DRUG AND CELL–BASED THERAPIES TO REDUCE PATHOLOGICAL REMODELING AND CARDIAC DYSFUNCTION AFTER ACUTE MYOCARDIAL INFARCTION

Sharp III, Thomas E.

January 2017

Remarkable advances have been made in the treatment of cardiovascular diseases (CVD), however, CVD still accounts for the most deaths in industrialized nations. Ischemic heart disease (IHD) can lead to acute coronary syndrome (ACS) (myocardial infarction [MI]). The standard of care is reperfusion therapy followed by pharmacological intervention to attenuate clinical symptoms related to the MI. While survival from MI has dramatically increased with the implementation of reperfusion therapy, these individuals will inevitably suffer progressive pathological remodeling leaving them predispose to develop heart failure (HF). HF is a clinical syndrome defined as the impairment of the heart to maintain organ perfusion at rest and/or during times of exertion (i.e. exercise intolerance). Clinically, this is accompanied by dyspnea, pulmonary or splanchnic congestion and peripheral edema. Physiologically, there is neurohormal activation through the classical β–adrenergic and PKA–dependent signalin / Physiology

Physiology

Acute Myocardial Infarction

Left Ventricular Remodeling

Stem Cell Therapy

Translational Animal Model

Impairment in Postnatal Cerebrovascular Remodeling Mediated by Small GTPases in Endothelial Rbpj Deficient Brain Arteriovenous Malformation

Adhicary, Subhodip

16 September 2022

No description available.

Genetics

Molecular Biology

Biochemistry

Cellular Biology

brain arteriovenous malformation

brain endothelial cells

Notch signaling

Rbpj

postnatal vascular remodeling

<b>Investigating epigenetic mechanisms in early porcine development</b>

Sarah M Innis (18239221)

