Expansion ex vivo des cellules CD34+ du sang adulte: étude du microenvironnement et caractérisation des cellules générées en condition d’hypoxie

Les transplanteurs ont actuellement trois options lorsqu’ils doivent choisir une source de cellules pour la greffe de cellules souches hématopoïétiques soit le sang de cordon, la moelle osseuse ou le sang périphérique mobilisé. Les cellules souches hématopoïétiques retrouvées dans le sang des adultes sains pourraient toutefois être une autre option intéressante pour la transplantation. Les résultats de cette présente étude, récemment publié dans la revue Cytotherapy, montrent le potentiel des cellules CD34+ trappées dans les chambres de leucoréduction à générer les différentes lignées cellulaires retrouvées dans le sang. Un système de culture in vitro en milieu sans sérum et en condition hypoxique a été mis a point. La différenciation des cellules dans l’hématopoïèse durant la culture a été caractérisée par analyse multiparamétrique du phénotype avec SPADE. L’expansion a généré une grande hétérogénéité populationnelle mais principalement des progéniteurs engagés vers l’érythropoïèse et la mégacaryopoïèse.

Survival, differentiation, and neuroprotective mechanisms of human stem cells complexed with neurotrophin-3-releasing pharmacologically active microcarriers in an ex vivo model of Parkinson's disease

International audience

Experimental study of temperatures during drilling of ex-vivo bovine bones

The thermal bone necrosis induced during a drilling process is a frequent and potential phenomenon, which contributes to post-operative problems. The frictional heat generated from the contact between the drill bit and the hole wall is unavoidable. However, understanding advanced techniques for acquiring reliable thermal data on bone drilling is important to ensure the quality of the drilled hole. The purpose of this study is to present two different experimental methods to analyse the drilling conditions that generate the lower temperatures, avoiding the occurrence of thermal bone necrosis. Ex-vivo bovine bones were used to simulate the drilling process considering the effect of drill bit diameter, drill speed and feed-rate. Different experiments were performed to assess the repeatability of the tests. The results identified the drill bit diameter as the most critical parameter for inducing higher temperatures in bone drilling.

Experimental study of temperatures during drilling of ex-vivo bovine bones

he thermal bone necrosis induced during a drilling process is a frequent and potential phenomenon, which contributes to post-operative problems. The frictional heat generated from the contact between the drill bit and the hole wall is unavoidable. However, understanding advanced techniques for acquiring reliable thermal data on bone drilling is important to ensure the quality of the drilled hole.

Thermal analysis in the drilling of solid rigid foam materials and ex-vivo bovine bones

Bone is a dynamic, highly vascularized tissue with a unique capacity to heal and regenerate without scarring. However, drilling remains a concern in several clinical procedures due to thermal damage of the bone and surrounding tissue. The success of this surgeries is dependent of many factors and also in temperature generation during the drilling bone. When an excessive heat is produced during the drilling, thermal necrosis can occur and the bone suffers injuries. Studies have shown that the increased temperature is directly related with the drilling parameters, particularly, the drill speed, feed-rate, applied force, the depth of cut, the geometry of the drill bit, the use or not of a cooling system and also the type of bone.

Phosphate uptake and phosphate transporter expression during immune cell proliferation in in vitro and ex vivo leukemic murine models

Dissertação de Mestrado, Ciências Biomédicas, Departamento de Medicina e Ciências Biomédicas, Universidade do Algarve, 2015

Trapianto di polmone ed ex-vivo. Esperienza iniziale in due centri trapianti di polmone

Background Il trapianto polmonare rappresenta l'unica soluzione percorribile per l'insufficienza respiratoria end-stage. La principale limitante ad un suo impiego è rappresentata dalla scarsità di polmoni idonei. In questo contesto si colloca il progetto di ricondizionamento ex-vivo. L'implementazione risulta possibile attraverso il ricondizionamento di organi cosiddetti “marginali” o giudicati inizialmente non idonei al trapianto e da donatori a cuore fermo (Donor after Cardiac Death – DCD). Scopo Lo scopo principale del progetto è quello di analizzare i risultati a breve e medio termine del trapianto polmonare effettuato impiegando polmoni sottoposti a procedura di ricondizionamento ex-vivo in due centri trapianti di polmone a basso volume. Materiali e Metodi I dati sono stati raccolti retrospettivamente (da Giugno 2013 per quanto riguarda l’ISMETT e dal 2014 quelli dell’ Ospedale S. Orsola-Malpighi) e in maniera prospettica dal 2019. Risultati Sommando i dati relativi ad entrambi i centri, dal 2013 sono stati eseguiti un totale di 26 procedure di riperfusione. Sei volte i polmoni sono stati giudicati idonei al trapianto al termine con 5 trapianti doppi e un trapianto singolo sinistro. I risultati in termine di sopravvivenza a medio termine sono risultati sovrapponibili a quelli disponibili in letteratura, tuttavia è stato registrato un alto tasso di PGD (Primary Graft Disfunction) di grado 3, da imputare alla patologia di base del ricevente (ipertensione polmonare), che per protocollo di istituto rimane con supporto cardio-respiratorio (ECMO) dopo il trapianto. Conclusioni L’EVLP si conferma in centri di piccolo e medio volume un metodo sicuro ed efficace per implementare in numero di polmoni idonei al trapianto.

