Literature DB >> 31705763

Making sense of giant cell lesions of the jaws (GCLJ): lessons learned from next-generation sequencing.

Carolina C Gomes1, Marina G Diniz1, Victor C Bastos1, Vanessa F Bernardes1, Ricardo S Gomez2.   

Abstract

Next-generation sequencing has revealed mutations in several bone-related lesions and was recently used to uncover the genetic basis of giant cell lesions of the jaws (GCLJ). Consistent with their benign nature, GCLJ show a low tumor mutation burden. They also harbor somatic, heterozygous, mutually exclusive mutations in TRPV4, KRAS, or FGFR1. These signature mutations occur only in a subset of lesional cells, suggesting the existence of a 'landscaping effect', with mutant cells inducing abnormal accumulation of non-mutant cells that form the tumor mass. Osteoclast-rich lesions with histological similarities to GCLJ can occur in the jaws sporadically or in association with genetically inherited syndromes. Based on recent results, the pathogenesis of a subgroup of sporadic GCLJ seems closely related to non-ossifying fibroma of long bones, with both lesions sharing MAPK pathway-activating mutations. In this review, we extrapolate from these recent findings to contextualize GCLJ genetics and we highlight the therapeutic implications of this new information.
© 2019 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd. © 2019 Pathological Society of Great Britain and Ireland. Published by John Wiley & Sons, Ltd.

Entities:  

Keywords:  FGFR1; Jaffe-Campanacci syndrome; KRAS; MAPK; Noonan syndrome; TRPV4; bone tumor; cancer landscaping effects; giant cell granuloma; giant cell tumor of the bone; non-ossifying fibroma

Year:  2019        PMID: 31705763     DOI: 10.1002/path.5365

Source DB:  PubMed          Journal:  J Pathol        ISSN: 0022-3417            Impact factor:   7.996


  6 in total

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4.  "Central giant cell granuloma" - An update.

Authors:  V Ramesh
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5.  KRAS Mutation in an Implant-associated Peripheral Giant Cell Granuloma of the Jaw: Implications of Genetic Analysis of the Lesion for Treatment Concept and Surveillance.

Authors:  Reinhard E Friedrich; Falk WÜsthoff; Andreas M Luebke; Felix K Kohlrusch; Ilse Wieland; Martin Zenker; Martin Gosau
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6.  De novo TRPV4 Leu619Pro variant causes a new channelopathy characterised by giant cell lesions of the jaws and skull, skeletal abnormalities and polyneuropathy.

Authors:  Aviel Ragamin; Carolina C Gomes; Nada Jabado; Grazia Maria Simonetta Mancini; Ricardo Santiago Gomez; Karen Bindels-de Heus; Renata Sandoval; Angelia V Bassenden; Luciano Dib; Fernando Kok; Julieta Alves; Irene Mathijssen; Evita Medici-Van den Herik; Robert Eveleigh; Tenzin Gayden; Bas Pullens; Albert Berghuis; Marjon van Slegtenhorst; Martina Wilke
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  6 in total

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