scholarly journals Pharmacological Preconditioning Improves the Viability and Proangiogenic Paracrine Function of Hydrogel-Encapsulated Mesenchymal Stromal Cells

2021 ◽  
Vol 2021 ◽  
pp. 1-12
Author(s):  
Francesco K. Touani ◽  
Melanie Borie ◽  
Feryel Azzi ◽  
Dominique Trudel ◽  
Nicolas Noiseux ◽  
...  
Keyword(s):  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Wound Closure ◽  
Fold Increase ◽  
Thermosensitive Hydrogel ◽  
Injectable Scaffold ◽  
Cell Pretreatment ◽  
Pharmacological Preconditioning

The efficacy of cell therapy is limited by low retention and survival of transplanted cells in the target tissues. In this work, we hypothesize that pharmacological preconditioning with celastrol, a natural potent antioxidant, could improve the viability and functions of mesenchymal stromal cells (MSC) encapsulated within an injectable scaffold. Bone marrow MSCs from rat (rMSC) and human (hMSC) origin were preconditioned for 1 hour with celastrol 1 μM or vehicle (DMSO 0.1% v / v), then encapsulated within a chitosan-based thermosensitive hydrogel. Cell viability was compared by alamarBlue and live/dead assay. Paracrine function was studied first by quantifying the proangiogenic growth factors released, followed by assessing scratched HUVEC culture wound closure velocity and proliferation of HUVEC when cocultured with encapsulated hMSC. In vivo, the proangiogenic activity was studied by evaluating the neovessel density around the subcutaneously injected hydrogel after one week in rats. Preconditioning strongly enhanced the viability of rMSC and hMSC compared to vehicle-treated cells, with 90% and 75% survival versus 36% and 58% survival, respectively, after 7 days in complete media and 80% versus 64% survival for hMSC after 4 days in low serum media ( p < 0.05 ). Celastrol-treated cells increased quantities of proangiogenic cytokines compared to vehicle-pretreated cells, with a significant 3.0-fold and 1.8-fold increase of VEGFa and SDF-1α, respectively ( p < 0.05 ). The enhanced paracrine function of preconditioned MSC was demonstrated by accelerated growth and wound closure velocity of injured HUVEC monolayer ( p < 0.05 ) in vitro. Moreover, celastrol-treated cells, but not vehicle-treated cells, led to a significant increase of neovessel density in the peri-implant region after one week in vivo compared to the control (blank hydrogel). These results suggest that combining cell pretreatment with celastrol and encapsulation in hydrogel could potentiate MSC therapy for many diseases, benefiting particularly ischemic diseases.

scholarly journals Evaluation of Browning Agents on the White Adipogenesis of Bone Marrow Mesenchymal Stromal Cells: A Contribution to Fighting Obesity

Cells ◽  
2021 ◽  
Vol 10 (2) ◽  
pp. 403
Author(s):  
Girolamo Di Maio ◽  
Nicola Alessio ◽  
Ibrahim Halil Demirsoy ◽  
Gianfranco Peluso ◽  
Silverio Perrotta ◽  
...  
Keyword(s):  
Bone Marrow ◽  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
White Adipocyte ◽  
Drug Candidates ◽  
Fat Depots ◽  
Treatment Of Obesity ◽  
White Fat

Brown-like adipocytes can be induced in white fat depots by a different environmental or drug stimuli, known as “browning” or “beiging”. These brite adipocytes express thermogenin UCP1 protein and show different metabolic advantages, such as the ability to acquire a thermogenic phenotype corresponding to standard brown adipocytes that counteracts obesity. In this research, we evaluated the effects of several browning agents during white adipocyte differentiation of bone marrow-derived mesenchymal stromal cells (MSCs). Our in vitro findings identified two compounds that may warrant further in vivo investigation as possible anti-obesity drugs. We found that rosiglitazone and sildenafil are the most promising drug candidates for a browning treatment of obesity. These drugs are already available on the market for treating diabetes and erectile dysfunction, respectively. Thus, their off-label use may be contemplated, but it must be emphasized that some severe side effects are associated with use of these drugs.

