Adult and Embryonic Stem Cell Sources for Use in a Canine Model of In Utero Transplantation

Vaags, Andrea Kathleen

05 March 2012

Dogs are useful preclinical models for the translation of cell transplantation therapies from the bench to the bedside. In order for canine models to be utilized for stem cell transplantation research, it is necessary to advance discoveries in the fields of canine stem cell biology and transplantation. The use of side population hematopoietic stem cells (HSCs) has garnered much interest for the purification of mouse HSCs and has been translated to several other species, including human. In order to assess if this method of purification of HSCs could be useful for stem cell therapies in humans, safety and efficacy studies in a large animal model, such as the dog would be required. With this objective in mind, we isolated canine bone marrow-derived side population (SP) stem cells and assessed their multilineage differentiation in vitro and engraftment potential in vivo. Utilizing a pregating strategy to enrich for small, agranular SP cells we were able to enrich for blast cells, expressing the ABCG2 transmembrane pump known to be associated with murine and human SP cells. Canine SP cells were also enriched for C-KIT positive cells and lacked expression of CD34 as identified in other species. The small, agranular SP fraction had high CFU potential after long-term culture with canine bone marrow stromal cells and cytokine supplementation. Yet, canine SP cells demonstrated low-level engraftment within the NOD/SCID-β2m-/- xenotransplantation model as compared to unfractionated canine bone marrow, which was indicative of suboptimal activation of quiescent canine SP cells within the murine bone marrow niche. A second source of transplantable canine stem cells was examined through the derivation of canine embryonic stem cells (cESCs). The cESC lines described herein were determined to have similar pluripotent stem cell characteristics to human embryonic stem cells, in that they were maintained in an undifferentiated state upon extended passaging as determined by their expression of the human stem cell markers, OCT3/4, NANOG, SOX2, SSEA3, SSEA4, TRA1-60, TRA1-81 and alkaline phosphatase. In addition, cESCs could be induced to differentiate to cells of the three germ layers within in vitro embryoid body cultures and adherent differentiation cultures. Importantly, these cESC lines were the first reported to differentiate in vivo within teratomas. One method of transplanting stem cells to canine recipients involves the delivery of donor cells to the yolk sacs of developing fetuses in utero. Utilizing cells labeled with supraparamagnetic particles conjugated to a Dragon Green fluorophore and the intracellular fluorescent dye, CMTMR, donor cells were tracked from the yolk sac injection site to fetal tissues after transplantation in early (day-25) and mid (day-35) gestation canine fetuses. Labeled cells were localized primarily to the fetal liver and developing bone marrow cavities when examined at gestational day 32, and had been redistributed to not only the fetal liver and bone marrow by day 42, but also to nonhematopoietic tissues, including the lungs and hearts. No labeled cells were detected within the yolk sacs of transplanted fetuses at either time point. These studies demonstrated the efficacy of yolk sac in utero transplantation for the delivery of donor cells to fetal tissues. Collectively, these results indicate that canine stem cells with characteristics similar to human can be isolated and their engraftment, proliferation and differentiation may be assessed in future studies utilizing the canine in utero transplantation model employing yolk sac delivery.

stem cells

canine

hematopoiesis

mesenchymal stromal cell

embryonic stem cell

dog

side population stem cell

in utero transplantation

cell therapy

supraparamagnetic iron oxide

yolk sac

hematopoietic stem cell

0379

0778

Caractérisation fonctionnelle des cellules souches cardiaques humaines dans un but thérapeutique / Functional characterization of the human cardiac stem cells

Ayad, Oualid

12 December 2017

L'objectif de cette thèse était de développer et de caractériser un modèle de cellules souches cardiaques humaines dans un contexte de thérapie cellulaire. Après avoir sélectionné et caractérisé une population de cellules souches d'origine mésenchymateuse, isolée à partir d'auricules humaines, exprimant le marqueur W8B2 (CSCs W8B2+), nous nous sommes focalisés (par les techniques de RT-qPCR à haut rendement, d'immuno-marquage, de western-blot et de fluorescence calcique) sur ; 1. la caractérisation génique des canaux ioniques et des acteurs de la signalisation calcique et 2. l'étude de leur différenciation in vitro en parallèle à l'activité calcique intracellulaire. Les résultats montrent que CSCs W8B2+ tendent à se différencier en cellules pacemaker. Certains gènes spécifiques nodaux, comme Tbx3, HCN, ICaT,L, Kv, NCX, s'expriment durant la différenciation. L'enregistrement de l'activité calcique (via une sonde optogénétique) montre la présence d'oscillations calciques qui évoluent en fréquence et en intensité pendant la différenciation. Les stocks-IP3 sensibles et l'échangeur NCX joueraient un rôle fondamental.Nous avons ensuite étudié l'importance du canal BKCa et des récepteurs sphingosine 1-phosphate (S1P) dans la régulation des propriétés fondamentales des CSCs W8B2+. L'inhibition du BKCa diminue la prolifération cellulaire en accumulant les cellules à la phase G0/G1, réprime l'auto-renouvellement mais n'affecte pas la migration. Quant à la S1P elle freine la prolifération et l'auto-renouvellement via une voie différente de celles des récepteurs S1P1,2,3.Ce travail fait ressortir des cibles moléculaires fondamentales dans un contexte de thérapie cellulaire cardiaque. / The aim of this thesis was to develop and characterize a model of human heart stem cells in a context of cell therapy.A population of mesenchymal stem cells, expressing the W8B2 marker (CSCs W8B2+), was first isolated from human auricles and characterized using high-throughput RT-qPCR techniques, immuno-labeling, western-blot and calcium fluorescence imaging. These experiments were focused on 1. the gene expression of ion channels and calcium signaling proteins; and 2. the study of CSCs W8B2+ in vitro differentiation and associated intracellular calcium activity changes.The results show that CSCs W8B2+ tend to differentiate into pacemaker cells. Some nodal specific genes such as Tbx3, HCN, ICaT, L, Kv, NCX, are expressed during differentiation. The recording of calcium activity (via an optogenetic probe) shows the presence of calcium oscillations that change in frequency and intensity during differentiation. IP3 sensitive calcium stocks and the NCX exchanger would play a fundamental role in these variations.Then we studied the importance of the BKCa channel and the sphingosine 1-phosphate (S1P) receptors in the regulation of the fundamental properties of the W8B2+ CSCs. Inhibition of BKCa reduces cell proliferation by accumulating cells in the G0 / G1 phase, suppresses cell self-renewal but does not affect migration properties. Concerning S1P, it decreases proliferation and self-renewal without stimulate S1P1,2,3 receptors.This work highlights fundamental potential molecular targets in a context of cardiac cell therapy.

