Cell-Derived Extracellular Matrix Scaffolds Developed using Macromolecular Crowding

Shendi, Dalia M

11 June 2019

Cell-derived (CDM) matrix scaffolds provide a 3-dimensional (3D) matrix material that recapitulates a native, human extracellular matrix (ECM) microenvironment. CDMs are a heterogeneous source of ECM proteins with a composition dependent on the cell source and its phenotype. CDMs have several applications, such as for development of cell culture substrates to study stromal cell propagation and differentiation, as well as cell or drug delivery vehicles, or for regenerative biomaterial applications. Although CDMs are versatile and exhibit advantageous structure and activity, their use has been hindered due to the prolonged culture time required for ECM deposition and maturation in vitro. Macromolecular crowding (MMC) has been shown to increase ECM deposition and organization by limiting the diffusion of ECM precursor proteins and allowing the accumulation of matrix at the cell layer. A commonly used crowder that has been shown to increase ECM deposition in vitro is Ficoll, and was used in this study as a positive control to assess matrix deposition. Hyaluronic acid (HA), a natural crowding macromolecule expressed at high levels during fetal development, has been shown to play a role in ECM production, organization, and assembly in vivo. HA has not been investigated as a crowding molecule for matrix deposition or development of CDMs in vitro. This dissertation focused on 2 aims supporting the development of a functional, human dermal fibroblast-derived ECM material for the delivery deliver an antimicrobial peptide, cCBD-LL37, and for potentially promoting a pro-angiogenic environment. The goal of this thesis was to evaluate the effects of high molecular weight (HMW) HA as a macromolecular crowding agent on in vitro deposition of ECM proteins important for tissue regeneration and angiogenesis. A pilot proteomics study supported the use of HA as a crowder, as it preliminarily showed increases in ECM proteins and increased retention of ECM precursor proteins at the cell layer; thus supporting the use of HA as a crowder molecule. In the presence of HA, human dermal fibroblasts demonstrated an increase in ECM deposition comparable to the effects of Ficoll 70/400 at day 3 using Raman microspectroscopy. It was hypothesized that HA promotes matrix deposition through changes on ECM gene expression. However, qRT-PCR results indicate that HA and Ficoll 70/400 did not have a direct effect on collagen gene expression, but differences in matrix crosslinking and proteinase genes were observed. Decellularized CDMs were then used to assess CDM stiffness and endothelial sprouting, which indicated differences in structural organization of collagen, and preliminarily suggests that there are differences in endothelial cell migration depending on the crowder agent used in culture. Finally, the collagen retained in the decellularized CDM matrix prepared under MMC supported the binding of cCBD-LL37 with retention of antimicrobial activity when tested against E.coli. Overall, the differences in matrix deposition profiles in HA versus Ficoll crowded cultures may be attributed to crowder molecule-mediated differences in matrix crosslinking, turnover, and organization as indicated by differences in collagen deposition, matrix metalloproteinase expression, and matrix stiffness. MMC is a valuable tool for increasing matrix deposition, and can be combined with other techniques, such as low oxygen and bioreactor cultures, to promote development of a biomanufactured CDM-ECM biomaterial. Successful development of scalable CDM materials that stimulate angiogenesis and support antimicrobial peptide delivery would fill an important unmet need in the treatment of non-healing, chronic, infected wounds.

cell-derived matrices

extracellular matrix

Hyaluronic Acid

macromolecular crowding

extracellular matrix

Enhanced wound healing by topical administration of mesenchymal stem cells transfected with stromal cell-derived factor-1 / ストロマ細胞由来因子遺伝子を導入した間葉系幹細胞による創傷治癒の促進

Nakamura, Yoko

23 January 2014

京都大学 / 0048 / 新制・課程博士 / 博士(医学) / 甲第17976号 / 医博第3840号 / 新制||医||1001(附属図書館) / 80820 / 京都大学大学院医学研究科医学専攻 / (主査)教授 戸口田 淳也, 教授 宮地 良樹, 教授 長澤 丘司 / 学位規則第4条第1項該当 / Doctor of Medical Science / Kyoto University / DGAM

skin wound healing

mesenchymal stem cell

storomal cell-derived factor-1

non-viral vector

490

Investigating Cardiac Metabolism in Barth Syndrome Using Induced Pluripotent Stem Cell-Derived Cardiomyocytes

Fatica, Erica Marie

02 May 2019

No description available.