scholarly journals Effect of extracorporeal shock wave therapy on equine umbilical cord blood mesenchymal stromal cells in vitro

2020 ◽  
Author(s):  
Ramés Salcedo-Jiménez ◽  
Judith Koenig ◽  
Olivia Lee ◽  
Thomas W.G. Gibson ◽  
Pavneesh Madan ◽  
...  
Keyword(s):  
Shock Wave ◽  
Mesenchymal Stromal Cells ◽  
Umbilical Cord Blood ◽  
Stromal Cells ◽  
Extracorporeal Shock Wave Therapy ◽  
Shock Wave Therapy ◽  
Extracorporeal Shock Wave ◽  
Immunomodulatory Properties

AbstractExtracorporeal shock wave therapy (ESWT) has been shown to induce different biological effects on a variety of cells, including regulation and stimulation of their function and metabolism. ESWT can promote different biological responses such as proliferation, migration, and regenerations of cells. Recent studies have shown that mesenchymal stromal cells (MSCs) secrete factors that enhance the regeneration of tissues, stimulate proliferation and differentiation of cells and decrease inflammatory and immune-reactions. Clinically, the combination of these two therapies has been used as a treatment for tendon and ligament lesions in horses; however, there is no scientific evidence supporting this combination of therapies in vivo. Therefore, the objectives of the study were to evaluate the effects of ESWT on equine umbilical cord blood mesenchymal stromal cells (CB-MSCs) proliferative, metabolic, migrative, differentiation, and immunomodulatory properties in vitro. Three equine CB-MSC cultures from independent donors were treated using an electrohydraulic shock wave generator attached to a water bath. All experiments were performed as triplicates. Proliferation, viability, migration and immunomodulatory properties of the cells were evaluated. Equine CB-MSCs were induced to evaluate their trilineage differentiation potential. ESWT treated cells had increased metabolic activity, showed positive adipogenic, osteogenic, and chondrogenic differentiation, and showed higher potential for differentiation towards the adipogenic and osteogenic cell fates. ESWT treated cells showed similar immunomodulatory properties to none-ESWT treated cells. Equine CB-MSCs are responsive to ESWT treatment and showed increased metabolic, adipogenic and osteogenic activity, but unaltered immunosuppressive properties. In vivo studies are warranted to determine if synergistic effects occur in the treatment of musculoskeletal injuries if ESWT and equine CB-MSC therapies are combined.

Influence of particulate and dissociated metal-on-metal hip endoprosthesis wear on mesenchymal stromal cells in vivo and in vitro

Biomaterials ◽  
2016 ◽  
Vol 98 ◽  
pp. 31-40 ◽  
Author(s):  
Anastasia Rakow ◽  
Janosch Schoon ◽  
Anke Dienelt ◽  
Thilo John ◽  
Martin Textor ◽  
...  
Keyword(s):  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Hip Endoprosthesis ◽  
Metal On Metal

scholarly journals Mesenchymal stromal cells: a novel therapy for the treatment of chronic obstructive pulmonary disease?

Thorax ◽  
2018 ◽  
Vol 73 (6) ◽  
pp. 565-574 ◽  
Author(s):  
Winifred Broekman ◽  
Padmini P S J Khedoe ◽  
Koen Schepers ◽  
Helene Roelofs ◽  
Jan Stolk ◽  
...  
Keyword(s):  
Clinical Trials ◽  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Animal Studies ◽  
Chronic Obstructive ◽  
Tissue Destruction ◽  
Novel Therapy ◽  
Model Studies

COPD is characterised by tissue destruction and inflammation. Given the lack of curative treatments and the progressive nature of the disease, new treatments for COPD are highly relevant. In vitro cell culture and animal studies have demonstrated that mesenchymal stromal cells (MSCs) have the capacity to modify immune responses and to enhance tissue repair. These properties of MSCs provided a rationale to investigate their potential for treatment of a variety of diseases, including COPD. Preclinical models support the hypothesis that MSCs may have clinical efficacy in COPD. However, although clinical trials have demonstrated the safety of MSC treatment, thus far they have not provided evidence for MSC efficacy in the treatment of COPD. In this review, we discuss the rationale for MSC-based cell therapy in COPD, the main findings from in vitro and in vivo preclinical COPD model studies, clinical trials in patients with COPD and directions for further research.

