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61	Apoptose e prejuízo na capacidade de reparo endotelial induzidos por fluxo sanguíneo retrógrado na hipertensão Rocha, Helena Naly Miguens 05 June 2017 (has links) Submitted by Biblioteca do Instituto Biomédico BIB (uffbib@gmail.com) on 2017-06-05T19:47:11Z No. of bitstreams: 1 Helena Naly Miguens Rocha.pdf: 1130470 bytes, checksum: 43146823dc28af52b34aa41dd863ff95 (MD5) / Made available in DSpace on 2017-06-05T19:47:11Z (GMT). No. of bitstreams: 1 Helena Naly Miguens Rocha.pdf: 1130470 bytes, checksum: 43146823dc28af52b34aa41dd863ff95 (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Mecanismos de ativação e reparo endoteliais em resposta ao fluxo sanguíneo retrógrado (FSR) exacerbado ainda não foram completamente elucidados, nem em condições fisiológicas, nem na hipertensão arterial sistêmica (HAS). O objetivo deste estudo foi determinar os efeitos do FSR exacerbado sobre biomarcadores endoteliaisem indivíduos saudáveis e com HAS. Oito homens saudáveis (grupo CT; 36±3) e oito pacientes com HAS(grupo HAS;39±5) foram submetidos a manobra de indução de FSR em um dos braços, através da insuflação de dois manguitos, um no antebraço a 75mmHg e outro manguito próximo ao ombro a 40 mmHg, por 30 minutos. A avaliação do fluxo sanguíneo (ultrassom vascular) e a coleta de sangue foram realizadas no momento basal e no 30º minuto de manobra em ambos os braços (contralateral e ipsilateral). Ativação endotelial, micropartículas endoteliais (MPE) e células progenitoras endoteliais (CPE) foram mensuradas por citometria de fluxo. Nitrito foi mensurado por NOA Sievers. Em condições basais, fluxo sanguíneo médio, condutância vascular, taxa de cisalhamento média (p<0,01) e MPE (p=0,03) foram maiores no grupo HAS quando comparado ao grupo CT. Níveis basais de CPE estavam reduzidos no grupo HAS, permanecendo assim durante a manobra (p<0,01). Ambos os grupos apresentaram redução no fluxo sanguíneo médio e na condutância vascular (p≤0,01), bem como aumento na taxa de cisalhamento retrógrado (p<0,01) e no índice de cisalhamento oscilatório (p<0,01) durante a manobra. Somente o grupo HAS aumentou o número de MPE (p=0,02) e a ativação endotelial (p=0,04) durante a manobra. A razão MPE/CPE foi maior em ambos os momentos no grupo HAS (p<0,02). A resposta dos níveis séricos de nitrito a manobra foi menor no grupo HAS (p=0,03). Conclui-se que pacientes com HAS apresentam um quadro subclínico de disfunção endotelial com comprometimento no reparo vascular, o que foi agravado pela indução de FSR. / Endothelial activation and repair mechanism in response to increased retrograde blood flow (RBF) have not beenfully elucidated, neither in physiological conditions nor in hypertension. We aimed to determinethe effects of increased RBF on endothelial biomarkers in healthy individuals and hypertensive patients. Eight healthy subjects (CT group; 36±3) and eight hypertensive men (HT group; 39±5) underwent a maneuver to increase RBF, using two pneumatic cuffs: one in the forearm, inflated to 75 mmHg and one near the shoulder, inflated to 40 mmHg, for 30 minutes.Blood flow measures (ultrasound doppler) and blood samples were obtained at baseline and during the last minute of the maneuver from both arms (ipsilateral and contralateral). Endothelial activation, endothelial microparticle (EMP) and endothelial progenitor cell (EPC) were measured by flow cytometry. Nitrite was measured through NOA Sievers.At baseline, mean blood flow, vascular conductance, mean shear rate (p<0.01) and EMP (p=0.03) were higher in HT group than CT group. Baseline EPCs levels were reduced in HT group, which was sustained during the maneuver (p<0.01). Both groups presented decreased mean blood flow and vascular conductance (p<0.01), along with increased retrograde shear rateand oscillatory shear index (p<0.01), during the maneuver. Only the HT group showed increased EMP (p=0.02) and endothelial activation levels (p=0.04). EMP/EPC was higher in HT group in both moments (p<0.02).Nitrite levels in response to the maneuver were lower in HT group (p=0.03).Hypertensive patients present a subclinical endothelial dysfunction along with impaired endothelial repair, which was worsened by the RBF induction. Fluxo sanguíneo retrógrado Disfunção endotelial Células progenitoras endoteliais Micropartículas endoteliais Doenças cardiovasculares Apoptose Volume sanguíneo Retrograde blood flow Endothelial dysfunction Endothelial progenitor cells Endothelial microparticle
62	Co-morbidities induced vasculogenic impaired wound healing Szpalski, Caroline 17 December 2013 (has links) A. Background<p><p>Skin wound healing (WH) is a dynamic and extremely determinate process of cellular, humoral and molecular mechanisms which begins directly after wounding and can last for years. WH is described as is an intricate process in which the skin (or another organ-tissue) repairs itself after injury. The process of skin WH occurs through the actions of an interplay of cells, growth factors and cytokines leading to wound closure.<p><p>WH occurs in three precisely and highly programmed phases: the inflammatory phase (day 0 to day 7) followed by the proliferative phase or vasculogenic phase (day 7 to day 21) and finally the remodeling phase (2 days - up to 2 years). For a successful healing, all three phases must occur in the proper sequence and time frame.<p><p>Many factors can interfere with one or more phases of the WH process, thus causing improper or impaired healing. The proliferation phase, in particular, requires the participation of various cells types such as fibroblasts, endothelial cells (ECs) and endothelial progenitor cells (EPCs), to produce a healthy well-vascularized granulation tissue for epithelization and wound closure.<p><p>A.1 Wound Healing And Obesity<p><p>In 2008, over 1.4 billion adults, 20 and older, were overweight. Of these, obesity has been shown to affect over 500 million people (OMS website). Moreover, the prevalence of obesity continues to rise, and by 2018, it is estimated that obesity will cost $ 347 billion annually.<p><p>Each year, in the US, approximately 33 million overweight and obese patients undergo surgery. Obesity causes a number of known health problems and increased post-surgical complications such as wound infection, dehiscence, hematoma and seroma. Surgeons anecdotally report WH complications among obese patients; however, little research has been conducted to investigate the mechanisms mediating impaired obesity-related WH. <p><p>Some previous work on diabetic patients and diabetic mice showed an imbalance between pro-oxydant and anti-oxydant genes as well as impaired EPCs proliferation and tube formation during the WH process. More then a hundred cytologic factors have been found to impair WH in the type 2 diabetic patient. It is a very complex and multifactorial problem involving decreased growth factors secretion, impaired keratinocyte and fibroblast functions, impaired EPs function, alteration of the macrophage function and granulation tissue synthesis, etc. <p><p>Based on these findings and because obesity is associated with the development of type 2 diabetes, we hypothetize that, impaired balance between pro-apoptotic/anti-apoptotic and pro- oxydant /anti-oxydant genes is involved in impaired WH. Furthermore, we hypothetize that impaired EPCs function leads to the perturbation of the proliferation phase of obesity impaired WH.