INVESTIGATING STRUCTURE AND PROTEIN-PROTEIN INTERACTIONS OF KEY POST-TYPE II PKS TAILORING ENZYMES

Downey, Theresa E

01 January 2014

Type II polyketide synthase (PKS) produced natural products have proven to be an excellent source of pharmacologically relevant molecules due to their rich biological activities and chemical scaffolds. Type II-PKS manufactured polyketides share similar polycyclic aromatic backbones leaving their diversity to stem from various chemical additions and alterations facilitated by post-PKS tailoring enzymes. Evidence suggests that post-PKS tailoring enzymes form complexes in order to facilitate the highly orchestrated process of biosynthesis. Thus, protein-protein interactions between these enzymes must play crucial roles in their structures and functions. Despite the importance of these interactions little has been done to study them. In the mithramycin (MTM) biosynthetic pathway the Baeyer−Villiger monooxygenase (BVMO) MtmOIV and the ketoreductase MtmW form one such enzyme pair that catalyze the final two steps en route to the final product. MtmOIV oxidatively cleaves the fourth ring of the mithramycin intermediate premithramycin B (PreB) via a Baeyer−Villiger reaction, generating MTM’s characteristic tricyclic aglycone core and highly functionalized pentyl side chain at position 3. This Baeyer−Villiger reaction precedes spontaneous lactone ring opening, decarboxylation, and the final step of MTM biosynthesis, a reduction of the 4′- keto group catalyzed by the ketoreductase MtmW. Another example of co-dependent post-PKS tailoring enzymes from the gilvocarcin biosynthetic pathway is composed of GilM and GilR. These two enzymes form an unusual synergistic tailoring enzyme pair that does not function sequentially. GilM exhibits dual functionality by catalyzing the reduction of a quinone intermediate to a hydroquinone and stabilizes O-methylation and hemiacetal formation. GilM mediates its reductive catalysis through the aid of GilR that provides its covalently bound FADH(2) for the GilM reaction, through which FAD is regenerated for the next catalytic cycle. A few steps later, following glycosylation related events unique to each gilvocarcin derivative, GilR dehydrogenates the hemiacetal moiety created by GilM to establish the formation of a lactone and the final gilvocarcin chromophore. To achieve a better understanding of post-type II PKS tailoring enzymes and their protein-proteininteractions for the benefit of future combinatorial biosynthetic efforts two specific aims were devised. Specific aim 1 was to investigate the structure of MtmOIV and the role of active site residues in its catalytic mechanism. Specific aim 2 was to integrate the function of GilM and its protein-protein interactionswith GilR that lead to their synergistic activity and sharing of GilR’s bicovalently bound FAD moiety.

Mithramycin

Baeyer-Villiger monooxygenase

O-methyltransferase

Gilvocarcin

Biochemistry

Enzymes and Coenzymes

Structural Biology

The impact of genetic and nutritional disturbances of folate metabolism on tumourigenesis in a mouse model of colorectal cancer /

Lawrance, Andrea Karin.

January 2007

The relationship between colorectal cancer (CRC) and folate metabolism is complex. Dietary folate, depending on the timing and dose, may either prevent or enhance tumour initiation and/or growth, and polymorphisms in the genes encoding folate-metabolising enzymes may also modulate risk. In this thesis, the Apcmin/+ mouse model of CRC was used to investigate the effect of nutritional and genetic disturbances in folate metabolism on tumourigenesis and to examine various mechanisms. / The reduced folate carrier I (RFC1) is responsible for the cellular uptake and intestinal absorption of folate, primarily the 5-methyltetrahydrofolate (5-methylTHF) derivative. Methionine synthase (MTR) uses 5-methylTHF to remethylate homocysteine to methionine, which may be activated and used to methylate substrates such as DNA. 5-MethylTHF is also the product of the methylenetetrahydrofolate reductase (MTHFR)-catalysed reduction of 5,10-methyleneTHF, which is also used to convert dUMP to dTMP. / Adenoma number and load were reduced in Rfc1+/-Apc min/+ mice, compared with Rfc1+/+Apc min/+ mice, but were similar in Mtr+/-Apc min/+ and Mtr+/+ Apcmin/+ mice. Neither Rfc1 nor Mtr genotype affected global DNA methylation, apoptosis or plasma homocysteine (tHcy) levels. In the experiments involving Mtr mice, dietary folate deficiency increased adenoma number, plasma tHcy, and apoptosis, and decreased global DNA methylation. Neither Mtr nor Rfc1 genotype affected the dUTP/dTTP ratio in the intestine of mice not predisposed to adenoma formation. / Adenoma number was decreased in Mthfr+/-Apc min/+ mice (compared with Mthfr+/+Apc min/+ mice) and in Mthfr+/+Apc min/+ offspring of Mthfr+/- mothers (compared with Mthfr+/+Apcmin/+ offspring of Mthfr+/+ mothers). A folate-deficient diet, when initiated prior to conception, significantly decreased adenoma number and decreased global DNA methylation. Overall, adenoma number was inversely correlated with plasma tHcy, dUTP/dTTP ratio and apoptosis. When initiated at three weeks of age, a folate-enriched diet significantly increased adenoma number in Apcmin/+ mice. In the intestines of mice not predisposed to adenoma formation, Mthfr deficiency decreased, and folic acid deficiency increased, the dUTP/dTTP ratio. / These results support the evidence that MTHFR polymorphisms are protective in CRC tumourigenesis and that depending on stage or predisposition, folate may inhibit or enhance tumour growth.