Chemistry

Biochemistry

Barth syndrome

Mechanisms of microenvironmental conditioning in non-Hodgkin's lymphoma

Zhuang, Lihui

January 2012

Tumours are not autonomous transformed cell populations, but rather a society composed of both malignant and normal, including immune, cells that together foster tumour growth and development. Tumour-associated macrophages have been reported to enhance tumour growth, progression and metastasis. In high-grade non-Hodgkin’s lymphomas, prototypically the B-cell neoplasm, Burkitt’s lymphoma (BL), infiltrating macrophages engulf large numbers of apoptotic tumour cells. Evidence suggests that apoptotic BL cells can condition the tumour microenvironment to promote lymphoma development by selectively attracting macrophages while inhibiting neutrophil infiltration and by stimulating macrophages to produce the B-cell growth and survival factor. Tumour cells grow in a hypoxic and nutrient-deficient environment and the resultant cellular stress can induce apoptosis. It is therefore possible that hostile environmental conditions in the tumour also contribute to the generation of a pro-tumour microenvironment. This thesis describes investigations which examined this hypothesis. BL cells were cultured at high density to mimic conditions of metabolic stress existing in the tumour environment. Cell-free supernatants from such stressed BL cells demonstrated potent chemoattractive activity for mononuclear phagocytes. Supernatants from BL cells that were protected from apoptosis by over-expression of bcl-2 had similar ability, confirming that chemoattractant release was apoptosis-independent. The observation that apyrase and suramin could inhibit the chemotactic activity of these supernatants suggested that nucleotides might be the apoptosis-independent chemoattractant. Detection of ATP in stress supernatants by bioluminescence assay was consistent with this proposal. Significantly, supernatants from BL cells and those transfected with bcl-2 were both found to inhibit neutrophil migration, suggesting the occurrence of a neutrophil migration inhibitory factor whose release was apoptosis-independent. Furthermore, stress supernatants could promote BL cell proliferation in vitro, which was apoptosis and cell line-independent. In order to study the role of TAM in the tumour microenvironment, a novel macrophage model was devised using mouse embryonic stem cells (ES cells). Cells derived from ES cells generated in vitro expressed macrophage-specific markers and were free of dendritic cells and undifferentiated ES cells. ES cell-derived macrophages (ESDM) could migrate towards apoptotic BL cells and engulf them. However, ESDM migrated to stress supernatants with decreasing efficiency as they matured. Preliminary data indicated that the phagocytic ability of ESDM to engulf apoptotic cells increased as they matured, consistent with distinct roles for circulating monocytes and tissue macrophages with regard to this function. Considering the high yields and purities of ESDM described here, together with their non-malignant nature and genetic versatility these cells should provide a superior source of undifferentiated mononuclear phagocytes with which to elucidate the molecular mechanisms underlying tumour infiltration and microenvironmental conditioning by TAM. In conclusion, this work suggests that under conditions of pre-apoptotic stress, BL cells have the capacity to regulate their micro-environment upstream of their apoptosis programme to promote net tumour growth through paracrine signals that attract supportive macrophages and inhibit destructive neutrophils and through release of autocrine/juxtacrine tumour growth factors.

616.994

Engineering the Myocardial Niche in a Microscale Self-assembling Tissue-mimetic in vitro Model

Thavandiran, Nimalan

23 July 2012

Drug- and cell-based strategies for treating heart disease, including myocardial infarction, face significant roadblocks on the path to the clinic, a primary obstacle being the lack of information-rich in vitro human model systems. Conventional model systems are hampered by at least one of three fundamental limitations which include a) the lack of an in vivo-like microenvironment specifically engineered for the input cell population, b) a relatively low-throughput assays, and c) the low-content nature of output parameters. We describe an integrated computational, design, and experimental strategy for the rational design of a microfabricated high-content screening platform which we term the Cardiac MicroWire (CMW) system. Within this system, we recapitulate the basic microenvironment found in the heart, one which integrates cardiomyocytes, non-myocytes, the extracellular matrix, and dynamic electromechanical forces. Our results highlight the CMW system’s potential as a powerful discovery tool for screening small molecules and transplantable cells toward heart regeneration therapies.