<p><p>A.2. Wound Healing and Age<p><p>The world population is aging; by 2030, nearly 20% of Americans, (± 72 million people), will be 65 years old and older. In 2010, 17% of the European population was over the age of 65. By 2060, it is projected that the share of those aged 65 and over will rise to 30%, accounting for more then 150 million people. (ec.europa.eu) These aging subjects undergo an increasing number of surgical procedures: in the past two decades, the percentage of surgeries in patients over 65 has doubled to nearly 40%.<p>As a corollary, it is well established knowledge that elderly WH is impaired. However, little is known about the underlying mechanisms of age-related impaired WH.<p><p>As previously mentioned, adult BM-derived EPCs contribute to peripheral tissue repair and regeneration. In light of the abundant literature suggesting that neovascularization is impaired in the elderly, we characterize a novel model of senile cutaneous WH and investigate the role that vasculogenesis plays in the pathogenesis of age related impaired WH.<p>Aged mice colonies have traditionally been the model for aged small mammalian research, however, the ability to use a readily-available transgenic mouse model with features of accelerated aging would aid in the exploration of targeted therapies and a great number of age-related investigations.<p><p>We hypothesize that the Hutchinson-Gilford Progeria Syndrome (HGPS) Zmpste24 deficient (Zmpste24-/-) mouse mimics physiological ageing and can be used as a novel model for the study of senescent WH. We further hypothetized that impaired balance between pro-apoptotic/anti-apoptotic and pro-oxydant /anti-oxydant genes as well as impaired EPCs function are responsible for the impairment of the proliferative phase, leading to overall impaired WH.<p><p>A.3 Aims<p><p>Recently, a great deal of research has been directed at understanding the critical factors inducing poorly healing wounds. However, a lot remains unclear.<p><p>It is now well accepted that new blood vessel formation occurs not only by angiogenesis (blood vessels formation from a preexisting network of capillaries), but also by vasculogenesis (blood vessels formation from BM SCs recruitment) and that EPCs contribute to as much as 25% of new blood vessels formed in healing tissues4. They are mobilized from the BM in response to injury and production of local cytokines, are incorporate into wounds and play an integral role in systemic tissue repair. <p><p>Based on this finding, we hypothesized that co-morbidities related impaired WH may be due, in part, to decreased EPCs number, migration/homing, and/or function resulting in impaired vasculogenesis. Because age and/or obesity have been shown to be one of the most common predictors of altered WH, we decided to focus on these two parameters.<p><p>Following a bedside to bench approach the purpose of this work was to 1) develop coherent and translatable models of co-morbidity digging in the physiologic/pathologic mechanisms underlying altered healing in obese and senile mice; 2) develop targeted therapeutics to improve impaired WH.<p><p>B. Material and Methods<p><p>B.1 Human Model<p><p>Since obesity impairs WH and BM EPCs are important for tissue repair, we hypothesize that obesity- impaired WH is due, in part, to impaired EPCs mobilization, trafficking, and function. Peripheral blood was obtained from non diabetic, obese (BMI > 30, n = 25), and non obese (BMI < 30, n = 17) subjects. Peripheral blood human EPCs were isolated, quantified, and functionally assessed.<p>As for aged impaired WH, EPCs of aged subjects have already been found to have decreased adhesion, migration and proliferative properties as well as being decreased in number in elderly patients undergoing surgery compared to younger patients.<p><p>B.2. Mice Models<p><p>Two models of WH were developed and characterized.<p>In order to isolate the effect of obesity on EPCs and WH, OB non-diabetic female TallyHo/JngJ mouse were selected (Female mice don’t express hyperglycemia and hyperinsulinemia). Female SWR/J non-OB mice were used as control mice. In order to limit variables, TallyHO/JngJ obese mice were selected over other OB mice that exhibit a polygenic type of obesity (Jackson Laboratory Website). By selecting this mouse model, we have excluded in our selection of the ideal model common confounding factors such as hyperglycemia, hyperinsulinemia, immune disorders.<p><p>Zmpste24 is a metalloproteinase involved in the maturation of lamin A (LmnA), an essential component of the nuclear envelope. When Zmpste24 or LmnA are knocked-out, mice exhibit profound nuclear architectural abnormalities and histopathological defects that phenocopy an accelerated aging process. Of crucial importance, the lamin-A dependent nuclear alterations seen in Zmpste24-deficient mice have also been found in human physiological aging. We defined the utilization of the Hutchinson-Gilford Progeria Syndrome (HGPS) Zmpste24 deficient (Zmpste24- /-) mouse as a novel model for the study of senescent WH (controls used were C57BL/6J mice).<p><p>B.3. Wounding Model and Data Collection<p><p>All mice group underwent wounding using a stented wound model developed in our laboratory and previously published. Briefly, paired 6-mm circular, full-thickness wounds extending through the panniculus carnosus were made on the dorsal skin of the mouse. An O-ring, 12-mm splint made of silicone sheeting was then sutured to the skin around the wound. To minimize wound contraction and reliably recapitulated the granulation and re-epithelialization seen in human WH by secondary intention. Time to wound closure was measured using standardized digital photographs taken on days 0, 7, 14, and 21. Wound closure was calculated as a percentage of the original wound.<p><p>For each model, EPCs were harvested, quantified by flow-cytometry and their function tested. Wounds were harvested at various time points and RNA, DNA and protein analysis were conducted. Finally immunohistochemistry to assess epidermal thickness, vascularity and WH were also realized.<p><p>In a second step, after characterization of the models, local (using targeted siRNA gel) and systemic therapies (using AMD3100, a PC mobilizer) were applied on the wounds and compared to controls. WH was monitored. We conducted the previously mentioned analysis (RT-PCR, ELISA and DNA analysis) on the harvested samples.<p><p>All values are expressed as a mean ± standard error of mean (SEM). The number of mice per treatment group was determined using GPower (GPower©, Melbourne, Australia) to provide a power greater than 0.80. Student T test was realized to compare two groups among each other.<p><p>C. Results<p><p>C.1. Human EPCs Have Impaired Function<p><p>There was no difference in the number of baseline circulating human EPCs in non-diabetic OB and non-OB<p>subjects, but EPCs from OB subjects had impaired adhesion (p<0.05), migration (p<0.01), and proliferation (p<0.001).<p><p>C.2. Obesity and Wound Healing<p><p>TallyHo/JgnJ OB mice demonstrated significantly impaired healing when compared to SWR/J control mice. They healed at an average of 28 ± 2 days (p<0.05). Post-wounding circulating EPCs were quantified and wounds were analyzed. Circulating EPCs recruitment is impaired in wounded TallyHo/JngJ mice and their wounds shown significantly decreased new blood vessel formation through decreased HIF-1α/SDF-1α signaling (p<0.05). Their wounds are characterized by increased apoptosis, increased DNA damage and impaired pro-/anti-oxydant balance. Immunonistochemistry and histology showed decreased vascular vessels in TallyHo/JngJ wounds and thinner epidermal thickness.