LE POTENTIEL HEPATIQUE DES CELLULES SOUCHES MESENCHYMATEUSES RAJEUNNIES ET DES PROGENITEURS ENDODERMIQUES : CONTRIBUTION DES VOIES DE SIGNALISATION DE LA LGR5 et la CDC42 / Hepatic potential of Reversed-age Mesenchymal Stem Cells and Endodermal Progenitors : Contribution of LGR5 and Cdc42 cell signaling pathways

Chaker, Diana

18 December 2017

La thérapie cellulaire utilisant une greffe d’hépatocytes est une stratégie prometteuse pour traiter les maladies du foie. Cependant, plusieurs limitations freinent leur transfert pour des applications cliniques, comprenant la production à haut débit d'hépatocytes fonctionnels, leur survie en culture, l’âge du donneur et la source des cellules souches hépatiques (CS). Les avancées scientifiques réalisées à ce jour ont permis d’identifier de nouveaux marqueurs moléculaires et les voies de signalisation impliquées dans la différenciation des CS en hépatocytes fonctionnels. En effet, la voie de signalisation Wnt a montré être importante pour réguler de nombreux processus biologiques des CS permettant de contrôler leur différenciation hépatique dont l’activation des GTPases et les gènes ciblant la voie de signalisation de Lgr5. Récemment, des études ont montré que le marqueur Lgr5 (récepteur 5 couplé à la protéine G contenant une répétition d’acides aminés riche en leucine) est décisif pour maintenir une expansion à long terme des CS hépatiques in vitro. En outre, Lgr5 fonctionne principalement comme un effecteur de la Cdc42 (cycle de division cellulaire 42) qui est un membre de la famille des Rho-GTPase. Une forte expression de la Cdc42 a montré être corrélée avec le vieillissement des SCs hématopoïétiques. Néanmoins, cette corrélation n'a jamais été étudiée à ce jour dans les cellules souches mésenchymateuses dérivées du tissu adipeux humain (hADSCs).Au cours de nos travaux de thèse, nous nous sommes intéressés (i) à proposer une nouvelle technologie de reprogrammation d’hépatocytes matures murins en progéniteurs endodermiques (mEndoPCs) exprimant Lgr5 capables de générer des organoïdes spécifiques du foie et de se différencier en hépatocytes et cholangiocytes in vitro et en des structures biliaires et hépatiques in vivo (ii) à étudier l’activité de Cdc42 dans les hADSCs âgées et l'impact de son inhibition sélective par le ML141 sur leur potentiel de différenciation hépatique in vitro.Nous montrons qu’il a été possible de générer des mEndoPCs et à améliorer la différenciation hépatique des hADSCs âgés. Nous montrons également que Lgr5 et Cdc42 sont régulés de façon distincte par la voie de signalisation Wnt. De plus, nos résultats ont révélé que les voies LIFR/STAT3 et Lgr5/WNT sont essentielles pour l’auto renouvellement des mEndoPCs permettant leur expansion illimitée in vitro en présence d’activateur de STAT3. Les voies MAPK/PKA, WNT/ β-caténine et la production d'exosomes ont montré avoir rôle majeur dans l’âge des hADSCs. Nous montrons qu’une transition mésenchymato-épithéliale était nécessaire pour différencier les hADSCs en hépatocytes fonctionnels. D’autre part, ML141 est proposé comme un nouvel outil pharmacologique permettant de reverser l’âge des hADSC âgés et d’amplifier le taux de prolifération, d’adhésion et de fonctionnalité hépatique à un niveau équivalent aux hADSCs jeunes. Enfin, le transfert de ces méthodologies à l’homme pourrait servir pour la médecine régénératrice du foie, comme outil pour évaluer la toxicité hépatique des médicaments et pour l'ingénierie et la reconstitution d’un foie entier par des approches de « bio printing ». / Hepatocytes cell-based transplantation is a promising strategy for treating liver diseases. However, there are still several limitations for their use in clinical applications among them the generation of highthrouput of functional hepatocytes, their life span in culture, the age of the donor age and the source of hepatic stem cells (SCs). At present, the challenge lies to develop approaches aiming the identification of the new molecular markers signaling pathways involved in the differentiation of SCs toward functional hepatocytes. In fact, Wnt(s) pathways governs multiple biological processes controlling the differentiation fate of SCs into hepatocytes, some of them result in the activation of small GTPase and the Lgr5 pathway regulators. Indeed, Lgr5 (a target gene of Wnt, the Leucine-rich-repeat-containing G protein-coupled Receptor 5) was shown to be crucial for maintaining long-term expansion of hepatic SC in vitro. In addition, Lgr5 primarily functions as an effector of the Cdc42 GTPases (a RhoGTPase protein, the cell division cycle 42). Higher activity of Cdc42 was reported to be correlated to hematopoietic SCs aging. However, this correlation has never been studied before in adipose tissue Mesenchymal Stem Cells (ADSCs) which were proposed recently as a promising tool for liver regeneration.In this study, we were interested (i) to propose a novel method of reprogramming mouse mature hepatocytes into murine endodermic progenitors (mEndoPCs) that express Lgr5, generate liver-specific organoids and can differentiate into hepatocytes and cholangiocytes in vitro and give arise to bile duct structures and into functional hepatocytes in vivo, and (ii) to study the activity of Cdc42 in human aged-derived hADSCs and the impact of its selective inhibition by ML141 on their hepatic differentiation potential in vitro.In our study we succeeded to generate mEndoPCs and to improve the functionality of the aged-hADSCs derived-hepatocytes. We showed that both Lgr5 and Cdc42 are regulated distinctly by Wnt signaling pathways. In addition, our results revealed that LIFR/STAT3 and LGR5/WNT pathways are important to maintain the unlimited expansion of mEndoPCs in vitro when STAT3 pathway is activated. MAPK/PKA, WNT/ β-catenin pathways and the exosome’s production were shown to be deregulated with hADSCs aging. We showed also that a mesenchymal to epithelial transition was crucial to transdifferentiate hADSCs into functional hepatocytes. On the other side, ML141 is proposed as a new pharmacological tool to rejuvenate aged-hADSCs toward functionally younger-like cells thus by promoting cell proliferation, doubling and cell adherence. Finally, the transfer of these methodologies to human could serve the regenerative medicine of the liver as a good tool for hepatocyte-based drug toxicity screening systems and for the liver engineering using a « bio printing » approach.