Analisi delle modalità di termoregolazione nei sistemi di perfusione ex-vivo degli organi addominali - reni e fegato - destinati al trapianto.

La perfusione ex-vivo, ossia dopo il prelievo e prima del trapianto, degli organi si afferma come una delle possibili strategie per superare il divario esistente tra il numero dei pazienti in lista d’attesa e il numero degli organi disponibili e idonei al trapianto. Questo divario ha portato alla necessità di includere tra i donatori anche quelli marginali (anziani, con comorbidità, con cause di morte come l’arresto cardiaco e tempi di ischemia), fino ad oggi considerati non trapiantabili. L’utilizzo di questi organi ha messo in evidenza alcuni limiti di quella che, ad oggi, è stata considerata la tecnica di riferimento per la preservazione ex-vivo degli organi: la conservazione statica ipotermica che risulta, infatti, efficace per gli organi ottimali, mentre per quelli più compromessi, sembra accentuare di più il danno d’organo e incrementare il rischio di fallimento o di complicazioni. Si sono, perciò, affermate tecniche di conservazione dinamica per poter conservare gli organi in un ambiente simil-fisiologico, limitando i tempi di ischemia, valutandone la funzionalità ed eventualmente applicando dei trattamenti terapeutici. I diversi protocolli di perfusione sono stati implementati in numerosi sistemi per l’esecuzione dei trattamenti di perfusione ex-vivo. Essi differiscono principalmentente per la modalità termica eseguita: ipotermia (4-12°C), midtermia (13-24°C), subnormotermia (25-35°C), normotermia (35-37°C) o modalità combinate: tanto più la temperatura si avvicina a quella del corpo, tanto più occorre ricreare un ambiente fisiologico per l’organo. L’analisi delle unità termiche costituenti i sistemi di perfusione dei reni e fegati disponibili ha messo in evidenza i principali limiti e vantaggi di ogni soluzione adottata. Risulta evidente che una gestione ideale della termoregolazione constente di coprire i più vasti intervalli di temperatura, di combinare le diverse modalità, senza complicazioni esecutive e con limitati interventi da parte dell’operatore.

Targeted Therapy Possibilities for Metastatic Melanoma

The incidence of malignant melanoma of the skin has been steadily rising worldwide during the past decades. Most early detected primary tumors can be removed surgically and the prognosis is good. However, at the same time there still is no permanent cure for metastatic melanoma and its prognosis is poor, although lately new effective drugs have emerged. In this thesis, four different approaches of experimental therapy for metastatic melanoma were studied. Endogenous cis-Urocanic acid (UCA) is found in every individual’s skin, where exposure to UV light from the sun generates it from its inactive trans conformation. Cis- UCA was found to destroy malignant melanoma cells in culture under an acidified pH and sufficient concentration through caspase-3 mediated apoptosis. Furthermore, cis-UCA is able to considerably diminish the growth rate in human melanoma tumors on living SCID mice. Using replication-competent Semliki Forest viruses, human melanoma tumors grown in SCID mice were dramatically shrunken as the fulminant production of viruses in melanoma cells leads them to apoptosis within 72 hours. Small oligopeptides attaching to melanoma cells were identified using in vivo phage display. The melanoma-specific peptides found were further tested in vitro on adenoviruses. Ultimately, the adenoviral retargeting using the peptides was tested in vivo. One peptide homed to human transferring receptor upregulated on melanoma cells. In order to kill the malignant melanoma cells with the retargeted adenoviruses, the viruses should carry genetic material producing apoptotic proteins in the cancer tissue. TIMP-3 has been identified as a good candidate for such a protein, as it inhibits malignant cell adhesion as well as promotes apoptosis through a caspase-8 pathway. It is further shown here that adenovirally delivered TIMP-3 is even more potent, as it could kill non-adherent cancer cells, lacking the fully functional death receptor signalling pathway. Adenovirally delivered TIMP-2 also showed marked antitumor effects in human malignant melanoma xenografts on SCID mice both in ex vivo and systemic delivery.

