic role of MYC and TP53 alterations in FDCS. The absence of MAPK pathway alterations confirms the lack of a significant role of this pathway in the oncogenesis of FDC-derived neoplasms.
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