Pathology of Calcific Aortic Valve Disease: The Role of Mechanical and Biochemical Stimuli in Modulating the Phenotype of and Calcification by Valvular Interstitial Cells

Yip, Cindy Ying Yin

16 March 2011

Calcific aortic valve disease (CAVD) occurs through multiple mutually non-exclusive mechanisms that are mediated by valvular interstitial cells (VICs). VICs undergo pathological differentiation during the progression of valve calcification; however the factors that regulate cellular differentiation are not well defined. Most commonly recognized are biochemical factors that induce pathological differentiation, but little is known regarding the biochemical factors that may suppress this process. Further, the contribution of matrix mechanics in valve pathology has been overlooked, despite increasing evidence of close relationships between changes in tissue mechanics, disease progression and the regulation of cellular response. In this thesis, the effect of matrix stiffness on the differentiation of and calcification by VICs in response to pro-calcific and anti-calcific biochemical factors was investigated. Matrix stiffness modulated the response of VICs to pro-calcific factors, leading to two distinct calcification processes. VICs cultured on the more compliant matrices underwent calcification via osteoblast differentiation, whereas those cultured on the stiffer matrices were prone to myofibroblast differentiation. The transition of fibroblastic VICs to myofibroblasts increased cellular contractility, which led to contraction-mediated, apoptosis-dependent calcification. In addition, C-type natriuretic peptide (CNP), a putative protective molecule against CAVD, was identified. CNP supressed myofibroblast and osteoblast differentiation of VICs, and thereby inhibited calcification in vitro. Matrix stiffness modulated the expression of CNP-regulated transcripts, with only a small number of CNP-regulated transcripts not being sensitive to matrix mechanics. These data demonstrate the combined effects of mechanical and biochemical cues in defining VIC phenotype and responses, with implications for the interpretation of in vitro models of VIC calcification and possibly disease devleopment. The findings from this thesis emphasize the necessity to consider both biochemical and mechanical factors in order to improve fundamental understanding of VIC biology.

Calcific aortic valve disease

Valvular interstitial cells

Aortic valve

Matrix stiffness

C-type natriuretic peptide

Microarray

0541

Mechanical and Histological Characterization of Porcine Aortic Valves under Normal and Hypercholesterolemic Conditions

Sider, Krista

12 December 2013

Calcific aortic valve disease (CAVD) is associated with significant cardiovascular morbidity. While late-stage valve disease is well-described, there remains an unmet scientific need to elucidate early pathobiological processes. In CAVD, pathological differentiation of valvular interstitial cells (VICs) and lesion formation occur focally in the fibrosa layer. This VIC pathological differentiation has been shown to be influenced by matrix stiffness in vitro. However, little is known about the focal layer specific mechanical properties of the aortic valve in health and disease and how these changes in matrix moduli may influence VIC pathological differentiation in vivo. In this thesis, micropipette aspiration (MA) was shown to be capable of measuring the mechanical properties of a single layer in multilayered biomaterial or tissue such as the aortic valve, if the pipette inner diameter was less than the top layer thickness. With MA, the fibrosa of normal porcine aortic valves was significantly stiffer than the ventricularis; stiffer locations found only within the fibrosa were comparable to stiffnesses shown in vitro to be permissive to VIC pathological differentiation. Early CAVD was induced in a porcine model, which developed human-like early CAVD lesion onlays. Extracellular matrix remodeling occurred in the absence of lipid deposition, macrophages, osteoblasts, or myofibroblasts, but with significant proteoglycan-rich onlays and chondrogenic cell presence. These early onlays were softer than the collagen-rich normal fibrosa, and their proteoglycan content was positively correlated with Sox9 chondrogenic expression, suggesting that soft proteoglycan-rich matrix may be permissive to chondrogenic VIC differentiation. The findings from this thesis shed new light on early disease pathogenesis and improve the fundamental understanding of aortic valve mechanics in health and disease.

heart valve

aortic valve disease

micromechanical testing

micropipette aspiration

multilayered biomaterial

histology

porcine

animal model

hypercholesterolemia

proteoglycan

lipid

Sox9

0541

Pathology of Calcific Aortic Valve Disease: The Role of Mechanical and Biochemical Stimuli in Modulating the Phenotype of and Calcification by Valvular Interstitial Cells

