Isolation et caractérisation des cellules stromales mésenchymateuses multipotentes du tissu adipeux: Étude des sous-populations et comparaison avec la moelle osseuse. / Isolation and characterization of multipotent mesenchymal stromal cells from adipose tissue: study of sub-populations and comparison with bone marrow.

Busser, Hélène

14 December 2015

Multipotent mesenchymal stromal cells (MSC) were first discovered in bone marrow and can be isolated from “virtually all organs”. They could participate in tissue maintenance and self-renewing process. They are able to adhere to plastic surfaces and acquire a fibroblastic shape when isolated. They are characterized by a particular phenotype and are able to differentiate into several cell types if cultivated in a specific induction medium. These characteristics were defined on MSC in culture and do not represent how they may be in situ.MSC present particular properties. They can secrete growth factors and several cytokines that give them a trophic activity on one hand and the ability to modulate the immune system on the other hand. They are also able to differentiate. These different properties make them an attractive candidate for cell therapy.MSC are already the focus of several pre-clinical and clinical studies. Nevertheless, the results of these studies are difficult to interpret due to limited understanding of their basic biology. MSC are poorly defined in situ and are heterogeneous. Their heterogeneity is dictated by their tissue of origin and cell preparation. To date, there is no standard protocol for MSC isolation and culture. This leads to numerous questions regarding patient safety, and these questions require answers.The first part of the work deals with the methods used to optimize the extraction of MSC and purification from adipose tissue, one of the main sources of autologous MSC with bone marrow. Classical methods require an enzymatic digestion step. The enzyme used and the duration of adipose tissue digestion time can induce cellular alterations and modify cell functions. Moreover, the addition of a xenobiotic increases the risk of contamination and complicates the monitoring of good manufacturing practices (GMP). We propose a method that does not require this enzymatic digestion step while being easier, safer, faster, gentler and less expensive. Compared to the classical enzymatic method, our method yields an equivalent number of MSC from adipose tissue while preserving their properties.The second part of this work focuses on the characterization of the MSC subpopulations from adipose tissue and compares them to those from bone marrow, which are the historical gold standard. The study made it possible to deepen the knowledge of MSC surface markers in situ from these 2 sources. It also evaluated the various properties of the isolated subpopulations thanks to the cell surface markers CD271, SUSD2, MSCA-1, CD44 and CD34. We showed that MSC from bone marrow express MSCA-1, CD271 and SUSD2 markers in situ. We also found that a population clearly positive for the CD34 does exist in situ with different properties compared to those of the unselected populations or the negative counterpart. 2 populations that are negative and positive for CD44 also exist with similar properties.In contrast to bone marrow MSC, only one selection was able to effectively isolate MSC from adipose tissue by a positive selection based on the expression of CD34. We also isolated a CD271+ population but only from lipoaspirate samples and not from abdominoplasty samples. Collectively, our results suggest that MSCA-1 seems to be the best marker through which to isolate MSC from bone marrow and that CD34 is the only marker able to positively isolate cells from adipose tissue. Thus, we show that the MSC from the different sources share similar properties although they have specific characteristics. The choice of the source and of the marker with which to isolate a particular subpopulation is important depending on their intended clinical use. / Les cellules stromales mésenchymateuses multipotentes (CSM) ont