<p><p>In the local treatment phase, local p53 silencing consistently improved WH to a nearly normal healing time (wounds healed in 18 ± 2 days, p<0.05). sip53 treatment showed a significant decrease in pro-apoptotic markers (p53, Bax, PUMA p<0.05) and a significant increase in angiogenic markers (VEGF, SDF-1α, HIF-1α) with increased blood vessel formation and decreased DNA damage.<p><p>C.3. Age and Wound Healing<p><p>In these experiments, we show that not only is Zmpste24-/- WH impaired when compared to C57BL/6J mice (Zmpste24-/- mice healed at average 40 days ± 2 days p<0.05) at all time points but that they also showed decreased vascularity and proliferation in the wound bed (p<0.05).<p><p>Histological analysis was performed utilizing hematoxylin and eosin staining to assess epidermal thickness, CD31 immunofluorescence to assess vascular density, p53 and caspase 3 to assess apoptosis, 8’OHdG staining to assess DNA damage and PCNA to assess proliferation. Epidermal thickness was significantly decreased in Zmpste24-/- animals compared to WT as well as vascular density, and proliferation in Zmpste24-/- wound tissue (p<0.05). <p><p>Circulating vasculogenic EPCs recruitment was impaired in Zmpste24-/- mice and their wounds showed significantly decreased new blood vessel formation through decreased HIF-1α/SDF-1α signaling (p<0.05). Zmpste24-/- wounds are characterized by increased apoptosis and an abnormal rise in ROS.<p>In the treatment phase, local p53 silencing consistently improved healing by more then a two fold (18 ± 2 days). VEGF production was significantly increased and pro-apoptotic factors were significantly downregulated in siRNA-treated Zmpste24-/- mice (p<0.05). DNA damage due to ROS production was also shown to be significantly decreased following treatment. Our results suggest a vasculogenic dysfunction in wound closure and showed that the specific knock down of p53 significantly improves WH.<p><p>Because EPCs showed impaired function, lower peripheric blood counts and impaired SDF-1α/HIF-1α signaling, we hypothesized that improving their mobilization by using a progenitor cell mobilizer, AMD3100, known to mobilize SCs from the BM, in a systemic treatment phase will improve WH. Peripheral blood counts were significantly increased and time to wound closure significantly decreased (20 days ± 2, p<0.05). Vasculogenic markers and anti- apoptotic molecules were upregulated compare to non-treated animals.<p><p>D. Conclusions<p><p>Obesity impaired wound closure is a complex problem with many contributory factors. Our results suggest that obesity impairs the BM-derived EPCs response to peripheral injury and this, in turn, impairs wound closure. This impairment is associated with decreased new blood vessel formation and increased DNA damage leading to an increase in the p53 pathway. We also demonstrate that targeted siRNA therapy can partially rescue impaired WH due to obesity. Based on these results we support the encouraging argument that, WH and closure has the potential be improved through specific local and systemic therapies in vivo in our rodent model and that further studies are needed to support this in a clinical environment.<p><p>Impaired WH due to ageing is a complex phenomenon that is partially understood. We demonstrate that the Zmpste24-/- transgenic knockout mouse provides a model for age-related WH investigation. Zmpste24-/- animals heals their wounds with significant delays, showed impaired EPCs mobilization following wounding through an impaired HIF-1α/SDF-1α pathway and increased apoptosis. Furthermore, WH can be improved through specific local siRNA therapy and systemic stem cell mobilization therapies.<p><p>Our results suggest strong similar patterns between obesity and ageing in the way they mediate WH impairments trough (premature) ageing. Our encouraging endeavor to bring WH back to baseline in these diseased models underlines the possibility to reverse the microenvironment alterations and improves EPCs contribution to the WH process. Because EPCs are involved in virtually every tissue repair process happening in the human body, we hope that this work will lead the way for new research in various fields in medicine to improve wound care and quality of life of patients. / Doctorat en Sciences biomédicales et pharmaceutiques / info:eu-repo/semantics/nonPublished Médecine pathologie humaine Wound healing Morbid obesity Neovascularization Endothelial cells Cicatrisation Obésité morbide Néovascularisation Cellules endothéliales endothelial progenitor cells obesity senescent AMD3100 siRNA p53
63	Physiologie du compartiment endothélial circulant dans l’hypertension artérielle pulmonaire et perspectives de développement d’un produit de thérapie cellulaire / Physiology of circulating endothelial compartment in pulmonary arterial hypertension and perspectives of developmant of a cell therapy product Mauge, Laetitia 25 October 2012 (has links) L’endothélium joue un rôle primordial dans le développement et le maintien des multiples fonctions vasculaires. Il est ainsi largement impliqué dans des situations pathologiques comme les maladies cardio-vasculaires. La description de marqueurs endothéliaux circulants a permis une exploration non invasive de l'endothélium. Notre équipe s’est intéressée principalement aux cellules endothéliales circulantes (CEC), dont le taux reflète la lésion ou l’activation de l’endothélium, et aux progéniteurs endothéliaux circulants (PEC), marqueurs de régénération endothéliale. La découverte en 1997 par Asahara de la présence chez l’adulte de ces PEC, participant à la formation de nouveaux vaisseaux par vasculogenèse, a ouvert de nouvelles perspectives, notamment pour la thérapie cellulaire des pathologies ischémiques. Ce travail a consisté à développer les méthodes d’étude de ces cellules dans plusieurs contextes. Tout d’abord, nous avons exploré l’utilité de ces marqueurs dans la physiopathologie de l’hypertension artérielle pulmonaire (HTAP). Puis nous avons analysé le potentiel de mobilisation des progéniteurs endothéliaux à partir de la paroi vasculaire lors d’une ischémie locale chez des volontaires sains dans le cadre du développement d’un produit de thérapie cellulaire autologue. Une partie de ce projet a été de mettre en place et d’optimiser les techniques d’étude de ces marqueurs. Les CEC ont été quantifiées par immunoséparation magnétique (IMS), technique mise au point en 1992 (Dignat-George 1992) et transférée dans notre laboratoire. La quantification des PEC a été réalisée par cytométrie en flux et par culture cellulaire. En culture, deux types de PEC sont décrits : les PEC précoces, dont l’origine est monocytaire et pour lesquels la culture est déjà standardisée, et les « Endothelial Colony Forming Cells » (ECFC), seules cellules présentant des caractéristiques de cellules endothéliales progénitrices et pouvant être proposées comme produit de thérapie cellulaire. Nous avons optimisé la quantification des ECFC en culture en étudiant l’effet de diverses matrices et de la densité d’ensemencement des cellules mononucléées issues du sang total sur l’obtention de ces cellules et leurs propriétés angiogènes. La dysfonction endothéliale a été décrite comme un élément central dans le développement de l’HTAP dont le diagnostic repose sur la mesure de la pression artérielle pulmonaire par cathétérisme cardiaque droit. En l’absence de marqueur biologique non invasif dans cette maladie, nous avons quantifié les CEC et les progéniteurs circulants dans deux études. Une étude réalisée chez des patients adultes a montré une augmentation spécifique des CEC dans l’HTAP et non dans l’hypertension pulmonaire thromboembolique chronique. Ainsi les CEC semblent être