Thérapie cellulaire

Cellules souches cardiaques humaines

Cellules mésenchymateuses

Différenciation

Canaux ioniques

Signalisation calcique

Canal BKCa

Sphingosine 1-Phosphate

Optogénétique

Cell therapy

Human cardiac stem cells

Mesenchymal cells

Differentiation

Ion channels

Calcium signaling

BKCa channel

Sphingosine 1-Phosphate

Optogenetic

571.6

Des antigènes particulaires synthétiques pour manipuler les fonctions anticorpsindépendantes des lymphocytes B : intérêt dans les stratégies d’induction de tolérance allo-immune / B cells loaded with synthetic particulate antigens : an alternative platform to generate antigen-specific regulatory T cells for adoptive cell therapy

Sicard, Antoine

27 June 2016

Dans des modèles expérimentaux, une tolérance d'allogreffe a pu être induite en transférant des lymphocytes T CD4+ régulateurs (Treg) spécifiques d'antigènes (Ag) du donneur expandus ex vivo. Les données ont démontré l'importance des Treg d'allospécificité indirecte (Treg indirects) dans l'induction d'une tolérance à long terme. L'expansion de Treg indirects ex vivo est problématique, principalement à cause de la difficulté d'obtenir en grand nombre des cellules présentatrices d'antigène autologues (CPA)pour stimuler les Treg. Les lymphocytes B (LB) sont des APC accessibles, présentes en grand nombre et ont un fort potentiel régulateur. Cependant, l'utilisation de LB autologues comme APC est rendue problématique par leur incapacité à présenter les Ag dont ils ne sont pas spécifiques.Dans ce travail de thèse, nous avons développé une approche nanobiotechnologique permettant de transformer des LB polyclonaux autologues en puissants stimulateurs de Treg spécifiques de l'Ag.Des Ag particulaires synthétiques (SPAg) ont été générés en fixant sur des nanosphères fluorescentes de 400 nm de diamètre : (i) des anticorps monoclonaux dirigés contre un domaine constant de la chaine légère kappa du récepteur des LB, et (ii) des Ag modèles.Les SPAg se comportent comme des Ag particulaires naturels lorsqu'ils sont incubés in vitro avec des LB murins ou humains. Les SPAg se lient à la surface des LB kappa+, déclenchent un signal d'activation et sont internalisés dans leur endosomes. Les LB chargés en SPAg induisent l'activation et la prolifération des lymphocytes T CD4+ spécifiques de l'Ag in vitro.Des propriétés régulatrices peuvent être conférées aux LB chargés en SPAg en les stimulant avec du CpG. Les LB régulateurs générés n'induisent pas de prolifération des T CD4+ effecteurs mais, au contraire, entrainent une prolifération importante des Treg.Cette approche apparait comme une alternative innovante pour expandre des Treg spécifiques de l'Ag ex vivo / Allograft tolerance has been obtained in experimental models with adoptive transfer of ex vivo-expanded regulatory T cells (Treg) specific for donor antigens. Preclinical data have shown that Treg specific for indirectly presented alloantigens (indirect Treg) are mandatory for long-term tolerance. However, the ex vivo expansion of indirect Treg faces limitations,related essentially to the source of autologous antigen-presenting cells (APCs) used to stimulate T cells in vitro. B cells are (i) potent regulatory cells and (ii) APCs able to establish a privileged crosstalk with CD4+ T cells. However, the use of B cells as APCs is made problematic due to their inability to internalize and present non-cognate antigens. We have developed a novel nanobiotechnology-based approach to turn autologous polyclonal B cells into potent stimulators of antigen-specific T reg.Synthetic particulate antigens (SPAg) were generated by immobilizing (i) monoclonal antibodies directed against a framework region of B cell receptor (BCR) kappa-light chains and (ii) model antigens on fluorescent nanospheres of 400 nm in diameter.SPAg behaved like genuine particulate antigens when incubated in vitro with polyclonal murine B cells. SPAg bound to surface BCR of any kappa-positive B cells, triggered activation signal and were internalized in late endosomal compartment of B cells. SPAgloaded B cells induced activation and proliferation of antigen-specific T cells. This approach was transposable to humans’ cells. Importantly, regulatory properties could be conferred toSPAg-loaded B cells by CpG stimulation. SPAg-loaded regulatory B cells prevented proliferation of effector CD4+ T cells and induced proliferation of antigen-specific Treg in vitro.Autologous polyclonal B cells loaded with SPAg appear as an innovative platform to expand Treg ex vivo. This approach may improve the efficiency and costs of current procedures