été mises en évidence dans la moelle osseuse et peuvent être isolées de « virtuellement tous les organes ». Elles participeraient à la maintenance et au renouvellement des tissus. Une fois isolées, elles sont capables d’adhérer à des surfaces en plastique en prenant une forme fibroblastique. Elles sont caractérisées par un phénotype particulier et peuvent se différencier en divers types cellulaires lorsque cultivées dans un milieu d’induction spécifique. Ces caractéristiques ont été définies sur les CSM en culture et ne reflètent pas forcément ce qui se passe in situ.Les CSM présentent des propriétés particulières. Elles peuvent sécréter des facteurs de croissance ainsi que de nombreuses cytokines qui leur permettent d’une part d’avoir une activité trophique et d’autre part de moduler le système immunitaire. Elles sont aussi capables de se différencier. Ces différentes propriétés les rendent particulièrement attractives pour la thérapie cellulaire.Les CSM font déjà l’objet de nombreuses études pré-cliniques et cliniques dont les résultats sont difficilement interprétables car nous n’avons à l’heure actuelle qu’une compréhension limitée de leur biologie de base. Les CSM sont encore mal définies in situ et sont hétérogènes. Cette hétérogénéité provient de leur différence d’origine et de leur préparation cellulaire :il n’existe aucune standardisation des protocoles d’isolation et de culture. Cette hétérogénéité entraine de nombreuses questions relatives à la sécurité du patient qui doivent être élucidées.La première partie de ce travail cherche à optimiser les méthodes d’extraction et de purification des CSM du tissu adipeux humain, la principale source de CSM autologues avec la moelle osseuse. Les méthodes classiques requièrent une étape de digestion enzymatique dont l’enzyme utilisée et le temps de digestion du tissu adipeux peuvent induire des altérations cellulaires et modifier leurs fonctions. De plus, l’adjonction de xénobiotiques augmente le risque de contamination et complique le suivi des bonnes pratiques de fabrication (BPF). Nous proposons une méthode qui s’affranchit de cette étape de digestion enzymatique tout en étant plus facile, plus sûre, plus rapide, moins chère et moins traumatisante pour les cellules. Elle permet d’obtenir un nombre tout aussi important de CSM du tissu adipeux que la méthode enzymatique classique en préservant leurs propriétés.La deuxième partie de ce travail vise à caractériser les sous populations de CSM du tissu adipeux humain en les comparant à celles de la moelle osseuse, source de référence historique. Cette étude a permis d’approfondir la connaissance des marqueurs de surface des CSM de ces 2 sources in situ, tout en évaluant les différentes propriétés des sous-populations isolées grâce aux marqueurs de surface CD271, SUSD2, MSCA-1, CD44 et CD34. Nous avons montré que les CSM de la moelle osseuse expriment les marqueurs MSCA-1, CD271 et SUSD2 in situ et qu’il existait une sous-population clairement positive pour le CD34 avec des propriétés différentes de celles de la population non sélectionnée ou négative pour ce marqueur. Il existe aussi 2 sous-populations positive et négative pour le CD44 avec des propriétés similaires.Contrairement aux CSM de la moelle osseuse, une seule sélection a permis d’isoler efficacement les CSM du tissu adipeux par une sélection positive sur base de l’expression du CD34. Nous avons pu aussi isoler une population CD271+ mais seulement des prélèvements de lipoaspirations et non des abdominoplasties.Au vu de nos résultats, MSCA-1 semble le meilleur marqueur pour isoler les CSM de la moelle osseuse tandis que le CD34 est le seul marqueur capable d’isoler positivement celles du tissu adipeux. Ainsi, nous montrons que les CSM issues de différentes sources partagent des propriétés similaires avec cependant des caractéristiques propres. Le choix de la source et du marqueur pour isoler une sous-population sont donc importants en fonction de leur utilité clinique envisagée. / Doctorat en Sciences biomédicales et pharmaceutiques (Médecine) / info:eu-repo/semantics/nonPublished