le reflet des lésions endothéliales pulmonaires et non de la sévérité clinique des patients. L’autre étude a montré l’intérêt de la quantification des CEC dans la prise en charge thérapeutique des enfants souffrant d’HTAP secondaire à une cardiopathie congénitale, dont les formes irréversibles présentaient des taux élevés de CEC. Nous avons ainsi défini un nouveau marqueur non invasif à utilité diagnostique et pronostique. Les PEC sont des cellules rares dans le sang circulant, difficiles à expandre, et dont les essais de mobilisation médullaire se sont révélés insuffisants. L’hypothèse récente d’une réserve vasculaire des progéniteurs endothéliaux nous a conduits à étudier l’effet d’un processus d’ischémie locale sur la mobilisation de ces cellules chez des volontaires sains. Deux groupes d'âge ont été inclus afin d'évaluer l'impact du vieillissement sur la méthode de mobilisation étudiée. Malgré un effet de cette ischémie sur la dilatation endothéliale cette méthode n’a pas permis de mobiliser significativement les PEC issus de la paroi endothéliale, quel que soit l'âge des sujets. A l’inverse, l’hypoxie a eu un effet délétère sur les capacités angiogènes des ECFC. / The endothelium plays a key role in the development and the homeostasis of vascular functions. It is also well involved in pathological situations like cardiovascular diseases. Thanks to the description of circulating endothelial markers, non invasive study of the endothelium is now possible. Our group was particularly interested in circulating endothelial cells (CECs), the level of which reflects an endothelial activation or lesion, and to circulating endothelial progenitors cells (EPCs), markers of endothelial repair. EPC description by Asahara in 1997 in adult blood, involved in new blood vessel formation by vasculogenesis, offered new perspectives, specially for cell therapy in ischemic diseases. This work consisted in the development of methods to study these markers in different contexts. First, we explored the interest of these markers in the physiopathology of pulmonary arterial hypertension (PAH). Then we evaluated endothelial progenitors mobilization from the vascular wall by a local ischemia process in healthy volunteers, in the perspective of an autologous cell therapy product development. One part of this project was the implementation and optimization of the methods to study CEC and EPC. CEC were quantified by magnetic immunoseparation. This technique was developped in 1992 by F. Dignat-George's group and transferred in our laboratory. EPC were quantified by flow cytometry and cell culture. Two types of EPC are described in culture: the early EPC, which originate from monocyte lineage and which culture is standardized, and the « Endothelial Colony Forming Cells » (ECFC), the only cells presenting endothelial progenitor cell properties and which use as a cell therapy product can be considered. ECFC quantification by culture was optimized by assessment of the impact of diverse matrices and seeding concentrations of mononuclear cells isolated from whole blood, on ECFC commitment and their angiogenic properties. Endothelial dysfunction was described as a central element in the development of PAH, which diagnosis is based on the use of right heart catheterization. Due to the lack of noninvasive marker for this disease, CEC and circulating progenitors were quantified in two studies. One of them realized in adult patients showed a specific increase of CEC in PAH and not in post-embolic PH. CEC would then reflect the presence of specific endothelial lesions and not the clinical state of the patients. The other study demonstrated the interest of CEC quantification in the therapeutic care of children with PAH secondary to congenital heart disease, for whom patients in irreversible state had a higher level of CEC. We then defined a new noninvasive biomarker.that can be used for the diagnosis and prognosis of PAH. EPC are rare events in whole blood, difficult to expand and for which, mobilization protocols revealed insufficient. The recent hypothesis of a vascular reservoir for endothelial progenitor led us to study the effect of a local ischemia procedure on the mobilization of these cells in healthy volunteers. Two age groups were included to assess the impact of aging on this procedure. Despite a significant endothelial dilation with the local ischemia, no EPC were mobilized, whatever the age group. Ischemia even altered ECFC angiogenic properties. Cellules endothéliales circulantes Progéniteurs endothéliaux circulants Hypertension artérielle pulmonaire Mobilisation Thérapie cellulaire Circulating endothelial cells Circulating endothelial progenitor cells Pulmonary arterial hypertension Mobilization Cell therapy 616.24
64	Auxiliary Cells for the Vascularization and Function of Endogenous and Transplanted Islets of Langerhans Grapensparr, Liza January 2017 (has links) Type 1 diabetes develops through the progressive destruction of the insulin-producing beta-cells. Regeneration or replacement of beta-cells is therefore needed to restore normal glucose homeostasis. Presently, normoglycemia can be achieved by the transplantation of whole pancreas or isolated islets of Langerhans. Islet transplantation can be performed through a simple laparoscopic procedure, but the long-term graft survival is low due to poor revascularization and early cell death. This thesis examined the possibility of using different auxiliary cells (Schwann cells, endothelial progenitor cells, and neural crest stem cells) to improve the engraftment and function of endogenous and transplanted islets. Co-transplantation of Schwann cells with islets improved islet graft function early after transplantation, and caused an increased islet mass at one month posttransplantation. However, the vascular densities of these grafts were decreased, which also related to an impaired graft function. Islet grafts containing endothelial progenitor cells had a superior vascular density, with functional chimeric blood vessels and substantially higher blood perfusion and oxygen tension than control transplants. By culturing and transplanting islets together with neural crest stem cells it was found that islets exposed to these cells had a higher beta-cell proliferation compared with control islets. At one month posttransplantation, the grafts with neural crest stem cells also had a superior vascular- and neural density. The potential of intracardially injected neural crest stem cells to home to the pancreas and ameliorate hyperglycemia in diabetic mice was investigated. During a three-week period after such cell treatment blood glucose concentrations decreased, but were not fully normalized. Neural crest stem cells were present in more than 10% of the pancreatic islets at two days postinjection, at which time the beta-cell proliferation was markedly increased when compared with islets of saline-treated diabetic animals. Three weeks later, a doubled beta-cell mass was observed in animals receiving neural crest stem cells. In summary, islets can easily be transplanted together with different auxiliary cells. Some of these cells provide the possibility of improving vascular- and neural engraftment, as well as beta-cell growth and survival. Systemic administration of neural crest stem cells holds the potential of regenerating the endogenous beta-cells. Islets of Langerhans beta cells diabetes transplantation vascularization Schwann cells endothelial progenitor cells neural crest stem cells Medical and Health Sciences Medicin och hälsovetenskap