In vitro 3D cardiac model

Maturation of cardiomyocytes

Microfabrication for cell-based assays

0541

0542

Engineering the Myocardial Niche in a Microscale Self-assembling Tissue-mimetic in vitro Model

Thavandiran, Nimalan

23 July 2012

Drug- and cell-based strategies for treating heart disease, including myocardial infarction, face significant roadblocks on the path to the clinic, a primary obstacle being the lack of information-rich in vitro human model systems. Conventional model systems are hampered by at least one of three fundamental limitations which include a) the lack of an in vivo-like microenvironment specifically engineered for the input cell population, b) a relatively low-throughput assays, and c) the low-content nature of output parameters. We describe an integrated computational, design, and experimental strategy for the rational design of a microfabricated high-content screening platform which we term the Cardiac MicroWire (CMW) system. Within this system, we recapitulate the basic microenvironment found in the heart, one which integrates cardiomyocytes, non-myocytes, the extracellular matrix, and dynamic electromechanical forces. Our results highlight the CMW system’s potential as a powerful discovery tool for screening small molecules and transplantable cells toward heart regeneration therapies.

In vitro 3D cardiac model

Maturation of cardiomyocytes

Microfabrication for cell-based assays

0541

0542

Sistema automatizado para estimulação elétrica e avaliação da dinâmica do cálcio intracelular em cardiomiócitos derivados de células-tronco pluripotentes induzidas. / Automated system for electrical stimulation and evaluation of intracellular calcium dynamics in induced pluripotent stem cells-derived cardiomyocytes.

Veronez, Douglas Martins

15 May 2018

Este estudo apresenta o desenvolvimento e validação de uma nova abordagem para a avaliação do cálcio intracelular em culturas de cardiomiócitos derivados de células-tronco pluripotentes induzidas humanas (hiPSC-CM - do inglês human induced pluripotent stem cell-derived cardiomyocytes) que pode ser aplicada para avaliar o efeito de drogas no acoplamento excitação-contração. O método consiste na estimulação elétrica e medição conjunta da fluorescência de forma automatizada e foi viabilizado a partir da inclusão de um sistema de estimulação elétrica em um leitor de ELISA (do inglês Enzyme-Linked Immunosorbent Assay). Um estimulador eletrônico compacto foi projetado para operar junto a um leitor de placas gerando pulsos quadrados monofásicos com duração de 5 ms e campo elétrico de 8 Vcm-1 aplicados por microeletrodos metálicos de platina-irídio em células em cultura. Uma placa de cultura normalmente utilizada em leitor de placas foi modificada para permitir a colocação do estimulador e dos eletrodos. A intensidade de fluorescência do cálcio intracelular foi avaliada utilizando um leitor de ELISA durante a estimulação elétrica em culturas de células marcadas com o indicador de Ca2+ Fluo-4 AM. A estimulação elétrica das células resultou em contrações regulares nas frequências de 0,1 Hz; 0,2 Hz; 0,3 Hz e 0,5 Hz induzidas pelo estimulador. Parâmetros dos transientes de cálcio foram estudados após a exposição de culturas de células ao Verapamil (0,05; 0,5 e 5,0 µM), a amplitude e a inclinação máxima da fase de subida foram progressivamente reduzidas com doses crescentes da droga. Os dados obtidos demonstraram que o método apresentado permite a avaliação automatizada de transientes de cálcio durante a estimulação elétrica de culturas de hiPSC-CM utilizando o sistema de estimulação em um leitor de ELISA. Esses resultados validaram a aplicabilidade do sistema ao estudo das alterações da dinâmica do cálcio intracelular induzidas por drogas em células sob estimulação elétrica. O sistema de avaliação automatizada desenvolvido pode ser ampliado para realizar a triagem de alto rendimento em bibliotecas de compostos que tem como alvo o acoplamento excitação-contração em células cardíacas humanas in vitro. / This study presents the development and validation of a new approach for the evaluation of intracellular calcium in cultures of cardiomyocytes derived from human induced pluripotent stem cells (hiPSC-CM), which can be applied to evaluate the effect of drugs on excitation-contraction coupling. The method consists of electrical stimulation and joint measurement of fluorescence in an automated manner and was made possible by the inclusion of an electrical stimulation system in an ELISA (Enzyme-Linked Immunosorbent Assay). A compact electronic stimulator was designed to operate inside a plate reader generating monophasic square pulses with duration of 5 ms and electric field of 8 Vcm-1 applied by platinum-iridium metal microelectrodes to cells in culture. A culture plate used in a plate reader was modified to allow placement of the stimulator and electrodes. Fluorescence intensity of intracellular calcium was measured during electrical stimulation of cell cultures loaded with Ca2+ Fluo-4 AM indicator using a plate reader. The electrical stimulation of the cells generated regularly spaced contractions following the pace of the stimulator at the frequencies of 0.1 Hz, 0.2 Hz, 0.3 Hz and 0.5 Hz. Transient profile parameters were studied after treating cell cultures with Verapamil (0.05, 0.5 and 5.0 µM) the amplitude and the maximum slope of rising phase were progressively reduced with increasing verapamil doses. The data obtained demonstrated that the method presented allows the automated evaluation of calcium transients during the electrical stimulation of hiPSC-CM cultures using the stimulation system in an ELISA reader. These results demonstrated the applicability of the system to the study of changes in the intracellular calcium dynamics induced by drugs in electrically stimulated cells. The system developed is amenable to scaling thus allowing high content automated drug library screening for compounds that target the excitationcontraction coupling in human heart cells in vitro.

