Estudo da expressão imunohistoquímica de SO2, FGF-10 e WNT-1 em lesões odontogênicas epiteliais benignas

Nascimento, Marcelo Anderson Barbosa

02 February 2018

Submitted by Automação e Estatística (sst@bczm.ufrn.br) on 2018-07-26T17:29:42Z No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) / Approved for entry into archive by Arlan Eloi Leite Silva (eloihistoriador@yahoo.com.br) on 2018-07-27T19:29:57Z (GMT) No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) / Made available in DSpace on 2018-07-27T19:29:57Z (GMT). No. of bitstreams: 1 MarceloAndersonBarbosaNascimento_TESE.pdf: 2038745 bytes, checksum: 1d85461112edc92cb7035c7e72456c87 (MD5) Previous issue date: 2018-02-02 / Conselho Nacional de Desenvolvimento Científico e Tecnológico - CNPq / Os dentes desenvolvem-se a partir de interações sequenciais entre o epitélio e o mesênquima derivado da crista neural em diferentes estágios de histodiferenciação e morfodiferenciação. Ao final da odontogênese, espera-se que as estruturas que participaram da formação destes tecidos desapareçam ou permaneçam quiescentes. Não é incomum que os remanescentes epiteliais da odontogênese originem lesões, como cistos e tumores odontogênicos. No desenvolvimento dentário precoce, a manutenção das células-tronco é regulada por uma série de fatores de transcrição específicos, que inclui OCT-4, SOX-2, Nanog, Stat-3 e c-Myc e diversos outros genes Homeobox e vias de transcrição (SHH, Wnt/β-catenina, FGF, BMP) contribuem para o destino e diferenciação celular. No entanto, há a participação destes genes e vias na patogênese de vários tipos de tumores. O objetivo do presente estudo foi avaliar a imunoexpressão de SOX2, FGF-10 e Wnt-1 em uma série de casos de lesões odontogênicas e alguns espécimes de germes dentários. A amostra consistiu de 20 Ceratocistos Odontogênicos (CO), 20 Ameloblastomas sólidos (AM), 20 Tumores odontogênicos adenomatoides (TOA), 10 Tumores odontogênico epitelial calcificante (TOEC) e 05 casos de germes dentários usados comparativamente. A imunoexpressão foi avaliada de acordo com o percentual de células epiteliais imunomarcadas e intensidade de células positivas resultando na pontuação de imunomarcação total (PIT) que variou de 0 a 7. A análise da imunoexpressão da SOX2 revelou positividade na maioria dos casos das lesões estudadas. A pontuação de imunomarcação para SOX2 revelou haver diferença estatisticamente significativa entre os grupos de lesões estudadas, com maior frequência em CO e TOEC (p <0,001). Após o pareamento, observou-se diferença significativa entre AM e CO, AM e TOEC, CO e TOA, CO e TOEC e, TOA e TOEC (p <0,05). A análise da imunoexpressão da FGF-10 e Wnt-1 revelou positividade em todos os casos das lesões estudadas, mas sem diferença estatisticamente significativa entre os grupos de lesões estudadas (p = 0,628). Houve diferença significativa em relação aos escores de positividade para Wnt-1 (p <0,001) com maior frequência em CO e TOA. Após o pareamento, observou-se existir diferença estatisticamente significativa entre AM e CO, AM e TOEC, CO e TOEC e, TOA e TOEC (p <0,05). O padrão de expressão de SOX2, FGF-10 e Wnt-1, em germes dentários e nas lesões odontogênicas aqui avaliadas, confirma a participação destas vias na odontogênese e também no desenvolvimento das lesões odontogênicas. / Dental development occurs from sequential interactions between the epithelium and the mesenchyme derived from the neural crest at different stages of histodifferentiation and morphodifferentiation. At the end of tooth development, the structures that participated in the formation of these tissues are expected to disappear or remain quiescent. It is not uncommon that the epithelial remnants of the tooth development originate lesions such as odontogenic cysts and tumors. In early tooth development, stem cell maintenance is regulated by specific transcription factors, which includes OCT-4, SOX-2, Nanog, Stat-3 and c-Myc and several other Homeobox genes and transcription pathways (SHH, Wnt/β-catenin, FGF, BMP) contribute to cell fate and differentiation. However, there is involvement of these genes and pathways in the pathogenesis of several types of tumors. The aim of the present study was to evaluate the immunoexpression of SOX2, FGF-10 and Wnt-1 in a case series of odontogenic lesions and some specimens of dental germs. The sample consisted of 20 Odontogenic Keratocysts (OK), 20 solid ameloblastomas (AM), 20 adenomatoid odontogenic tumors (AOT), 10 calcifying epithelial odontogenic tumors (CEOT) and 5 dental gerns for comparison. Immunoexpression was evaluated according to the percentage of immunostained epithelial cells and intensity of the positive cells resulting in total immunostaining score (PIT) ranging from 0 to 7. The analysis of SOX2 immunoexpression revealed positivity in most cases of the lesions studied. The immunostaining score for SOX2 revealed a statistically significant difference between the groups of lesions studied, with a higher frequency in OK and CEOT (p < 0.001). After pairing, we observed a significant difference between AM and OK, AM and CEOT, OK and AOT, OK and CEOT, and AOT and CEOT (p <0.05). Analysis of the FGF-10 and Wnt-1 immunoexpression revealed positivity in all cases of the lesions studied, with no statistically significant difference between the groups of lesions studied (p = 0.628). There was a significant difference in relation to the positivity scores for Wnt-1 (p <0.001) with higher frequency in OK and AOT. After pairing, there was a statistically significant difference between AM and OK, AM and CEOT, OK and CEOT and, AOT and CEOT (p <0.05). The expression pattern of SOX2, FGF-10 and Wnt-1 in dental germs and odontogenic lesions evaluated here confirms the participation of these pathways in the tooth development as well as in the development of odontogenic lesions.

