Use of Surfactant Modifiers for High-Performance Liquid Chromatography of Aliphatic and Aromatic Acids and Capillary Electrophoresis of Glycosaminoglycans

Fasciano, Jennifer Marie

23 November 2015

No description available.

Analytical Chemistry

Chemistry

Glycosaminoglycans

Heparin

Ion Chromatography

Ion Exclusion Liquid Chromatography

Micellar Liquid Chromatography

Sulfated hyaluronan alters fibronectin matrix assembly and promotes osteogenic differentiation of human bone marrow stromal cells

Vogel, Sarah, Arnoldini, Simon, Möller, Stephanie, Hempel, Ute, Schnabelrauch, Matthias

28 March 2017

Extracellular matrix (ECM) composition and structural integrity is one of many factors that influence cellular differentiation. Fibronectin (FN) which is in many tissues the most abundant ECM protein forms a unique fibrillary network. FN homes several binding sites for sulfated glycosaminoglycans (sGAG), such as heparin (Hep), which was previously shown to influence FN conformation and protein binding. Synthetically sulfated hyaluronan derivatives (sHA) can serve as model molecules with a well characterized sulfation pattern to study sGAG-FN interaction. Here is shown that the low-sulfated sHA (sHA1) interacts with FN and influences fibril assembly. The interaction of FN fibrils with sHA1 and Hep, but not with non-sulfated HA was visualized by immunofluorescent co-staining. FRET analysis of FN confirmed the presence of more extended fibrils in human bone marrow stromal cells (hBMSC)-derived ECM in response to sHA1 and Hep. Although both sHA1 and Hep affected FN conformation, exclusively sHA1 increased FN protein level and led to thinner fibrils. Further, only sHA1 had a pro-osteogenic effect and enhanced the activity of tissue non-specific alkaline phosphatase. We hypothesize that the sHA1-triggered change in FN assembly influences the entire ECM network and could be the underlying mechanism for the pro-osteogenic effect of sHA1 on hBMSC.

Extrazellulären Matrix (ECM)

Zelldifferenzierung

sulfatierte Glykosaminoglykane (SGAG)

TU Dresden

Publikationsfonds

Extracellular matrix (ECM)

cellular differentiation

sulfated glycosaminoglycans (sGAG)

TU Dresden

Publishing Fund

ddc:520

rvk:UA 1000

Průtoková injekční analýza vybraných glykosaminoglykanů se spektrofluorimetrickou detekcí / Flow injection analysis of selected glycosaminoglycans with spectrofluorimetric detection

Tichá, Renata

January 2014

The thesis is focused on a determination of heparin and chondroitin sulfate, using flow injection analysis with spectrofluorimetric detection. The determination is based on the interaction of negatively charged heparin, chondroitin sulfate resp., with a cationic dye (azure B or phenosafranine) which is manifested by the decrease in fluorescence intensity of the dye in its emission maximum. The optimal conditions for the determination in static mode were found, and calibration dependencies were measured. The conditions of FIA were optimized and following parameters were established: the volume of dispensed sample of 100 ml, the length of the reaction coil 60 cm, the flow rate 0.7 ml min-1 , the concentration of azure B 1.6×10-5 mol dm-3 , the concentration of phenosafranine 3.5×10-5 mol dm-3 . For the determination of heparin using azure B it was found: LOD = 0.023 IU ml-1 , LOQ = 0.186 IU ml-1 , and linear dynamic range 0.19-1.43 IU ml-1 . For the determination of heparin using phenosafranine it was found: LOD = 0.102 IU ml-1 , LOQ = 0.192 IU ml-1 , and linear dynamic range 0.19-1.79 IU ml-1 . For the determination of chondroitin sulfate using azure B it was found: LOD = 0.58 mg dm-3 , LOQ = 2.37 mg dm-3 , and linear dynamic range 2.37-8.32 mg dm-3 . The developed determination was applied to the...