Transplantation

Tolérance d’allogreffe

Lymphocytes B régulateurs

Lymphocytes T régulateurs

Thérapie cellulaire adoptive

Nanoparticules biofonctionnalisées

Biomimétiques

Transplantation

Allograft tolerance

Regulatory B cells

Regulatory T cells

Adoptive cell therapy

Biofunctionalized nanoparticles

Biomimetic

571.96

O uso de células-tronco adultas humanas na recuperação funcional da lesão medular trumática em ratas Wistar

Rodrigues, Luciano Palmeiro

January 2011

A lesão medular traumática é uma patologia incapacitante, ainda sem tratamento eficaz. As terapias celulares representam uma nova estratégia para o tratamento destas lesões. As células-tronco adultas são fontes potenciais para o transplante celular com o objetivo de minimizar a lesão e promover a recuperação de tecidos lesados, como a medula espinhal. O objetivo desta tese foi avaliar a eficácia do transplante de células-tronco adultas na recuperação funcional e regeneração da lesão medular traumática em modelo experimental de lesão medular contusa em ratas fêmeas Wistar. Os principais objetivos foram: a) comparar os efeitos do transplante da fração mononuclear de sangue de cordão umbilical humano e de células-tronco mesenquimais dos vasos da parede do cordão umbilical humano; b) determinar a janela terapêutica deste tipo de intervenção, comparando os implantes de células- tronco realizados 1 hora, 24 horas e 9 dias após a lesão; c) demonstrar a possível diferenciação das células-tronco implantadas, bem como sua integração no tecido lesado. Os resultados obtidos demonstraram que o transplante de células foi mais eficaz para a recuperação funcional da lesão medular em ratas Wistar quando realizado pela via de administração local 1h após a lesão, quando comparado com a administração na cisterna magna e a aplicação 9 dias a lesão. O tratamento com a fração de células mononucleares ou com as células-tronco mesenquimais do sangue do cordão umbilical 24h após a lesão, não apresentou resultado funcional significativo.Observou-se a neuroproteção do tecido medular quando foi realizado o transplante de células-tronco mesenquimais 1h após a lesão medular. As células humanas transplantadas migraram e sobreviveram no local da lesão quando administradas na cisterna magna ou quando administradas diretamente no local da lesão, porém não se diferenciaram em células gliais ou neurônios. Concluímos que o transplante de células-tronco adultas promoveu a recuperação funcional após a lesão medular contusa, principalmente quando realizado 1h após a lesão diretamente no local da lesão. Apesar das células transplantadas sobreviverem na área da lesão, não foi evidenciada diferenciação celular. / Spinal cord injury is a debilitating disease and yet no effective treatment is available. In this framework cell therapy represents a new strategy to treat this condition. Adult stem cells are potential sources for cell transplantation in order to minimize injury and promote the recovery of damaged tissues, such as the spinal cord. The purpose of this Thesis was to evaluate the action of adult stem cells in the regeneration and functional recovery of spinal cord injury in experimental contusion spinal cord injury in female Wistar rats. Main goals were: a) to compare the effects of transplantation of the mononuclear cells of human umbilical cord blood and mesenchymal stem cells of the vessel wall of human umbilical cord; b) to determine the therapeutic window of this type of intervention, comparing the stem cell implants performed 1 hour, 24 hours and 9 days after injury; c) to demonstrate the possible differentiation of cells implanted, as well as their integration into the damaged tissue. Results reported demonstrate that the transplantation of stem cells was more effective for functional recovery of spinal cord injury when performed into the site of the lesion 1 h after injury, as compared with administration in the cisterna magna 9 days after injury. Treatment with mononuclear cells and mesenchymal cells from umbilical cord blood 24 hours after injury, not showed functional outcome. Neuroprotection was observed when mesenchymal stem cells were transplanted 1 hour after spinal cord injury. The transplanted human cells survived and migrated to the site of injury either when administered in the cisterna magna or directly onto the injury site, but did not differentiated into glial cells or neurons. It is suggested that the transplantation of adult stem cells promotes functional recovery after spinal cord injury when performed 1 hour after injury directly at the injury site, however differentiation of transplanted cells was not detected.