CNPQ::CIENCIAS DA SAUDE: PATOLOGIA ORAL

Células-tronco

Imunohistoquímica

SOX2

FGF10

Wnt-1

The control of Schwann cell myelination during development and after nerve injury

Roberts, Sheridan

January 2016

Schwann cells are the principal glial cell of the peripheral nervous system and are responsible for axon maintenance, regeneration and increasing saltatory conduction of neurons. Schwann cell differentiation and myelination is mediated by a core network of transcription factors and signalling pathways, which have been divided into two groups; positive and negative regulators. Sox10, NFATc4, Oct6, Krox20 and the ERK 1/2 signalling pathway have been characterised as positive regulators of Schwann cell differentiation and myelination; with Sox10 and Krox20 also playing critical roles in myelin maintenance. On the other hand, transcription factors cJun, Pax3, Id2 and signalling pathways Notch and p38 mitogen activated protein (MAP) kinases (MAPK) have been identified as negative regulators of Schwann cell differentiation and myelin formation. Recently, the HMG transcription factor Sox2 was identified as a negative regulator of Schwann cell myelination in vitro, however its role in Schwann cell myelination in vivo has not yet been studied. This study therefore aimed to examine the role of Sox2 overexpression in Schwann cells and how it effects Schwann cell differentiation and myelination during development and after injury. In addition, we aimed to investigate for the first time the specific role of p38α (the major isoform of p38 MAPK) in Schwann cell myelination in vivo, by generating Schwann cell specific p38α conditional knockout mice. Sox2 is highly expressed in immature Schwann cells, but is downregulated as Schwann cells being to mature and differentiate. This study shows that continued expression of Sox2 during development and after injury, impairs Schwann cell differentiation and myelination by directly downregulating the expression of two core transcription factors; Sox10 and Krox20, as well as myelin proteins, P0 and MBP. In addition, we observe that continued Sox2 expression significantly increases Schwann cell proliferation and maintains Schwann cells in an immature state. Unexpectedly, we also observed that continued Sox2 expression significantly increases the number of macrophages present in the nerves of Sox2 overexpressing mice at both P60 and 21 days post injury. Phenotypically, Sox2 overexpressing mice 6 show signs of a peripheral neuropathy and animals have impaired motor and sensory function. These findings confirm that Sox2 is a negative regulator of Schwann cell myelination and suggests that continued Sox2 expression is sufficient to drive the progressive development of a peripheral nerve disorder which may resemble Charcot-Marie-Tooth type 1 demyelinating neuropathy and congenital hypomyelinating neuropathy. As a negative regulator of Schwann cell myelination, activity of the p38 MAPK pathway has been shown to inhibit myelin formation in vitro and to also induce the Schwann cell injury response; by driving Schwann cell dedifferentiation and demyelination following injury. Here we show that specific removal of the p38α isoform in Schwann cells leads to an increase in myelin thickness at early developmental time-points, along with an elevated expression of myelin proteins, P0 and MBP. Further analysis following nerve injury revealed that removal of p38α results in an initial decrease in Schwann cell demyelination, yet improves axon remyelination at 21 days post injury. These results demonstrate the specific role of p38α in regulating Schwann cell myelination, and how it could be a direct therapeutic target for improving nerve repair after injury.