Yip, Cindy Ying Yin

16 March 2011

Calcific aortic valve disease (CAVD) occurs through multiple mutually non-exclusive mechanisms that are mediated by valvular interstitial cells (VICs). VICs undergo pathological differentiation during the progression of valve calcification; however the factors that regulate cellular differentiation are not well defined. Most commonly recognized are biochemical factors that induce pathological differentiation, but little is known regarding the biochemical factors that may suppress this process. Further, the contribution of matrix mechanics in valve pathology has been overlooked, despite increasing evidence of close relationships between changes in tissue mechanics, disease progression and the regulation of cellular response. In this thesis, the effect of matrix stiffness on the differentiation of and calcification by VICs in response to pro-calcific and anti-calcific biochemical factors was investigated. Matrix stiffness modulated the response of VICs to pro-calcific factors, leading to two distinct calcification processes. VICs cultured on the more compliant matrices underwent calcification via osteoblast differentiation, whereas those cultured on the stiffer matrices were prone to myofibroblast differentiation. The transition of fibroblastic VICs to myofibroblasts increased cellular contractility, which led to contraction-mediated, apoptosis-dependent calcification. In addition, C-type natriuretic peptide (CNP), a putative protective molecule against CAVD, was identified. CNP supressed myofibroblast and osteoblast differentiation of VICs, and thereby inhibited calcification in vitro. Matrix stiffness modulated the expression of CNP-regulated transcripts, with only a small number of CNP-regulated transcripts not being sensitive to matrix mechanics. These data demonstrate the combined effects of mechanical and biochemical cues in defining VIC phenotype and responses, with implications for the interpretation of in vitro models of VIC calcification and possibly disease devleopment. The findings from this thesis emphasize the necessity to consider both biochemical and mechanical factors in order to improve fundamental understanding of VIC biology.

Calcific aortic valve disease

Valvular interstitial cells

Aortic valve

Matrix stiffness

C-type natriuretic peptide

Microarray

0541

Mechanical and Histological Characterization of Porcine Aortic Valves under Normal and Hypercholesterolemic Conditions

Sider, Krista

12 December 2013

Calcific aortic valve disease (CAVD) is associated with significant cardiovascular morbidity. While late-stage valve disease is well-described, there remains an unmet scientific need to elucidate early pathobiological processes. In CAVD, pathological differentiation of valvular interstitial cells (VICs) and lesion formation occur focally in the fibrosa layer. This VIC pathological differentiation has been shown to be influenced by matrix stiffness in vitro. However, little is known about the focal layer specific mechanical properties of the aortic valve in health and disease and how these changes in matrix moduli may influence VIC pathological differentiation in vivo. In this thesis, micropipette aspiration (MA) was shown to be capable of measuring the mechanical properties of a single layer in multilayered biomaterial or tissue such as the aortic valve, if the pipette inner diameter was less than the top layer thickness. With MA, the fibrosa of normal porcine aortic valves was significantly stiffer than the ventricularis; stiffer locations found only within the fibrosa were comparable to stiffnesses shown in vitro to be permissive to VIC pathological differentiation. Early CAVD was induced in a porcine model, which developed human-like early CAVD lesion onlays. Extracellular matrix remodeling occurred in the absence of lipid deposition, macrophages, osteoblasts, or myofibroblasts, but with significant proteoglycan-rich onlays and chondrogenic cell presence. These early onlays were softer than the collagen-rich normal fibrosa, and their proteoglycan content was positively correlated with Sox9 chondrogenic expression, suggesting that soft proteoglycan-rich matrix may be permissive to chondrogenic VIC differentiation. The findings from this thesis shed new light on early disease pathogenesis and improve the fundamental understanding of aortic valve mechanics in health and disease.

heart valve

aortic valve disease

micromechanical testing

micropipette aspiration

multilayered biomaterial

histology

porcine

animal model

hypercholesterolemia

proteoglycan

lipid

Sox9

0541

Etude du rôle du facteur de transcription Krox20 dans le développement et la maturation des valves cardiaques chez la souris / Role of the transcription factor Krox20 in mice during heart valve development and maturation