Potentialisation des propriétés de cellules souches mésenchymateuses par des mimétiques de glycosaminoglycannes et leur application en thérapie osseuse en association à des biomatériaux. / Study on the effects of Glycosaminoglycan Mimetics on progenitors and mesenchymal stem cells properties, potential uses in regenerative medicine

Frescaline, Guilhem

03 December 2010

Résumé français manquant / Scientific background: GAGs mimetics properties on regenerative process.Glycosaminoglycans (GAGs) are sulfated polysaccharides actually considered as major structural components of the extracellular matrix as well as regulators of cells functions during homeostatic and pathological processes. These GAGs activities are based on their ability to interact with heparin binding growth-factors (HBGF), chemokines and enzymes, to protect them from proteolytic degradation and to potentialyze their interaction with cell surface specific receptors and/or other components of the ECM. GAGs are characterized by their extensive structural diversity, based on the number and location of sulfate or acetylate groups, that would determine specific biological interactions.As comparative tool to study the relationship between the complexity of GAGs chemical structures and their biological functions, we used synthetic GAGs mimetics, derivate from a polymer of dextran and functionalized with carboxylate, sulfate and/or acetate groups. They are structurally and functionally related to natural heparan sulfates. These compounds improved both the rate and quality of regenerative process in numerous animal models of injury after topical treatment.Our hypothesize is that specific HS cooperative interactions with HBGF and ECM compounds could influence both therapeutic progenitors and stem cells properties by compartmentalizing them to specific microenvironment niches, and protecting them against deleterious signals. Such abilities to modulate stem cell biology could be a new way to explain and to take advantage of regenerative properties of these compounds. The principal aim of this work was to demonstrate the effects of GAGs mimetics on Mesenchymal Stem Cells (MSC) properties for application in bone repair. GAGs mimetics as new potentializing agents of mesenchymal stem cells propertiesDuring osteogenesis, a controlled expression of functional HS is required to interact and regulate the activity of growth promoting and osteogenic differentiation factors. However effects of GAGs on MSC properties remain to be analyzed. We focus on two GAGs mimetics leader molecules [OTR4131] and [OTR4120], with distinct chemical characteristics, since sulfated mimetic [OTR4120] was previously shown to stimulate bone repair in vivo. We demonstrate that its acetylated and sulfated counterpart [OTR4131] enhances proliferation, whereas [OTR4120] clearly stimulates migration and osteogenic differentiation properties of rat MSC in vitro, that could explain its bone regenerative effect in vivo. This indicates that GAGs mimetics would be of great interest for potential application in therapy, since according to their structural signature they could modulate specific activities of progenitors and stem cells, and represent an alternative to exogenous growth factor treatments. New matricial strategy for bone repair associating GAGs mimetics to biomaterials and human MSCCell based therapy associated to biomaterials for repair of bone defects are promising but not enough efficient. We proposed to develop matricial strategy, associating efficient micro-environment molecules such as GAGs mimetics, to optimize cell therapeutic approaches. First we validated that GAGs mimetics are effective on human MSC proliferation, migration and differentiation properties in vitro. We demonstrated that colonization efficiency of hydroxyapatite/β-tricalcium phosphate biomaterial scaffolds by human MSC was improved when scaffolds are functionalized with GAGs mimetics in vitro. Finally osteoformation in vivo was evaluated after ectopic transplantation of functionalized and/or cellularized biomaterials in nude mice: few effects were observed on bone formation, whereas osteoclastogenesis and vascularization were clearly modulated by GAGs mimetics immobilized. GAGs mimetics as new mobilizing agents of stem cells...

