Imuno-expressão da DNMT1, DNMT3a e DNMT3b nos tumores odontogênicos / DNA Methyltransferase 1, 3A and 3B immunohistochemical expression in odontogenic tumours

Ferro, Leonardo Borges

11 October 2013

Os tumores odontogênicos são um grupo heterogéneo de lesões formadas a partir de tecidos que dão origem ao dente. A metilação do ADN, uma adição covalente de um grupo metilo na posição 5 de carbono de um nucleótideo de citosina, é considerado um importante regulador da expressão génica. A adição do radical metil é catalisada por ADN metiltransferases (DNMTs). Embora alguns estudos epigenéticos tenham sido realizados em tumores odontogênicos, um estudo com os três tipos de DNMTs em vários membros desse grupo está em falta. Este estudo analisa a expressão de DNMTs em tumores odontogênicos. Amostras de vinte ameloblastomas, dez Calcificante tumores odontogênicos císticos, dez calcificados tumores epiteliais, dez tumor odontogênico adenomatóide, dez tumores odontogênicos queratocísticos, quatro fibromas ameloblásticos, dois fibro-odontoma ameloblástico, quatro fibroma centrais odontogênicos, sete tecidos de fibromas odontogênicos periféricos e dez mixomas odontogênicos foram incluídos. DNMT1, 3A e 3B foram expressas no núcleo e / ou citoplasma de todos os tumores odontogênicos. A alta expressão de DNMTs em células de tumor odontogênico sugere metilação como um mecanismo importante para este grupo de tumores. / Odontogenic tumours are a heterogeneous group of lesions formed from tissues that give rise to the tooth. DNA methylation, a covalent addition of a methyl group to the 5-carbon position of a cytosine nucleotide, is considered an important regulator of gene expression. The addition of the methyl radical is catalyzed by DNA methyltransferases (DNMTs). Although some epigenetic studies have been conducted in odontogenic tumours, a study with the three types of DNMTs in several different members of this group is missing. This study analyzes the expression of DNMTs in odontogenic tumours. Formalin-fixed and paraffin-embedded tissue samples of twenty ameloblastomas, ten calcifying cystic odontogenic tumors, ten calcifying epithelial tumors, ten adenomatoid odontogenic tumors, ten keratocystic odontogenic tumors, five ameloblastic fibromas, two ameloblastic fibro-odontoma, four central odontogenic fibroma, seven peripheral odontogenic fibroma and ten odontogenic mixoma were included. DNMT1, 3A and 3B were expressed in the nucleus and/or cytoplasm of all odontogenic tumours. The high expression of DNMTs in odontogenic tumour cells suggests methylation as an important mechanism for this group of tumours.

DNA methyltransferase

DNA metiltransferase

Methylation

Metilação

Odontogenic Tumours

Tumor odontogênico

Imuno-expressão da DNMT1, DNMT3a e DNMT3b nos tumores odontogênicos / DNA Methyltransferase 1, 3A and 3B immunohistochemical expression in odontogenic tumours

Leonardo Borges Ferro

11 October 2013

Os tumores odontogênicos são um grupo heterogéneo de lesões formadas a partir de tecidos que dão origem ao dente. A metilação do ADN, uma adição covalente de um grupo metilo na posição 5 de carbono de um nucleótideo de citosina, é considerado um importante regulador da expressão génica. A adição do radical metil é catalisada por ADN metiltransferases (DNMTs). Embora alguns estudos epigenéticos tenham sido realizados em tumores odontogênicos, um estudo com os três tipos de DNMTs em vários membros desse grupo está em falta. Este estudo analisa a expressão de DNMTs em tumores odontogênicos. Amostras de vinte ameloblastomas, dez Calcificante tumores odontogênicos císticos, dez calcificados tumores epiteliais, dez tumor odontogênico adenomatóide, dez tumores odontogênicos queratocísticos, quatro fibromas ameloblásticos, dois fibro-odontoma ameloblástico, quatro fibroma centrais odontogênicos, sete tecidos de fibromas odontogênicos periféricos e dez mixomas odontogênicos foram incluídos. DNMT1, 3A e 3B foram expressas no núcleo e / ou citoplasma de todos os tumores odontogênicos. A alta expressão de DNMTs em células de tumor odontogênico sugere metilação como um mecanismo importante para este grupo de tumores. / Odontogenic tumours are a heterogeneous group of lesions formed from tissues that give rise to the tooth. DNA methylation, a covalent addition of a methyl group to the 5-carbon position of a cytosine nucleotide, is considered an important regulator of gene expression. The addition of the methyl radical is catalyzed by DNA methyltransferases (DNMTs). Although some epigenetic studies have been conducted in odontogenic tumours, a study with the three types of DNMTs in several different members of this group is missing. This study analyzes the expression of DNMTs in odontogenic tumours. Formalin-fixed and paraffin-embedded tissue samples of twenty ameloblastomas, ten calcifying cystic odontogenic tumors, ten calcifying epithelial tumors, ten adenomatoid odontogenic tumors, ten keratocystic odontogenic tumors, five ameloblastic fibromas, two ameloblastic fibro-odontoma, four central odontogenic fibroma, seven peripheral odontogenic fibroma and ten odontogenic mixoma were included. DNMT1, 3A and 3B were expressed in the nucleus and/or cytoplasm of all odontogenic tumours. The high expression of DNMTs in odontogenic tumour cells suggests methylation as an important mechanism for this group of tumours.