612.8

Structural and functional investigation of cargo recognition by exportins

Aksu, Metin

17 November 2015

No description available.

570

Nucleocytoplasmic transport

Exportin 4

eIF5A

Sox2

Exportin 7

Structural biology

Proteomics

Biologie (PPN619462639)

Regulation of nAChRs and Stemness by Nicotine and E-cigarettes in NSCLC

Schaal, Courtney

21 August 2016

Lung cancer is the leading cause of cancer-related death in both men and women, nationally and internationally and kills more people each year than breast, prostate, and colon cancers combined. Non-small cell lung carcinoma (NSCLC) is the most common histological subtype of lung cancer, and accounts for 85% of all cases. Cigarette smoking is the single greatest risk factor for lung cancer, and is correlated with 80-90% of all lung cancer deaths. Nicotine, the addictive component of tobacco smoke, is not a carcinogen and cannot initiate tumors itself; however, it is known to act as a tumor promoter, by enhancing the proliferation, migration, and invasion of cells in vitro, thus accelerating tumor growth and metastasis in vivo. Nicotine exerts is tumor promoting effects primarily by binding to, and activation of, nicotinic acetylcholine receptors (nAChRs), specifically the α7 subunit of nAChRs. While α7 nAChR is expressed in a wide array of cells, how its expression is regulated is not fully understood. Here we sought to elucidate the transcriptional regulation of α7 nAChR in NSCLC cells. We report that α7 nAChR expression is induced by nicotine in an autoregulatory feedforward loop, and that the α7 gene promoter is differentially regulated by E2F1 and STAT1 transcription factors at an overlapping binding site suggesting a competitive interplay. Depletion of E2F1 resulted in a reduced ability of nicotine to induce α7 nAChR, while depletion of STAT1 resulted in enhanced induction, suggesting that nicotine might use these two transcription factors to modulate the expression of α7 nAChR in a very precise fashion. More recently, nicotine has been implicated in promoting self-renewal of stem-like side-population cells from lung cancers. Cancer stem-like cells have been implicated in tumor initiation as well as the maintenance, drug resistance, dormancy, recurrence, and metastasis of various tumor types. We had previously shown that the embryonic stem cell transcription factor, Sox2, is indispensable for self-renewal of stem-like cells from lung adenocarcinoma cell lines; hence we sought to determine whether nicotine enhances stemness of lung cancer stem-like cells through Sox2. We find that nicotine can induce the expression of Sox2 at the transcriptional level and this occurs through a nAChR-Src-Yap1-E2F1 signaling axis. Over recent years, electronic cigarettes (e-cigarettes) have emerged as healthy alternatives to traditional cigarette smoking as they do not contain tobacco; however, they do still contain nicotine. Our studies show that e-cigarette components can enhance tumor promoting properties of NSCLC cells similar to that observed with nicotine alone, and find that they can induce expression of Sox2 and mesenchymal markers as well as enhance migration and stemness of NSCLC cells. Taken together, these studies reveal novel molecular mechanisms by which exposure to nicotine, via cigarette smoke or e-cigarettes, could alter the oncogenic potential of NSCLC cells.

Smoking-related lung cancer

Sox2

alpha7

E2F1

Yap1

Cell Biology

Molecular Biology

Oncology

Regulation of Neural Precursor Self-renewal via E2F3-dependent Transcriptional Control of EZH2

Pakenham, Catherine

January 2013

Our lab has recently found that E2F3, an essential cell cycle regulator, regulates the self-renewal capacity of neural precursor cells (NPCs) in the developing mouse brain. Chromatin immunoprecipitation (ChIP) and immunoblotting techniques revealed several E2F3 target genes, including the polycomb group (PcG) protein, EZH2. Further ChIP and immunoblotting techniques identified the neural stem cell self-renewal regulators p16INK4a and Sox2 as shared gene targets of E2F3 and PcG proteins, indicating that E2F3 and PcG proteins may co-regulate these target genes. E2f3-/- NPCs demonstrated dysregulated expression of EZH2, p16INK4a, and SOX2 and decreased enrichment of PcG proteins at target genes. Restoring EZH2 expression to E2f3+/+ levels restores p16INK4a and SOX2 expression levels to near E2f3+/+ levels, and also partially rescues NPC self-renewal capacity toward E2f3+/+ levels. Taken together, these results suggest that E2F3 controls NPC self-renewal by modulating expression of p16INK4a and SOX2 via regulation of PcG expression, and potentially PcG recruitment.