Glycosaminoglycannes

Cellules souches mésenchymateuses

Thérapie osseuse

Biomatériaux

Glycosaminoglycans mimetics

Regenerating agents

Mesenchymal stem cells

Osteoblasts

Osteoclasts

Biomaterials

Bone repair

Matricial therapy

Mobilizing agents

Peripheral blood

Investigação dos biomarcadores de estresse oxidativo e inflamação em pacientes portadores de mucopolissacaridose tipo IVA submetidos à terapia de reposição enzimática / Investigation of oxidative stress and inflammation biomarkers in Mucopolysaccharidosis type IVA patients under enzyme replacement therapy

Donida, Bruna

January 2015

A Mucopolissacaridose tipo IVA (MPS IVA), é uma doença lisossômica de depósito ocasionada pela degradação deficiente dos glicosaminoglicanos (GAG) queratan sulfato e condroitin-6-sulfato devido à deficiência da enzima N-acetilgalactosamina 6-sulfatase. Como a fisiopatologia desta doença ainda não está totalmente elucidada e muitos estudos vêm demonstrando o envolvimento do estresse oxidativo e inflamação na patogênese de outros tipos de mucopolissacaridoses, o objetivo principal deste trabalho foi investigar os parâmetros de estresse oxidativo e mediadores inflamatórios em pacientes MPS IVA sob terapia de reposição enzimática (TRE). Foram analisadas amostras de urina e sangue de pacientes MPS IVA sob TRE (n=17) e controles saudáveis pareados por idade (n=10-14). Os pacientes apresentaram diminuição significativa nos níveis de defesas antioxidantes, medida através dos níveis de glutationa reduzida (GSH), e aumento da enzima superóxido dismutase (SOD) em eritrócitos. Em relação ao dano a biomoléculas, foi observado nos pacientes um aumento de lipoperoxidação (aumento dos níveis de isoprostanos urinários) e de dano oxidativo a proteínas (aumento dos níveis urinários de di-tirosina e diminuição dos grupamentos sulfidrila no plasma) comparativamente aos controles. Nossos resultados também mostraram que os pacientes MPS IVA sob TRE apresentaram maior dano ao DNA, sendo este dano de origem oxidativa e atingindo bases purínicas e pirimidínicas. Além disso, os pacientes apresentaram níveis significativamente aumentados de interleucina-6 e esta, por sua vez, apresentou correlação negativa com GSH, mostrando uma possível relação entre inflamação e estresse oxidativo nesta doença. Considerando que os níveis de GAG urinários ainda se encontravam elevados nos pacientes em comparação com o grupo controle, pode-se supor que os mesmos estejam, pelo menos em parte, correlacionados com os danos oxidativos encontrados nestes pacientes. Os dados encontrados no presente trabalho sugerem que pacientes MPS IVA sob TRE apresentam uma condição pró-inflamatória e oxidativa e que a suplementação com antioxidantes em combinação com a TRE deve ser investigada com o intuito de melhorar a qualidade de vida dos pacientes. Cabe ressaltar que este é o primeiro estudo em pacientes que relaciona MPS IVA com estresse oxidativo e inflamação. / The Mucopolysaccharidosis type IVA (MPS IVA) is a lysosomal storage disease caused by impaired degradation of keratan sulfate and chondroitin-6-sulfate glycosaminoglycans (GAG), due to a deficiency on the enzyme N-acetylgalactosamine-6-sulfatase. Since the pathophysiology of this disease is still not totally elucidated and many studies demonstrated the involvement of oxidative stress and inflammation in the pathogenesis of other mucopolysaccharidoses types, the principal objective of this study was to investigate oxidative stress parameters and inflammatory mediators in MPS IVA patients under enzyme replacement therapy (ERT). Urine anda blood samples of MPS IVA patients under ERT (n= 17) and healthy age-matched controls (n= 10-14) were evaluated. Patients presented a significant decrease in antioxidant defenses levels, assessed by reduced glutathione (GSH), and increased superoxide dismutase (SOD) activity in erythrocytes. With regard to the biomolecules damage, was observed that patients presented lipid peroxidation (increase of isoprostanes urinary levels) and protein damage (increase of di-tyrosine urinary levels and decrease of sulfhydryl groups in plasma), when compared to controls. Our results showed higher DNA damage levels in MPS IVA patients compared to control group, in both pyrimidines and purines bases. The pro-inflammatory cytokine interleukin 6 (IL-6) was significantly increased in patients and showed an inverse correlation with GSH levels, showing a possible link between inflammation and oxidative stress in MPS IVA disease. Considering that GAG urinary level were still high in ERT patients compared to the control group, we propose that GAG are, at least in part, related with oxidative damage found in MPS IVA patients. The data presented suggest that pro-inflammatory and pro-oxidant states occur in MPS IVA patients under ERT, and the supplementation of antioxidants in combination with ERT can be investigated with the purpose of improving the patient’s life quality. To the best of our knowledge, this is the first study in patients relating MPS IVA with oxidative stress and inflammation.