Biologie cellulaire

Immunologie

Sciences biomédicales en général

Autres sciences pharmaceutiques

MSC

ADSC

Adipose tissue

Bone marrow

CD34

sub-populations

CD44

MSCA-1

SUSD2

CD271

Collagenase

Cell therapy

ATMP

GMP

Testování vozidla na čtyřkanálovém vertikálním simulátoru vozovky / Vehicle Testing on Four Post Test Rig

Egorov, Artemii

January 2020

The object of this master thesis is testing of vehicle using four post rig. The main goal is to make a research about testing and tuning vehicle characteristics on four post rig in order to implement them for testing of TU Brno Racing’s Formula Student racecar. The main method of testing, input signals and measurement description are presented in this thesis. The different methods of analysis of testing data to find best tuning of damper and spring stiffness for different race disciplines are described. In the last part of this work, quarter car model and multibody model in MSC Adams Car is created. Input parameters of model are based on measurements from real car/ component testing, including damper characteristics and static tire radial stiffness for best fit with the characteristics of real vehicle. The measurements themselves were also described in separate chapter of this thesis. The last but not the least goal was to compare these simulations with measurements, made od real four post rig in order to decide whether car model is suitable for racecar development.

Virtuální dvojče a prediktivní údržba / Virtual twin and predictive maintenance

Kotrba, Martin

January 2020

This diploma thesis deals with the design of a virtual twin of cross table MCV 754 QUICK from the Czech manufacturer Kovosvit MAS. The research part describes the basic principles of predictive maintenance methodology and virtual twin technology. The practical part includes a simplification of the initial cross table model. This model was then transferred to the simulation software MSC Adams, where it was optimized so that its behavior corresponds as closely as possible to the physical device. Several simulations were subsequently performed on the model. Then a concept for a predictive method for calculating the remaining service life of individual sections of the ball screw was presented. Simulations performed on a virtual twin served as a source of data to test the proposed method.

Analýza Parkinsonovy nemoci pomocí segmentálních řečových příznaků / Analysis of Parkinson's disease using segmental speech parameters

Mračko, Peter

January 2015

This project describes design of the system for diagnosis Parkinson’s disease based on speech. Parkinson’s disease is a neurodegenerative disorder of the central nervous system. One of the symptoms of this disease is disability of motor aspects of speech, called hypokinetic dysarthria. Design of the system in this work is based on the best known segmental features such as coefficients LPC, PLP, MFCC, LPCC but also less known such as CMS, ACW and MSC. From speech records of patients affected by Parkinson’s disease and also healthy controls are calculated these coefficients, further is performed a selection process and subsequent classification. The best result, which was obtained in this project reached classification accuracy 77,19%, sensitivity 74,69% and specificity 78,95%.

Parallel Multilevel Preconditioners for Problems of Thin Smooth Shells

Thess, M.

30 October 1998

In the last years multilevel preconditioners like BPX became more and more popular for solving second-order elliptic finite element discretizations by iterative methods. P. Oswald has adapted these methods for discretizations of the fourth order biharmonic problem by rectangular conforming Bogner-Fox-Schmidt elements and nonconforming Adini elements and has derived optimal estimates for the condition numbers of the preconditioned linear systems. In this paper we generalize the results from Oswald to the construction of BPX and Multilevel Diagonal Scaling (MDS-BPX) preconditioners for the elasticity problem of thin smooth shells of arbitrary forms where we use Koiter's equations of equilibrium for an homogeneous and isotropic thin shell, clamped on a part of its boundary and loaded by a resultant on its middle surface. We use the two discretizations mentioned above and the preconditioned conjugate gradient method as iterative method. The parallelization concept is based on a non-overlapping domain decomposition data structure. We describe the implementations of the multilevel preconditioners. Finally, we show numerical results for some classes of shells like plates, cylinders, and hyperboloids.

info:eu-repo/classification/ddc/510

ddc:510

info:eu-repo/classification/ddc/004

ddc:004

thin shell problems

linear partial differential equations

parallel computing

multilevel methods

additive splittings

finite element methods

cooling towers

MSC 65Y05

Le rôle des cellules souches mésenchymateuses médullaires dans la leucémie myélomonocytaire chronique / The Role of Bone Marrow Mesenchymal Stem Cells in Chronic Myelomonocytic Leukemia

