A new experimental model to study bone and cartilage formation using a bioengineering approach

Quintana Frigola, Lluís

19 June 2009

La medicina regenerativa és una disciplina que ha guanyat reconeixement en les últimes dècades pel fet que moltes malalties no són tractables amb fàrmacs convencionals. Molts grups de recerca i empreses inverteixen temps i diners en la producció de nous paradigmes per curar malalties com el Parkinson, l'artrosi o la regeneració de medul·la espinal. Aquestes propostes es basen en l'ús de teixits biomimètics per reparar òrgans danyats. En aquesta tesi es presenta un nou model experimental per estudiar la formació d'os i cartílag i eventualment la reparació d'aquests teixits. Hem utilitzat Fibroblasts Embriònics de Ratolí (MEFs) combinats amb diferents materials biomimètics per estudiar os i cartílag in vitro i in vivo. Aquests MEFs es van cultivar in vitro i in vivo en RAD16-I, un pèptid auto-ensamblable amb estructura similar a matrius extracel·lulars genèriques, amb l'objectiu d'estudiar l'evolució dels fibroblasts en aquestes dues condicions. També s'han recobert superficialment micropartícules de hidroxiapatita obtenint càrregues inorgàniques similars a l'os i biològicament actives per a utilitzar-les com a substituts d'os o cartílag. Amb la idea de millorar els recobriments superficials, hem desenvolupat una plataforma que permet dur a terme proves combinatòries amb factors de creixement i altres compostos biològicament actius. Cultius in vitro de MEFs han mostrat que quan fibroblasts embrionaris primaris de ratolí es cultiven en RAD16-I, estableixen una xarxa intercel·lular que causa una contracció cel·lular organitzada, proliferació i migració cel·lulars i culmina amb la formació d'una estructura bilateral i simètrica amb un eix central distingible. Durant aquest procés morfològic, augmenta l'expressió d'un grup de gens mesodèrmics (brachyury, Sox9, Sox5, Sox6, Runx2). L'expressió de brachyury està localitzada primer en l'eix de simetria central i després s'extén als dos costats de l'estructura. Per acabar, la formació espontània d'un teixit similar al del cartílag acompanya l'expressió de Sox9 i Runx2.L'estudi in vivo de MEFs es va fer gràcies a la tècnica de presa d'imatges no invasiva basada en bioluminiscència (BLI) que ha desenvolupat en el grup de recerca del dr. Jerónimo Blanco. Aquests experiments han mostrat que el RAD16-I és una matriu molt permissiva per a la supervivència i proliferació cel·lulars in vivo. A més, sembla que les pobres propietats mecàniques que té el RAD16-I no li suposen cap desavantatge en termes de creixement cel·lular in vivo. Finalment, hem desenvolupat diferents tipus de micropartícules de hidroxiapatita (HA) no recobertes, i recobertes mitjançant polimerització assistida per plasma. Els recobriments permeten afinar les propietats de la HA i produir partícules que satisfacin les necessitats de diferents aplicacions mèdiques en reparació d'os i cartílag. També hem desenvolupat un mètode per produir plataformes basades en plaques de 96 pous que permetin fer proves combinatòries amb compostos biològicament actius per vàries aplicacions en medicina regenerativa. En conclusió, hem aportat noves idees i eines que permetran trobar teixits regeneratius basats en l'ús de fibroblasts i materials biomimètics. / La medicina regenerativa es una disciplina que ha ganado reconocimiento en las últimas décadas porque muchas enfermedades no son tratables con fármacos convencionales. Muchos grupos de investigación y empresas invierten tiempo y dinero en la producción de nuevos paradigmas para curar enfermedades como el Parkinson, la artrosis o la regeneración de médula espinal. Estas propuestas se basan en el uso de tejidos biomiméticos para reparar órganos dañados. En esta tesis se presenta un nuevo modelo experimental para estudiar la formación de hueso y cartílago y tal vez la reparación de estos tejidos. Hemos utilizado Fibroblastos Embrionarios de Ratón (MEFs) combinados con diferentes materiales biomiméticos para estudiar hueso y cartílago in vitro e in vivo. Estos MEFs se cultivaron in vitro e in vivo en RAD16-I, un péptido auto-ensamblable con estructura similar a matrices extracelulares genéricas, con el objetivo de estudiar la evolución de los fibroblastos en estas dos condiciones. También se han recubierto superficialmente micropartículas de hidroxiapatita obteniendo cargas inorgánicas similares al hueso y biológicamente activas para utilizarlas como sustitutos de hueso o cartílago. Con la idea de mejorar los recubrimientos superficiales, hemos desarrollado una plataforma que permite llevar a cabo pruebas combinatorias con factores de crecimiento y otros compuestos biológicamente activos. Cultivos in vitro de MEFs han mostrado que cuando fibroblastos embrionarios primarios de ratón se cultivan en RAD16-I, establecen una red intercelular que causa una contracción celular organizada, proliferación y migración celulares y culmina con la formación de una estructura bilateral y simétrica con un eje central distinguible. Durante este proceso morfológico, aumenta la expresión de un grupo de genes mesodérmicos (brachyury, Sox9, Sox5, Sox6, Runx2). La expresión de brachyury está localizada primero en el eje de simetría central y después se extiende a los dos lados de la estructura. Para terminar, la formación espontánea de un tejido similar al del cartílago acompaña a la expresión de Sox9 y Runx2.El estudio in vivo de MEFs se hizo gracias a la técnica de toma de imágenes no invasiva basada en bioluminiscencia (BLI) que han desarrollado en el grupo de investigación del dr. Jerónimo Blanco. Estos experimentos han mostrado que el RAD16-I es una matriz muy permisiva para a la supervivencia y proliferación celulares in vivo. Además, parece que las pobres propiedades mecánicas que tiene el RAD16-I no le suponen ninguna desventaja en términos de crecimiento celular in vivo. Finalmente, hemos desarrollado diferentes tipos de micropartículas de hidroxiapatita (HA) no recubiertas, y recubiertas mediante polimerización asistida por plasma. Los recubrimientos permiten afinar las propiedades de la HA y producir partículas que satisfagan las necesidades de diferentes aplicaciones médicas en reparación de hueso y cartílago. También hemos desarrollado un método para producir plataformas basadas en placas de 96 pozos que permitan hacer pruebas combinatorias con compuestos biológicamente activos para varias aplicaciones en medicina regenerativa. En conclusión, hemos aportado nuevas ideas y herramientas que permitirán hallar tejidos regenerativos basados en el uso de fibroblastos y materiales biomiméticos. / Regenerative medicine is a discipline that has gained recognition in the last decades because many diseases are not treatable with traditional drugs. Many research groups and companies invest time and money in the production of new paradigms to cure conditions such as Parkinson's, arthrosis or spinal cord injuries. These approaches are based in the use of biomimetic tissues to replace damaged organs. In this work we present a new experimental model to study the formation of bone and cartilage and eventually to repair these tissues. We have used Mouse Embryonic Fibroblasts (MEFs) combined with different biomimetic materials to study bone and cartilage formation in vitro and in vivo. MEFs have been cultured in vitro and in vivo in RAD16-I, a synthetic self-assembling peptide with structure similar to generic extracellular matrix milieu, to study the evolution of these fibroblasts in both conditions. Also, hydroxyapatite microparticles have been surface coated to produce biologically active bone-like inorganic charges for use in cartilage or bone substitutes. In order to improve the particles' coatings, we have developed a platform that allows us to perform combinatorial testing of growth factors and other biologically active compounds. In vitro cultures of MEFs has shown that when primary mouse embryonic fibroblasts are cultured in a soft nanofiber scaffold, they establish a cellular network that causes an organized cell contraction, proliferation, and migration that ends in the formation of a symmetrically bilateral structure with a distinct central axis. A subset of mesodermal genes (brachyury, Sox9, Sox5, Sox6, Runx2) is upregulated during this morphogenetic process. The expression of brachyury was localized first at the central axis, extending then to both sides of the structure. The spontaneous formation of cartilage-like tissue mainly at the paraxial zone followed the expression of Sox9 and Runx2.In vivo study of MEFs was facilitated by a non-invasive bioluminescence imaging (BLI) technique to detect luciferase-expressing cells, developed by Dr. Blanco's research group. These experiments showed that RAD16-I is a very permissive scaffold for cell survival and proliferation in vivo. Furthermore, it seems that the poor mechanical properties of RAD16-I are no disadvantage in terms of cell growth in vivo.Finally, we have developed different types of coated and uncoated hydroxyapatite (HA) microparticles by plasma polymerization. The coatings permit to tune the properties of HA and produce particles that suit the needs of different medical applications in bone and cartilage repair. Moreover, we have developed a method to produce platforms based on 96-well plates that allow the combinatorial testing of biologically active compounds for various applications in regenerative medicine. In conclusion, we have supplied new insights and tools that will enhance the finding of new regenerative tissues based on fibroblasts and biomimetic materials.