Mucopolissacaridose IV

Bioquímica

Estresse oxidativo

Terapia de reposição de enzimas

Glicosaminoglicanas

Erros inatos do metabolismo

Mucopolysaccharidosis IVA

Oxidative stress

Inflammation

Enzyme replacement terapy

Glycosaminoglycans

Estudo sobre as manifestações gastrointestinais em pacientes com mucopolissacaridoses

Giugliani, Luciana

January 2013

Introdução: As Mucopolissacaridoses (MPS) são doenças lisossômicas causadas pela deficiência de enzimas envolvidas na degradação dos glicoaminoglicanos. O acúmulo anormal dessa molécula compromete a função celular e orgânica, levando a um espectro de manifestações clínicas, de caráter multissistêmico e progressivo. Manifestações gastrointestinais, tais como episódios frequentes de fezes amolecidas e diarréia, têm sido frequentemente evidenciadas e relatadas por pacientes com MPS. Ainda que os sintomas gastrointestinais sejam frequentemente ofuscados pelos fenótipos neurológicos graves, eles podem afetar a qualidade de vida dos pacientes e de seus familiares. Objetivo: Avaliar as manifestações gastrointestinais em pacientes com MPS que estavam ou não recebendo Terapia de Reposição Enzimática (TRE). Adicionalmente, para melhor compreender o assunto, avaliamos a histologia da mucosa intestinal em camundongos com MPS I. Métodos: Estudo transversal com amostragem de conveniência. Foram incluídos no estudo pacientes com diagnóstico de qualquer tipo de MPS que estavam ou não em TRE. Os sujeitos foram avaliados através de inquérito alimentar, questionamentos quanto ao aparecimento de sintomas gastrointestinais e realização de uma série de exames bioquímicos. Adicionalmente, foram realizados testes de bioimpedância elétrica (para avaliação da composição corporal) e teste molecular para hipolactasia primária a partir de amostras de DNA dos pacientes, assim como análise da histologia da mucosa intestinal em um modelo de camundongo com MPS I. Resultados: Foram incluídos 27 pacientes com diferentes tipos de MPS, sendo 15 (55,6%) do sexo feminino e 12 (44,4%) do sexo masculino, com mediana de idade de 12 (1-28) anos. Os sintomas gastrointestinais mais prevalentes foram flatulência, distensão abdominal, dor abdominal e fezes amolecidas. Houve diferença significativa na prevalência de flatulência entre os tipos de MPS (p=0,004). A prevalência de flatulência e de distensão abdominal foi significativamente maior no grupo dos que não recebiam TRE, em comparação ao grupo dos que recebia TRE (p = 0,04 e 0,03, respectivamente). A maioria dos exames bioquímicos realizados para investigação e/ou exclusão de alguma patologia específica apresentaram resultados normais, sugerindo que o aparecimento de sintomas gastrointestinais nesses pacientes possa ser decorrente da própria MPS através de mecanismo fisiopatológico independente. A análise da histologia do intestino delgado de camundongos MPS I identificou células aumentadas de volume, sugerindo algum tipo de acúmulo intracelular. Em relação ao Teste Molecular para Hipolactasia, 58,8% dos pacientes apresentaram genótipo CC, o qual é compatível com intolerância à lactose. Os exames de Bioimpedância Elétrica sugerem que, os pacientes em TRE apresentam menor proporção de massa gorda (MG) em relação aos pacientes que não estavam em TRE. Conclusão: Este foi o primeiro estudo sobre manifestações gastrointestinais de pacientes brasileiros com MPS realizado em nosso meio. Inúmeros sinais e sintomas foram observados, com maior prevalência relativa nas MPS I, II, III e IV do que na MPS VI. O sintoma mais frequentemente relatado foi flatulência. Embora não tenha sido estatisticamente significativo a diferença, a proporção de pacientes com sintomas gastrointestinais foi menor nos pacientes que estavam em TRE. A Intolerância à lactose observada em maior proporção nos pacientes com MPS com manifestações gastrointestinais, a avaliação da composição corporal e