Odelin, Gaëlle

26 June 2015

Les pathologies valvulaires aortiques sont des pathologies plurifactorielles, comportant un déterminisme génétique indiscutable mais peu caractérisé. Ma thèse a pour but d’étudier le rôle du facteur de transcription Krox20 au cours du développement et de la maturation valvulaire à travers l’analyse de modèles murins. Nous avons montré que ce gène est nécessaire au développement et à la maturation de la valve aortique. L’invalidation de Krox20 chez la souris conduit à une hypertrophie des feuillets aortiques dès les stades fœtaux et à des insuffisances aortiques chez l’adulte. Ces anomalies sont associées à des défauts d’organisation de la matrice extracellulaire en partie liée à une régulation directe de l’expression des collagènes de type I et III. 25% des souris déficientes pour Krox20 présentent une bicuspidie de la valve aortique. Nous avons observé une diminution de l’expression de eNos chez ces mutants et pu mettre en évidence une interaction génétique entre Krox20 et eNos. De plus, nous avons identifié une sous population de cellules des crêtes neurales cardiaques impliquées dans l’apparition de la bicuspidie chez les mutants Krox20. Afin d’explorer le rôle de Krox20 dans la calcification de la valve aortique, nous avons étudié les conséquences de la surexpression de ce gène dans un modèle et montré que lcela induisait une activation de gènes pro-fibrotiques et pro-ostéogénique sans conduire à des dépôts calciques. Krox20 est donc un facteur de transcription important pour la valvulogenèse et à l’homéostasie valvulaire chez l’adulte. Mes travaux ont contribué à l’identification de Krox20 comme gène candidat potentiel aux valvulopathies rencontrées chez l’homme. / Long seen as a consequence of aging and mechanical wear of aortic cusps, aortic valve diseases are currently considered multifactorial diseases, with an indisputable genetic determinism but not well characterized. My thesis aims to study the role of the transcription factor Krox20 during development and maturation of the valve through the analysis of mouse models. We have shown that this gene is necessary for the development and maturation of the aortic valve. Indeed, the deletion of Krox20 in the mouse leads to thickened aortic leaflets from the fetal stage and the onset of aortic valve disease in adults. These anomalies are associated with defects in the organization of the extracellular matrix and more particularly to direct regulsation of collagen type I and type III expression. Our analysis showed that 25% Krox20-/- mice have a bicuspid aortic valve. The analysis of this model has allowed us to identify a population of cardiac neural crest cells involved in the occurrence of this phenotype. In addition, we were able to observe a down regulation of eNos in Krox20-/- embryos and show a genetic interaction between Krox20 and eNos. To address the role of Krox20 in the process of calcification of the aortic valve, we have studied the effects of its overexpression. Our preliminary results indicate that this overexpression leads to activation of pro-fibrotic and pro-osteogenic genes, however, this is not sufficient to induce calcification of aortic valve leaflets.Therefore Krox20 is important for valvulogenesis but also for valvular homeostasis in the adult. My work has contributed to the identification of a potential candidate gene involved in human valve diseases.

Krox20

Valvulopathie aortique

Souris

Valve cardiaque

Collagènes

Matrice extracellulaire

Krox20

Aortic valve disease

Mouse

Heart valve

Collagens

Extracellular matrix

Effekte körperlichen Trainings auf eine präexistente Aortenklappensklerose im Tiermodell

Schlotter, Florian

31 May 2012

Bisher existiert keine nicht-invasive/ nicht-operative Therapie der Aortenklappenstenose. Als wichtiger Zeitpunkt für eine präventive Maßnahme, zur Verhinderung der Ausbildung einer hömodynamisch relevanten Aortenklappenstenose, kann das Stadium der Aortenklappensklerose angesehen werden. Dieses frühe Erkrankungsstadium verfügt über zahlreiche pathophysiologische Parallelen zur Atherosklerose, für die eine positive Rolle der Prävention durch körperliche Aktivität erwiesen ist. Ziel dieser Arbeit war die Durchführung der Sekundärprävention der kalzifizierenden Aortenklappenerkrankung durch körperliches Training. Um mögliche Effekte dieser Intervention zu eruieren, wurden LDLR-/--Mäuse mit bereits bestehenden pathologischen Aortenklappenveränderungen über einen Zeitraum von 16 Wochen körperlichem Training unterzogen. Durch morphologische, serumanalytische, immunhistochemische und Genexpressionsanalysen konnte abschließend eine Quantifizierung der Effekte körperlichen Trainings - in der Zielsetzung der Sekundärprävention - realisiert werden.