Traumatismos da medula espinal

Transplante de células-tronco

Células-tronco mesenquimais

Terapia celular

Cordão umbilical

Regeneração da medula espinal

Spinal cord injury

Cell therapy

Functional recovery

Mesenchymal stem cells

Mononuclear cells

Human umbilical cord

NYU impactor

Lokální a celkové patologické procesy a jejich ovlivnění u syndromu diabetické nohy / Local and systemic pathological processes in diabetic foot diasease and their management

Dubský, Michal

January 2013

Local tissue factors, ischemia and infection (which are often the cause of re-ulceration) are the main pathogenetic factors for diabetic foot disease (DFD). Neuropathic bone metabolism disorder leads to Charcot osteoarthropathy (CHOA). The aim of this dissertation was to assess experimentally the effectiveness of new skin substitutes, evaluate local vasculogenesis in different types of cell therapy of DFD, the role of infection in recurrence of DFD and scintigraphic parameters of activity of CHOA. Our studies concerning local pathological processes in DFD experimentally proved that gelatine nanofibers accelerate wound healing and can be suitable scaffolds for cell transfer and skin regeneration and also that acellular porcine dermis is more effective in healing of chronic wounds then xenotransplants. Our studies concerning therapeutic vasculogenesis confirmed that efficacy of stem cells (SC) harvested from bone marrow is similar in efficacy to SC separated from peripheral blood after stimulation. We found no evidence for systemic vasculogenesis by means of a significant increase of pro-angiogenic cytokines, which confirms the paracrine effect of injected SC. We proved a significant correlation between angiogeneisis inhibitor (endostatin) and the number of injected SC, which could be an indicator of...

O uso de células-tronco adultas humanas na recuperação funcional da lesão medular trumática em ratas Wistar

Rodrigues, Luciano Palmeiro

January 2011

A lesão medular traumática é uma patologia incapacitante, ainda sem tratamento eficaz. As terapias celulares representam uma nova estratégia para o tratamento destas lesões. As células-tronco adultas são fontes potenciais para o transplante celular com o objetivo de minimizar a lesão e promover a recuperação de tecidos lesados, como a medula espinhal. O objetivo desta tese foi avaliar a eficácia do transplante de células-tronco adultas na recuperação funcional e regeneração da lesão medular traumática em modelo experimental de lesão medular contusa em ratas fêmeas Wistar. Os principais objetivos foram: a) comparar os efeitos do transplante da fração mononuclear de sangue de cordão umbilical humano e de células-tronco mesenquimais dos vasos da parede do cordão umbilical humano; b) determinar a janela terapêutica deste tipo de intervenção, comparando os implantes de células- tronco realizados 1 hora, 24 horas e 9 dias após a lesão; c) demonstrar a possível diferenciação das células-tronco implantadas, bem como sua integração no tecido lesado. Os resultados obtidos demonstraram que o transplante de células foi mais eficaz para a recuperação funcional da lesão medular em ratas Wistar quando realizado pela via de administração local 1h após a lesão, quando comparado com a administração na cisterna magna e a aplicação 9 dias a lesão. O tratamento com a fração de células mononucleares ou com as células-tronco mesenquimais do sangue do cordão umbilical 24h após a lesão, não apresentou resultado funcional significativo.Observou-se a neuroproteção do tecido medular quando foi realizado o transplante de células-tronco mesenquimais 1h após a lesão medular. As células humanas transplantadas migraram e sobreviveram no local da lesão quando administradas na cisterna magna ou quando administradas diretamente no local da lesão, porém não se diferenciaram em células gliais ou neurônios. Concluímos que o transplante de células-tronco adultas promoveu a recuperação funcional após a lesão medular contusa, principalmente quando realizado 1h após a lesão diretamente no local da lesão. Apesar das células transplantadas sobreviverem na área da lesão, não foi evidenciada diferenciação celular. / Spinal cord injury is a debilitating disease and yet no effective treatment is available. In this framework cell therapy represents a new strategy to treat this condition. Adult stem cells are potential sources for cell transplantation in order to minimize injury and promote the recovery of damaged tissues, such as the spinal cord. The purpose of this Thesis was to evaluate the action of adult stem cells in the regeneration and functional recovery of spinal cord injury in experimental contusion spinal cord injury in female Wistar rats. Main goals were: a) to compare the effects of transplantation of the mononuclear cells of human umbilical cord blood and mesenchymal stem cells of the vessel wall of human umbilical cord; b) to determine the therapeutic window of this type of intervention, comparing the stem cell implants performed 1 hour, 24 hours and 9 days after injury; c) to demonstrate the possible differentiation of cells implanted, as well as their integration into the damaged tissue. Results reported demonstrate that the transplantation of stem cells was more effective for functional recovery of spinal cord injury when performed into the site of the lesion 1 h after injury, as compared with administration in the cisterna magna 9 days after injury. Treatment with mononuclear cells and mesenchymal cells from umbilical cord blood 24 hours after injury, not showed functional outcome. Neuroprotection was observed when mesenchymal stem cells were transplanted 1 hour after spinal cord injury. The transplanted human cells survived and migrated to the site of injury either when administered in the cisterna magna or directly onto the injury site, but did not differentiated into glial cells or neurons. It is suggested that the transplantation of adult stem cells promotes functional recovery after spinal cord injury when performed 1 hour after injury directly at the injury site, however differentiation of transplanted cells was not detected.