luciferase

nanofiber scaffold

In vivo imaging

Sox9

cartilage-like tissue

Proteoglycans

Cellular self-organization

bioquímica combinatoria

polimerización por plasma

hidroxiapatita

luciferasa

nanofibra

matriz extracelular

In vivo imaging

proteoglicanos

Sox9

cartílago

Auto-organización celular

bioquímica combinatòria

polimerització per plasma

hidroxiapatita

luciferasa

nanofibra

In vivo imaging

matriu extracel·lular

Sox9

proteoglicans

cartílag

Auto-organització cel·lular

hydroxyapatite

plasma polymerization

combinatorial biochemistry

Química i Enginyeria Química

576

628

Mecanisme d'activació de fibronectina i LEF1 per Snail1 durant la transició epili-mesènquima

Agustí Benito, Cristina

28 May 2007

La transició Epiteli-Mesènquima es dóna durant el desenvolupament embrionari i en els estadis tardans de la progressió tumoral permetent que es produeixi la metàstasi. Aquestes transicions necessiten una repressió de l'E-Cadherina i es pot reproduir en cèl·lules en cultiu amb l'expressió ectòpica de Snail1, un repressor de l'E-Cadherina. Durant la transició produïda per Snail es produeix la ràpida activació de gens mesenquimals com Fibronectina i LEF1. L'expressió forçada d'E-Cadherina fa disminuir els nivells de RNA de Fibronectina i LEF1, indicant que en l'activació d'aquests dos gens està implicat un cofactor sensible a l'E-Cadherina. En concordança, la transcripció de Fibronectina i LEF1 és depenent de -Catenina i NFB. La sobreexpressió d'E-Cadherina inhibeix l'activitat transcripcional d'aquests dos factors i disminueix la seva interacció amb el promotor de Fibronectina. De manera similar a la -Catenina, NFB es detecta associat a l'E-Cadherina i altres components dels contactes intercel·lulars. Quan es trenquen les unions adherents, com quan es sobreexpressa Snail, la interacció E-Cadherina-NFB disminueix i augmenta l'activitat transcripcional de NFB i-Catenina. / Epithelial to mesenchymal transitions takes place during embryo development and in the late stages of tumorigenesis allowing metastasis formation. These transitions require E-Cadherin downregulation and can be reproduced in cell culture by ectopic expression of Snail1, an E-Cadherin gene repressor. During Snail-induced transition a rapid upregulation of mesenchymal genes such as Fibronectin and LEF1 has been characterized. Forced expression of E-Cadherin strongly down-regulates Fibronectin and LEF1 RNA levels, indicating that an E-Cadherin sensitive cofactor is involved in the activation of these genes. Accordingly, transcription of Fibronectin and LEF1 was dependent on -Catenin and NFB. E-Cadherin over-expression downregulated the transcriptional activity of both factors and decreased their interaction to Fibronectin promoter. Similarly to -Catenin, NFB was detected associated to E-Cadherin and other cell adhesion components. Association of NFB to E-Cadherin required the integrity of this complex; conditions that disrupts adherens junctions, such as Snail over-expression, decreased E-Cadherin-NFB interaction and up-regulates NFB and -Catenin transcriptional activity. Therefore, -Catenin and NFB transcriptional activities are required for expression of the studied mesenchymal genes and these activities are inactivated by immobilizing -Catenin and NFB to functional E-Cadherin structures.