65	Efeito do treinamento físico aeróbio sobre as células progenitoras endoteliais derivadas da medula óssea em ratos espontaneamente hipertensos / EFFECT OF AEROBIC EXERCISE TRAINING ON THE ENDOTHELIAL PROGENITOR CELLS DERIVED FROM BONE MARROW OF SPONTANEOUSLY HIPERTENSIVE RATS Tiago Fernandes 13 January 2011 (has links) O treinamento físico aeróbio (TF) tem sido utilizado como um importante tratamento não farmacológico da hipertensão arterial (HA), uma vez que ele corrige a rarefação microvascular e reduz a pressão arterial; entretanto, os mecanismos envolvidos são pouco conhecidos. Investigamos se o número e a capacidade funcional das células progenitoras endoteliais (CPE) derivadas da medula óssea, sabidamente diminuídas na HA, melhoram pós TF, potencialmente contribuindo para a neovascularização e regressão da doença. O efeito do TF sobre a pressão arterial, freqüência cardíaca, tolerância ao esforço, consumo de oxigênio (VO2), morfologia e bioquímica da musculatura esquelética foram estudados em ratos espontaneamente hipertensos (SHR, n=28) e Wistar Kyoto (WKY, n=28) com 12 semanas de vida e divididos em 4 grupos: SHR, SHR treinado (SHR-T), WKY e WKY Treinado (WKY-T). O TF promoveu redução da pressão arterial em SHR e bradicardia de repouso acompanhado por um aumento da atividade da citrato sintase muscular, tolerância ao esforço e VO2 nos grupos de animais treinados. Concomitantemente, o TF corrigiu a alteração na distribuição dos tipos de fibra muscular e a rarefação capilar em SHR, mediado em grande parte por um aumento nos níveis protéicos periféricos de VEGF, VEGFR2, eNOS e a desativação das vias de apoptose. O número de CPE (CD34+/Flk1+) no sangue periférico (SP) analisadas por FACS foram aumentadas 115% no grupo WKY-T em comparação ao grupo controle. Em contraste, o grupo SHR reduziu 39% o número de CPE, entretanto o TF normalizou os níveis no grupo SHR-T. Resultado similar foi encontrado na quantificação das CPE na medula óssea (MO) avaliadas por células duplamente positivas para Di-acLDL e Lectina-FITC. A senescência das CPE na MO foi aumentada 126% no grupo SHR vs. WKY, e o TF foi eficiente em reduzir 72% este processo no grupo SHR-T. Além disso, os ensaios funcionais avaliados pelo número de unidades formadoras de colônia mostraram um aumento de 40% na MO e 70% no SP de WKY-T vs. WKY. Em contraste, a HA reduziu 35% na MO e 45% no SP este número de colônias vs. WKY, porém o TF corrigiu esta disfunção das CPE na HA. De fato, o TF recuperou a falha na formação de tubos como capilares sobre matrigel na HA. Os resultados demonstram que o remodelamento vascular acompanhado pela redução da pressão arterial induzido pelo TF na HA ocorreram em sinergia com a recuperação do número e das propriedades funcionais das CPE da MO e SP, bem como de seus fatores mobilizadores e angiogênicos. Estes resultados sugerem que o TF pode participar do reparo vascular por meio da ação das CPE, promovendo a revascularização periférica. Assim, há perspectiva do potencial terapêutico das CPE no tratamento da HA pós TF. / Aerobic exercise training (ET) has been established as an important non-pharmacological treatment for hypertension, since it counteracts microvascular rarefaction and decreased blood pressure; however, underlying mechanisms remain to be further determined. We investigated for the first time if the endothelial progenitor cells (EPC) number and the functional capacity, impaired in hypertension; are improved after ET potentially contributing to neovascularization and disease regression. The effect of ET on blood pressure, heart rate, exercise tolerance, peak VO2 and skeletal muscle morphology and biochemistry was studied in twelve-week old male Spontaneously Hypertensive Rats (SHR, n=28) and Wistar Kyoto (WKY, n=28) assigned into 4 groups: SHR, trained SHR (SHR-T), WKY and trained WKY (WKY-T). The ET promoted a decrease in blood pressure in SHR and resting bradycardia, an increase in exercise tolerance, peak VO2 and citrate synthase activity in trained groups. In parallel, the ET repaired the skeletal muscle fiber type shift and capillary rarefaction in SHR, at least partly, by enhancing protein levels of VEGF, VEGFR-2, eNOS and deactivated apoptosis pathway. Numbers of EPC (CD34+/Flk1+) in the peripheral blood (PB) quantified by FACS analysis were enhanced 115% in WKY-T of control levels. In contrast, the SHR group decreased 39%, but ET normalized in the SHR-T. Similar results were found in the EPC quantification of the bone marrow (BM) by double positive cells to Di-acLDL and Lectin-FITC. BM-EPC senescence was increased 126% in SHR and this process was reduced 72% by ET. Moreover, EPC functional assay by colony-forming units showed an increase of 40% to BM and 70% to PB in WKY-T of control levels. In contrast, the SHR group reduced 35% to BM and 45% to PB; however the ET repaired EPC dysfunction in hypertension. In fact, the ET corrected failure in the capillary-like tube formation on matrigel. The present findings reveal that the vascular remodeling accompanied by reduction of blood pressure induced by ET occurs in synergy with the restoration of the BM and PB- EPC number and functional properties, as well as of their mobilizing and angiogenic factors. These results suggest that the ET can participate in the vascular repair by means of the EPC, promoting the peripheral revascularization in hypertension. In this way, there is perspective of therapeutic potential of the EPC in treatment of hypertension after ET. angiogênese células progenitoras endoteliais hipertensão arterial músculo esquelético treinamento físico aeróbio aerobic exercise training angiogenesis endothelial progenitor cells hypertension skeletal muscle
66	Cellules endothéliales circulantes et progéniteurs endothéliaux circulants : biomarqueurs de l'angiogénèse tumorale et des traitements anti-angiogéniques et anti-vasculaires / Circulating endothelial cells and endothelial progenition cells : biomarkers of angiogenesis and of anti-angiogenic and antivascular treatments Taylor-Marchetti, Melissa 19 December 2012 (has links) Malgré l’efficacité thérapeutique avérée des agents anti-angiogéniques et des agents anti-vasculaires (VDA), le mécanisme d’action précis des stratégies ciblant les vaisseaux sanguins tumoraux, les raisons de leur efficacité ainsi que les mécanismes de résistance à ces drogues sont encore mal compris. Il est rapidement apparu essentiel d’identifier des biomarqueurs capables de refléter l’angiogénèse tumorale ou les effets sur la vascularisation tumorale de ces traitements. Compte tenu de leur importance dans des pathologies vasculaires, les cellules endothéliales matures circulantes (CEC) et les progéniteurs endothéliaux circulants (CEP) ont d’emblée été pressenties comme des candidats intéressants pour être des biomarqueurs de réponse aux stratégies ciblant la vascularisation tumorale. Nous avons exploré l’intérêt de ces cellules en tant que biomarqueurs de l’angiogénèse dans des tumeurs pédiatriques, et leur rôle en tant que biomarqueurs de traitement par des agents anti-angiogéniques chez des sujets adultes atteints de cancer. Ces travaux ont mis en lumière l’intérêt des CEP et ont été à la source d’un travail plus « mécanistique » où nous avons étudié dans différents modèles murins le rôle des CEC et CEP dans le mécanisme d’action des agents anti-vasculaires et plus particulièrement le rôle fonctionnel des CEP dans la résistance à ces molécules. Par des stratégies d’association d’agents anti-angiogéniques aux VDA destinées à inhiber les CEP, nous montrons l’augmentation de l’activité anti-tumorale des VDA et offrons un rationnel mécanistique pour