22 March 2024

<p dir="ltr">Epigenetics involves the study of mechanisms that influence gene expression. These mechanisms are heritable and dynamic, and despite altering gene transcriptional activity, they do not change the underlying DNA sequence. While epigenetic mechanisms govern gene expression throughout the lifetime of an organism, the dynamic nature and precision of the transcriptional control afforded by processes such as histone modifications and chromatin architecture remodeling are exemplified in early mammalian development. Perhaps unsurprisingly, perturbations to the epigenetic status of a cell can alter its function, and widespread epigenome disruptions due to changes in the developmental environment can compromise the growth, and even viability, of an embryo or fetus. By studying epigenetic mechanisms and the patterns they impart, we can better understand not only how developmental progression is regulated during embryonic development and beyond, but also what the consequences of aberrant epigenetic disturbances may be to developing organisms.</p><p><br></p><p dir="ltr">Many gaps remain in our knowledge concerning epigenetic mechanisms in domestic livestock species, particularly regarding early development. Pigs represent a compelling model organism for study in this area, as they are increasingly being used as a biomedical model for human-oriented research due to their physiological similarities to humans, and they remain a staple meat species in many parts of the world. Chapter 2 investigates the presence and transcriptional dynamics of the SWI/SNF chromatin remodeling complex GBAF in porcine trophectoderm (PTr2) and fetal fibroblast (PFF) cells. These cell lines represent two discrete developmental stages during early swine development, with the PTr2 cells originally obtained from the trophectoderm of a gestation day 12 elongating porcine conceptus, and the fetal fibroblast cells were collected from a fetus on day 40 of gestation. Using immunocytochemistry and Western blotting techniques, GBAF was identified in both cell lines. Further, co-immunoprecipitation of GBAF constituent subunits and other BAF family subcomplex subunits revealed a previously undescribed interaction between the GBAF subunit GLTSCR1 and the BAF subunit BAF170, the latter of which has not been shown to be present in human and mouse GBAF. This may suggest a species-specific GBAF composition in swine. Analysis of RNA-seq data from porcine embryos, PTr2 cells, and PFF cells showed that while transcription of GBAF-specific subunits BRD9 and GLTSCR1 was detectable, expression levels were lower compared to other BAF family subunits. Taken together these results suggest that, while GBAF is detectable in swine early development contexts, it may have a comparatively minor contribution as an epigenetic mechanism during the represented developmental timepoints.</p><p><br></p><p dir="ltr">Details in the literature about the epigenetic landscape and the resulting chromatin state during porcine early development are also limited at present. Chapter 3 involves the global epigenetic profiling of the histone marks H3K4me3, H3K27ac, and H3K27me3 and the SWI/SNF central ATPase BRG1 in PTr2 and PFF cells using CUT&RUN. The enrichment patterns observed for these features were consistent with known patterns described in the literature. H3K4me3 was primarily enriched in gene promoter regions, and H3K27ac showed enrichment in both promoter regions and distal intergenic regions, some of which are likely active enhancers. H3K27me3 showed broad genomic localization and was detected at genes known to be transcriptionally inactive in these cell types, as well as in distal intergenic regions. BRG1 showed some co-enrichment with H3K4me3 and H3K27ac in promoter regions, as well as several instances of H3K27ac co-enrichment at intergenic sites. The sequencing files were used to build a chromatin state prediction model for 10 states in each cell line, ranging from TSS to repressed genomic regions. Additionally, the transcriptomes of PTr2 and PFF cells were compared to those of human cells taken from comparable gestational time points to determine if these swine cell lines could potentially serve as translational <i>in vitro</i> models. PTr2 cells and human trophectoderm (TE) cells were relatively dissimilar in their cell-type specific gene identities (~24% overlap) and corresponding transcriptional levels, but the porcine and human fibroblast cells shared around 50% of the same cell type-specific genes, and expression levels were broadly similar among them. Altogether, these findings provide foundational epigenetic landscape information for PTr2 and PFF cells and potential insights regarding similarities and differences in cell identity between human and pig trophectoderm and fetal fibroblast cells.</p><p><br></p><p dir="ltr">The placenta is a transient organ that provides essential support to the developing fetus in the form of nutrient and gas exchange. Despite its significance in facilitating fetal development, our understanding of how the placenta is affected by its environment is greatly limited, and only a handful of studies exploring the placental epigenome in swine exist to date. To address these gaps, and building upon the epigenetic profiling methods developed in Chapter 3, Chapter 4 investigated whether, and to what extent, the placental epigenome changes in response to fetal endocrine perturbations. Placental tissue was collected at day 86 of gestation from untreated pregnant gilts and pregnant gilts treated for 21 days with methimazole (MMI) to induce fetal hypothyroidism. CUT&RUN was used to evaluate the enrichment of H3K4me3, H3K27ac, and BRG1 in placental tissue derived from n=6 male and female fetuses in each treatment group (n=12 samples per group). Differential enrichment of all three epigenetic features was seen in placental tissues obtained from MMI-treated fetuses, and, notably, existing sex-specific differences in placental epigenetic features were exacerbated by MMI-induced fetal hypothyroidism. This may suggest that the porcine placenta may be impacted by fetal endocrine status during late gestation. Together, these findings show that sex-specific differences in placental chromatin state exist and that a fetal hypothyroid state is sufficient to perturb the placental epigenome, ultimately providing novel insights into the intricate interplay between fetal endocrine status and regulation of the placental epigenome.</p>

Animal growth and development

Epigenetics

Embryology

Fetal development

CUT&RUN

Histone modification

Transcription factors

Chromatin remodeling

SWI/SNF

GBAF

Nanoparticles for post-infarct ventricular remodeling

Dong, C., Ma, A., Shang, Lijun

24 October 2018

Yes / In recent years, tremendous progress has been made in the treatment of acute myocardial infarction (AMI), but pathological ventricular remodeling often causes survivors to suffer from fatal heart failure. Currently, there is no effective therapy to attenuate ventricular remodeling. Recently, nanoparticles-based drug delivery system is widely applied in biomedicine especially in cancer and liver fibrosis, owing to its excellent physical, chemical, and biological properties. Therefore, using nanoparticles as delivery vehicles of small molecules, polypeptides, etc to improve post-infarct ventricular remodeling are expected. In this review, we summarized the updated researches in this fast-growing area and suggested further works needed.