Fibronectin

b-Catenin

E-Cadherin

SOX7

SOX9

Fibronectina

LEF1

NFB

-Catenina

E-Cadherina

Snail1

MET

EMT

575

576

Investigating the respective roles of SOX9 and PAR1 in pancreatic ductal adenocarcinoma initiation and immune evasion

Patrick G Schweickert (8793230)

04 May 2020

<div> <p>Pancreatic ductal adenocarcinoma (PDAC) is a poorly immune responsive, treatment refractory disease, representing the fourth leading cause of cancer deaths in the United States. A lack of significant improvements in patient prognoses over the last few decades highlights the necessity for a more basic understanding of how PDAC develops and progresses. To this end, the research outlined here investigates the contributions of SOX9 and PAR1 in PDAC initiation and tumor immune evasion, respectively. </p> <p>SOX9 is a developmental transcription factor important for proper pancreas development that is restricted to only a small subset of cells in the adult organ. However, SOX9 is aberrantly expressed in precancerous lesions of the pancreas and throughout PDAC development. Using genetically engineered mouse models we demonstrated that PDAC precursor lesions cannot form in the absence of SOX9 and conversely formed at an accelerated rate when SOX9 was ectopically expressed. Surprisingly deletion of SOX9 in primary mouse PDAC cell lines had no impact on tumor growth in subcutaneous allograft experiments, indicating that although SOX9 expression is necessary for PDAC initiation, it is dispensable in many cases for tumor maintenance and growth. Research investigating the transcriptional changes induced by SOX9 prior to lesion formation is ongoing to identify additional downstream factors critical for disease initiation. </p> <p>Previous research has shown that PDAC tumors frequently display low levels of immune infiltration, which is a major limitation for the use of immune-based therapeutics and is generally an unfavorable prognostic factor. We show that in primary mouse tumor cells ablation of the thrombin receptor PAR1 caused a significant increase in the infiltration of tumor targeting CD8a⁺T cells which in turn were found to eliminate PAR1 knockout tumors. When PAR1^KO and PAR1 expressing PDAC tumor cells were co-injected into wild type mice, cells lacking PAR1 were preferentially targeted and eliminated by the immune system, indicating that PAR1 provides cell autonomous protection during an active anti-tumor adaptive immune response. Furthermore, we identified a previously underappreciated association between PAR1-mediated expression of <i>Csf2</i> and <i>Ptgs2</i>, and PDAC tumor immune evasion. Together these findings provide novel insights into the mechanisms and drivers of PDAC initiation and immune evasion.</p> </div> <br>

Cell Biology

Immunology

Cancer

Cancer

PAR1

SOX9

RNA-Seq

Adaptive Immunity

PanIN

Pancreatic Ductal Adenocarcinoma

Pancreas

The effect of electric fields on hyaline cartilage: an in vitro and in silico study