as alterações observadas na mucosa intestinal do camundongo com MPS I devem ser levadas em consideração na interpretação dos resultados. Acreditamos que mais estudos, dirigidos para as manifestações gastrointestinais, devam ser realizados para comprovar esses achados e melhor compreender os mecanismos fisiopatológicos dos sintomas relacionados nos pacientes aferidos. / Introduction: The mucopolysaccharidoses (MPS) are lysosomal storage disorders characterized by a deficiency in enzymes involved in glycosaminoglycan degradation. Abnormal accumulation of this molecule compromises cellular and organic function, leading to a spectrum of progressive, multisystem clinical manifestations. Gastrointestinal manifestations, such as frequent episodes of loose stools and diarrhea, are often reported by patients with MPS. Although these gastrointestinal symptoms are often overshadowed by severe neurological phenotypes, they can have a negative impact on the quality of life of patients and their family members. Objective: To assess gastrointestinal manifestations in patients with MPS who were or not receiving enzyme replacement therapy (ERT). Furthermore, we sought to assess bowel mucosa histology in a mouse model of MPS I. Methods: Cross-sectional study with a convenience sampling strategy. The sample comprised patients with a diagnosis of MPS of any type and regardless of ERT status. Patients were assessed by means of a dietary recordatory and an interview focused on gastrointestinal symptoms, as well as a battery of biochemical tests. Bioelectrical Impedance was performed for body composition assessment.Patient DNA samples were also tested by molecular tests for primary lactase hypolactasia, and bowel mucosa specimens from MPS I mice underwent histological examination. Results: A total of 27 MPS patients were included, 15 (55.6%) female and 12 (44.4%) male, with a median age of 12 (1-28) years. The most prevalent gastrointestinal symptoms were flatulence, abdominal distension, abdominal pain, and loose stools. A significant difference in the prevalence of flatulence was observed among different MPS types (p=0.004). The prevalence of flatulence and abdominal distension was significantly higher in the non-ERT group than in the ERT group (p = 0.04 and 0.03 respectively). Most biochemical tests performed to work up and/or rule out specific conditions were within normal limits, which suggests that the development of gastrointestinal systems in these patients may be due to MPS itself through an independent pathophysiological mechanism. Histological analysis of smallbowel tissue from MPS I mice found increased cell volume indicative of some form of intracellular accumulation. On molecular testing for lactase deficiency, 58.8% of patients had the CC genotype, which is consistent with lactose intolerance. Bioelectrical Impedance analysis suggest that patients with TRE have lower proportion of fat mass (FM) compared to patients who were not on ERT. Conclusion: This was the first study to assess gastrointestinal manifestations in Brazilian patients with different MPS subtypes.Several signs and symptoms were observed with higher relative prevalence in MPS I, II, III and IV to that in MPS VI. The most frequently reported symptom was flatulence. Although was no statistical difference the proportion of patients with gastrointestinal symptoms was lower in patients on ERT.The lactose intolerance observed in a higher proportion of MPS patients with gastrointestinal manifestations, body composition assessment and observed changes in the bowel mucosa of MPS I mice should be taken into account when interpreting the results. Further studies focusing on the gastrointestinal manifestations of MPS are warranted to corroborate our findings and provide a better understanding of the pathophysiological mechanisms associated with these symptoms in affected patients.