Traumatismos da medula espinal

Transplante de células-tronco

Células-tronco mesenquimais

Terapia celular

Cordão umbilical

Regeneração da medula espinal

Spinal cord injury

Cell therapy

Functional recovery

Mesenchymal stem cells

Mononuclear cells

Human umbilical cord

NYU impactor

Células-tronco da medula óssea e do tecido adiposo na regeneração do nervo ulnar em equinos / Bone marrow and adipose tissue stem cells in equine ulnar nerve regeneration

MORAES, Júlia de Miranda

17 August 2012

Made available in DSpace on 2014-07-29T15:13:47Z (GMT). No. of bitstreams: 1 TESE Julia de Miranda Moraes.pdf: 2895250 bytes, checksum: e061f736f6922f781b2c671bf4f90f32 (MD5) Previous issue date: 2012-08-17 / The aim of this work was to evaluate the regeneration of equine ulnar nerves submitted to neurotomy, silicone tubing and cell therapy with bone marrow mononuclear cells fraction (MCF) or adipose derived mesenchymal stem cells (ADSC). Fifteen adult horses were divided into three groups with five animals each: control group (CG) with the use of saline solution, group with FCM deposition and group with ADSC deposition. The same surgical procedure was performed in all groups, using both nerves of each animal (right and left), establishing two moments of biopsy: on the 13th week on the right limb (CG1, MCF1 and ADSC1) and on the 26th week on the left limb (CG2, MCF2 and ADSC2). The MCF and ADSC were obtained respectively, from bone marrow and adipose tissue from each animal, both used as an authologous implant. After 13 and 26 weeks, biopsies were performed in all groups and immediately it was made some fragments slide imprints for viewing the nanocrystal fluorescent label. The fragments were fixed in 10% buffered formalin for histological analysis, with HE, luxol fast blue, Masson's trichrome, immunohistochemistry against the antibodies neurofilament (NF), S-100, FGF-2 and GDNF. Microscopically it was observed the presence of axonal growth, connective tissue, inflammatory infiltrate, Schwann cells, neural growth factors, myelin sheath and wallerian degeneration. For histologic analysis, it was established qualitative scores and for immunohistochemistry it was performed quantitative analysis with Image J program. It was observed wallerian degeneration reduction, better fascicular reorganization, new collagen increased, myelin sheath early formation, and NF antibody stronger staining in the experimental groups compared to CG. The ADSC group presented the best results than the other groups, showing ADSCs efficiency compared to MCF and CG for peripheral nerve regeneration. However, it was proved a longer time necessity to occur complete regeneration of peripheral nerve after injury. / Este trabalho teve por objetivo avaliar a regeneração do nervo ulnar de equinos, submetidos à neurotomia, tubulização com tubo de silicone e terapia celular com fração de células mononucleares da medula óssea (FCM) ou células-tronco mesenquimais do tecido adiposo (ADSC). Foram utilizados 15 equinos adultos alocados em três grupos, com cinco animais em cada: grupo controle (GC) com utilização de soro fisiológico; grupo com deposição de FCM; e grupo com deposição de ADSC. Foi realizado o mesmo procedimento cirúrgico em todos os grupos, utilizando-se os dois nervos de cada animal (direito e esquerdo), e estabelecido dois momentos de biopsia: na 13ª semana com biopsia no membro direiro (GC1, FCM1 e ADSC1) e na 26ª semana com biopsia no membro esquerdo (GC2, FCM2 e ADSC2). A FCM e a ADSC foram obtidas respectivamente, da medula óssea e tecido adiposo de cada aninal, ambos utilizados como implantes autólogos. Após 13 e 26 semanas, realizaram-se as biopsias de todos os grupos e imediatamente, faziam-se imprints dos fragmentos para visualização do marcador fluorescente nanocristal. Os fragmentos foram fixados em formol tamponado a 10%, para análise histológica, com as coloraçãoes de HE, luxol fast blue, tricrômio de Masson e imuno-histoquímica com os anticorpos neurofilamento (NF), S-100, FGF-2 e GDNF. Microscopicamente avaliou-se a presença de proliferação axonal, tecido conjuntivo, infiltrado inflamatório, células de Schwann, fatores de crescimento neurais, bainha de mielina, e degeneração walleriana. Para a análise histológica estabeleceram-se escores qualitativos e para a imuno-histoquímica realizou-se análise quantitativa com o programa Image J. Foi observada diminuição da degeneração walleriana, melhor reorganização fascicular, aumento do colágeno novo, início de formação de bainha de mielina, além de maior marcação do anticorpo NF nos grupos experimentais em relação ao GC. O grupo ADSC apresentou melhores resultados em relação aos demais, enfatizando a eficiência das ADSCs em relação à FCM e ao GC para a regeneração nervosa periférica. Porém, há a necessidade de um tempo maior para ocorrer completa regeneração do tecido nervoso periférico após lesão.

células mesenquimais

fração mononuclear

nervo periférico

células-tronco adultas

terapia celular

tubulização com silicone.