info:eu-repo/classification/ddc/610

ddc:610

BMP Signaling and Intersecting Molecular Mechanisms in Calcific Aortic Valve Disease

Gomez Stallons, Maria V.

January 2016

No description available.

Molecular Biology

Calcific Aortic Valve Disease

Bone Morphogenetic Proteins

Smads1 5 8

Klotho-deficient mice

Porcine aortic VICs

Assessment of the Severity of Aortic Stenosis using Aortic Valve Coefficient

Paul, Anup K.

09 September 2016

No description available.

Biomedical Research

Aortic stenosis

aortic valve disease

inverse algorthm

pre-stressing

Doppler assessment of aortic stenosis

finite element modeling

Pathogenesis of calcific aortic valve disease

Näpänkangas, J. (Juha)

08 October 2019

Abstract Calcific aortic valve disease (CAVD) represents a disease spectrum, ranging from mild aortic valve sclerosis to severe obstructive aortic stenosis (AS), associated with a high risk of myocardial infarction and cardiovascular death. It is a common disease in the Western countries, and with their aging populations, its prevalence is likely to increase. Today, CAVD is recognized as an actively regulated disease. Mechanical stress and endothelial injury are the initiating factors, followed by lipid accumulation and oxidation, leading to inflammation, fibrosis and calcification. Ultimately, the progressive calcification hinders the normal valvular function and obstructs the flow of blood through the valve. The only effective treatment for symptomatic AS is aortic valve replacement. The trials with pharmacological treatments, mainly with anti-atherosclerotic drugs, have not been successful in slowing the progression of the disease. This study was aimed to identify differentially expressed transcripts, and molecular markers taking part in the pathophysiology behind CAVD. In particular, factors related to the renin-angiotensin system, and the apelin – APJ pathway, were investigated during the development of CAVD. In addition, the expressions of granzymes and perforin, as well as podoplanin, were studied in different stages of CAVD. It was demonstrated that these molecules are expressed in aortic valves and dysregulated in AS. These results can help to clarify the mechanisms driving CAVD, thus being potential targets for pharmacological therapy. Furthermore, the studied molecules may reflect the stage and possible subgroups of CAVD. / Tiivistelmä Aorttaläpän ahtauma edustaa tautijatkumoa, joka alkaa lievästä aorttaläpän paksuuntumisesta eli aorttaskleroosista ja jatkuu vaikeaan aorttaläpän kalkkeutuneeseen ahtaumaan eli aorttastenoosiin, johon liittyy korkea sydäninfarktin ja sydän- ja verisuonitatutiperäisen kuoleman riski. Aorttaläpän ahtauma on yleinen tauti länsimaissa, ja väestön ikääntyessä sen esiintyvyys on luultavimmin lisääntymässä. Nykyään aorttaläpän ahtauman tiedetään olevan aktiivisesti säädelty tauti. Mekaaninen rasitus ja endoteelivaurio käynnistävät tautiprosessin, läppäkudokseen kertyy lipidejä ja ne hapettuvat, mikä johtaa tulehdukseen, sidekudoksen lisääntymiseen ja kalkkeutumiseen. Lopulta etenevä kalkkeutuminen heikentää läpän normaalia toimintaa ja estää veren normaalia virtausta sydämestä aorttaan. Ainoa tehokas hoito oireiseen aorttastenoosiin on aorttaläpän korvausleikkaus. Lääkehoitoina on kokeiltu erityisesti ateroskleroosin hoitoon käytettäviä lääkkeitä, mutta niillä ei ole onnistuttu estämään taudin etenemistä. Tässä väitöskirjatyössä tutkittiin molekyylejä ja biokemiallisia reittejä, jotka liittyvät reniini-angiotensiinijärjestelmään ja apeliini-APJ-reittiin. Lisäksi tutkittiin grantsyymien ja perforiinin sekä podoplaniinin ilmentymistä aorttaläpän ahtauman eri kehitysvaiheissa. Tulosten perusteella näitä tekijöitä ilmennetään aorttaläpässä ja niiden määrä on muuttunut kalkkeutuneessa läpässä. Tulokset auttavat osaltaan ymmärtämään aorttaläpän ahtaumaan ja kalkkeutumiseen johtavia mekanismeja, joita voidaan hyödyntää uusia lääkehoidon kohteita suunniteltaessa. Tutkitut molekulaariset tekijät voivat kuvastaa aortan ahtaumataudin vaiheita ja mahdollisia alaryhmiä.