Mucopolissacaridoses

Terapia de reposição de enzimas

Avaliação nutricional

Modelos animais de doenças

Mucopolysaccharidoses

Glycosaminoglycans

Lysosomal storage disorders

Gastrointestinal manifestations

Enzyme replacement therapy

Bioelectrical impedance

Nutritional assessment

Séquençage par couplage de spectrométrie de masse et spectroscopie infrarouge de fragments de glycosaminoglycanes / Sequencing by coupling Mass spectrometry and infrared spectroscopy of glycosaminoglycan fragments

Renois Predelus, Gina

09 May 2019

Les carbohydrates font partie des trois grandes classes de biopolymères présents dans la nature. Ils représentent 75% de la biomasse. Les glycosaminoglycanes font partie des carbohydrates, ils sont présents à la surface des cellules et sont responsables de la signalisation cellulaire. Ils sont importants dans de nombreux processus biologiques. Vu leur importance en biologie et en santé, il est nécessaire de comprendre leur fonctionnement. Dans cette thèse nous avons étudié deux types de tétrasaccharides de glycosaminoglycanes (chondroïtine sulfate et dermatane sulfate) avec une nouvelle méthode qui couple la spectrométrie de masse à la spectroscopie vibrationnelle (MS/IR). Nous avons montré qu’avec cette méthode la signature de l’empreinte OH fonctionne pour les glycosaminoglycanes qui présentent des groupements Coo- et des groupements sulfate contrairement aux oses simples. Cette méthode a également validé la pertinence du séquençage pour l'élucidation de profils de sulfate et la nature de l’hexuronique dans les oligosaccharides de glycosaminoglycanes. L’approche du séquençage améliore considérablement la résolution structurelle par rapport à la simple analyse spectroscopique de l'ion précurseur. Elle permet d’avoir plus d’information sur les oligosaccharides. Et pour finir nous avons proposé un protocole pour l’analyse de mélanges afin de déterminer le ratio des différents éléments présents dans le mélange / Carbohydrates are among the three major classes of biopolymers found in nature. They represent 75% of the biomass. Glycosaminoglycans are carbohydrates, they are present on the surface of cells and are responsible for cell signaling. They are important in many biological processes. Given their importance in biology and health, it is necessary to understand their mechanism. In this thesis we studied two types of glycosaminoglycan tetrasaccharides (chondroitin sulfate and dermatan sulfate) with a new method that combines mass spectrometry with vibrational spectroscopy (MS / IR). We have shown that with this method the signature of the OH-fingerprint works for glycosaminoglycans which have COO- groups and sulfate groups in contrast to simple carbohydrates. This method also validated the relevance of sequencing for the elucidation of sulfate profiles and the nature of hexuronic in oligosaccharides of glycosaminoglycans. The sequencing approach significantly improves the structural resolution compared to the simple spectroscopic analysis of the precursor ion. It provides more information on oligosaccharides. And finally we proposed a protocol for the analysis of mixtures to determine the ratio of the different elements present in the mixture

Acide hexuronique

Chondroïtine sulfate

Dermatane sulfate

Glycosaminoglycanes

IRMPD

Séquençage

Spectrométrie de masse

Spectroscopie vibrationnelle

Chondroitin sulfate

Dermatan sulfate

Glycosaminoglycans

Hexuronic acid

IRMPD

Mass spectrometry

Sequencing

Vibrational spectroscopy

530

The role of PPAR-α ligands (fibrates) in the regulation of vascular smooth muscle proteoglycan synthesis and structure as a contributor to reduced lipoprotein binding and the development of atherosclerosis

Nigro, Julie

January 2004

Abstract not available

Atherosclerosis -- Pathogenesis

Atherosclerosis -- Pathophysiology

Extracellular matrix

Vascular smooth muscle

Proteoglycans

Proteoglycans -- Synthesis

Glycosaminoglycans

Fenofibrate

Low density lipoproteins

The characterization of the microstructure of the aortic valve for tissue engineering applications