Colorectal Neoplasms -- genetics.

Folic Acid -- metabolism.

Epigenetic modifiers of transgene silencing in the mouse

Daniel Morgan

Unknown Date

It is well established that epigenetic modifications to the genome are crucial for the exquisite control of gene expression required for an organism to develop and differentiate. These modifications are maintained through mitotic rounds of cell division, but must be cleared and reset through meiosis in order for the cells of the early embryo to achieve totipotency. Although we know these mechanisms exist, the rules determining which modifications are established where on the genome and the genes involved in these processes remain poorly characterised. Much of what is known about epigenetic processes has come from studies in non-mammalian organisms, such as Drosophila. However, in our laboratory we have developed a mammalian system for identifying modifiers of epigenetic gene silencing. An ENU mutagenesis screen is being carried out using an inbred mouse line carrying a GFP transgene, with an erythroid-specific promoter, that is particularly sensitive to changes in epigenetic modifications. Currently, 14 mutant lines that display a heritable shift in GFP expression have been recovered. These have been termed Modifiers of Murine Metastable Epialleles (Mommes). When I began my PhD in 2005, we had not identified any of the mutations underlying the phenotypes observed. To confirm the efficacy of the screen, I have tested the effect of heterozygosity for null alleles of two known epigenetic modifiers, Dnmt3a and Dnmt3b, on expression of the GFP transgene. Heterozygosity for the Dnmt3b knockout allele does shift expression while heterozygosity for the Dnmt3a knockout allele does not. This highlights the limitations of the screen. With this particular screen we will only detect modifiers that are expressed during haematopoiesis in the bone marrow. I have also worked on MommeD5. MommeD5 is a semi-dominant, homozygous embryonic lethal mutation that acts as an enhancer of variegation. I have found that the MommeD5 allele carries a 7 bp deletion in the major histone deacetylase, Histone deacetylase 1 (Hdac1), and this significantly alters the C-terminus of the mutant protein. The finding of Hdac1 attests to the screen design. The MommeD5 homozygous mutants die at approximately the same time as the published knockout of Hdac1 and the heterozygous mutants show increased levels of Hdac2 and acetylated histone H3, as reported in Hdac1-deficient embryonic stem cells. In addition, I have studied the effect of heterozygosity for each of the mutations on the phenotype of the mouse. In general, heterozygous Momme mutants are viable and fertile, but show subtle abnormal phenotypes. However, in the case of MommeD5 none were observed and this may relate to the compensatory upregulation of other histone deacetylases. In the case of Dnmt3a and Dnmt3b a sex ratio distortion is seen in the colonies, with less males seen than expected. Also, Dnmt3a heterozygous mutant males that inherited the mutant allele from the dam are smaller and show an increased range of body weights compared to their wild-type male littermates. This may be an example of intangible variation, i.e. phenotypic variation observed in isogenic individuals raised in standardised environments. These results suggest that epigenetic mechanisms have a role in intangible variation, also known as developmental noise. Despite the fact that it is now acknowledged by many that stochastic events occur at the level of the cell, the idea that it can happen at the level of the whole organism is rarely considered.

Relationship of dna methyltransferases, dnmt3a and dnmt3b, and 5-aza-2'-deoxycytidine sensitivity among various cancer cell lines

Meacham, Amy Marie.