Jego, Chloé

30 October 2019

La leucémie myélomonocytaire chronique (LMMC) est une hémopathie myéloïde rare du sujet âgé. Les caractéristiques cliniques, génétiques et moléculaires de la maladie sont bien connues. L’expression très hétérogène de la maladie ne peut être expliquée par la seule hétérogénéité génétique du clone leucémique. Les altérations épigénétiques jouent manifestement un rôle important. Le rôle de facteurs extrinsèques issus du microenvironnement est plus obscur. La niche hématopoïétique est le siège d’interactions entre cellules. Deux schémas non-exclusifs d’altération primaire ou secondaire de la niche sont proposés. Le premier implique que l’émergence d’un clone hématopoïétique modifie son environnement. Le second postule que le premier évènement dans l’émergence d’une hémopathie clonale est une altération de l’environnement. Mon travail de thèse a étudié les altérations du microenvironnement médullaire chez les patients et leur impact sur la physiopathologie de la maladie selon 2 axes: 1) la mise au point d’un modèle murin de reconstitution de la niche hématopoïetique humaine et 2) la caractérisation des cellules souches mésenchymateuses des patients. Dans une première partie, j’ai transposé un modèle rapporté en 2016 à l’étude de la LMMC. Ce modèle de greffe de cellules médullaires humaines chez la souris immunodéprimée s’est avéré difficilement reproductible. Dans la seconde partie, j’ai analysé les cellules souches mésenchymateuses de patients atteints de LMMC. J’ai identifié la production excessive d’IGFBP2 (Insuline-like Growth Factor Binding Protein 2), conséquence probable d’une dérégulation épigénétique. Le séquençage des CSM à l’échelle unicellulaire a révélé une restriction de l’hétérogénéité de ces cellules dont une fraction seulement produit IGFBP2. Finalement, j’ai montré qu’IGFBP2 favorise la différenciation des progéni-teurs myéloïdes vers la lignée monocytaire. IGFBP2 pourrait donc contribuer à amplifier la monocytose caractéristique de cette maladie.En conclusion, la LMMC s’accompagne de modifications des cellules de la niche hématopoÏétique dont certaines produisent des quantités excessive d’IGFBP2. La recherche de l’origine de ce dérèglement et de son importance dans la progression de la maladie permettra d’évaluer l’intérêt potentiel d’une neutralisation de cette cytokine à des fins thérapeutiques. / Chronic myelomonocytic leukemia (CMML, is a rare myeloid hemopathy of the elderly. Clinical, genetic and molecular characteristics of the disease are well-known. The highly heterogeneous expression of the disease can’t be solely explained by genetic heterogeneity of the leukemic clone. Epigenetic alterations obviously play an important role. However, the role of extrinsic factors from the medullar microenvironment in CMML physiopathology is still poorly understood. The hematopoietic niche hosts a lot of bi-directionnal interactions between cells. Two non-exclusive schemes of primary and secondary alterations of the niche can be proposed. First postulate implies that the emergence of a hematopoietic clone alters its environment. The second one supposes that the first event causing the emergence of a clonal hemopathy is an alteration of the environment. My PhD work consisted of studying medullar alterations in patients and their impact on CMML physiopathology upon 2 axes: 1) to set up a murine model of human hematopoietic niche reconstitution 2) to caracterise mesenchymal stem cells from CMML patient ex vivo. During the first part of my PhD, I adapted a model published in 2016 to CMML. This model of human MSC graft in immunodeficient mice proved to be hardly reproducible. During the second part, I analysed of CMML patients MSC. I identified an excessive production of IGFBP2 (Insuline-like Growth Factor Binding Protein 2) probably secondary to an epigenetic disregulation. Single cell RNA sequencing revealed a restriction of MSC heterogeneity of which only a fraction produces IGFBP2. Finally, I showed that IGFBP2 favors myeloid progenitors differenciation towards monocytic lineage. IGFBP2 could therefore contribute to the amplification of CMML characteristic monocytosis.To conclude, CMML goes along with modifications of hematopoietic niche cells, some of which produce excessive amounts of IGFBP2. Investigation on the origin of this alteration and its significance in disease progression should allow to evaluate the potential interest of its neutralization for therapeutic strategies.

Leucémie

Xénogreffe (modèle murin PDX)

Micro-Environnement

Cellules souches mésenchymateuses (CSM)

Igfbp2

Leukemia

Xenograft (PDX murine model)

Micro-Environnement

Mesenchymal stem cells (MSC)

HematopoIetic stem cells (HSC)

Igfbp2

Engineered Tracking and Delivery of Mesenchymal Stem Cells (MSCs)

Lin, Paul

08 March 2013

No description available.