optimiser les schémas thérapeutiques actuels des traitements anti-vasculaires. Nos données apportent des arguments en faveur du rôle potentiel de ces cellules en tant que biomarqueurs de l’angiogénèse, des traitements anti-angiogéniques et de la résistance aux traitements anti-vasculaires. / Despite their therapeutic impact and clinical benefit, the mecanisms of action of anti-angiogenic agents and vascular disrupting agents (VDA), the reasons for their efficacy as well as the mechanisms underlying resistance to these drugs are not fully understood. Thus, identifying surrogate biomarkers of tumor angiogenesis and of the effects of these new therapeutic agents targeting tumor blood vessels has become a crucial objective. Because of their importance in vascular diseases, mature circulating endothelial cells (CEC) and circulating endothelial progenitor cells (CEP) were suggested to be potential candidate biomarkers of disease response and relapse to vascular targeting strategies. We investigated the role of these cells as biomarkers of tumor angiogenesis in pediatric solid tumors, as well as biomarkers of response to anti-angiogenic therapies in adult cancer patients. By revealing the particularly important role of CEP, these initial studies led to a more “mechanistic” study in which the cellular and molecular effects of a VDA were evaluated with regard to CEC and CEP in different mouse models; in particular, the “catalytic” role of CEP was explored as a mechanism of resistance to VDA. By combining anti-angiogenic agents aimed to inhibit CEP mobilized by the VDA, we demonstrate an increase in the anti-tumor activity of the VDA and offer a mechanistic rational to optimize VDA-based therapeutic strategies. Our data support the role of CEC and CEP as biomarkers of angiogenesis, of anti-angiogenic strategies and of resistance to vascular-disrupting therapies. Cellules endothéliales circulantes Progéniteurs endothéliaux circulants Angiogénèse Traitements anti-angiogéniques Traitements anti-vasculaires Circulating endothelial cells Circulating endothelial progenitor cells Angiogenesis Anti-angiogenic therapies Vascular-disrupting therapies
67	Modulation de la néovascularisation post-ischémique en présence de facteurs de risque cardiovasculaire Turgeon, Julie 02 1900 (has links) L’athérosclérose est la principale cause d’infarctus du myocarde, de mort subite d’origine cardiaque, d’accidents vasculaires cérébraux et d’ischémie des membres inférieurs. Celle-ci cause près de la moitié des décès dans les pays industrialisés. Lorsque les obstructions artérielles athérosclérotiques sont tellement importantes que les techniques de revascularisation directe ne peuvent être effectuées avec succès, la sévérité de l’ischémie tissulaire résiduelle dépendra de l’habilité de l’organisme à développer spontanément de nouveaux vaisseaux sanguins (néovascularisation). La néovascularisation postnatale est le résultat de deux phénomènes : la formation de nouveaux vaisseaux à partir de la vasculature existante (angiogenèse) et la formation de vaisseaux à partir de cellules souches progénitrices (vasculogenèse). Notre laboratoire a démontré que plusieurs facteurs de risque associés aux maladies cardiovasculaires (tabagisme, vieillissement, hypercholestérolémie) diminuaient également la réponse angiogénique suite à une ischémie. Cependant, les mécanismes précis impliqués dans cette physiopathologie sont encore inconnus. Un point commun à tous ces facteurs de risque cardiovasculaire est l’augmentation du stress oxydant. Ainsi, le présent ouvrage visait à élucider l’influence de différents facteurs de risque cardiovasculaire et du stress oxydant sur la néovascularisation. Nos résultats démontrent que l’exposition à la fumée de cigarette et le vieillissement sont associés à une diminution de la néovascularisation en réponse à l’ischémie, et que ceci est au moins en partie causé par une augmentation du stress oxydant. De plus, nous démontrons que les acides gras dérivés de la diète peuvent affecter la réponse à l’ischémie tissulaire. La première étude du projet de recherche visait à évaluer l’impact de l’exposition à la fumée de cigarette sur la néovascularisation post-ischémique, et l’effet d’une thérapie antioxydante. L’exposition à la fumée de cigarette a été associée à une réduction significative de la récupération du flot sanguin et de la densité des vaisseaux dans les muscles ischémiques. Cependant, une récupération complète de la néovascularisation a été démontrée chez les souris exposées à la fumée de cigarette et traitées au probucol ou aux vitamines antioxydantes. Nous avons démontré qu’une thérapie antioxydante administrée aux souris exposées à la fumée de cigarette était associée à une réduction significative des niveaux de stress oxydant dans le plasma et dans les muscles ischémiques. De plus, les cellules endothéliales progénitrices (EPCs) exposées à de l’extrait de fumée de cigarette in vitro présentent une diminution significative de leur activité angiogénique (migration, adhésion et incorporation dans les tissus ischémiques) qui a été complètement récupérée par le probucol et les vitamines antioxydantes. La deuxième étude avait pour but d’investiguer le rôle potentiel de la NADPH oxydase (Nox2) pour la modulation de la néovascularisation post-ischémique dans le contexte du vieillissement. Nous avons trouvé que l’expression de la Nox2 est augmentée par le vieillissement dans les muscles ischémiques des souris contrôles. Ceci est associé à une réduction significative de la récupération du flot sanguin après l’ischémie chez les vieilles souris contrôles comparées aux jeunes. Nous avons aussi démontré que la densité des capillaires et des artérioles est significativement réduite dans les muscles ischémiques des animaux vieillissants alors que les niveaux de stress oxydant sont augmentés. La déficience en Nox2 réduit les niveaux de stress oxydant dans les tissus ischémiques et améliore la récupération du flot sanguin et la densité vasculaire chez les animaux vieillissants. Nous avons aussi démontré que l’activité fonctionnelle des EPCs (migration et adhésion à des cellules endothéliales matures) est significativement diminuée chez les souris vieillissantes comparée aux jeunes. Cependant, la déficience en Nox2 est associée à une récupération de l’activité fonctionnelle des EPCs chez les animaux vieillissants. Nous avons également démontré une augmentation pathologique du stress oxydant dans les EPCs isolées d’animaux vieillissants. Cette augmentation de stress oxydant dans les EPCs n’est pas présente chez les animaux déficients en Nox2. La troisième étude du projet de recherche a investigué l’effet des acides gras dérivés de la diète sur la néovascularisation postnatale. Pour ce faire, les souris ont reçu une diète comprenant 20% d’huile de maïs (riche en oméga-6) ou 20% d’huile de poisson (riche en oméga-3). Nos résultats démontrent qu’une diète riche en oméga-3 améliore la néovascularisation post-ischémique au niveau macro-vasculaire, micro-vasculaire et clinique comparée à une diète riche en oméga-6. Cette augmentation de la néovascularisation postnatale est associée à une réduction du ratio cholestérol total/cholestérol HDL dans le sérum et à une amélioration de la voie VEGF/NO dans les tissus ischémiques. De plus, une diète riche en acides gras oméga-3 est associée à une augmentation du nombre d’EPCs au niveau central (moelle osseuse) et périphérique (rate). Nous démontrons aussi que l’activité fonctionnelle des EPCs (migration et incorporation dans des tubules de cellules endothéliales matures) est améliorée et que