Myocardial infarction

Heart failure

Post-infarct ventricular remodeling

Mechanism

Inorganic nanoparticles

Liposome

Extracellular vesicles

Drug delivery

Engineering

Biomarker

Osteoclasts control osteoblast chemotaxis via PDGF-BB/PDGF receptor beta signaling

Hoflack, Bernard, Jurdic, Pierre, Riedl, Thilo, Gallois, Anne, Sanchez-Fernandez, Maria Arantzazu

26 November 2015

BACKGROUND: Bone remodeling relies on the tightly regulated interplay between bone forming osteoblasts and bone digesting osteoclasts. Several studies have now described the molecular mechanisms by which osteoblasts control osteoclastogenesis and bone degradation. It is currently unclear whether osteoclasts can influence bone rebuilding. METHODOLOGY/PRINCIPAL FINDINGS: Using in vitro cell systems, we show here that mature osteoclasts, but not their precursors, secrete chemotactic factors recognized by both mature osteoblasts and their precursors. Several growth factors whose expression is upregulated during osteoclastogenesis were identified by DNA microarrays as candidates mediating osteoblast chemotaxis. Our subsequent functional analyses demonstrate that mature osteoclasts, whose platelet-derived growth factor bb (PDGF-bb) expression is reduced by siRNAs, exhibit a reduced capability of attracting osteoblasts. Conversely, osteoblasts whose platelet-derived growth factor receptor beta (PDGFR-beta) expression is reduced by siRNAs exhibit a lower capability of responding to chemotactic factors secreted by osteoclasts. CONCLUSIONS/SIGNIFICANCE: We conclude that, in vitro mature osteoclasts control osteoblast chemotaxis via PDGF-bb/PDGFR-beta signaling. This may provide one key mechanism by which osteoclasts control bone formation in vivo.

Osteoklasten

Osteoblasten

Zelldifferenzierung

Exprimierung

Genexpression

Knochengeweberemodellierung

Chemotaxis

Wachstumsfaktoren

Osteoclasts

Osteoblasts

Osteoblasts differentiation

Cell differentiation

Gene expression

Bone remodeling

Chemotaxis

Growth factores

ddc:610

rvk:XA 10000

CLINICAL AND EXPERIMENTAL EVIDENCE FOR THE PATHOLOGICAL MECHANISMS UNDERLYING ASPECTS OF SEXUAL DYSFUNCTION: IMPACT OF ADIPOSITY AND CHRONIC KIDNEY DISEASE

Maio Twofoot, Maria Tina

01 October 2013

Cardiovascular disease (CVD) and erectile dysfunction (ED) have common etiologies, such as increased adiposity and chronic diseases. Incident ED is known to be a sentinel of CVD, providing a unique opportunity for early lifestyle interventions to attenuate the progression of disease. The internal pudendal artery (IPA) plays an important role in controlling resistance to penile blood flow and thereby erections. Although morphological and functional disturbances in the IPA have been associated with ED, few studies have characterized changes in the IPA as it relates to increased adiposity and chronic diseases (e.g., chronic kidney disease [CKD]). Finally, although both vascular calcification and ED have been shown to be prevalent in patients with CKD, there has yet to be an assessment of associated mechanisms. The effect of lifestyle modifications on erectile function was evaluated in both experimental and clinical settings. Specifically, the studies assessed the effect of caloric restriction (CR) in rats and of chronic exercise in sedentary, overweight or obese male and female subjects. In rats, structural and functional changes of the IPA and erectile responses were characterized in relation to increasing adiposity and to CKD. Experimentally, the susceptibility of various vascular beds to calcification in CKD was determined. Clinically, erectile and female sexual function was assessed in patients with Stage 3 to 5 CKD, who had no history of CVD. In rats, CR blunted the accumulation of abdominal adiposity, and attenuated progression of both endothelial dysfunction and ED, independently of morphological changes in the IPA. Rats with CKD had an increased frequency of ED, greater endothelial dysfunction, and altered vascular morphology, yet vascular calcification per se did not account for ED. In the clinical study, sedentary and overweight or obese males with ED, but not females, had a significantly higher body mass index (BMI) and waist circumference. Chronic exercise significantly improved ED and female sexual dysfunction (FSD). Clinically, CKD was associated with ED and FSD as well as increased coronary artery calcification and endothelial dysfunction. These findings support the concept that early detection of cardiovascular abnormalities, using incident ED as a sentinel, should facilitate early interventions in otherwise asymptomatic populations. / Thesis (Ph.D, Pharmacology & Toxicology) -- Queen's University, 2013-09-30 22:33:20.436