January 2005

Thesis (M.S.)--University of Florida, 2005. / Typescript. Title from title page of source document. Document formatted into pages; contains 50 pages. Includes Vita. Includes bibliographical references.

Characterization of putative methyltransferase MT420 in \kur{Trypanosoma brucei.}

PROCHÁZKOVÁ, Michaela

January 2010

Localization and characterization of putative mitochondrial methzltransferase acc. No.: Tb10.6k15.0440 in Trypanosoma brucei was performed. Employed molecular methods included immunofluorescence, sub-cellular fractionation and tandem affinity purification. Protein was overexpressed in an E. coli expression system, using an in-fusion expression vector pOPINM with maltose binding protei (MBP) tag.

Nouveaux acteurs à l'interface de la transcription et de la réparation / New players at the interface between transcription and DNA repair

Zhovmer, Alexander

28 September 2012

Les résultats du criblage siRNA destiné à identifier de nouveaux acteurs de la NER, sont en court d’exploitation mais nous mettons déjà en évidence le rôle de certains gènes impliqués dans la biochimie des ARNm comme ceux empêchant la formation des hybrides ARN/ADN dans l’efficacité de réparation des lésions UV. En étudiant le rôle de la methyltransférase DOT1L, nous avons montré que son absence dans des fibroblastes embryonnaires de souris (MEFDOT1L) conduit à une sensibilité de ces cellules aux irradiations UV alors que la réparation des lésions produites par cette irradiation est intacte. L’absence de DOT1L conduit en réalité à une inhibition de l’initiation de la transcription des gènes après irradiation. Au niveau mécanistique, des expériences de STRIP-FRAP ont établit que DOT1L assurait l’association de l'ARN polymérase II à la chromatine après irradiation UV. Dans une analyse plus détaillée, nous avons montré que DOT1L favorisait la formation du complexe de pré-initiation au niveau du promoteur des gènes de ménage ainsi que l'apparition de marques d’euchromatine transcriptionnellement actives. Bien que l'expression des gène de ménage soit inhibée, une analyse transcriptomique montre que les gènes pro-apoptotiques sont fortement transactivés chez les MEFDOT1L après irradiation. Le traitement à la trichostatine A, qui relaxe la chromatine, diminue la transactivation des gènes apoptotiques et restore l’initiation de la transcription et la survie aux UV. Sur la base de ces données, nous proposons que DOT1L garde structure de la chromatine ouverte après UV. / As a result of siRNA screening we identified new players at the interface between NER machinery and chromatin. Despite it is ongoing study we already highlighted that certain genes which are involved in the biochemistry of mRNA such as splicing and preventing the formation of RNA:DNA hybrids are important for efficient repair of UV damage. Studying the role of histone H3 lysine 79 methyltransferase DOT1L, we have shown that its absence in mouse embryonic fibroblasts leads to high sensitivity of these cells to UV irradiation while the repair of lesions produced by UV irradiation remains intact. The absence of DOT1L leads to an inhibition of the initiation of gene transcription after UV irradiation. At the mechanistic level, STRIP-FRAP experiments have established that DOT1L assured the association of RNA polymerase II to the chromatin after UV irradiation. In a more detailed analysis, we show that DOT1L favors the formation of pre-initiation complex at the promoter of housekeeping genes as well as the appearance of marks of the transcriptionally active euchromatin. Although the expression of the housekeeping gene is inhibited, a transcriptomic analysis shows that the proapoptotic genes are highly transactivated in DOT1L depleted cells after UV irradiation. Treatment with trichostatin A, which relaxes the chromatin, lowers the transactivation of proapoptotic genes and restores the transcription initiation as well as cell survival after UV. On the basis of these data, we propose that DOT1L keeps the opened chromatin structure after UV irradiation.

Methyltransférase

DOT1L

DDR

NER

Chromatine

Methyltransferase

DOT1L

DDR

NER

Chromatin

572.8

Efeito do exercício físico sobre marcadores epigenéticos em córtex pré-frontal de ratos wistar durante o processo de envelhecimento