adult stem cells

cell therapy

mesenchymal cells

mononuclear fraction

peripheral nerve

silicone tubing

Células-tronco mesenquimais derivados da geleia de Wharton na injúria cardiopulmonar e neuroimunomodulação sistêmica na sepse / Wharton\'s Jelly derived mesenchymal stem cells in sepsis-induced cardiopulmonar injury and systemic neuroimmunomodulation

José Manuel Cóndor Capcha

15 May 2018

A sepse causa uma alta taxa de mortalidade no mundo. A fisiopatologia da doença envolve uma rede complexa de mediadores inflamatórios que promovem a lesão de diversos tecidos, além de diversas alterações hemodinâmicas e disfunção do sistema nervoso autonômico (SNA). Assim sabe-se que o sistema nervoso cumpre um papel importante no controle da inflamação sistêmica mediante a via colinérgica anti-inflamatória (VCA) através do receptor nicotínico de acetilcolina alfa7 (alfa7nAChR). O uso das células-tronco mesenquimais (CTM) tem mostrado efeitos benéficos em diversos ensaios clínicos de doenças inflamatórias. Neste contexto, as células-tronco mesenquimais derivadas da geleia de Wharton do cordão umbilical (CTM-GW) tornam-se promissórias, uma vez que essas células são reconhecidas pela regulação da resposta imunológica, reparação neural, efeito anti-apoptose, assim como a melhora da sobrevida na sepse, em modelos experimentais. Nossa hipótese foi de que as CTM-GW poderiam cumprir um papel neuroimunomodulador através da VCA e atenuar a disfunção de múltiplos órgãos em um modelo animal de sepse de ligadura e punção do ceco (LPC). Inicialmente células da matriz do cordão umbilical foram isoladas e caracterizadas de acordo com o consenso internacional vigente. Ratos Wistar machos adultos foram subdivididos em grupos: 1) sham (operação simulada); 2) LPC; 3) LPC+CTM-GW (injetado 106 CTM-GW via intraperitoneal, i.p. 6 h após LPC) e 4) LPC+MLA+CTM-GW (MLA: Metillicaconitine, antagonista do alfa7nAChR, i.p., 5:30 h após LPC e 106 CTM-GW 6h após). Às 24 horas após LPC, foram avaliadas a função cardiovascular, hemodinâmica assim como os outros parâmetros. Interessantemente, o tratamento com CTM-GW na sepse atenuou a disfunção diastólica e protegeu a sensibilidade baroreflexa. Além disso, as CTM-GW estimularam a atividade autonômica, simpática e parassimpática no coração. Observamos que o tratamento celular induziu uma regulação da expressão do receptor alfa7nAChR e TLR4 no baço e no coração, assim como a redução da relação p-STAT3TYR705 e STAT3 total no baço. Outros efeitos importantes e adicionais foram a diminuição da infiltração de leucócitos e a regulação das citocinas pró-inflamatórias pelas células. O bloqueio da VCA usando MLA confirmou que o receptor alfa7nAChR pode ser um provável alvo, chave da ação das CTM entre vários outros mecanismos envolvidos na resposta imune. Finalmente, as CTM-GW conseguiram reduzir a apoptose no pulmão e no baço independentemente da VAC reforçando o conceito de que as células-tronco tem efeitos diversos além da imuno-regulação. Em conclusão, as CTM-GW na sepse foram capazes de atenuar a lesão cardiopulmonar assim como modular a atividade autonômica, reduzindo a inflamação sistêmica, pelo menos em parte, através da via colinérgica anti-inflamatória. Indubitavelmente todos estes efeitos anteriormente descritos e em associação se demonstraram fundamentais no mecanismo de reparo e proteção tecidual em resposta a sepse. Mais estudos pré-clínicos e futuros testes clínicos precisam ser realizados para maior compreensão destes mecanismos bem como uma possível validação terapêutica / Sepsis induces organ dysfunction due to overexpression of the inflammatory host response, involving cardiorespiratory and autonomic dysregulation, thus increasing the associated morbidity and mortality. The cholinergic anti-inflammatory pathway (CAP) is mediated by nervous system through alpha7 nicotinic acetylcholine receptor (alpha7nAChR). This receptor has an important role in systemic inflammation control. Wharton\'s jelly-derived mesenchymal stem cells (WJ-MSCs) are known to express genes and secreted factors related to neurological and immunological protection, as well as to improve survival in experimental sepsis. We hypothesized that WJ-MSCs play a modulatory role through the CAP and attenuate sepsis-induced organ injury in a cecal ligation and puncture (CLP) model. Rats were randomly divided into 4 groups: 1) Control (sham-operated); 2) submitted to CLP without treatment; 3) submitted to CLP and treated with 106 WJ-MSCs 6 h later and 4) CLP+MLA+WJ-MSC group (MLA: Methyllycaconitine, alpha7nAChR antagonist). All experiments were performed 24 h post-surgery. Echocardiographic parameters and heart rate variability were assessed. Importantly, treatment with WJ-MSCs attenuated diastolic heart failure and recovered barorreflex sensitivity. Moreover, WJ-MSCs injection increased cardiac sympathetic and cardiovagal activity. In cardiac and splenic tissue, WJ-MSC treatment downregulated TLR4 and alpha7nAChR expression, as well as it reduced p-STAT3/Total STAT3 ratio in the spleen. In addition, WJ-MSC reduced leukocyte infiltration and pro-inflammatory cytokines, which only were abolished by MLA treatment. Finally, WJ-MSC treatment diminished apoptosis in lung and spleen tissue. Together these findings suggest that treatment with WJ-MSCs appears to protect against sepsis-induced organ injury reducing systemic inflammation, at least in part, through cholinergic anti-inflammatory pathway