Internal Pudendal Artery

Cardiovascular Disease

Female Sexual Dysfunction

Obesity

Vascular Calcification

Visceral Adipose Tissue

Chronic Kidney Disease

Endothelial Function

Caloric Restriction

Exercise

Vascular Remodeling

Erectile Dysfunction

Rehabilitation plan for Central Aguirre : the first American company town built in the island of Puerto Rico

Torregrosa, Enid

January 1991

Puerto Rico, the smallest island of the Great Antilles , has an area of 3,400 square miles. Its major language is Spanish and it is a Commonwealth of the United States of America. The population is approximately 3.6 millions and historically had an agricultural-based economy. However, today, because of its geographic location and tropical environment , the major economic industry is tourism. Thousands of people visit the island annually to enjoy the natural scenery and experience the rich cultural heritage that it offers.Studies have shown that the majority of tourists stay in the northern part of the island where the main attractions are Old San Juan, El Yunque National Rain Forest, and the Luquillo Beach. There has been limited tourism in the southern region, where a different climatic environment prevails. As a result, a different variety of natural scenery and ecological systems exists. The most popular tourist attractions in the south are: Ponce, the second largest city; San German, the second oldest town; and, the Phosphorescent Bay in Guanica. These towns are located in close proximity to each other and, thus, a need exists to spread tourism to the rest of the southern coast.One strategy to attract tourists to this area is to rehabilitate sugar plantations that are within the region. It is on the southern coast where most of the sugar industry was established, including the two largest ones. Although this industry is presently suffering a recession, at one time it was the country's leading export. This rehabilitation will allow tourists, as well as islanders, the opportunity to experience how the sugar industry used to be. As a paradox, I am proposing a new economic boom via tourism that focuses -on a "once major income producer."Central Aguirre, in the town of Salinas, will be used as a case study for this rehabilitation plan. It is located five miles southwest of the town of Guayama, a district under consideration for listing on the National Register of Historic Places. This center of sugar production used to be the second largest in the country. The complex itself is a miniature town,built in approximately ninety-five acres. It serves as one of the best examples of the physical and social hierarchy established between the owners and the laborers. The factory closed abruptly operations in January 1991. The proposed rehabilitation intend to offers the visitor an interpretation of the way this community used to be. It will provide lodging facilities by the rehabilitation of existing cottages and laborers housing, and hotels. The historic railroad system, which the government is committed to restore, will serve as the major transportation system to the interior of Central Aguirre.The author believes that a country's heritage must be used to promote tourism. But there must be a comprehensive plan that establishes tourist trade as a vehicle for enhancing restoration and protection of historic sites and monuments. This project proposes such a plan. / Department of Architecture

Central Aguirre (Salinas, Puerto Rico)

Cartographie des cassures bicaténaires du remodelage chromatinien du spermatide et développement des outils techniques associés. / Genome-wide mapping of DNA double-strand breaks during spermatid chromatin remodeling and development of associated tools