Bioengenharia

Bioengineering

Cálcio

Electrical stimulator for cell cultures

Estimulação elétrica

Fluorescence measurements

Fluorescência

Intracellular calcium

Miocárdio

Plate reader

Sistema automatizado para estimulação elétrica e avaliação da dinâmica do cálcio intracelular em cardiomiócitos derivados de células-tronco pluripotentes induzidas. / Automated system for electrical stimulation and evaluation of intracellular calcium dynamics in induced pluripotent stem cells-derived cardiomyocytes.

Douglas Martins Veronez

15 May 2018

Este estudo apresenta o desenvolvimento e validação de uma nova abordagem para a avaliação do cálcio intracelular em culturas de cardiomiócitos derivados de células-tronco pluripotentes induzidas humanas (hiPSC-CM - do inglês human induced pluripotent stem cell-derived cardiomyocytes) que pode ser aplicada para avaliar o efeito de drogas no acoplamento excitação-contração. O método consiste na estimulação elétrica e medição conjunta da fluorescência de forma automatizada e foi viabilizado a partir da inclusão de um sistema de estimulação elétrica em um leitor de ELISA (do inglês Enzyme-Linked Immunosorbent Assay). Um estimulador eletrônico compacto foi projetado para operar junto a um leitor de placas gerando pulsos quadrados monofásicos com duração de 5 ms e campo elétrico de 8 Vcm-1 aplicados por microeletrodos metálicos de platina-irídio em células em cultura. Uma placa de cultura normalmente utilizada em leitor de placas foi modificada para permitir a colocação do estimulador e dos eletrodos. A intensidade de fluorescência do cálcio intracelular foi avaliada utilizando um leitor de ELISA durante a estimulação elétrica em culturas de células marcadas com o indicador de Ca2+ Fluo-4 AM. A estimulação elétrica das células resultou em contrações regulares nas frequências de 0,1 Hz; 0,2 Hz; 0,3 Hz e 0,5 Hz induzidas pelo estimulador. Parâmetros dos transientes de cálcio foram estudados após a exposição de culturas de células ao Verapamil (0,05; 0,5 e 5,0 µM), a amplitude e a inclinação máxima da fase de subida foram progressivamente reduzidas com doses crescentes da droga. Os dados obtidos demonstraram que o método apresentado permite a avaliação automatizada de transientes de cálcio durante a estimulação elétrica de culturas de hiPSC-CM utilizando o sistema de estimulação em um leitor de ELISA. Esses resultados validaram a aplicabilidade do sistema ao estudo das alterações da dinâmica do cálcio intracelular induzidas por drogas em células sob estimulação elétrica. O sistema de avaliação automatizada desenvolvido pode ser ampliado para realizar a triagem de alto rendimento em bibliotecas de compostos que tem como alvo o acoplamento excitação-contração em células cardíacas humanas in vitro. / This study presents the development and validation of a new approach for the evaluation of intracellular calcium in cultures of cardiomyocytes derived from human induced pluripotent stem cells (hiPSC-CM), which can be applied to evaluate the effect of drugs on excitation-contraction coupling. The method consists of electrical stimulation and joint measurement of fluorescence in an automated manner and was made possible by the inclusion of an electrical stimulation system in an ELISA (Enzyme-Linked Immunosorbent Assay). A compact electronic stimulator was designed to operate inside a plate reader generating monophasic square pulses with duration of 5 ms and electric field of 8 Vcm-1 applied by platinum-iridium metal microelectrodes to cells in culture. A culture plate used in a plate reader was modified to allow placement of the stimulator and electrodes. Fluorescence intensity of intracellular calcium was measured during electrical stimulation of cell cultures loaded with Ca2+ Fluo-4 AM indicator using a plate reader. The electrical stimulation of the cells generated regularly spaced contractions following the pace of the stimulator at the frequencies of 0.1 Hz, 0.2 Hz, 0.3 Hz and 0.5 Hz. Transient profile parameters were studied after treating cell cultures with Verapamil (0.05, 0.5 and 5.0 µM) the amplitude and the maximum slope of rising phase were progressively reduced with increasing verapamil doses. The data obtained demonstrated that the method presented allows the automated evaluation of calcium transients during the electrical stimulation of hiPSC-CM cultures using the stimulation system in an ELISA reader. These results demonstrated the applicability of the system to the study of changes in the intracellular calcium dynamics induced by drugs in electrically stimulated cells. The system developed is amenable to scaling thus allowing high content automated drug library screening for compounds that target the excitationcontraction coupling in human heart cells in vitro.

Bioengenharia

Cálcio

Estimulação elétrica

Fluorescência

Miocárdio

Bioengineering

Electrical stimulator for cell cultures

Fluorescence measurements

Intracellular calcium

Plate reader

Análise das vias de administração e biodistribuição de células derivadas do broto hepático de ratos em modelos de hepatectomia parcial / Analysis of the different administration routes and biodistribution of the stem cells from liver bud of mice in the models of partial hepatectomy