CAVD

aortic stenosis

aortic valve

apelin

calcific aortic valve disease

granzyme

histology

pathogenesis

podoplanin

renin

aorttaläppä

aorttaläpän ahtauma

aorttastenoosi

apeliini

grantsyymi

histologia

patogeneesi

podoplaniini

reniini

Avaliação da fibrose miocárdica pela ressonância magnética cardíaca na doença valvar aórtica grave: validação de um algoritmo de quantificação e comparação com a histopatologia / Assessment of myocardial fibrosis by cardiac magnetic resonance imaging in severe aortic valve disease: validation of a quantitative algorithm and comparison with histopathology

Azevedo Filho, Clerio Francisco de

05 March 2009

Introdução: A doença valvar aórtica grave é caracterizada por um processo de acúmulo progressivo de fibrose intersticial no tecido miocárdico. No contexto da sobrecarga mecânica crônica do VE característica dessa condição, a quantidade de fibrose intersticial pode exercer um papel importante na indesejável transição entre hipertrofia ventricular esquerda compensada e insuficiência cardíaca congestiva clinicamente manifesta. Entretanto, a avaliação quantitativa da fibrose intersticial só tem sido possível através da análise histopatológica de fragmentos miocárdicos obtidos por biopsia endomiocárdica. Objetivos: Avaliar se a ressonância magnética (RM) cardíaca com técnica do realce tardio permite a quantificação não-invasiva da fibrose miocárdica quando comparada à análise histopatológica em pacientes portadores de doença valvar aórtica grave. Adicionalmente, avaliou-se a relação entre a quantidade de fibrose miocárdica e parâmetros prognósticos importantes, tais como mortalidade e recuperação funcional do VE após cirurgia de troca valvar aórtica. Métodos: Entre Maio de 2001 e Dezembro de 2003 foram incluídos 54 pacientes com indicação de cirurgia de troca valvar aórtica. Antes da cirurgia, todos os pacientes foram submetidos a RM cardíaca com técnicas de cine-RM e realce tardio miocárdico. A quantificação da fibrose miocárdica pela RM baseou-se na análise das imagens de realce tardio utilizando um novo algoritmo semi-automático. As regiões de fibrose miocárdica foram definidas como o somatório de todos os pixels do tecido miocárdico com intensidade de sinal acima de um limiar definido como: intensidade de sinal média do miocárdio + 2 desvios padrão da intensidade de sinal média da área remota + 2 desvios padrão da intensidade de sinal média do ar. Amostras de tecido miocárdico obtidas por miectomia durante o ato cirúrgico foram submetidas a coloração pelo picrosírius para quantificação da fibrose intersticial. Os pacientes foram submetidos a um segundo exame de RM cardíaca 6 meses após a cirurgia para se avaliar as alterações evolutivas dos parâmetros funcionais do VE e todos foram acompanhados por pelo menos 24 meses quanto à sobrevida após a cirurgia de troca valvar aórtica. Resultados: O percentual de fibrose miocárdica pela RM apresentou boa correlação com os valores obtidos pela histopatologia (r=0,69; y=3,10x+13,0; p<0,0001). A quantidade de fibrose miocárdica, tanto pela histopatologia como pela RM, apresentou correlação inversa significativa com a FE ventricular esquerda basal (r=-0,63 e -0,67 respectivamente; p<0,0001). Adicionalmente, o percentual de fibrose miocárdica apresentou correlação inversa significativa com o grau de recuperação funcional do VE após a cirurgia de troca valvar (r=- 0,42, p=0,04 para a histopatologia; r=-0,47, p=0,02 para a RM). Mais importante, a análise de Kaplan-Meier revelou que o acúmulo de fibrose miocárdica associou-se a menor sobrevida 52±17 meses após a cirurgia de troca valvar (teste log-rank: 2=6,32; p=0,01 para histopatologia; 2=5,85; p=0,02 para RM). Conclusões: A RM cardíaca permite quantificar as regiões de fibrose miocárdica com boa acurácia quando comparada à análise histopatológica nos pacientes portadores de doença valvar aórtica grave. A