Grégoire, Marie-Chantal

January 2016

Résumé : La phase haploïde de la spermatogenèse (spermiogenèse) est caractérisée par une modification importante de la structure de la chromatine et un changement de la topologie de l’ADN du spermatide. Les mécanismes par lesquels ce changement se produit ainsi que les protéines impliquées ne sont pas encore complètement élucidés. Mes travaux ont permis d’établir la présence de cassures bicaténaires transitoires pendant ce remodelage par l’essai des comètes et l’électrophorèse en champ pulsé. En procédant à des immunofluorescences sur coupes de tissus et en utilisant un extrait nucléaire hautement actif, la présence de topoisomérases ainsi que de marqueurs de systèmes de réparation a été confirmée. Les protéines de réparation identifiées font partie de systèmes sujets à l’erreur, donc cette refonte structurale de la chromatine pourrait être génétiquement instable et expliquer le biais paternel observé pour les mutations de novo dans de récentes études impliquant des criblages à haut débit. Une technique permettant l’immunocapture spécifique des cassures bicaténaires a été développée et appliquée sur des spermatides murins représentant différentes étapes de différenciation. Les résultats de séquençage à haut débit ont montré que les cassures bicaténaires (hotspots) de la spermiogenèse se produisent en majorité dans l’ADN intergénique, notamment dans les séquences LINE1, l’ADN satellite et les répétions simples. Les hotspots contiennent aussi des motifs de liaisons des protéines des familles FOX et PRDM, dont les fonctions sont entre autres de lier et remodeler localement la chromatine condensée. Aussi, le motif de liaison de la protéine BRCA1 se trouve enrichi dans les hotspots de cassures bicaténaires. Celle-ci agit entre autres dans la réparation de l’ADN par jonction terminale non-homologue (NHEJ) et dans la réparation des adduits ADN-topoisomérase. De façon remarquable, le motif de reconnaissance de la protéine SPO11, impliquée dans la formation des cassures méiotiques, a été enrichi dans les hotspots, ce qui suggère que la machinerie méiotique serait aussi utilisée pendant la spermiogenèse pour la formation des cassures. Enfin, bien que les hotspots se localisent plutôt dans les séquences intergéniques, les gènes ciblés sont impliqués dans le développement du cerveau et des neurones. Ces résultats sont en accord avec l’origine majoritairement paternelle observée des mutations de novo associées aux troubles du spectre de l’autisme et de la schizophrénie et leur augmentation avec l’âge du père. Puisque les processus du remodelage de la chromatine des spermatides sont conservés dans l’évolution, ces résultats suggèrent que le remodelage de la chromatine de la spermiogenèse représente un mécanisme additionnel contribuant à la formation de mutations de novo, expliquant le biais paternel observé pour certains types de mutations. / Abstract : Germline mutations may arise from several endogenous and exogenous mechanisms in both male and female. However, recent next-generation sequencing (NGS) data confirmed that de novo mutations arise primarily in males. This observation suggests that specific spermatogenesis events are involved in the male mutation bias. One potential origin for male-driven mutations is the differentiation of spermatids into spermatozoa, which involves one of the most striking and global chromatin remodeling processes, where histone-bound chromatin is converted into highly condensed protaminated DNA toroid. Using pulse-field gel electrophoresis and comet assay on flow cytometry sorted cells, it was established that chromatin remodeling process is characterized by a transient surge in DNA double strand breaks (DSBs) in the whole population of murine spermatids, which get repaired by the end of spermiogenesis. Using a highly active nuclear extract and immunofluorescences, topoisomerases and markers of DNA repair systems were shown at these steps. Since haploid cells cannot rely on homologous recombination for templated DNA repair, it was hypothesized that this process may be genetically unstable and largely responsible for the observed male de novo mutations bias. Although very challenging, a method allowing the specific genome-wide mapping of DSBs using NGS was developed to establish the genomic distribution of DSBs during chromatin remodeling. It was shown that intergenic regions were enriched in DSBs, particularly LINE1, satellite DNA and simple repeats. Motif finding on potential hotspots showed that proteins from FOX and PRDM families may be implicated. Although homologous recombination cannot take place during spermiogenesis, an enrichment in BRCA1 motif was found, which is also known to be implicated in NHEJ and removal of topoisomerase adducts. Topoisomerase-like SPO11 motif was also enriched suggesting that the meiotic machinery may also be implicated during chromatin remodeling. Moreover, although DSBs tend to accumulate in intergenic regions, gene ontology analysis of hotspot-containing genes showed a marked enrichment in genes related to neurons and brain development. This result hence supports the fact that neurological disease associated mutations are also male biased and associated with advanced paternal age. Since DSB formation during spermiogenesis is conserved through evolution, these results suggest that chromatin remodeling in spermatids represents a significant component in the reported male de novo mutation bias.