Cordão umbilical

Geleia de Wharton

Neuroimunomodulação

Sepse

Terapia celular

Alpha7 nicotinic acetylcholine receptor

Cell therapy

Mesenchymal stem cells transplantation

Neuroimmunomodulation

Sepsis

Umbilical cord

Wharton jelly

Avaliação dos efeitos da sinvastatina via Inibidor do Ativador do Plasminogênio 1 (PAI-1) sobre a terapia celular com células estromais mesenquimais / Evaluation of the effects of simvastatin in mesenchymal stromal cell therapy through Plasminogen Activator inhibitor 1 (PAI-1)

Carolina Arruda de Faria

08 August 2016

A Doença Pulmonar Obstrutiva Crônica (DPOC) é caracterizada pela limitação persistente de trocas gasosas, usualmente progressiva e associada a uma resposta inflamatória crônica exacerbada das vias aéreas a partículas e gases nocivos. Apesar de prevenível e tratável, não se logrou até o presente uma terapêutica eficaz, que resulte na cura da doença. Neste cenário, a terapia celular apresenta-se como uma alternativa terapêutica potencialmente promissora em DPOC, bem como em outras doenças pulmonares degenerativas e de caráter inflamatório. Porém, vários aspectos da terapia celular carecem de um melhor entendimento. Um dos principais desafios ao sucesso da terapia celular são as baixas taxas de sobrevivência das células transplantadas. O Inibidor do Ativador de Plasminogênio 1 (Plasminogen Activator Inhibitor 1 - PAI-1) pode representar um potencial mediador da sobrevivência de células estromais mesenquimais (CTM) pós-transplante, pois tem sido proposto que anticorpos neutralizadores do PAI-1 auxiliam no aumento da sobrevivência de CTM no tecido-alvo da terapia celular. Desta forma, a diminuição dos níveis de PAI-1 possui um potencial terapêutico interessante, ao modular os principais processos envolvidos na criação de um ambiente pouco propício ao \"homing\" celular durante o processo de injúria. A diminuição dos níveis de PAI-1 é promovida, pela sinvastatina, fármaco da família das estatinas. Desta forma, objetivou-se com este trabalho analisar os efeitos da sinvastatina sobre a expressão do PAI-1, bem como sua influência na sobrevivência das células infundidas para terapia celular de enfisema pulmonar em modelo murino. Camundongos da linhagem FVB foram submetidos à instilação intranasal de elastase para indução de enfisema pulmonar e, posteriormente, tratados com CTM do tecido adiposo e sinvastatina. Os resultados mostraram que, quanto aos aspectos morfológicos e funcionais, considerando-se a análise conjunta de ambos os pulmões, não houve diferença estatisticamente significativa entre os grupos submetidos à instilação intranasal de elastase e submetidos à terapia celular com CTM tratados ou não com sinvastatina. Quando porém os pulmões foram analisados individualmente constatou-se que não houve diferença estatisticamente significativa entre os grupos controle e os resultados referentes ao lado direito do pulmão dos animais tratados com elastase e que receberam sinvastatina e infusão de CTM. Diferenças anatômicas entre os lados direito e esquerdo do pulmão, levaram a uma maior deposição de células no lado direito, como evidenciado pelos resultados obtidos nos ensaios de bioluminescência. Pode-se, portanto, inferir que a recuperação morfológica no lado direito do pulmão de animais com DPOC/enfisema poderia ser decorrente de um efeito regenerativo parácrino das CTM associadas à sinvastatina. / Chronic Obstructive Pulmonary Disease - COPD is characterized by the persistent limitation of gas exchange, is usually progressive, and associated to a chronic augmented inflammatory response of the airways to particles and noxious gases. Despite preventable e treatable, an effective, curative therapeutic approach is yet to be achieved. In this context, cell therapy presents itself as a promising therapeutic approach for COPD and other pulmonary inflammatory and degenerative diseases. However, many aspects of cell therapy with stem cells remain unclear. One of the major challenges to the success of cell therapy are the low survival rates of transplanted cells. The Plasminogen Activator Inhibitor 1 (PAI-1) is a potential mediator of the survival of mesenchymal stromal cells (MSC) after transplantation, since PAI-1 neutralizing antibodies have been shown to increase the survival rate of MSC in the target tissue of cell therapy. Thus, the decreased levels of PAI-1 has an interesting therapeutic potential to modulate key processes involved in creating an inhospitable environment, during the process of injury, to the homing of transplanted cells. Decreased levels of PAI-1 are promoted by simvastatin, a drug of the statins family. Thus, the goal of this work was to evaluate the effect of simvastatin in vivo on the expression of PAI-1, as well as its influence on the survival rate of infused cells in mice model of cell therapy for pulmonary COPD/emphysema. FVB mice were submitted pulmonary emphysema induction by means of intranasal instillation of elastase and than treated with adipose-derived mesenchymal stem cells and simvastatin. The results regarding morphological and functional aspects, when considering the analisys of both lungs, presented no statistically significant difference among the groups submitted to intranasal instillation of elastase and cell therapy with MSC, treated or not with simvastatin. However, when the lungs where analyzed individually, it was found that there was no statistically significant difference between the control group and the results regarding the right lung of animals treated with elastase and that received simvastatin and MSC infusion. Anatomical differences between the right and left sides of the lung lead to a higher deposition of cells in the right side, as observed in the bioluminescence assays. Thus, it is possible to infer that the morphological recovery in the right side of the lung of animals with DPOC/emphysema could be due to a regenerative paracrine effect of mesenchymal stem cells associated with simvastatin.