Δημιουργία, in vitro πολλαπλασιασμός και διαφοροποίηση ανθρώπινων επαγόμενων πολυδύναμων βλαστοκυττάρων

2016 ◽  
Author(s):  
Ιωάννα Βαρελά
Keyword(s):  
Stem Cells ◽  
Induced Pluripotent Stem Cells ◽  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Pluripotent Stem Cells ◽  
Rt Pcr ◽  
Induced Pluripotent

Η ανακάλυψη της μεθόδου του κυτταρικού επαναπρογραμματισμού ανθρώπινων δερματικών ινοβλαστών σε επαγόμενα πολυδύναμα βλαστοκύτταρα (induced pluripotent stem cells, iPSCs) το 2007 άνοιξε το δρόμο για τη μελέτη και την εξατομικευμένη θεραπεία πολλών χρόνιων νόσων. Επιδιώξαμε να δημιουργήσουμε iPS - κυτταρικές σειρές επαναπρογραμματίζοντας μεσεγχυματικά στρωματικά κύτταρα (mesenchymal stromal cells, MSCs) μυελού των οστών, μέσω μιας μεθόδου επαναπρογραμματισμού χωρίς ενσωμάτωση γονιδίων στο γενετικό υλικό των κυττάρων. Δερματικοί ινοβλάστες από φυσιολογικούς δότες και μεσεγχυματικά στρωματικά κύτταρα μυελού των οστών από φυσιολογικό δότη μεταμόσχευσης μυελού των οστών και από ασθενή με β-Μεσογειακή αναιμία (β-ΜΑ) διαμολύνθηκαν, μέσω λιποσωματικών φορέων, με συνθετικά mRNA που κωδικοποιούν τους μεταγραφικούς παράγοντες Oct4, Klf4, Sox2, Lin28, c-Myc. Στη συνέχεια, τα κύτταρα ελέγχθηκαν σε καλλιέργειες για τον σχηματισμό αποικιών πολυδύναμων βλαστοκυττάρων. Οι αποικίες απομονώθηκαν και με συνεχείς ανακαλλιέργειες δημιουργήθηκαν κυτταρικές σειρές, οι οποίες εξετάστηκαν για την πολυδυναμία τους με μεθόδους ανίχνευσης της έκφρασης των μεταγραφικών παραγόντων πολυδυναμίας (κυτταρομετρία ροής, RT-PCR, μελέτη του μεταγραφώματος με RNA μικροσυστοιχίες). Ως θετικός μάρτυρας και μέτρο σύγκρισης χρησιμοποιήθηκε πολύ καλά χαρακτηρισμένη εμβρυονική σειρά πολυδύναμων βλαστοκυττάρων. Οι iPS-κυτταρικές σειρές μελετήθηκαν, επίσης, ως προς τη λειτουργική τους πολυδυναμία με τον έλεγχο της ικανότητας τους να δημιουργούν in vitro εμβρυϊκά σωματίδια και in vivo τερατώματα μετά από υποδόρια εμφύτευση τους σε ανοσοανεπαρκείς ποντικούς, και ως προς τη δυνατότητα διαφοροποίησής τους σε αιμοποιητικά προγονικά κύτταρα. Η γενετική σταθερότητα των κυτταρικών σειρών ελέγχθηκε με DNA μικροσυστοιχίες συγκριτικού γονιδιωματικού υβριδισμού (aCGH). Απομονώθηκαν 3 iPS κυτταρικές σειρές από κάθε δείγμα κυττάρων, οι οποίες εμφανίζουν μεταγράφωμα πανομοιότυπο με εκείνο των πολυδύναμων εμβρυονικών βλαστοκυττάρων και. δημιουργούν εμβρυϊκά σωματίδια in vitro και τερατώματα in vivo, τα οποία αποτελούνται από ιστούς καταγωγής και από τα τρία βλαστικά δέρματα. Τα iPSCs των κυτταρικών σειρών πολλαπλασιάζονται για μεγάλο χρονικό διάστημα χωρίς μορφολογικές ενδείξες διαφοροποίησης. Με τη μέθοδο aCGH, στις iPS κυτταρικές σειρές μετά την 10η ανακαλλιέργεια ανιχνεύθηκαν πολυμορφισμοί στον αριθμό αντιγράφων (CNVs), τα οποία ήταν ελλείμματα μεγέθους περίπου 3 Mb. Η διαφοροποίηση των iPSCs σε αιμοποιητικά προγονικά κύτταρα οδήγησε στην παραγωγή CD34+ κυττάρων σε ποσοστό 8-10% των παραχθέντων κυττάρων με ασθενούς έντασης συνέκφραση του CD45, προσομοιάζοντας στο αιμαγγειακό στελεχιαίο κύτταρο. Στην παρούσα διατριβή παρουσιάζεται, για πρώτη φορά στην Ελλάδα, εξ όσων γνωρίζουμε, η τεχνολογία παραγωγής ανθρώπινων iPSCs με μια ασφαλή και αξιόπιστη μέθοδο. Οι iPSCs-κυτταρικές σειρές μπορεί να χρησιμοποιηθούν στη μελέτη ασθενειών, στον έλεγχο φαρμάκων και στην ανάπτυξη πρωτοκόλλων ιστικής μηχανικής και κυτταρικής θεραπείας.