magnitude de acúmulo de fibrose miocárdica está associada a pior recuperação funcional do VE e a menor sobrevida após a cirurgia de troca valvar aórtica. / Introduction: Severe aortic valve disease is characterized by a process of progressive accumulation of interstitial fibrosis in the myocardial tissue. It has been shown that the amount of interstitial myocardial fibrosis can play an important role in the transition from well-compensated hypertrophy to overt heart failure in the setting of chronic left ventricular mechanical overload typical of this condition. However, assessment of interstitial myocardial fibrosis has only been possible through histological analyses of myocardial fragments obtained from endomyocardial biopsies, which is a complex and invasive procedure and, therefore, with limited clinical applicability. Objectives: Determine whether delayedenhancement cardiac magnetic resonance imaging (MRI) allows for the non-invasive quantification of myocardial fibrosis when compared against histopathological analyses in patients with severe aortic valve disease. Additionally, we evaluated the relationship between the amount of myocardial fibrosis and important prognostic parameters, such as all-cause mortality and LV functional recovery after aortic valve replacement. Methods: Fifty-four patients scheduled to undergo aortic valve replacement surgery were enrolled between May 2001 and December 2003. Before surgery, all patients underwent cine and delayedenhancement MRI in a 1.5 Tesla scanner. Quantification of myocardial fibrosis by cardiac MRI was based on the assessment of the delayed-enhancement dataset using a novel semiautomatic algorithm. The regions of myocardial fibrosis were defined as the sum of pixels with signal intensity above a threshold value defined as: mean signal intensity of the myocardium + 2 standard deviations of mean signal intensity of a remote area + 2 standard deviations of mean signal intensity of air. During open-heart surgery, myectomy samples were acquired from the LV septum and later stained with picrosirius for interstitial myocardial fibrosis quantification. A second cardiac MRI study was performed 6 months after surgery to assess long-term changes in LV functional parameters, and all patients were followed for at least 24 months to evaluate survival after aortic valve replacement. Results: There was a good correlation between the values of myocardial fibrosis measured by MRI and those obtained by histopathological analyses (r=0.69; y=3.10x+13.0; p<0.0001). The amount of myocardial fibrosis, either by MRI or by histopathology, exhibited a significant inverse correlation with LV ejection fraction before surgery (r=-0.63 e -0.67 respectively; p<0.0001). Additionally, the amount of myocardial fibrosis displayed a significant inverse correlation with the degree of LV functional recovery after aortic valve replacement (r=-0.42, p=0.04 for histopathology; r=-0.47, p=0.02 for MRI). Most importantly, Kaplan-Meier and Cox regression analyses revealed that higher degrees of myocardial fibrosis accumulation were associated with worse survival 52±17 months after aortic valve replacement surgery (log-rank test: 2=6.32; p=0.01 for histopathology; 2=5.85; p=0.02 for MRI). Conclusions: Cardiac MRI allows for the non-invasive quantification of myocardial fibrosis with good accuracy when compared with histopathological analyses in patients with severe aortic valve disease. The degree of myocardial fibrosis accumulation is associated with impaired LV functional recovery and worse survival after aortic valve replacement surgery.

Aortic valve disease

Cardiac surgery

Cirurgia cardíaca

Doença valvar aórtica

Fibrose miocárdica

Função ventricular esquerda

Histopathology

Histopatologia

Imagem por ressonância magnética

Left ventricular function

Magnetic resonance imaging

Myocardial fibrosis

Prognosis

Prognóstico