Tseng, Hubert

16 September 2013

The aortic valve maintains unidirectional blood flow between the left ventricle and the systemic circulation. When diseased, the valve is replaced either by a mechanical or a bioprosthetic heart valve, that carry issues such as thrombogenesis, long term structural failure, and calcification, necessitating the development of more structurally and biologically sufficient long-term replacements. Tissue engineering provides a possible avenue for development, combining cells, scaffolds, and biochemical factors to regenerate tissue. The overall goal of this dissertation was to create a foundation for the rational design of a tissue engineered aortic valve. The novel approach taken in this thesis research was to view each of the three leaflets as a laminate structure. The first three aims consider the leaflet as a laminate structure comprising of layers of collagen, elastin, and glycosaminoglycans (GAGs). In the first aim, the effect of GAGs on the tensile properties and stress relaxation in the leaflet was investigated, by removing GAGs through increasing amounts of hyaluronidase. A decrease in GAGs led to significantly higher elastic moduli, maximum stresses, and hysteresis in the leaflet. In the second aim, the 3D elastic fiber network of the leaflet was characterized using immunohistochemistry and scanning electron microscopy. This structure was found to have regionally varying thicknesses and patterns. In the third aim, a novel hydrogel-fiber composite design was proposed to match the anisotropy of the leaflet. This composite composed of aligned electrospun poly(ε-caprolactone) (PCL) within a poly(ethylene glycol) diacrylate (PEGDA) matrix. Surface modification and embedding of the PCL did not significantly alter the anisotropy or strength of the underlying PCL scaffold, providing the basis for an anisotropic, biocompatible scaffold. In the last aim, a novel co-culture model was designed using magnetic levitation as a layered structure of valvular endothelial cells and interstitial cells. This technique was used to create co-culture models within hours, while maintaining cell phenotype and function, and inducing extracellular matrix formation, as shown by immunohistochemical stains and their gene expression profiling. The overall result of this dissertation is a clearer understanding of the layered structure-function relationship of the aortic valve, and its application towards heart valve tissue engineering.

Aortic valve

tissue engineering

biomechanics

heart valves

valvular interstitial cell

valvular endothelial cell

glycosaminoglycans

elastic fibers

polyethylene glycol

polycaprolactone

magnetic levitation

co-culture

The development of glycosaminoglycan-based materials to promote chondrogenic differentiation of mesenchymal stem cells

Lim, Jeremy James

03 July 2012

Tissue engineering strategies represent exciting potential therapies to repair cartilage injuries; however, difficulty regenerating the complex extracellular matrix (ECM) organization of native cartilage remains a significant challenge. Cartilaginous ECM molecules, specifically chondroitin sulfate (CS) glycosaminoglycan, may possess the ability to promote and direct MSC differentiation down a chondrogenic lineage. CS may interact with the stem cell microenvironment through its highly negative charge, generation of osmotic pressure, and sequestration of growth factors; however, the role of CS in directing differentiation down a chondrogenic lineage remains unclear. The overall goal of this dissertation was to develop versatile biomaterial platforms to control CS presentation to mesenchymal stem cells (MSCs) in order to improve understanding of the interactions with CS that promote chondrogenic differentiation. To investigate chondrogenic response to a diverse set of CS materials, progenitor cells were cultured in the presence of CS proteoglycans and CS chains in a variety of 2D and 3D material systems. Surfaces were coated with aggrecan proteoglycan to alter cell morphology, CS-based nano- and microspheres were developed as small particle carriers for growth factor delivery, and desulfated chondroitin hydrogels were synthesized to examine electrostatic interactions with growth factors and the role of sulfation in the chondrogenic differentiation of MSCs. Together these studies provided valuable insight into the unique ability of CS-based materials to control cellular microenvironments via morphological and material cues to promote chondrogenic differentiation in the development of tissue engineering strategies for cartilage regeneration and repair.

Tissue engineering

Cartilage

Mesenchymal stem cell

Extracellular matrix

Glycosaminoglycan

Chondroitin sulfate

Mesenchymal stem cells Differentiation

Cell differentiation

Glycosaminoglycans

Chondroitin sulfates

Stem cells