Wnt

Cellules Souches Mésenchymateuses

Hépatocytes

Cdc42

Lgr5

Age du donneur

Wnt

Mesenchymal Stem Cells

Hepatocytes

Cdc42

Lgr5

Donor Age

Combination of stem cells and rehabilitation therapies for ischemic stroke

Berlet, Reed, Anthony, Stefan, Brooks, Beverly, Wang, Zhen Jie, Sadanandan, Nadia, Shear, Alex, Cozene, Blaise, Gonzales-Portillo, Bella, Parsons, Blake, Salazar, Felipe Esparza, Lezama Toledo, Alma R., Monroy, Germán Rivera, Gonzales-Portillo, Joaquín Vega, Borlongan, Cesario V.

01 September 2021

Stem cell transplantation with rehabilitation therapy presents an effective stroke treatment. Here, we discuss current breakthroughs in stem cell research along with rehabilitation strategies that may have a synergistic outcome when combined together after stroke. Indeed, stem cell transplantation offers a promising new approach and may add to current rehabilitation therapies. By reviewing the pathophysiology of stroke and the mechanisms by which stem cells and rehabilitation attenuate this inflammatory process, we hypothesize that a combined therapy will provide better functional outcomes for patients. Using current preclinical data, we explore the prominent types of stem cells, the existing theories for stem cell repair, rehabilitation treatments inside the brain, rehabilitation modalities outside the brain, and evidence pertaining to the benefits of combined therapy. In this review article, we assess the advantages and disadvantages of using stem cell transplantation with rehabilitation to mitigate the devastating effects of stroke. / Revisión por pares

Endothelial progenitor cells

Neural stem cells

Neuroinflammation

Rehabilitation therapy

Stem cell therapy

Stroke

M1 to M2 Macrophage Induction Using Retinoic Acid and Mesenchymal Stem Cells Loaded on an Electrospun Pullulan/Gelatin Scaffold To Promote Healing of Chronic Wounds

Assani, Kaivon

28 August 2018

No description available.

Biomedical Engineering

macrophage

M1 to M2 macrophage induction

chronic wounds

tissue repair

regenerative therapy

retinoic acid

mesenchymal stem cells

An Investigation of Collagen, Platelet-Rich Plasma and Bone Marrow Derived Mesenchymal Stem Cells on Achilles Tendon Repair in a Rat Model

Ettey, Thywill

30 May 2019

No description available.

Biomedical Research

Biology

Immunology

Surgery

Achilles Tendon

Mesenchymal Stem Cells

Collagen

Platelet-Rich Plasma

Stem Cell Therapy

Rat surgery

Exploiting the use of mesenchymal stromal cells genetically engineered to overexpress insulin-like growth factor-1 in gene therapy of chronic renal failure

Kucic, Terrence.

January 2007

No description available.

Kidney Failure, Chronic -- therapy.

Mesenchymal Stem Cells -- metabolism.

Gene Therapy.

Stromal Cells -- metabolism.