DNA metiltransferase

Metilação

Tumor odontogênico

DNA methyltransferase

Methylation

Odontogenic Tumours

Assessment of diagnostic imaging modalities utilized in the diagnosis of the odontogenic myxoma

Kheir, Eman Ahmed

January 2010

>Magister Scientiae - MSc / Odontogenic myxoma (OM) is one of the rare odontogenic tumours that affect the maxilo-facial regions. Skeletal myxomas are more common than soft tissue types in the facial regions. Odontogenic myxomas (OM) are non metastasizing tumours and therefore are considered benign. These lesions are known for their distinctive infiltrative nature which makes complete surgical removal a challenging task.Since the tumour occurs inside the bone and can reach a considerable size with little or no clinical manifestation, the radiologic examination remains the main method to determine the size and the extension of the tumour preoperatively.Aim of the study To assess the different imaging techniques which are currently in use for the diagnosis of the odontogenic myxomas.Materials and methods The images were retrieved from the library of the Department of Diagnostics and Radiology at the Tygerberg Oral Health Centre.Initially each of the imaging modalities was assessed independently to describe the imaging features of odontogenic myxoma on conventional radiograph,Computed Tomography (CT) and Magnetic Resonance Image (MRI). Secondly the imaging features of the three techniques were correlated and contrasted to determine the most valuable imaging modality in the diagnosis of the tumour.Results In this study we found that MRI was superior to other modalities in the ability to show and determine the true extension of the tumours. Therefore, MRI distinguished the tumour tissue from the surrounding structures and soft tissues.Myxomas were found to display characteristic patterns of growth on MRI. These patterns include lobulations and/or budding, nodulation and crevices formation.Moreover T2 weighted images deduced the contents of the tumour by emitting different signal intensities from the various components of the tumours.Additionally, characteristic pattern of contrast uptake differentiated the myxomatous, collagenous parts and presumed the nature of the trabeculae whether it is bony or fibrous.CT also showed the tumour and determined the subtle extension of the tumour into the adjacent structures and bone. Expansion and status of the cortical margin were reliably detected on CT. It also determined the pattern of growth in all tumours whether it is lobulation and/or budding, crevices formation or combination of them. In the present study this feature seemed to be a characteristic finding for all the tumours on CT. Moreover CT was able to compare densities of the tumours to surrounding muscles.Conventional radiography (CR) showed great limitations with regard to diagnostic abilities. Although it displayed the existence of the abnormality in all cases,conventional radiograph failed to detect margins and extension in most of the lesions. Therefore conventional radiograph is not reliable for presurgical assessment of the tumour or in differentiation the tumour from other benign and some malignant tumour. Conclusion In spite of the many limitations and shortcomings, conventional radiography remains the preliminary step in the diagnosis process. However digital imaging techniques provide images of great diagnostic value which is especially helpful in the diagnosis of odontogenic myxoma.

Odontogenic tumours

Odontogenic myxoma

Myxoma

Infiltration

Diagnosis

Radiology

Conventional radiography

Computed tomography

Magnetic resonance image

Recurrence