le niveau de stress oxydant dans les EPCs est réduit par la diète riche en oméga-3. En conclusion, nos études ont permis de déterminer l’impact de différents facteurs de risque cardiovasculaire (tabagisme et vieillissement) et des acides gras dérivés de la diète (oméga-3) sur la néovascularisation post-ischémique. Nous avons aussi identifié plusieurs mécanismes qui sont impliqués dans cette physiopathologie. Globalement, nos études devraient contribuer à mieux comprendre l’effet du tabagisme, du vieillissement, des oméga-3, et du stress oxydant sur l’évolution des maladies vasculaires ischémiques. / Atherosclerosis is the main cause of myocardial infarction, sudden cardiac death, stroke and lower limb ischemia. It is responsible for nearly half of all deaths in industrialized countries. When atherosclerotic arterial obstructions are so important that direct revascularization techniques cannot be successfully performed, the severity of residual tissue ischemia depends on the ability of the organism to spontaneously develop new blood vessels (neovascularization). Postnatal neovascularization is the result of two phenomena: the formation of new bloods vessels from the existing vasculature (angiogenesis) and vessel formation from progenitor cells (vasculogenesis). Our laboratory has demonstrated that several cardiovascular risk factors (smoking, aging, and hypercholesterolemia) also impair the angiogenic response after ischemia. However, the precise mechanisms involved in that pathophysiology are still unknown. A common feature of all the cardiovascular risk factors is increased oxidative stress. Therefore, the purpose of the present work was to elucidate the influence of cardiovascular risk factors and oxidative stress on neovascularization. Our results demonstrate that exposure to cigarette smoke and aging are associated with impaired neovascularization in response to ischemia, and that this is at least in part due to increased oxidative stress. In addition, we demonstrate that fatty acids derived from the diet can modulate the response to tissue ischemia. The first study of the research project evaluated the effect of cigarette smoke exposure on neovascularization in response to ischemia, and the effect of an antioxidant therapy. Exposure to cigarette smoke was associated with a significant reduction in the recovery of blood flow perfusion and vessel density in ischemic muscles. However, a complete recovery of neovascularization was demonstrated in mice exposed to cigarette smoke that were treated with probucol or antioxidant vitamins. We found that antioxidant therapy in mice exposed to cigarette smoke was associated with a significant reduction of oxidative stress levels in the plasma and in ischemic muscles. In addition, endothelial progenitor cells (EPCs) exposed to cigarette smoke extracts in vitro showed a significant decrease in their angiogenic activities (migration, adhesion and homing into ischemic tissues) that was completely rescued by probucol and antioxidants vitamins. The goal of the second study was to investigate the potential role of NADPH oxidase (Nox2) in the modulation of ischemia-induced neovascularization in the context of aging. We found that the expression of Nox2 is increased by aging in ischemic muscles of control mice. This is associated with a significant reduction of blood flow recovery after ischemia in older compared to young control mice. We also demonstrated that the density of capillaries and arterioles is significantly reduced in ischemic muscles of older animals, whereas oxidative stress levels are increased. Nox-2 deficiency reduces oxidative stress levels in ischemic tissues and improves blood flow recovery and vascular densities in older animals. We also demonstrated that the functional activities of EPCs (migration and adhesion to mature endothelial cells) were significantly reduced in older compared to young mice. However, Nox2 deficiency is associated with preserved EPCs functional activities in older animals. We also demonstrated an age-dependent pathological increase of oxidative stress in EPCs that is not found in Nox2-deficient animals. The third study of the research project investigated the effect of fatty acids derived from the diet on postnatal neovascularization. To this end, mice received a diet containing either 20% corn oil (rich in omega-6) or 20% fish oil (rich in omega-3). Our results demonstrate that an omega-3 rich diet increases neovascularization in response to ischemia at the macrovascular, microvascular and clinical level compared to an omega-6 rich diet. This increased postnatal neovascularization is associated with decreased total cholesterol/HDL cholesterol ratio in the serum and improved VEGF/NO pathway in ischemic tissues. In addition, the omega-3 rich diet is associated with a significant increase of central (bone marrow) and peripheral (spleen) EPCs. We also show that the functional activities of EPCs (migration and incorporation into tubules) are improved and oxidative stress level in EPCs is reduced by the omega-3 rich diet. In conclusion, our studies have clarified the impact of cardiovascular risk factors (smoking and aging) and fatty acids derived from the diet (omega-3) on ischemia-induced neovascularization. We have also identified several mechanisms involved in that physiopathology. Globally, our studies should contribute to a better understanding of the effects of cigarette smoking, aging and omega-3 on the evolution of ischemic vascular diseases. Néovascularisation Cellules endothéliales progénitrices Stress oxydant Fumée de cigarette Antioxydants Vieillissement Nox2 Oméga-3 Endothelial progenitor cells Oxidative stress Cigarette smoke Antioxidants Aging Omega-3 Neovascularization
68	Caractérisation des composants de la fonction endothéliale au cours du développement normal et pathologique.Implications sur la programmation précoce du risque cardio-vasculaire. Ligi, Isabelle 26 October 2012 (has links) Le faible poids de naissance (FPN) est un facteur de risque indépendant reconnu de maladies cardiovasculaires et d'hypertension à l'âge adulte, mais les mécanismes physiopathologiques sous-tendant cette programmation précoce ne sont que partiellement connus. Chez l'adulte, la dysfonction endothéliale et l'altération tant quantitative que qualitative de la cellule progénitrice endothéliale (PEC) sont un marqueur précoce et sensible de risque cardiovasculaire. Des altérations vasculaires (raréfaction microvasculaire, anomalies de la structure vasculaire) et une dysfonction endothéliale (altération de la vasodilatation endothélium-dépendante) sont retrouvées chez le nouveau-né de FPN. Cependant, l'hypothèse d'une altération de la cellule progénitrice endothéliale chez le nouveau-né de FPN reste à être démontrée. Au cours de notre travail, nous avons montré une altération des capacités clonogéniques et angiogéniques des PECs des nouveau-nés de FPN, tant in vitro qu'in vivo. Cette dysfonction pourrait être liée à un déséquilibre antiangiogénique d'origine environnementale conduisant à un profil antiangiogénique d'expression génique de la PEC. Ainsi, nous avons pu montrer qu'une surexpression du gène de la thrombospondine-1 pouvait en partie expliquer la réduction du potentiel angiogénique des PECs du nouveau-né de FPN via une inhibition de la transduction du signal de la voie Akt/PI3K. D'autre part, une diminution des concentrations circulantes de VEGF, dont le rôle critique dans la néovascularisation est bien connu, peut-être liée à une augmentation de son inhibiteur circulant, sFlt1 (récepteur soluble au VEGF), a été