E2F3

EZH2

neural stem cells

neural precursor cells

p16

Sox2

Polycomb group proteins

Regulation of Neural Precursor Cell Fate by the E2f3a and E2f3b Transcription Factors

Julian, Lisa

January 2013

The classical cell cycle regulatory pathway is well appreciated as a key regulator of cell fate determination during neurogenesis; however, the extent of pRB/E2F function in neural stem and progenitor cells is not fully understood, and insight into the mechanisms underlying its connection with cell fate regulation are lacking. The E2F3 transcription factor has emerged as an important regulator of neural precursor cell (NPC) proliferation in the embryonic and adult forebrain, and we demonstrate here that it also influences the self-renewal potential of NPCs. Using knockout mouse models of individual E2F3 isoforms, we demonstrate the surprising result that the classical transcriptional activator E2F3a represses NPC self-renewal and promotes neuronal differentiation, while E2F3b promotes the expansion of the NPC pool and inhibits differentiation. We attribute these opposing activities to a unique mechanism of transcriptional regulation at the Sox2 locus, a key regulator of stem cell pluripotency, whereby E2F3a recruits transcriptional repressors to this site, and E2F3b promotes Sox2 activation. Importantly, E2F3a-mediated Sox2 regulation is necessary for cognitive function in the adult. Additionally, through the determination of genome-wide promoter binding sites for E2f3 isoforms as well as E2F4, another key regulator of NPC self-renewal, we determined that E2Fs are poised to regulate an extensive set of target genes with key roles in regulating diverse cell fate choices in NPCs, including self-renewal, cell death, progenitor expansion, maintenance of the precursor state, and differentiation. Together, these results reveal a diversity of function for E2Fs in the control of neural precursor cell fate, and identify E2F3 isoforms as important regulators of the pluripotency and stem cell maintenance gene Sox2.

Neural stem cell

E2f

Transcription

Sox2

Neurogenesis

Gene regulation

Brain development

Regulation and Expression of Nanog, Oct4, and Sox2 in the Bovine Blastocyst following Somatic Cell Nuclear Transfer

Hall, Justin Scott

01 May 2013

A live birth from a somatic cell nuclear transfer (SCNT) embryo represents a small percentage of donor cells that survived the reprogramming gauntlet. The inability to reprogram histone modifications in the donor cell line could add to the reprogramming deficiencies associated with SCNT. The effects of two histone modifications associated with transcriptional activation (H3K4m3 and H4K16ac) and two histone modifications associated with repressing transcription (H3K9m2 and H3K27me3) were evaluated in the context of their association to three genes known to contribute to maintaining totipotency: Nanog, Oct4, and Sox2. A µChIP assay was utilized using antibodies specific for each histone modification followed by real time PCR (qPCR) analysis to quantify the percentage of each gene associated with each particular histone modification. Gene expression analysis was followed by immunofluorescence and protein analysis. Results of these analyses suggest that gene association to certain histone modifications did not accurately predict gene expression in bovine blastocyst embryos. Of the three genes studied, only Oct4 expression differed significantly between in vitro fertilized (IVF; control) and SCNT blastocysts. Protein levels detected through immunofluorescence correlated directly with the gene expression analysis. Nanog and Sox2 expression profiles of IVF and SCNT bovine blastocysts are similar, yet the histone modification profiles associated with all three genes differ significantly. Altered expression levels in developmentally important genes will likely result in abnormal activity of the associated cellular pathway. Aberrant histone modifications, along with abnormal Oct4 expression, may contribute to the low percentage of SCNT embryos that result in live offspring.