Biology

Biomedical Engineering

Medicine

MSC

mesenchymal stem cells

transduction

lentivrius

homing

targeting

intraarterial

irradiation injury

polybrene

protamine sulfate

BLI, bioluminescent imaging

stem cells

cell engraftment

cell delivery

aortic arch

reporter gene

Tenogenic Properties of Mesenchymal Progenitor Cells Are Compromised in an Inflammatory Environment

Brandt, Luisa, Schubert, Susanna, Scheibe, Patrick, Brehm, Walter, Franzen, Jan, Gross, Claudia, Burk, Janina

22 December 2023

Transplantation of multipotent mesenchymal progenitor cells is a valuable option for treating tendon disease. Tenogenic differentiation leading to cell replacement and subsequent matrix modulation may contribute to the regenerative effects of these cells, but it is unclear whether this occurs in the inflammatory environment of acute tendon disease. Equine adipose-derived stromal cells (ASC) were cultured as monolayers or on decellularized tendon scaffolds in static or dynamic conditions, the latter represented by cyclic stretching. The impact of different inflammatory conditions, as represented by supplementation with interleukin-1β and/or tumor necrosis factor-α or by co-culture with allogeneic peripheral blood leukocytes, on ASC functional properties was investigated. High cytokine concentrations increased ASC proliferation and osteogenic differentiation, but decreased chondrogenic differentiation and ASC viability in scaffold culture, as well as tendon scaffold repopulation, and strongly influenced musculoskeletal gene expression. Effects regarding the latter differed between the monolayer and scaffold cultures. Leukocytes rather decreased ASC proliferation, but had similar effects on viability and musculoskeletal gene expression. This included decreased expression of the tenogenic transcription factor scleraxis by an inflammatory environment throughout culture conditions. The data demonstrate that ASC tenogenic properties are compromised in an inflammatory environment, with relevance to their possible mechanisms of action in acute tendon disease.

info:eu-repo/classification/ddc/570

ddc:570

Extracellular Matrix Synthesis and Remodeling by Mesenchymal Stromal Cells Is Context-Sensitive

Burk, Janina, Sassmann, Anna, Kasper, Cornelia, Nimptsch, Ariane, Schubert, Susanna

16 January 2024

Matrix remodeling could be an important mode of action of multipotent mesenchymal stromal cells (MSC) in extracellular matrix (ECM) disease, but knowledge is limited in this respect. As MSC are well-known to adapt their behavior to their environment, we aimed to investigate if their mode of action would change in response to healthy versus pathologically altered ECM. Human MSC-derived ECM was produced under different culture conditions, including standard culture, culture on Matrigel-coated dishes, and stimulation with the pro-fibrotic transforming growth factor-1 (TGF1). The MSC-ECM was decellularized, characterized by histochemistry, and used as MSC culture substrate reflecting different ECM conditions. MSC were cultured on the different ECM substrates or in control conditions for 2 days. Culture on ECM increased the presence of surface molecules with ECM receptor function in the MSC, demonstrating an interaction between MSC and ECM. In MSC cultured on Matrigel-ECM and TGF1-ECM, which displayed a fibrosis-like morphology, gene expression of collagens and decorin, as well as total matrix metalloproteinase (MMP) activity in the supernatant were decreased as compared with control conditions. These results demonstrated that MSC adapt to their ECM environment, which may include pathological adaptations that could compromise therapeutic efficacy.

info:eu-repo/classification/ddc/610

ddc:610

Development and Commercialization of Menstrual Blood Stem Cells Banking

Sethia, Pavan P.

02 May 2011

No description available.

Cellular Biology

Femme

Menstrual Blood Stem Cells Banking

Celle

STEP

Mesenchymal Stem Cells

MSC

Multipotent

Cryopreservation

LifeCell

cord blood banking

Hygina

Cryo-Cell

Entrepreneurial Biotechnology

CWRU

Adult Stem Cells

Menstruation