Cechinel, Laura Reck

January 2016

Ao longo dos últimos anos observou-se um aumento no número de idosos no mundo, com isso faz-se necessário buscar terapias que amenizem os danos relacionados e também elucidar os mecanismos envolvidos neste processo. O exercício físico tem sido sugerido como uma ferramenta importante, não farmacológica, para atenuar os déficits relacionados à idade. Ainda, estudos recentes sugerem uma relação entre o processo de envelhecimento cerebral e o desequilíbrio de mecanismos epigenéticos, contudo, estes dados ainda não são conclusivos. Sabe-se que o grau de neuroplasticidade varia com a idade e que as estruturas encefálicas podem responder diferentemente à exposição ao exercício. Estudos demonstram que o córtex pré-frontal está envolvido em funções de alta ordem como atenção, tomada de decisão e memória de trabalho. Portanto, o objetivo deste trabalho foi avaliar os efeitos de diferentes protocolos de exercício físico (sessão única e exercício diário moderado) sobre a modulação de marcadores epigenéticos em córtex pré-frontal de ratos Wistar de 3 e 21 meses de idade. Os animais foram submetidos ao protocolo de sessão única (20 minutos) ou o exercício diário moderado (20 minutos durante 14 dias), 1 hora após a última sessão foram eutanasiados. O córtex pré-frontal foi dissecado e a acetilação da H4, o conteúdo da DNA metiltransferase (DNMT1 e DNMT3b), assim como a atividade da histona metiltransferase H3K27 foram analisadas. Os resultados serão apresentados na versão completa desta dissertação. / Over the past few years the number of elderly people has increased in the world, therefore it is necessary to search therapies that ameliorate age-related deficits as well as elucidate the mechanisms involved in this process. Physical exercise has been suggested as an important non-pharmacological approach to alleviate the age-related decline. Furthermore, recent studies have suggested a relationship between the process of brain aging and imbalance of epigenetic mechanisms, however, these data are not conclusive. It is well described that prefrontal cortex is involved in higher functions like attention, decision making and working memory. Then, the aim of this study was to investigate the effects of two exercise protocols (single session and daily moderate exercise) on the modulation of epigenetic markers in the prefrontal cortex from Wistar rats of 3- and 21- months-old. Animals were submitted to single session protocol (20 minutes) or the daily moderate exercise (20 minutes for 14 days), and 1hour after the last exercise session animals were euthanized. Prefrontal cortex was dissected out and acetylation of H4, the content of DNA methyl transferase (DNMT1 and DNMT3B), as well as histone methyltransferase H3K27 activity were analyzed. Results will be presented in the full version.

Exercício físico

Córtex cerebral

Biomarcadores

Envelhecimento

Epigenética

Aging

Cortex

Treadmill exercise

Histone acetylation

DNA methyltransferase

Méthyltransférases des filovirus et autres mononégavirus : caractérisation, originalités et drug design / Filovirus and other mononegavirus methyltransferases : characterization, originalities and drug design

Martin, Baptiste

10 November 2017

Les virus appartenant à l’ordre des Mononegavirales possèdent une « large » protéine L, responsable du cycle réplication/transcription et de maturation des ARNs. Six domaines conservés portent les différentes activités de cette protéine dont le site catalytique d’une activité méthyltransférase (MTase) de la coiffe. La coiffe est une structure chimique constituée d’une guanosine méthylée en position N7 reliée à l’extrémité 5’ des ARNm par une liaison 5’-5’ triphosphate. Une seconde méthylation est également présente en position 2’O du ribose du premier nucléotide de l’extrémité 5’ de l’ARNm. Ces méthylations ont un rôle critique chez les virus car elles permettent la traduction efficace des ARNm mais permettent également aux ARNs viraux d’échapper à leur détection par l’immunité innée de l’hôte. Ainsi, la caractérisation de ce domaine chez le virus Ebola serait un point clé pour une meilleure compréhension de la réplication des filovirus et un pas vers l’élaboration d’une nouvelle stratégie thérapeutique. Nous avons donc produit le domaine MTase du virus Soudan (SUDV) afin de caractériser son activité. Il a été démontré que le domaine C-terminal de la protéine L joue un rôle dans le recrutement de l’ARN, crucial pour l’activité MTase. Nous avons pu identifier une activité A-2’O MTase interne originale. Le domaine MTase de SUDV est également capable de méthyler les positions N7 et 2’O de la coiffe mais une caractérisation plus approfondie est nécessaire. Enfin, nous avons identifié des molécules inhibant l’activité MTase des filovirus. Une analyse biochimique plus poussée permettra d’initier le développement d’une nouvelle stratégie antivirale contre le virus Ebola. / In the Mononegavirales order, viruses encode a large protein (L), which is responsible for replication/transcription and RNA modifications. This protein harbours six conserved domains accountable of these different activities. Among these domains, the conserved region VI (CRVI) has been predicted to support cap-methyltransferase (MTase) activity. The cap consists in a N7-methylated guanosine linked to the first nucleotide at the mRNA 5'-end by a 5'-5' triphosphate bond. This structure can also be methylated at the 2'O position of N1 ribose. These methylations play a critical role in virus life cycle as N7 methylation triggers efficient viral RNA translation and 2'O methylation hampers the detection of viral RNA by the host innate immunity. Thus, the characterization of this domain in Ebola virus is a key point to understand replication of mononegaviruses and design new antiviral strategies. We produced the MTase domain of Sudan ebolavirus (SUDV) to characterize its MTase activity. We demonstrated that the protruding C-terminal domain is essential for MTase activity as this domain is a key for the RNA recognition. Using synthetic short RNAs holding different cap structures, we discovered that SUDV MTase harbours an unconventional A-2’O MTase activity. Besides this, the MTase domain is able to methylate the cap structure at N7 and 2'O positions but further characterization would be necessary to fully understand the cap synthesis. Finally, we identified compounds limiting the Ebola virus MTase activity. Further biochemistry and compounds characterization results will thus pave the way towards the development of an innovative antiviral strategy.