Chromatine

Cassure bicaténaire

Spermatide

Spermiogenèse

Cartographie

Biais paternel

Mutation de novo

Double-strand breaks

Spermiogenesis

Chromatin remodeling

Spermatid

Genome wide mapping

Paternal bias

De novo mutation

Exploration d’un modèle d’étude simplifié de la spermiogenèse par l’utilisation de la levure à fission

Brazeau, Marc-André

January 2016

Résumé: Les cellules germinales mâles remodèlent leur chromatine pour compacter leur noyau afin de protéger leur matériel génétique et assurer un transit optimal vers le gamète femelle. Il a été démontré que tous les spermatides de plusieurs mammifères, incluant l’homme et la souris, présentaient ce mécanisme de remodelage de la chromatine. Celui-ci est caractérisé par une augmentation transitoire de cassures d’ADN dont une quantité importante sont bicaténaires. Ce remodelage chromatinien a été étudié et semble être conservé chez plusieurs espèces, allant de l’algue à l’humain. Dans le contexte de la recherche fondamentale sur le phénomène de la spermiogenèse, il devient parfois très difficile d’investiguer certains aspects importants en vertu de l’impossibilité de réaliser des manipulations génétiques simples. Il est donc impératif de développer un nouveau modèle d’étude plus permissif afin de palier à ces difficultés encourues. Comme le processus de maturation des spores chez la levure à fission présente de grandes similitudes avec la spermiogenèse des mammifères, l’utilisation d’un modèle d’étude basé sur la sporulation de la levure à fission Schizosaccharomyces pombe a été proposée comme modèle comparatif de la spermatogenèse murine. À la suite de la synchronisation de la méiose de la souche S. pombe pat1-114, des analyses d’électrophorèse en champ pulsé (PFGE) et de qTUNEL ont permis de déterminer la présence de cassures bicaténaires transitoires de l’ADN lors de la maturation post-méiotique des ascospores nouvellement formés (t>7h). Des analyses par immunobuvardages dirigés contre le variant d’histones H2AS129p suggère la présence d’un remodelage chromatinien postméiotique dix heures suivant l’induction de la méiose, corroborant le modèle murin. Enfin, des analyses protéomiques couplées à l’analyse par spectrométrie de masse ont permis de proposer l’endonucléase Pnu1 comme candidat potentiellement responsable des cassures bicaténaires transitoires dans l’ADN des ascospores en maturation. En somme, bien que le processus de maturation des spores soit encore bien méconnu, quelques parallèles peuvent être tracés entre la maturation des ascospores de la levure à fission et la spermiogenèse des eucaryotes supérieurs. En identifiant un modèle simple du remodelage chromatinien au niveau de la spermiogenèse animale, on s’assurerait ainsi d’un outil beaucoup plus malléable et versatile pour l’étude fondamentale des événements survenant lors de la spermiogenèse humaine. / Abstract : The male germ cells undergo a major chromatin remodeling process in order to protect their genetic material and ensure optimal transit to the female gamete. It has been demonstrated that all spermatids from several mammals, including humans and mice, require this structural transition in order to reach their full maturity and fertilizing potential. This mechanism is characterized by a transient surge in DNA breaks, including a significant number of double-stranded breaks. This feature has been studied and seems conserved in many species, ranging from algae to humans. In the context of basic research on the phenomenon of spermiogenesis, it is sometimes very difficult to investigate important aspects due to the impossibility of carrying out simple genetic manipulations. A more flexible model to overcome the incurred difficulties is therefore needed. Since the process of ascospore maturation of the fission yeast presents great similarities with mammal spermiogenesis, the use of a model based on the sporulation of the fission yeast Schizosaccharomyces pombe has been proposed as a comparative model to the murine spermatogenesis. Following synchronization of meiosis in the S. pombe diploid strain pat1-114, pulsed field gel electrophoresis and qTUNEL assay were used to determine the presence of transient double-stranded breaks in DNA during the post-meiotic maturation of newly formed ascospores (t> 7h). Analyses by immunoblotting directed against the histone variant H2AS129p suggests the presence of a post-meiotic chromatin remodeling to t=10h, that may share similarities with higher eu karyotes. Finally, proteomic analyzes coupled with mass spectrometry allowed us to propose the Pnu1 endonuclease as a potential candidate responsible for the transient DNA double-stranded breaks during ascospore morphogenesis. In sum mary, although the spore maturation process is still under investigation, some parallels can be drawn between the maturation of ascospores of fission yeast s and higher eukaryotic spermio genesis. Thus, identifying a simple eukaryotic model for chromatin remodeling in animal spermiogenesis would ensure a flexible genetic tool to decipher the molecular events occurring during human spermiogenesis.