Vaca González, Juan Jairo

02 May 2019

Tesis por compendio / [ES] El cartílago hialino es un tejido conectivo denso con poca capacidad de auto regeneración cuando es afectado por patologías degenerativas. Por lo tanto, la estimulación eléctrica se ha propuesto como una terapia alternativa no invasiva para mejorar la reparación del cartílago hialino. De acuerdo con esto, este trabajo presenta un enfoque computacional y experimental combinado para entender mejor la biología del cartílago hialino y su respuesta a la estimulación eléctrica usando diferentes modelos in vitro. En primer lugar, se ha desarrollado un modelo mecanobiológico para simular el proceso de osificación endocondral. Por otro lado, se ha evaluado el efecto de la estimulación eléctrica sobre el cartílago hialino en tres escenarios diferentes. Inicialmente se ha analizado la proliferación celular y la síntesis de glicosaminoglicanos de condrocitos cultivados en monocapa y estimulados con campos eléctricos. Luego, se ha realizado un análisis histomorfométrico a explantes de condroepífisis que fueron estimulados eléctricamente. Por último, se ha evaluado el efecto de los campos eléctricos sobre la diferenciación condrogénica de células madre mesenquimales cultivadas en hidrogeles. Los resultados indican que la estimulación eléctrica es un estímulo biofísico prometedor, ya que este tipo de estimulación mejora la viabilidad y la proliferación celular, induce cambios morfológicos en los condrocitos, y estimula la síntesis de las principales moléculas que componen el cartílago hialino, tales como SOX-9, glicosaminoglicanos y agrecan. Además, este proyecto es el primer paso hacia la implementación de un estímulo biofísico alternativo que modifica la dinámica celular de los condrocitos de la placa de crecimiento en condiciones ex vivo. Adicionalmente, este estudio resalta el efecto potencial de los campos eléctricos para inducir el proceso de condrogénesis de células madre mesenquimales cultivadas en condiciones basales. En general, la evaluación de la estimulación eléctrica sobre condrocitos, tejidos y andamios es una herramienta útil que puede contribuir al conocimiento actual de las terapias regenerativas enfocadas en la regeneración del cartílago hialino. / [CA] El cartílag hialí és un teixit connectiu dens amb poca capacitat d'auto regeneració quan es veu afectat per patologies degeneratives. Per tant, l'estimulació elèctrica s'ha proposat com una teràpia alternativa no invasiva per millorar la reparació del cartílag articular. D'acord amb això, aquest treball presenta un enfoc computacional i experimental combinat per entendre millor la biologia del cartílag hialí i la seva resposta a l'estimulació elèctrica usant diferents models in vitro. En primer lloc, s'ha desenvolupat un model mecanobiològic per simular el procés d'ossificació endocondral. D'altra banda, s'ha avaluat l'efecte de l'estimulació elèctrica sobre el cartílag hialí en tres escenaris diferents. Inicialment s'ha analitzat la proliferació cel·lular i la síntesi de glicosaminoglicans de condròcits cultivats en monocapa i estimulats amb camps elèctrics. Després, s'ha realitzat una anàlisi histomorfomètrica a explants de condroepífisis que van ser estimulats elèctricament. Finalment, s'ha avaluat l'efecte dels camps elèctrics sobre la diferenciació condrogénica de cèl·lules mare mesenquimals cultivades en hidrogels. Els resultats indiquen que l'estimulació elèctrica és un estímul biofîsic prometedor, ja que aquest tipus d'estimulació millora la viabilitat i la proliferació cel·lular, indueix canvis morfològics en els condròcits, i estimula la síntesi de les principals molècules que componen el cartílag hialí, com ara SOX-9, glicosaminoglicans i agrecan. A més, aquest projecte és el primer pas cap a la implementació d'un estímul biofísic alternatiu que modifica la dinàmica cel·lular dels condròcits de la placa de creixement en condicions ex vivo. Addicionalment, aquest estudi ressalta l'efecte potencial dels camps elèctrics per induir el procés de condrogènesi de cèl·lules mare mesenquimals cultivades en condicions basals. En general, l'avaluació de l'estimulació elèctrica sobre condròcits, teixits i scaffolds és una eina útil que pot contribuir al coneixement actual de les teràpies regeneratives enfocades a la regeneració del cartílag hialí. / [EN] Hyaline cartilage is a dense connective tissue with low self-healing capacity when is affected by degenerative pathologies. Therefore, electrical stimulation has been proposed as a possible non-invasive alternative therapy to enhance the restoration of the cartilaginous tissue. Accordingly, this work presents a combined computational and experimental approach to understand better the hyaline cartilage biology and its response to electrical stimulation using different in vitro models. On the one hand, a mechanobiological model was developed to simulate the endochondral ossification process. On the other hand, the electrical stimulation on hyaline cartilage was evaluated in three different scenarios. Initially, cell proliferation and glycosaminoglycans synthesis of chondrocytes, cultured in monolayer and stimulated with electric fields, was analyzed. Then, a histomorphometric analysis was performed to chondroepiphysis explants that were electrically stimulated. Finally, the effects of the electric fields on chondrogenic differentiation of mesenchymal stem cells cultured in hydrogels was assessed. The results indicated that electrical stimulation is a promising biophysical stimulus, due to the fact that this type of stimulation enhances the viability and the proliferation of cells, induces morphological changes in the chondrocytes, and stimulates the synthesis of the main molecules that compose the hyaline cartilage, such as SOX-9, glycosaminoglycans and aggrecan. Moreover, this project is the first step towards the implementation of an alternative biophysical stimulus that modifies the cellular dynamics of growth plate chondrocytes in ex vivo conditions. Additionally, this study highlights the potential effect of electric fields to induce the chondrogenesis process of mesenchymal stem cells cultured in basal conditions. Overall, the assessment of electrical stimulation on chondrocytes, tissues and scaffolds is a useful tool that may contribute to the current knowledge of regenerative therapies focused on hyaline cartilage healing. / To the financial support from COLCIENCIAS – COLFUTURO through the fellowship No. 647 for national doctorates. To the financial support from COLCIENCIAS through the research grant 712-2015 No. 50457. To the financial support from the Spanish Ministry of Economy and Competitiveness through the MAT2016-76039-C4-1-R project. / Vaca González, JJ. (2019). The effect of electric fields on hyaline cartilage: an in vitro and in silico study [Tesis doctoral]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/120023 / Compendio

Hyaline cartilage

Articular cartilage

Growth plate

Chondrocyte

Electric Field

Hydrogel

Hyaluronic acid

Gelatin

Glycosaminoglycan

Aggrecan

Sox9

Collagen type II

MAQUINAS Y MOTORES TERMICOS

Distúrbio do desenvolvimento sexual 46,XX testicular SRY negativo sindrômico devido à mutação missense no gene RSPO1: estudo clínico, molecular e histológico de grande família consanguínea brasileira / SRY-negative syndromic 46,XX testicular disorder of sex development due to missense homozygous RSPO1 mutation: clinical, molecular and histological study of a large consanguineous Brazilian family