Blastocyst

Bovine

Nanog

Nuclear Transfer

Oct4

Sox2

Animal Sciences

Dairy Science

Life Sciences

Antagonistic functions of USAG-1 and RUNX2 during tooth development. / 歯の発生におけるUSAG-1とRUNX2の拮抗作用

Togo, Yumiko

23 January 2017

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第20078号 / 医博第4171号 / 新制||医||1018(附属図書館) / 33194 / 京都大学大学院医学研究科医学専攻 / (主査)教授 妻木 範行, 教授 開 祐司, 教授 松田 秀一 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DFAM

Usag-1

Runx2

tooth development

lingual bud

490

Modeling esophageal development and disease in mice and in human pluripotent stem cell-derived organoids

Trisno, Stephen L.

January 2018

No description available.

Developmental Biology

esophagus

organoid

pluripotent stem cell

foregut

sox2

disease modeling

Ein Vergleich der Genexpression von humanem oralem periimplantärem Gewebe zwischen Krank und Gesund auf mRNA-Ebene in vivo. / A comparison of the gene expression of human oral peri-implant tissue between diseased and healthy at mRNA-level in vivo.

Schmitt, Simon

12 January 2017

Dentale Implantate sind heutzutage ein fester Bestandteil der modernen Zahnheilkunde. Durch die steigende Anzahl gesetzter Implantate steigt auch die absolute Zahl an Misserfolgen. Der Hauptgrund für den Verlust von Implantaten ist die Periimplantitis. Sie stellt eine Entzündung des Weich- und Hartgewebes um dentale Implantate dar, welche im ultimativen Stadium den Verlust der Integrität des Implantats zur Folge hat. Das Ziel dieser Arbeit soll es sein, einen Überblick über die Genexpression des entzündeten periimplantären Gewebe zu erlangen um so die Periimplantitis auf mikrobiologischer Ebene zu charakterisieren. Um das zu erreichen wurde umgebendes Gewebe von Implantaten mit Periimplantitis und von Implantaten ohne Periimplantitis von menschlichen Patienten gewonnen. Für die Ermittlung der Ergebnisse wurde die Microarray-Technik angewandt (Affymetrix Gene- Chip R Human Gene 1.0 ST Array) und um diese Ergebnisse zu validieren wurde die qPCR-Technik verwendet (real-time-PCR). Die Ergebnisse zeigen, dass klassische Entzündungsmarker wie IL-1, -8 und -6 sind in ihrer Expression stark erhöht. Die erhöhte Expression von CD24 zusammen mit weiteren Cluster of Differentiation und das Expressionsmuster der Interleukine zeigen, dass das unspezifische Immunsystem eine Hauptrolle bei der Entzündung um Implantate spielt. Makrophagen und Monozyten sind sehr wahrscheinlich die am stärksten vertretene Spezies von Abwehrzellen im von Periimplantitis betroffenen Gewebe. Marker für den Abbau von Gewebe, die MMPs-1, -12 und -13 sind in ihrer Expression erhöht, ihre Inhibitoren, die TIMPs sind in ihrer Expression erniedrigt. MMP-12 ist die Makrophagen spezifische Elastase und somit ein weiterer Indikator für die tragende Rolle von Makrophagen bei der Periimplantitis. Kollagen-3 ist das einzige Kollagen, welches den Ergebnissen dieser Arbeit zufolge in seiner Expression erhöht ist. Kollagen-3 findet sich neben Haut- und Muskelzellen in der Wand von Blutgefäßen. Transkriptions- und Wachstumsfaktoren wie RUNX2, SOX2 und FGF18 sind den Ergebnissen dieser Arbeit nach im entzündeten periimplantären Gewebe in ihrer Expression erniedrigt. Fazit: Anhand der Ergebnisse dieser Arbeit lässt sich die Periimplantitis als ein gut durchblutetes, granulationsgewebe-ähnliches-Gewebe mit einer herabgesetzten Kompetenz zur Regeneration charakterisieren. Das unspezifische Immunsystem ist Hauptakteur bei der Periimplantitis und die hauptsächlich anwesenden Immunzellen sind Makrophagen und Monocyten. Die Gewebehomöostase ist in Richtung Gewebeabbau verschoben.

610

Periimplantitis

in vivo

mRNA

human

Interleukin

MMPs

TIMPs

CD24

Makrophage

RUNX2

SOX2

FGF18

periimplantitis

in vivo

mRNA

human

interleukin

MMPs

TIMPs

CD24

macrophage

RUNX2

SOX2

FGF18