scholarly journals Umbilical cord as a long-term source of activatable mesenchymal stromal cells for immunomodulation

2019 ◽  
Vol 10 (1) ◽  
Author(s):  
Anton Selich ◽  
Katharina Zimmermann ◽  
Michel Tenspolde ◽  
Oliver Dittrich-Breiholz ◽  
Constantin von Kaisenberg ◽  
...  
Keyword(s):  
Umbilical Cord ◽  
Mesenchymal Stromal Cells ◽  
Stromal Cells ◽  
Induction Time ◽  
Dna Barcode ◽  
Human Umbilical Cord ◽  
Time Points

Abstract Background Mesenchymal stromal cells (MSCs) are used in over 800 clinical trials mainly due to their immune inhibitory activity. Umbilical cord (UC), the second leading source of clinically used MSCs, is usually cut in small tissue pieces. Subsequent cultivation leads to a continuous outgrowth of MSC explant monolayers (MSC-EMs) for months. Currently, the first MSC-EM culture takes approximately 2 weeks to grow out, which is then expanded and applied to patients. The initiating tissue pieces are then discarded. However, when UC pieces are transferred to new culture dishes, MSC-EMs continue to grow out. In case the functional integrity of these cells is maintained, later induced cultures could also be expanded and used for cell therapy. This would drastically increase the number of available cells for each patient. To test the functionality of MSC-EMs from early and late induction time points, we compared the first cultures to those initiated after 2 months by investigating their clonality and immunomodulatory capacity. Methods We analyzed the clonal composition of MSC-EM cultures by umbilical cord piece transduction using integrating lentiviral vectors harboring genetic barcodes assessed by high-throughput sequencing. We investigated the transcriptome of these cultures by microarrays. Finally, the secretome was analyzed by multiplexed ELISAs, in vitro assays, and in vivo in mice. Results DNA barcode analysis showed polyclonal MSC-EMs even after months of induction cycles. A transcriptome and secretome analyses of early and late MSC cultures showed only minor changes over time. However, upon activation with TNF-α and IFN-γ, cells from both induction time points produced a multitude of immunomodulatory cytokines. Interestingly, the later induced MSC-EMs produced higher amounts of cytokines. To test whether the different cytokine levels were in a therapeutically relevant range, we used conditioned medium (CM) in an in vitro MLR and an in vivo killing assay. CM from late induced MSC-EMs was at least as immune inhibitory as CM from early induced MSC-EMs. Conclusion Human umbilical cord maintains a microenvironment for the long-term induction of polyclonal and immune inhibitory active MSCs for months. Thus, our results would offer the possibility to drastically increase the number of therapeutically applicable MSCs for a substantial amount of patients.

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