Mesenchymální kmenové buňky a jejich regenerační a imunomodulační potenciál / Mesenchymal stem cells and their regenerative and immunomodulatory potential

Brychtová, Michaela

January 2016

Mesenchymal stem cells and their regenerative and immunomodulatory potential Abstract Mesenchymal stem cells (MSCs) possess multidirectional regenerative ability, which, together with their immunomodulatory potential, makes them promising cell type for therapy of wide variety of diseases. Despite ongoing research, which proved MSCs application to be safe, reported effect of MSCs administration on patients is not convincingly beneficial yet. In our work we focused on elucidation of MSCs role in regeneration of vital organs, heart and liver, where a large damage is life threatening for patients and any improvement in therapy would save many lives. Similar situation is in Graft versus host disease (GVHD), where MSCs immunomodulatory properties could be beneficial. Role of MSCs in heart regeneration was examined in vitro. Primary adult swine cardiomyocytes (CMCs) were co-cultured with or without swine MSCs for 3 days and morphological and functional parameters (contractions, current, respiration) of CMCs were measured. MSCs showed supportive effect on CMCs survival, especially at day 3 of the experiment, where in co-culture was significantly higher number of viable CMCs with physiological morphology and maintained function. Effect of MSCs on liver regeneration was observed in swine model of chronic liver...

Autologous, Non-Invasively Available Mesenchymal Stem Cells from the Outer Root Sheath of Hair Follicle Are Obtainable by Migration from Plucked Hair Follicles and Expandable in Scalable Amounts

Li, Hanlou, Masieri, Federica Francesca, Schneider, Marie, Kottek, Tina, Hahnel, Sebastian, Yamauchi, Kensuke, Obradovi´c, Danilo, Seon, Jong-Keun, Yun, Sook Jung, Ferrer, Rubén A., Franz, Sandra, Simon, Jan-Christoph, Lethaus, Bernd, Savkovi´c, Vuk

17 April 2023

Background: Regenerative therapies based on autologous mesenchymal stem cells (MSC) as well as stem cells in general are still facing an unmet need for non-invasive sampling, availability, and scalability. The only known adult source of autologous MSCs permanently available with no pain, discomfort, or infection risk is the outer root sheath of the hair follicle (ORS). Methods: This study presents a non-invasively-based method for isolating and expanding MSCs from the ORS (MSCORS) by means of cell migration and expansion in air–liquid culture. Results: The method yielded 5 million cells of pure MSCORS cultured in 35 days, thereby superseding prior art methods of culturing MSCs from hair follicles. MSCORS features corresponded to the International Society for Cell Therapy characterization panel for MSCs: adherence to plastic, proliferation, colony forming, expression of MSC-markers, and adipo-, osteo-, and chondro-differentiation capacity. Additionally, MSCORS displayed facilitated random-oriented migration and high proliferation, pronounced marker expression, extended endothelial and smooth muscle differentiation capacity, as well as a paracrine immunomodulatory effect on monocytes. MSCORS matched or even exceeded control adipose-derived MSCs in most of the assessed qualities. Conclusions: MSCORS qualify for a variety of autologous regenerative treatments of chronic disorders and prophylactic cryopreservation for purposes of acute treatments in personalized medicine.

info:eu-repo/classification/ddc/570

ddc:570

Artificial Extracellular Matrices Containing Bioactive Glass Nanoparticles Promote Osteogenic Differentiation in Human Mesenchymal Stem Cells

Kroschwald, Lysann M., Allerdt, Felix, Bernhardt, Anne, Rother, Sandra, Zheng, Kai, Maqsood, Iram, Halfter, Norbert, Heinemann, Christiane, Möller, Stephanie, Schnabelrauch, Matthias, Hacker, Michael C., Rammelt, Stefan, Boccaccini, Aldo R., Hintze, Vera

24 January 2024

The present study analyzes the capacity of collagen (coll)/sulfated glycosaminoglycan (sGAG)-based surface coatings containing bioactive glass nanoparticles (BGN) in promoting the osteogenic differentiation of human mesenchymal stroma cells (hMSC). Physicochemical characteristics of these coatings and their effects on proliferation and osteogenic differentiation of hMSC were investigated. BGN were stably incorporated into the artificial extracellular matrices (aECM). Oscillatory rheology showed predominantly elastic, gel-like properties of the coatings. The complex viscosity increased depending on the GAG component and was further elevated by adding BGN. BGN-containing aECM showed a release of silicon ions as well as an uptake of calcium ions. hMSC were able to proliferate on coll and coll/sGAG coatings, while cellular growth was delayed on aECM containing BGN. However, a stimulating effect of BGN on ALP activity and calcium deposition was shown. Furthermore, a synergistic effect of sGAG and BGN was found for some donors. Our findings demonstrated the promising potential of aECM and BGN combinations in promoting bone regeneration. Still, future work is required to further optimize the BGN/aECM combination for increasing its combined osteogenic effect.

info:eu-repo/classification/ddc/610

ddc:610

PREVASCULAR CELL CONDENSATIONS FOR MODULAR TISSUE ENGINEERING

Alt, Daniel Scott

January 2020

No description available.

Biomedical Engineering

Affinity-Based Drug Delivery Devices and its Applications in the Modulation of Cellular Processes

Rivera, Edgardo

January 2014

No description available.

Biomedical Engineering

drug delivery

affinity delivery

local release

CCL7

heparin

mesenchymal stem cells

urinary incontinence

glioblastoma

angiogenesis

SPR

transgene

cyclodextrin