Silva, Rosana Barbosa

22 October 2015

Nos mamíferos, a determinação sexual é governada pelo equilíbrio entre duas vias de sinalização paralelas e antagônicas: a via masculina SOX9/FGF9 e a via feminina RSPO1/beta-catenina/WNT4. A R-spondina 1 é uma importante reguladora do processo de diferenciação ovariana e atua modulando a via de sinalização Wnt canônica (Wnt/beta-catenina). Em humanos, mutações em RSPO1 causam uma rara síndrome genética autossômica recessiva caracterizada por Distúrbios do Desenvolvimento Sexual (DDS) 46,XX Testicular ou Ovotesticular, hiperceratose palmoplantar (HPP) e predisposição para o desenvolvimento de carcinoma de células escamosas (MIM 610644). Identificamos um paciente brasileiro, proveniente de uma grande família consanguínea, que apresentava a associação de HPP e DDS 46,XX Testicular SRY negativo. A avaliação da região codificadora do gene RSPO1 identificou a nova variante alélica c.305G>A (p.Cys102Tyr). O estudo de segregação realizado em 67 familiares demonstrou que a variante c.305G>A segrega em perfeita concordância com o fenótipo de HPP, exibindo um padrão de herança autossômico recessivo. Na família foram identificados 10 indivíduos afetados pelo fenótipo de HPP. As avaliações clínica e hormonal e os estudos molecular e citogenético nesses indivíduos resultou na caracterização de: (a) quatro indivíduos do sexo masculino 46,XX e/ou SRY negativo, com ambiguidade genital e perfil hormonal alterado; (b) cinco indivíduos do sexo masculino 46,XY e/ou SRY positivo, sem ambiguidade genital, com perfil hormonal normal e (c) uma mulher 46,XX, fértil. Experimentos de transfecção transitória in vitro demostraram que a proteína mutante tem menor capacidade de transativação do plasmídio reporter da via Wnt. As simulações de dinâmica molecular constataram que a troca p.Cys102Tyr aumenta a flexibilidade do backbone da R-spondina-1, diminuindo a energia de ligação da proteína ao complexo de receptores, LGR5 e RNF43. Em conjunto, nossos achados demonstram que a variante c.305G > A é patogênica, sendo responsável pela síndrome genética diagnosticada na família brasileira. As análises de expressão gênica e os estudos de imuno-histoquímica, por sua vez, detectaram um aumento da expressão do gene SOX9 e maior imonorreatividade para a proteína Sox9 no tecido testicular do caso índice. Esses resultados sugerem que o processo de reversão sexual nos indivíduos XX ocorra por uma hiperexpressão de SOX9 secundária à menor ativação da via Wnt/beta-catenina na gônada durante a embriogênese. No presente estudo também relatamos o primeiro caso de indivíduo de cariótipo 46,XX portador de mutação em homozigose no gene RSPO1 que não desenvolveu DDS. A variabilidade do fenótipo sexual não está associada com alterações no número de cópias dos genes WNT4 ou do SOX9 e região cis-regulatória. No entanto, a avaliação do exoma da família encontrou uma associação entre o polimorfismo do receptor LGR5 rs17109924 e a atenuação do fenótipo de DDS. Todavia, serão necessários estudos funcionais para esclarecer o impacto biológico da interação das variantes RSPO1 p.Cys102Tyr e LGR5 rs171099 / In mammals, sex determination is governed by the balance between two parallel and antagonic signaling pathways: the male SOX9/FGF9 and the female, RSPO1/beta-catenin/WNT4 pathways. R-spondin 1 regulates the ovarian differentiation process by its modulating action through the canonic Wnt pathway (Wnt/beta-catenin). In humans, patogenic mutations in RSPO1 cause a rare, autosomic recessive syndrome characterized by 46,XX Testicular or Ovotesticular disorders of sexual development (DSD), palmoplantar keratosis (PPK) and predisposition to squamous cell carcinoma (MIM 610644). We identified and studied a SRY-negative 46,XX DSD patient with PPK from a large, consaguineous, brazillian family. Through a \"candidate gene\" approach we identified in the proband a new allelic variant in the coding region of RSPO1, c.305G > A. This variant presented full concordance with the PPK phenotype by segregation analyses in 10 of 67 members of this family. Clinical, hormonal, cytogenetic and molecular genetic studies characterized three patterns in individuals with this variant: (a) four 46,XX and/or SRY-negative males with ambiguous genitalia and altered hormonal profile; (b) five 46,XY and/or SRY-positive males without ambiguous genitalia with normal hormonal profile; (c) one 46,XX fertile woman. In vitro experiments demonstrated that transient transfection of the mutant protein resulted in lower transactivation of the Wnt pathway-reporter plasmid. Moreover, molecular dinamic studies showed that p.Cys102Tyr increased the R-spondin-1 backbone flexibility, thus decreasing the interaction between this protein and its receptors, LGR5 and RNF43. Thus, both in vitro and in silico analysis demonstrate the pathogenicity of the RSPO1 variant c.305G > A. In addition, in the index case, a higher expression of SOX9, corroborated by a reactive immunohistochemistry in testicular tissue, suggested that the process of sexual reversal in the XX individual is driven by a higher SOX9 expression possibly due to a lower Wnt/beta-catenin signaling pathway activation during embriogenesis. In this study, we also reported the first 46,XX individual with RSPO1 mutation without DSD, in which no copy number abnormality was detected in WNT4, SOX9 and its cisregulatory regions. Whole exome sequencing of the affected individuals revealed, in turn, that the LGR5 rs17109924 polymorphism associates with a protacted DSD phenotype in the fertile woman with normal hormonal profile. Despite this evidence, future studies are nedded to address causality and biological impact between RSPO1 p.Cys102Tyr and LGR5 rs17109924 variants

Beta catenin

Beta catenina

Ceratodermia palmar e plantar

Expressão gênica

Fatores de transcrição SOX9

Gene expression

Genética

Genetics

Imunohistoquímica

Keratoderma palmoplantar

Modelos moleculares

Models molecular

Processos de determinação sexual

Sex determination processes

Via de sinalização Wnt

Wnt signaling pathway

Molekulargenetische Untersuchungen zur Verbesserung der männlichen Fruchtbarkeit und Bekämpfung des Erbdefektes Hernia inguinalis/scrotalis in der Schweinezucht / Molecular genetic analysis to improve male fertility and prevention of congenital defect hernia inguinalis/scrotalis in pig production

Germerodt, Monique

30 January 2009

No description available.