retrouvée chez le nouveau-né de FPN. / Low birth weight (LBW) is a risk factor for cardiovascular disease in adulthood. However, the mechanisms explaining cardiovascular programming are incompletely understood. In adults, a reduced level of circulating endothelial progenitor cells (EPCs) is correlated with cardiovascular disease and independently predicts atherosclerosis disease progression. Recent studies demonstrated an impairment of vascular structure (microvascular rarefaction) and function (impaired vasodilation) in LBW neonates. Thus, we hypothesized that LBW infants display an EPCs impairment.We demonstrated an alteration of clonogenic and angiogenic capacities of EPCs fropm LBW infants, both in vitro and in vivo. This could be due to a fetal antiangiogenic imbalance and a subsequent antiangiogenic gene expression profile in EPCs of LBW infants. Through an inhibition of Akt/PI3K signaling, an upregulation of thrombospondin-1 expression could partially explain such observations. Moreover, VEGF pathway, the main angiogenesis regulator, could be involved as we found reduced circulating levels of VEGF, probably due to an increase of its main inhibitor, sFlt1 (soluble receptor of VEGF 1) in LBW infants. The addition of VEGF reversed the in vitro negative effect of LBW infants' sera on EPCs angiogenic function.This investigation opens the way for more studies of EPCs function in LBW subjects. Indeed, many questions emerged about the impact of such dysfunction on the future health of LBW infants. Faible poids de naissance Cellule progénitrice endothéliale Dysfonction endothéliale Angiogénèse Déséquilibre anti-angiogénique Low birth weight Hypertension programming Endothelial progenitor cells Endothelial dysfunction Angiogenesis Anti-angiogenic imbalance
69	Desenvolvimento de um substituto nanoestruturado a ser utilizado em associação com células-tronco para a terapia vascular em doença arterial periférica Braghirolli, Daikelly Iglesias January 2017 (has links) Atualmente, existe uma grande necessidade médica por enxertos vasculares de pequeno calibre (< 6 mm), que possam ser utilizados em cirurgias de reconstrução vascular. Nesse trabalho, dois tipos de biomateriais vasculares foram desenvolvidos pela técnica de electrospinning: biomateriais de policaprolactona (PCL) e biomateriais de poli(carbonato de trimetileno – co – ácido lático) (PTMCLLA). Os biomateriais de PCL foram funcionalizados com heparina e com VEGF (PCL/Hep/VEGF). Os biomateriais de PTMCLLA foram desenvolvidos a partir de três razões de carbonato de trimetileno/ ácido lático: 20/80, 30/70 e 40/60. Os biomateriais de PCL apresentaram taxa de degradação lenta e alta elasticidade. A funcionalização dos biomateriais preveniu a coagulação do sangue e também favoreceu o crescimento de células-tronco mesenquimais (CTMs) e de células progenitoras endoteliais (CPEs) nessas estruturas. A análise de PCR demonstrou que o VEGF adsorvido aos biomateriais não foi suficiente para diferenciar as CTMs em células endoteliais. O cultivo das CPEs sobre os biomateriais aumentou a expressão de VE-caderina e a presença de VEGF nas estruturas manteve o nível de expressão de CD31 e CD34 nessas células. Após essas análises, os biomateriais de PCL/Hep/VEGF foram fabricados em formato tubular. As CPEs foram semeadas no lúmen do biomaterial, através de biorreatores de parede rotatória (BPR), e mantidas em cultivo, por biorreatores de perfusão (BP). O BPR favoreceu a distribuição homogênea das CPEs na parede luminal dos biomateriais enquanto que o BP estimulou seu crescimento e otimizou seu metabolismo energético. Os biomateriais produzidos a partir dos copolímeros de PTMCLLA 30/70 e 40/60 exibiram uma alta flexibilidade. Porém, os biomateriais de PTMCLLA 40/60 tiveram um grande enrugamento. Os biomateriais de PTMCLLA 30/70 suportaram a adesão e o crescimento de CTMs, de CPEs e de células musculares lisas. Os resultados obtidos no presente estudo demonstram que biomateriais de PCL/Hep/VEGF apresentam características físico-químicas compatíveis para o uso vascular. Ainda, previnem a formação de trombos em sua superfície e propiciam o desenvolvimento da camada endotelial em seu lúmen. Os biomateriais de PTMCLLA 30/70 exibem alta flexibilidade e suportam o desenvolvimento de células vasculares e de células-tronco mesenquimais. De acordo com esses resultados, é possível concluir que biomateriais de PCL/Hep/VEGF e de PTMCLLA 30/70 são candidatos promissores para aplicação como enxertos vasculares. / Currently, there is a great medical need for small caliber vascular grafts (<6 mm), which can be used in vascular replacement surgeries. In this work, two types of vascular biomaterials were developed by the electrospinning technique: biomaterials of polycaprolactone (PCL) and biomaterials of poly(trimethylene carbonate-co-L-lactide) (PTMCLLA). PCL biomaterials were functionalized with heparin and VEGF (PCL / Hep/VEGF). The PTMCLLA biomaterials were developed from three ratios of trimethylene carbonate/lactide: 20/80, 30/70 and 40/60. The PCL biomaterials presented a slow degradation rate and high elasticity. The functionalization of the biomaterials prevented the blood from clotting and also favored the growth of mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs) in these structures. PCR analysis demonstrated that VEGF adsorbed by the biomaterials was not sufficient to differentiate the MSCs into endothelial cells. The cultivation of CPEs on the biomaterials increased their expression of VE-cadherin and the presence of VEGF in the structures maintained the cell expression of CD34 and CD31. After these analyzes, the PCL/Hep/VEGF biomaterials were produced in a tubular geometrical form. The CPEs were seeded into their lumen by rotating bioreactors (RB) and maintained in culture by perfusion bioreactors (PB). The RB favored the homogeneous distribution of the CPEs in the luminal wall of the biomaterials while the BP stimulated their growth and optimized their energetic metabolism. The biomaterials produced from the PTMCLLA 30/70 and 40/60 copolymers exhibited high flexibility. However, the PTMCLLA 40/60 biomaterials exhibited substantial wrinkling. The PTMCLLA 30/70 biomaterials supported the adhesion and growth of MSCs, CPEs and smooth muscle cells. This study has demonstrated that PCL/Hep/VEGF biomaterials have physicochemical characteristics compatible with vascular use. Furthermore, they prevent thrombus formation on their surfaces and promote the development of the endothelial layer in their lumen. Biomaterials of PTMCLLA 30/70 exhibit high flexibility and support the development of vascular and mesenchymal stem cells. According to these results, it can be concluded that PCL/Hep/VEGF and PTMCLLA 30/70 biomaterials are promising candidates for use as vascular grafts. Células-tronco Materiais biocompatíveis Doença arterial periférica Engenharia tecidual Vascular tissue engineering Poly(caprolactone) Endothelial progenitor cells Vascular biomaterials
70	Analyse organoprotektiver Effekte der renalen Denervation zur Behandlung therapierefraktärer arterieller Hypertonie / Analysis of organoprotective effects of renal denervation as a treatment of therapy-resistant hypertension Bonss, Martina Rita Monika 30 April 2019 (has links) No description available. 610 renale Denervation organoprotektive Effekte endotheliale Progenitorzellen (EPCs) sympathische Überaktivität therapy-resistant hypertension renal denervation organoprotective effects endothelial progenitor cells (EPCs) sympathetic overactivity Medizin (PPN619874732)

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