Méthyltransférase

Antiviraux

Filovirus

Mononegavirales

Ebola

Coiffe

Methyltransferase

Antiviral

Filovirus

Mononegavirales

Ebola

Capping

Efeito do exercício físico sobre marcadores epigenéticos em córtex pré-frontal de ratos wistar durante o processo de envelhecimento

Cechinel, Laura Reck

January 2016

Ao longo dos últimos anos observou-se um aumento no número de idosos no mundo, com isso faz-se necessário buscar terapias que amenizem os danos relacionados e também elucidar os mecanismos envolvidos neste processo. O exercício físico tem sido sugerido como uma ferramenta importante, não farmacológica, para atenuar os déficits relacionados à idade. Ainda, estudos recentes sugerem uma relação entre o processo de envelhecimento cerebral e o desequilíbrio de mecanismos epigenéticos, contudo, estes dados ainda não são conclusivos. Sabe-se que o grau de neuroplasticidade varia com a idade e que as estruturas encefálicas podem responder diferentemente à exposição ao exercício. Estudos demonstram que o córtex pré-frontal está envolvido em funções de alta ordem como atenção, tomada de decisão e memória de trabalho. Portanto, o objetivo deste trabalho foi avaliar os efeitos de diferentes protocolos de exercício físico (sessão única e exercício diário moderado) sobre a modulação de marcadores epigenéticos em córtex pré-frontal de ratos Wistar de 3 e 21 meses de idade. Os animais foram submetidos ao protocolo de sessão única (20 minutos) ou o exercício diário moderado (20 minutos durante 14 dias), 1 hora após a última sessão foram eutanasiados. O córtex pré-frontal foi dissecado e a acetilação da H4, o conteúdo da DNA metiltransferase (DNMT1 e DNMT3b), assim como a atividade da histona metiltransferase H3K27 foram analisadas. Os resultados serão apresentados na versão completa desta dissertação. / Over the past few years the number of elderly people has increased in the world, therefore it is necessary to search therapies that ameliorate age-related deficits as well as elucidate the mechanisms involved in this process. Physical exercise has been suggested as an important non-pharmacological approach to alleviate the age-related decline. Furthermore, recent studies have suggested a relationship between the process of brain aging and imbalance of epigenetic mechanisms, however, these data are not conclusive. It is well described that prefrontal cortex is involved in higher functions like attention, decision making and working memory. Then, the aim of this study was to investigate the effects of two exercise protocols (single session and daily moderate exercise) on the modulation of epigenetic markers in the prefrontal cortex from Wistar rats of 3- and 21- months-old. Animals were submitted to single session protocol (20 minutes) or the daily moderate exercise (20 minutes for 14 days), and 1hour after the last exercise session animals were euthanized. Prefrontal cortex was dissected out and acetylation of H4, the content of DNA methyl transferase (DNMT1 and DNMT3B), as well as histone methyltransferase H3K27 activity were analyzed. Results will be presented in the full version.