630 Landwirtschaft

Veterinärmedizin

Agricultural Sciences

Schwein

Hodensack- und Leistenbrüche

Künstliche Besamung

Kandidatengenanalyse

Fruchtbarkeit Eber

Molekularbiologie

Phosphoglycerat Kinase 2 Gen

pig

porcine

Hernia inguinalis/scrotalis

artificial insemination

candidate gene analysis

boar fertility

Molecular Biology

PGK2 Gen

SOX9 Gen

48.64

YN

Ko-Expression des astroglialen GFAP- und des oligodendrozytären PLP-Promotors in Müllerzellen der Retina: Aktivierung durch Läsionen

Lycke, Christian

07 January 2015

Die Dissertation befasst sich mit der Untersuchung der Ko-Expression des GFAP- und des PLP-Promotors in Müllerzellen der Netzhaut transgener Mäuse. Die verwendete Mauslinie ist tripel-transgen für den GFAP- und den PLP-Promotor sowie für einen ROSA26-Reporter. Durch die Quantifizierung der EYFP-Expression in Müllerzellen konnte gezeigt werden, dass es nach akuter ischämischer Schädigung sowie einer angeborenen retinalen Degeneration in Müllerzellen zu einer Aktivierung des oligodendrozytären PLP-Promotors kommt. Weiterhin wurde festgestellt, dass die Aktivierung des Transkriptionsfaktors Sox-9, der sowohl für die Entwicklung der Müllerzellen als auch für die Oligodendrogenese von entscheidender Rolle ist, mit dieser Promotoraktivierung korreliert. Diese Ergebnisse implizieren, dass Müllerzellen im Rahmen ihrer Stammzelleigenschaften in der Lage sind, auf embryonale Entwicklungsprozesse, die auch die oligodendrozytäre Zellreihe beinhalten, zurückgreifen zu können.

Müllerzellen

Gliazellen

Astroglia

Koexpression

EYFP

Sox9

GFAP

PLP

transgenes Mausmodell

Netzhaut

Retina

Cre-Rekombinase

SplitCre

retinal Müller cells

Müller glia

Muller cells

glia cells

astroglia

co-expression

EYFP

Sox9

PLP

GFAP

Cre recombinase

SplitCre

retina

ddc:610

Müllerzellen

Retina

GFAP

PLP

Cre

SplitCre

Distúrbio do desenvolvimento sexual 46,XX testicular SRY negativo sindrômico devido à mutação missense no gene RSPO1: estudo clínico, molecular e histológico de grande família consanguínea brasileira / SRY-negative syndromic 46,XX testicular disorder of sex development due to missense homozygous RSPO1 mutation: clinical, molecular and histological study of a large consanguineous Brazilian family

Rosana Barbosa Silva

22 October 2015

Nos mamíferos, a determinação sexual é governada pelo equilíbrio entre duas vias de sinalização paralelas e antagônicas: a via masculina SOX9/FGF9 e a via feminina RSPO1/beta-catenina/WNT4. A R-spondina 1 é uma importante reguladora do processo de diferenciação ovariana e atua modulando a via de sinalização Wnt canônica (Wnt/beta-catenina). Em humanos, mutações em RSPO1 causam uma rara síndrome genética autossômica recessiva caracterizada por Distúrbios do Desenvolvimento Sexual (DDS) 46,XX Testicular ou Ovotesticular, hiperceratose palmoplantar (HPP) e predisposição para o desenvolvimento de carcinoma de células escamosas (MIM 610644). Identificamos um paciente brasileiro, proveniente de uma grande família consanguínea, que apresentava a associação de HPP e DDS 46,XX Testicular SRY negativo. A avaliação da região codificadora do gene RSPO1 identificou a nova variante alélica c.305G>A (p.Cys102Tyr). O estudo de segregação realizado em 67 familiares demonstrou que a variante c.305G>A segrega em perfeita concordância com o fenótipo de HPP, exibindo um padrão de herança autossômico recessivo. Na família foram identificados 10 indivíduos afetados pelo fenótipo de HPP. As avaliações clínica e hormonal e os estudos molecular e citogenético nesses indivíduos resultou na caracterização de: (a) quatro indivíduos do sexo masculino 46,XX e/ou SRY negativo, com ambiguidade genital e perfil hormonal alterado; (b) cinco indivíduos do sexo masculino 46,XY e/ou SRY positivo, sem ambiguidade genital, com perfil hormonal normal e (c) uma mulher 46,XX, fértil. Experimentos de transfecção transitória in vitro demostraram que a proteína mutante tem menor capacidade de transativação do plasmídio reporter da via Wnt. As simulações de dinâmica molecular constataram que a troca p.Cys102Tyr aumenta a flexibilidade do backbone da R-spondina-1, diminuindo a energia de ligação da proteína ao complexo de receptores, LGR5 e RNF43. Em conjunto, nossos achados demonstram que a variante c.305G > A é patogênica, sendo responsável pela síndrome genética diagnosticada na família brasileira. As análises de expressão gênica e os estudos de imuno-histoquímica, por sua vez, detectaram um aumento da expressão do gene SOX9 e maior imonorreatividade para a proteína Sox9 no tecido testicular do caso índice. Esses resultados sugerem que o processo de reversão sexual nos indivíduos XX ocorra por uma hiperexpressão de SOX9 secundária à menor ativação da via Wnt/beta-catenina na gônada durante a embriogênese. No presente estudo também relatamos o primeiro caso de indivíduo de cariótipo 46,XX portador de mutação em homozigose no gene RSPO1 que não desenvolveu DDS. A variabilidade do fenótipo sexual não está associada com alterações no número de cópias dos genes WNT4 ou do SOX9 e região cis-regulatória. No entanto, a avaliação do exoma da família encontrou uma associação entre o polimorfismo do receptor LGR5 rs17109924 e a atenuação do fenótipo de DDS. Todavia, serão necessários estudos funcionais para esclarecer o impacto biológico da interação das variantes RSPO1 p.Cys102Tyr e LGR5 rs171099 / In mammals, sex determination is governed by the balance between two parallel and antagonic signaling pathways: the male SOX9/FGF9 and the female, RSPO1/beta-catenin/WNT4 pathways. R-spondin 1 regulates the ovarian differentiation process by its modulating action through the canonic Wnt pathway (Wnt/beta-catenin). In humans, patogenic mutations in RSPO1 cause a rare, autosomic recessive syndrome characterized by 46,XX Testicular or Ovotesticular disorders of sexual development (DSD), palmoplantar keratosis (PPK) and predisposition to squamous cell carcinoma (MIM 610644). We identified and studied a SRY-negative 46,XX DSD patient with PPK from a large, consaguineous, brazillian family. Through a \"candidate gene\" approach we identified in the proband a new allelic variant in the coding region of RSPO1, c.305G > A. This variant presented full concordance with the PPK phenotype by segregation analyses in 10 of 67 members of this family. Clinical, hormonal, cytogenetic and molecular genetic studies characterized three patterns in individuals with this variant: (a) four 46,XX and/or SRY-negative males with ambiguous genitalia and altered hormonal profile; (b) five 46,XY and/or SRY-positive males without ambiguous genitalia with normal hormonal profile; (c) one 46,XX fertile woman. In vitro experiments demonstrated that transient transfection of the mutant protein resulted in lower transactivation of the Wnt pathway-reporter plasmid. Moreover, molecular dinamic studies showed that p.Cys102Tyr increased the R-spondin-1 backbone flexibility, thus decreasing the interaction between this protein and its receptors, LGR5 and RNF43. Thus, both in vitro and in silico analysis demonstrate the pathogenicity of the RSPO1 variant c.305G > A. In addition, in the index case, a higher expression of SOX9, corroborated by a reactive immunohistochemistry in testicular tissue, suggested that the process of sexual reversal in the XX individual is driven by a higher SOX9 expression possibly due to a lower Wnt/beta-catenin signaling pathway activation during embriogenesis. In this study, we also reported the first 46,XX individual with RSPO1 mutation without DSD, in which no copy number abnormality was detected in WNT4, SOX9 and its cisregulatory regions. Whole exome sequencing of the affected individuals revealed, in turn, that the LGR5 rs17109924 polymorphism associates with a protacted DSD phenotype in the fertile woman with normal hormonal profile. Despite this evidence, future studies are nedded to address causality and biological impact between RSPO1 p.Cys102Tyr and LGR5 rs17109924 variants