Plaminogen activator inhibitor 1 - PAI-1

Combination of stem cells from deciduous teeth and electroacupuncture in dogs with chronic spinal cord injury / Associação de células-tronco de polpa de dente decíduo e eletroacupuntura em cães com lesão medular crônica

César Vinicius Gil Braz do Prado

20 December 2016

Previous studies have reported that combination of electroacupuncture (EA) and mesenchymal stem/stromal cells (MSC) promoted survival, differentiation and functional recovery in spinal cord-transected rats. In this study, it was examined the therapeutic effects of stem cells from canine exfoliated dental pulp (SCED) combined with EA treatment in dogs with chronic naturally occurred spinal cord injury due to intervertebral disc herniation (IVDH). Dogs were randomly assigned to four experimental groups (n=4 for each group; total of 16 animals): SCED, EA, SCED + EA) and control. Mild increase in the neurological scoring was found in one animal from SCED group (1/4; 2 points gained), one from EA group (1/4; 8 points gained), three from SCED+EA group (3/4; 16 points gained) and one from control group (1/4; 2 points gained). Functional outcome improvements were observed two animals from SCED group (2/4; 3 points gained), two from EA group (2/4; 4 points gained), one from SCED+EA group (1/4; 1 point gained) and two were from control group (2/4; 6 points gained). However no statistical differences were observed. Magnetic resonance imaging (MRI) findings did not suggest improvement comparing pre- and post-treatment within groups, excepted from one animal from SCED group (1/4), and 10 animals from all groups (10/16) presented signs of injury progression in the SCI in post-treatment exam, which could not be associated to the procedures from study, but could be related to the natural evolution of the disease. Limitation such as number of transplanted stem cells, delivery route, injury chronicity and intrinsic variation among naturally spinal cord injured dogs could have influence outcomes negatively. Moreover, canine deciduous exfoliated teeth were easily obtained and SCED were simply isolated, and no mortality followed up 7 month from procedure were observed. / Estudos anteriores demonstraram que a associação da eletroacupuntura e células-tronco mesenquimais/estromais (CTMs) pode promover a sobrevivência e diferenciação das CTMs, assim como recuperação funcional em ratos com transecção da medula espinal. Neste estudo, foram avaliados os efeitos terapêuticos da associação de células-tronco derivadas de polpa de dente decíduo esfoliado de cães (CPDEc) e eletroacupuntura (EAP) em cães com lesão de medula espinhal crônica causada de forma natural por herniação do disco interververtebral. Os cães foram divididos aleatoriamente em quatro grupos experimentais (n=4 para cada grupo; total de 16 animais): CPDEc, EAP, CPDEc+EAP e grupo controle. Foram encontradas pequenas melhoras na pontuação do exame neurológico em um animal do grupo CPDEc (1/4; 2 pontos ganhos), um do grupo EAP (1/4; 8 pontos ganhos), três do grupo CPDEc+EAP (3/4; 16 pontos ganhos) e um do grupo controle (1/4; 2 pontos ganhos). Na avaliação funcional, pequenas melhoras também foram observadas em dois animais do grupo CPDEc (2/4; 3 pontos ganhos), dois do grupo EAP (2/3; 4 pontos ganhos), um do grupo CPDEc+EAP (1/4; 1 ponto ganho) e dois do grupo controle (2/4; 6 pontos ganhos). No entanto, não foram encontradas diferenças estatísticas entre os grupos. Os achados ressonância magnética não sugeriram melhoras comparando os exames pré e pós tratamento entre os grupos, com exceção de um animal do grupo CPDEc (1/4), e 10 animais dentre todos os grupos (10/16) apresentaram sinais de progressão na lesão da medula espinhal, que não puderam ser associados com os procedimentos do estudo, mas podem estar relacionados à progressão natural da doença. Além disso, os dentes decíduos esfoliados foram obtidos facilmente e as CPDEc foram isoladas de forma simples, ademais, não foi observada nenhuma mortalidade foi observada até 7 meses após o procedimento.

Cell therapy

Complete spinal cord injury

Intervertebral disc herniation

Paraplegy

Hérnia de disco intervertebral

Paraplegia

Terapia Celular