Cinétique méiotique

Remodelage chromatinien

Cassures bicaténaires de l’ADN

Levure à fission

Spermatogenèse

Spermiogenèse

Meiotic timecourse

Chromatin remodeling

DNA double-strand breaks

Fission yeast

Spermatogenesis

Spermiogenesis

Études du remodelage vasculaire utérin durant la grossesse : caractérisation du rôle de l’œstrogène et de son action vasorelaxante

Scott, Pierre-André

06 1900

La grossesse est un état physiologique particulier où de nombreux changements fonctionnels et structuraux surviennent. Chez la rate, pour répondre aux besoins grandissants du fœtus, l’artère utérine se développe pour atteindre le double de son diamètre original avant parturition. Par conséquent, le débit sanguin utérin augmente d’environ vingt fois. Pour ce faire, les vaisseaux utérins sont l’objet d’un remodelage caractérisé par une hypertrophie et une hyperplasie des différentes composantes de la paroi. De plus, ce remodelage est complètement réversible après la parturition, par opposition au remodelage vasculaire « pathologique » qui affecte les artères systémiques, dans l’hypertension chronique, par exemple. La grossesse s’accompagne aussi de modifications hormonales importantes, comme les œstrogènes dont la concentration s’accroît progressivement au cours de cette période. Elle atteindra une concentration trois cents fois plus élevée avant terme que chez une femme non gravide. Cette hormone possède de multiples fonctions, ainsi qu’un mode d’action à la fois génomique et non génomique. Considérant l’ensemble de ces éléments, nous avons formulé l’hypothèse que l’œstradiol serait responsable de modifier la circulation utérine durant la grossesse, par son action vasorelaxante, mais aussi en influençant le remodelage de la vasculature utérine. Nous avons montré que le 17β-Estradiol (17β-E2) produit une relaxation due à un effet non génomique des artères utérines en agissant directement sur le muscle lisse par un mécanisme indépendant du monoxyde d’azote et des récepteurs classiques aux œstrogènes (ERα, ERβ). De plus, la relaxation induite par le 17β-E2 dans l’artère utérine durant la gestation est réduite par rapport à celle des artères des rates non gestantes. Ceci serait attribuable à une diminution de monoxyde d’azote provenant de la synthase de NO neuronale dans les muscles lisses des artères utérines. Nos résultats démontrent que le récepteur à l’œstrogène couplé aux protéines G (GPER), la protéine kinase A (PKA) et la protéine kinase G (PKG) ne sont pas impliqués dans la signalisation intracellulaire associée à l’effet vasorelaxant induit par le 17β-E2. Cependant, nous avons montré une implication probable des canaux potassiques sensibles au voltage, ainsi qu’un rôle possible des canaux potassiques de grande conductance activés par le potentiel et le calcium (BKCa). En effet, le penitrem A, un antagoniste présumé des canaux potassiques à grande conductance, réduit la réponse vasoralaxante du 17β-E2. Toutefois, une autre action du penitrem A n’est pas exclue, car l’ibériotoxine, reconnue pour inhiber les mêmes canaux, n’a pas d’effet sur cette relaxation. Quoi qu’il en soit, d’autres études sont nécessaires pour obtenir une meilleure compréhension des mécanismes impliqués dans la relaxation non génomique sur le muscle lisse des artères utérines. Quant à l’implication de l’œstrogène sur le remodelage des artères utérines durant la gestation, nous avons tenté d’inhiber la synthèse d’œstrogènes durant la gestation en utilisant un inhibiteur de l’aromatase. Plusieurs paramètres ont été évalués (paramètres sanguins, réactivité vasculaire, pression artérielle) sans changements significatifs entre le groupe contrôle et celui traité avec l’inhibiteur. Le même constat a été fait pour le dosage plasmatique de l’œstradiol, ce qui suggère l’inefficacité du blocage de l’aromatase dans ces expériences. Ainsi, notre protocole expérimental n’a pas réussi à inhiber la synthèse d’œstrogène durant la grossesse chez le rat et, ce faisant, nous n’avons pas pu vérifier notre hypothèse. En conclusion, nous avons démontré que le 17β-E2 agit