Beta catenina

Ceratodermia palmar e plantar

Expressão gênica

Fatores de transcrição SOX9

Genética

Imunohistoquímica

Modelos moleculares

Processos de determinação sexual

Via de sinalização Wnt

Beta catenin

Gene expression

Genetics

Keratoderma palmoplantar

Models molecular

Sex determination processes

Wnt signaling pathway

Ko-Expression des astroglialen GFAP- und des oligodendrozytären PLP-Promotors in Müllerzellen der Retina: Aktivierung durch Läsionen: Ko-Expression des astroglialen GFAP- und desoligodendrozytären PLP-Promotors in Müllerzellen der Retina:Aktivierung durch Läsionen

Lycke, Christian

26 June 2014

Die Dissertation befasst sich mit der Untersuchung der Ko-Expression des GFAP- und des PLP-Promotors in Müllerzellen der Netzhaut transgener Mäuse. Die verwendete Mauslinie ist tripel-transgen für den GFAP- und den PLP-Promotor sowie für einen ROSA26-Reporter. Durch die Quantifizierung der EYFP-Expression in Müllerzellen konnte gezeigt werden, dass es nach akuter ischämischer Schädigung sowie einer angeborenen retinalen Degeneration in Müllerzellen zu einer Aktivierung des oligodendrozytären PLP-Promotors kommt. Weiterhin wurde festgestellt, dass die Aktivierung des Transkriptionsfaktors Sox-9, der sowohl für die Entwicklung der Müllerzellen als auch für die Oligodendrogenese von entscheidender Rolle ist, mit dieser Promotoraktivierung korreliert. Diese Ergebnisse implizieren, dass Müllerzellen im Rahmen ihrer Stammzelleigenschaften in der Lage sind, auf embryonale Entwicklungsprozesse, die auch die oligodendrozytäre Zellreihe beinhalten, zurückgreifen zu können.:Inhaltsverzeichnis ....................................................................................................................... 3 Bibliographische Darstellung ..................................................................................................... 5 Abkürzungsverzeichnis und Erläuterungen ................................................................................ 6 1 Einleitung ............................................................................................................................ 8 1.1 Die Retina als Teil des Auges ................................................................................................. 8 1.1.1 Aufbau .............................................................................................................................. 8 1.2 Die gliale Müllerzelle ............................................................................................................ 12 1.2.1 Definition und Morphologie der Müllerzellen ............................................................... 12 1.2.2 Funktion .......................................................................................................................... 13 1.2.3 Ursprung und Ontogenese der Müllerzelle ..................................................................... 14 1.3 Erkrankungen der Netzhaut .................................................................................................. 15 1.3.1 Akute Läsionen ............................................................................................................... 15 1.3.2 Chronische Erkrankungen der Netzhaut ......................................................................... 15 1.3.3 Die Rolle der Müllerzelle in der erkrankten Retina ....................................................... 16 1.4 Mausgenetik .......................................................................................................................... 18 1.4.1 Das Cre-loxP-System ..................................................................................................... 18 1.5 Pax-6 und Sox-9: Transkriptionsfaktoren spezifizieren das Zellschicksal ........................... 24 1.5.1 Die PAX-Familie ............................................................................................................ 24 1.5.2 SOX-9-Gene ................................................................................................................... 25 2 Ziele .................................................................................................................................. 26 3 Material und Methoden ..................................................................................................... 27 3.1 Material ................................................................................................................................. 27 3.1.1 Chemikalien .................................................................................................................... 27 3.1.2 Antikörper ....................................................................................................................... 27 3.1.3 Größenstandards ............................................................................................................. 28 3.1.4 Mauslinien ...................................................................................................................... 29 3.1.5 Geräte ............................................................................................................................. 31 3.2 Methoden .............................................................................................................................. 31 3.2.1 Genotypisierung transgener Mäuse ................................................................................ 31 3.2.2 Akute retinale Läsion durch Anlegen eines erhöhten Augeninnendrucks („high intraocular pressure“, HIOP) .......................................................................................... 37 3.2.3 Herstellung und Fixierung der retinalen Gewebsproben ................................................ 37 3.2.4 Immunhistochemische Färbungen .................................................................................. 38 3.2.5 Mikroskopische Auswertung .......................................................................................... 