Ferreira, Amanda Olivotti

08 April 2016

A perda do parênquima hepático, induzida por tratamento agudo, cirúrgico ou químico, desencadeia um processo regenerativo até que a massa hepática seja completamente restaurada. A regeneração hepática, após a hepatectomia parcial de 70%, é um dos modelos mais adequados de regeneração de células, órgãos e tecidos mais estudados. No fígado, ainda que sejam atribuídas propriedades regenerativas, muitas das lesões são tão prejudiciais que este mecanismo de reparação é insuficiente, tornando o transplante a única opção. As células derivadas do broto hepático de ratos apresentam uma boa alternativa para tratamento de doenças hepáticas devido ao seu alto índice proliferativo e da expressão de marcadores de pluripotência, sendo sua aplicabilidade viável em modelos experimentais. O objetivo deste trabalho foi analisar as diferentes vias de administração das células derivadas do broto hepático de ratos com 12,5 dias de gestação visando a melhor regeneração do órgão. Foram realizados experimentos de hepatectomia parcial de 70% (N=50 animais), PET Scan MSFX PRO In-Vivo RX e fluorescência, índice hepatossomático, análise de marcadores solúveis (GH, AFP, CEA, IGF-1), análises hematológicas, microscopia de luz (coloração HE, Tricômio de Masson), análise de marcadores por citometria de fluxo (CD90, STRO-1, Nanog, Oct3/4, Ki-67, Caspase 3) e ciclo celular por citometria de fluxo. Nossos dados demonstraram que as células do broto hepático administradas na via endotraqueal apresentaram melhor equilíbrio entre proliferação e morte celular, com maior expressão dos marcadores de pluripotência, melhor organização celular e regeneração tecidual, em contraste com outras vias, incluindo endovenosa, intraperitoneal e oroenteral. Isto a torna mais segura e de maior viabilidade na regeneração celular em relação às demais vias, sendo mais eficiente nos modelos de hepatectomia parcial / The restoration of liver parenchyma after partial hepatectomy or chemical treatments represents appropriate models to study regeneration mechanisms. The most appropriate model for liver regeneration is partial hepatectomy of 70%, however, organ repair properties are insufficient, suggesting the transplantation the best alternative to treat liver diseases. Cells derived from liver buds of rats show a high proliferative index and the expression of pluripotency markers; thus their significance for regeneration purposes can be tested experimentally. We here investigated different routes to administer cells derived from rat live buds of 12.5 days of gestation to adult individuals (N=50 animals) suffering from partial hepatectomy (70%). Applied methods included PET Scan MSFX PRO In-Vivo RX, fluorescence hepatossomatic index, analysis of soluble markers (GH, AFP, CEA, IGF-1), hematological analysis, light microscopy (staining HE, and Masson trichrome) as well as flow cytometry for cell cycle analysis and CD90, STRO-1, Nanog, OCT3/4, Ki-67, Caspase 