Exercício físico

Córtex cerebral

Biomarcadores

Envelhecimento

Epigenética

Aging

Cortex

Treadmill exercise

Histone acetylation

DNA methyltransferase

Estudo da periodontite crônica e da exposição de LPS de P. Gingivalis a fibroblastos gengivais e queratinócitos, na modulação da expressão de genes reguladores de eventos epigenéticos / Study of chronic periodontitis and exposure of P gingivalis LPS to gingival fibroblasts and keratinocytes, in the gene expression modulation of the enzymes that promotes epigenetic events

Camargo, Gláucia de 1985-

20 August 2018

Orientador: Marcelo Rocha Marques / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Odontologia de Piracicaba. / Made available in DSpace on 2018-08-20T06:47:39Z (GMT). No. of bitstreams: 1 Camargo_Glauciade1985-_M.pdf: 1041410 bytes, checksum: aba09e2e49414c9f9f0be4938f591a70 (MD5) Previous issue date: 2012 / Resumo: A periodontite crônica é uma doença inflamatória que leva à perda de inserção de elementos dentários, e é desencadeada e mantida por um biofilme subgengival periodontopatogênico. A presença de alguns tipos de lipopolissacarídeos (LPS), derivados de bactérias no sítio periodontal doente, pode iniciar uma sinalização por meio das células do tecido gengival, que culminará com um microambiente com diferentes células do sistema imune e com uma alteração no padrão de expressão de citocinas inflamatórias. Já foi evidenciado que no tecido gengival de pacientes com periodontite crônica, genes que codificam receptores celulares para o LPS, podem sofrer alterações epigenéticas. O objetivo deste estudo foi avaliar se a periodontite crônica e o LPS bacteriano derivado de P. gingivalis podem modular a expressão gênica de alguns fatores reguladores de eventos epigenéticos. Biópsias de tecido gengival inflamado e sem inflamação foram coleados de pacientes com periodontite crônica e de pacientes saudáveis respectivamente, o RNA total foi extraído e a expressão dos genes DNMT1 (DNA metiltransferase 1), DNAMT3a (DNA metiltransferase 3a), histona demetilase JMJD3 e histona demetilase UTX foram analisadas por meio de RT-PCR quantitativo. Fibroblastos gengivais humanos derivados de cultura primária, e queratinócitos (HaCaT) foram expostos a LPS de P. gingivalis ou ao veículo do LPS, e foram avaliadas a viabilidade celular por meio do teste MTT e a expressão gênica de DNMT1, DNMT3a, JMJD3 e UTX por meio de RT-PCR quantitativo. As análises dos resultados demonstraram que nem a periodontite e nem o LPS exposto a fibroblastos gengivais foram capazes de modular a expressão dos genes estudados. Contudo, o LPS promoveu a diminuição da expressão de DNMT1, DNMT3a e JMJD3 nas células HaCaT. Pode-se concluir que LPS derivado P. gingivalis pode modular, em queratinócitos, a expressão gênica de algumas enzimas promotoras de eventos epigenéticos / Abstract: The aim of this study was to assess whether P. gingivalis LPS can modulate, in culture of the human keratinocytes and human gingival fibroblasts, gene expression levels of the some enzymes that promote epigenetic events. In addition, the same enzymes were evaluated in sample from healthy and periodontitis affected individuals. Primary gingival fibroblast culture and keratinocytes (HaCaT) were treated with medium containing P. gingivalis LPS or P. gingivalis LPS vehicle for 24hs. After this period, cell viability were assessed by MTT test, and total RNA were extracted to evaluate gene expression levels of the enzymes: DNMT1 (DNA methyltransferase 1), DNMT3a (DNA methyltransferase 3a), histone demethylases JMJD3 and UTX, by qRT-PCR. To evaluate the gene expression in healthy and periodontitis affected individuals, total RNA was extracted from biopsies of gingival tissue from sites with (periodontitis) or without periodontitis (healthy), and gene expression of DNMT1, DNAMT3a, JMJD3 and UTX were evaluated by qRT-PCR. No significant differences were found in the gene expression analysis between healthy gingival tissues and gingival tissue from periodontitis sites. The results showed that LPS downregulated DNMT1 (p<0.05), DNMT3a (p<0.05) and JMJD3 (p<0.01) gene expression in HaCaT cells, but no modulation was found to gingival fibroblasts. P. gingivalis LPS exposure to keratinocytes, downregulates gene expression of the enzymes that promote epigenetic events / Mestrado / Histologia e Embriologia / Mestre em Biologia Buco-Dental

Expressão genetica

DNA (Citosina-5-) Metiltransferase

Epigênese genética

Gene expression

DNA (Cytosine-5-)-Methyltransferase

Epigenesis, Genetic