de façon non génomique sur les muscles lisses des artères utérines qui implique une action sur les canaux potassiques de la membrane cellulaire. Toutefois, notre protocole expérimental n’a pas été en mesure d’évaluer les effets génomiques associés au remodelage vasculaire utérin durant la gestation et d’autres études devront être effectuées. / Pregnancy is a peculiar physiological state in which many structural and functional changes occur. In rats, to meet the growing needs of the fetus, uterine artery expands to reach twice its original diameter before parturition. Therefore, uterine blood flow increases by about twenty times. To do this, the uterine vessels undergo substantial remodelling characterized by hypertrophy and hyperplasia of the various components of the wall. Furthermore, this remodelling is completely reversible after parturition, as opposed to “pathological vascular remodelling” that affects systemic arteries in chronic hypertension, for instance. Pregnancy is also accompanied by significant hormonal changes, such as estrogens whose concentration in the blood increases progressively during this period. It reaches concentrations three hundred times higher before term than in non-pregnant women. This hormone has multiple functions and mediates its effects by genomic and non-genomic pathways. Considering these elements, we hypothesized that estradiol would be responsible for remodeling the uterine circulation during pregnancy, by its vasorelaxant action, but also by influencing the remodeling of the uterine vasculature. We have shown that 17β-Estradiol (17β-E2) produced non-genomic relaxation of uterine arteries by acting directly on smooth muscle using a mechanism independent of nitric oxide and classical estrogen receptors (ERα, ERβ). Moreover, the relaxation induced by 17β-E2 in the uterine artery during pregnancy is reduced compared to that of arteries from non-pregnant animals. This is the result of decrease of nitric oxide derived from neuronal NO synthase in smooth muscle of uterine arteries. Our results also show that the estrogen receptor coupled to G proteins (GPER), protein kinase A (PKA) and protein kinase G (PKG) are NOT involved in intracellular signaling associated with the vasorelaxant effect induced by the 17β-E2. Moreover, we have shown a possible involvement of potassium channels sensitive to voltage and a possible involvement of large conductance calcium-activated potassium channels (BKCa). Indeed, the penitrem A, a suspected antagonist of BKCa, reduced the vasoralaxant responses of 17β-E2. However, some other actions of penitrem A are not excluded because iberiotoxin, known to inhibit the same channels, had no effect on this relaxation. However, further studies are needed to obtain a better understanding of the mechanisms involved in the relaxation non-genomics on the smooth muscle of uterine arteries. As for the involvement of estrogen on the remodeling of uterine arteries during pregnancy, we attempted to inhibit the synthesis of estrogen during pregnancy using an aromatase inhibitor. Several parameters were evaluated (plasma values, vascular reactivity, blood pressure) without significant changes between the control group and those treated with the inhibitor. The same observation was made for the determination of plasma estradiol, suggesting the uneffectiveness of aromatase blocking in these experiments. Thus, our experimental protocol failed to inhibit the synthesis of estrogen in rats during pregnancy and, in so doing, we cannot confirm or refute our hypothesis. In conclusion, we demonstrated that 17β-E2 acts on smooth muscle of the uterine arteries by a non-genomic pathway by apparently acting on potassium channels. However, our experimental protocol was not able to assess the genomic effects associated with uterine vascular remodeling during pregnancy and further studies are required to ascertain this aspect of our work.

Grossesse

Œstrogènes

Monoxyde d’azote

Artère utérine

Remodelage vasculaire

Rats

Pregnancy

Estrogens

Nitric oxide

Uterine artery

Vascular remodeling