3 expression. Our data showed that administration via the tracheal route resulted as favorite in regard to the balance between proliferation and cell deaths, of pluripotency marker expression, cellular organization and tissue regeneration, in contrast to other routes including: intravenous, intraperitoneal and oroenteral. Consequently, the tracheal route showed safer and more efficient treatment to enhance cell regeneration after partial hepatectomy

Cell derived hepatic bud

Célula derivada do broto hepático

Citometria de fluxo

Flow cytometry

Hepatectomia parcial

Liver regeneration

Partial hepatectomy

PET Scan

PET scans

Regeneração hepática

Cyclic contractions contribute to 3D cell motility / Les cycles de contraction-relaxation sont impliqués dans la mobilité cellulaire à 3 dimensions

Godeau, Amélie

27 September 2016

La motilité des cellules est un phénomène fondamental en biologie souvent étudié sur des surfaces planes, conditions peu physiologiques. Nous avons analysé la migration cellulaire dans une matrice cellulaire 3D contenant de la fibronectine fluorescente. Nous démontrons que les cellules y sont confinées, et déforment leur environnement de manière cyclique avec une période de ~14 min avec deux centres de contractions à l’avant et à l’arrière de la cellule qui contractent avec un déphasage de ~3.5 min. Une perturbation de ces cycles entraîne une réduction de la motilité. Par l’utilisation d’inhibiteurs spécifiques, nous avons identifié l’acto-myosine comme étant l’acteur principal de ce phénomène. En imposant des contractions-relaxations locales par ablations laser, nous avons déclenché la motilité cellulaire ce qui confirme notre hypothèse. L’ensemble de cette étude met en évidence un nouveau mécanisme fondamental de dynamique cellulaire impliqué dans le mouvement des cellules. / Cell motility is an important process in Biology. It is mainly studied on 2D planar surfaces, whereas cells experience a confining 3D environment in vivo. We prepared a 3D Cell Derived Matrix (CDM) labeled with fluorescently labeled fibronectin, and strikingly cells managed to deform the matrix with specific patterns : contractions occur cyclically with two contraction centers at the front and at the back of the cell, with a period of ~14 min and a phase shift of ~3.5 min. These cycles enable cells to optimally migrate through the CDM, as perturbation of cycles led to reduced motility. Acto-myosin was established to be the driving actor of these cycles, by using specific inhibitors. We were able to trigger cell motility externally with local laser ablations, which supports this framework of two alternating contractions involved in motion. Altogether, this study reveals a new mechanism of dynamic cellular behaviour linked to cell motility.

Migration cellulaire 3D

Matrice extracellulaire

Oscillations

Cytosquelette

Mécanique cellulaire

3D cell migration

Cell derived matrix

Oscillations

Cytoskeleton

Cell mechanics

571.4

571.6