39 3.2.6 Datenverarbeitung und Statistik ..................................................................................... 41 4 Ergebnisse ......................................................................................................................... 42 4.1 Technische Aspekte: Vergleich der Quantifizierung in Ganzpräparate und Querschnitte ... 42 4.1.1 Vergleich der Abbildungen ............................................................................................ 42 4.1.2 Auszählung Retina-Ganzpräparate ................................................................................. 43 4.1.3 Auszählung der Zellen in Querschnitten der Netzhaut ................................................... 45 4.1.4 Vergleich der Quantifizierung von Ganzpräparaten und Querschnitten ........................ 46 4.1.5 Quantifizierung ............................................................................................................... 48 4.2 Analyse der Reporterexpression in der Retina tripel-transgener Mäuse ............................... 49 4.2.1 Quantitative Auswertung GS-positiver Müllerzellen ..................................................... 49 4.2.2 Quantitative Auswertung EYFP-positiver Müllerzellen ................................................ 51 4.2.3 Auswertung des prozentualen Anteils der EYFP-positiven Müllerzellen ...................... 53 4.3 Auswertung der Transkriptionsfaktorexpression von Pax-6 und Sox-9 ............................... 56 4.3.1 Auswertung der Pax-6-positiven Müllerzellen ............................................................... 57 4.3.2 Auswertung der Sox-9-positiven Müllerzellen .............................................................. 60 5 Diskussion ......................................................................................................................... 63 5.1 Die GFAP-Expression in der Müllerzellgliose ..................................................................... 63 5.2 Auswertung und Vergleich der retinalen Ganzpräparate und Querschnitte ......................... 64 5.3 Die Untersuchung der Promotoraktivität nach retinaler Ischämie ........................................ 65 5.4 Die Untersuchung der Promotoraktivität bei angeborener retinaler Degeneration ............... 66 5.5 Die Rolle der Transkriptionsfaktoren Pax-6 und Sox-9 ........................................................ 68 5.5.1 Pax-6 ............................................................................................................................... 68 5.5.2 Sox-9 ............................................................................................................................... 69 5.6 Einordnung der Ergebnisse in die Zellbiologie der Müllerzelle ........................................... 72 6 Zusammenfassung ............................................................................................................. 74 7 Literaturverzeichnis .......................................................................................................... 77 8 Lebenslauf ......................................................................................................................... 83 9 Danksagung ....................................................................................................................... 84 10 Eigenständigkeitserklärung ............................................................................................... 85

info:eu-repo/classification/ddc/610

ddc:610

Lhx2 differentially regulates Sox9, Tcf4 and Lgr5 in hair follicle stem cells to promote epidermal regeneration after injury

Mardaryev, Andrei N., Meier, N., Poterlowicz, Krzysztof, Sharov, A.A., Sharova, T.Y., Ahmed, Mohammed I., Rapisarda, Valentina, Lewis, Christopher J., Fessing, Michael Y., Ruenger, T.M., Bhawan, J., Werner, S., Paus, R., Botchkarev, Vladimir A.

January 2011

No / The Lhx2 transcription factor plays essential roles in morphogenesis and patterning of ectodermal derivatives as well as in controlling stem cell activity. Here, we show that during murine skin morphogenesis, Lhx2 is expressed in the hair follicle (HF) buds, whereas in postnatal telogen HFs Lhx2(+) cells reside in the stem cell-enriched epithelial compartments (bulge, secondary hair germ) and co-express selected stem cell markers (Sox9, Tcf4 and Lgr5). Remarkably, Lhx2(+) cells represent the vast majority of cells in the bulge and secondary hair germ that proliferate in response to skin injury. This is functionally important, as wound re-epithelization is significantly retarded in heterozygous Lhx2 knockout (+/-) mice, whereas anagen onset in the HFs located closely to the wound is accelerated compared with wild-type mice. Cell proliferation in the bulge and the number of Sox9(+) and Tcf4(+) cells in the HFs closely adjacent to the wound in Lhx2(+/-) mice are decreased in comparison with wild-type controls, whereas expression of Lgr5 and cell proliferation in the secondary hair germ are increased. Furthermore, acceleration of wound-induced anagen development in Lhx2(+/-) mice is inhibited by administration of Lgr5 siRNA. Finally, Chip-on-chip/ChIP-qPCR and reporter assay analyses identified Sox9, Tcf4 and Lgr5 as direct Lhx2 targets in keratinocytes. These data strongly suggest that Lhx2 positively regulates Sox9 and Tcf4 in the bulge cells, and promotes wound re-epithelization, whereas it simultaneously negatively regulates Lgr5 in the secondary hair germ and inhibits HF cycling. Thus, Lhx2 operates as an important regulator of epithelial stem cell activity in the skin response to injury.

Animals

Newborn

Genetics

Metabolism

Cells

Cultured

Embryo

Mammalian

Epidermis

Injuries

Physiology

Female

Gene expression regulation

Developmental

drug effects

Hair follicle

Cytology

Humans

LIM-homeodomain proteins

Antagonists

inhibitors

Mice

Transgenic

RNA

Small Interfering

Pharmacology

Receptors

G-Protein-Coupled

Regeneration

SOX9 transcription factor

Stem cells

Transcription factors

Wound healing

REF 2014