Nonspecific blockade of vascular free radical signals by methylated arginine analogues

Methylated arginine analogues are often used as probes of the effect of nitric oxide; however, their specificity is unclear and seems to be frequently overestimated. This study analyzed the effects of NG-methyl-L-arginine (L-NMMA) on the endothelium-dependent release of vascular superoxide radicals triggered by increased flow. Plasma ascorbyl radical signals measured by direct electron paramagnetic resonance spectroscopy in 25 rabbits increased by 3.8 ± 0.7 nmol/l vs baseline (28.7 ± 1.4 nmol/l, P<0.001) in response to papaverine-induced flow increases of 121 ± 12%. In contrast, after similar papaverine-induced flow increases simultaneously with L-NMMA infusions, ascorbyl levels were not significantly changed compared to baseline. Similar results were obtained in isolated rabbit aortas perfused ex vivo with the spin trap a-phenyl-N-tert-butylnitrone (N = 22). However, in both preparations, this complete blockade was not reversed by co-infusion of excess L-arginine and was also obtained by N-methyl-D-arginine, thus indicating that it is not related to nitric oxide synthase. L-arginine alone was ineffective, as previously demonstrated for NG-methyl-L-arginine ester (L-NAME). In vitro, neither L-arginine nor its analogues scavenged superoxide radicals. This nonspecific activity of methylated arginine analogues underscores the need for careful controls in order to assess nitric oxide effects, particularly those related to interactions with active oxygen species.

Exercise Training Reduces Insulin Resistance and Upregulates the mTOR/p70S6k Pathway in Cardiac Muscle of Diet-Induced Obesity Rats

Obesity and insulin resistance are rapidly expanding public health problems. These disturbances are related to many diseases, including heart pathology. Acting through the Akt/mTOR pathway, insulin has numerous and important physiological functions, such as the induction of growth and survival of many cell types and cardiac hypertrophy. However, obesity and insulin resistance can alter mTOR/p70S6k. Exercise training is known to induce this pathway, but never in the heart of diet-induced obesity subjects. To evaluate the effect of exercise training on mTOR/p70S6k in the heart of obese Wistar rats, we analyzed the effects of 12 weeks of swimming on obese rats, induced by a high-fat diet. Exercise training reduced epididymal fat, fasting serum insulin and plasma glucose disappearance. Western blot analyses showed that exercise training increased the ability of insulin to phosphorylate intracellular molecules such as Akt (2.3-fold) and Foxo1 (1.7-fold). Moreover, reduced activities and expressions of proteins, induced by the high-fat diet in rats, such as phospho-JNK (1.9-fold), NF-kB (1.6-fold) and PTP-1B (1.5-fold), were observed. Finally, exercise training increased the activities of the transduction pathways of insulin-dependent protein synthesis, as shown by increases in Raptor phosphorylation (1.7-fold), p70S6k phosphorylation (1.9-fold), and 4E-BP1 phosphorylation (1.4-fold) and a reduction in atrogin-1 expression (2.1-fold). Results demonstrate a pivotal regulatory role of exercise training on the Akt/ mTOR pathway, in turn, promoting protein synthesis and antagonizing protein degradation. J. Cell. Physiol. 226: 666-674, 2011. (C) 2010 Wiley-Liss, Inc.

Altering in vivo fate of heart-infiltrating progenitors from pro-fibrotic into F4/80+macrophages prevents progression of myocarditis into inflammatory dilated cardiomyopathy

Rationale: Experimental autoimmune myocarditis (EAM) mirrors important pathogenic aspects of inflammatory cardiomyopathy, a common cause of heart failure. In EAM, TGF-β-dependent conversion of heart-infiltrating prominin-1+ progenitors into myofibroblasts is critical for development of fibrosis and the end-stage heart failure phenotype. Therapeutic strategies modulating the in vivo fate of prominin-1+ progenitors might therefore prevent TGF-β-mediated cardiac fibrosis and pathological remodelling. Methods and Results: EAM was induced in BALB/c mice using alpha-myosin heavy chain (aMyHC) peptide/complete Freund's adjuvant (CFA) immunization. Prominin-1+ cells were isolated from the inflamed hearts at day 21 after immunization, expanded and treated with Macrophage Colony-Stimulating Factor (M-CSF) or Transforming Growth Factor-beta (TGF-β). Herein, we demonstrated that M-CSF turns, ex vivo and in the EAM, heart-infiltrating prominin-1+ progenitors into immunosuppressive F4/80/CD11b/CD16/32/NOS2-expressing, nitric oxide producing and E.coli bacteria phygocyting macrophages, and protect further TGF-β-stimulated differentiation into pathogenic myofibroblasts. Systemic M-CSF treatment during myocarditis completely prevented post-inflammatory fibrosis, T cell relapse and left ventricular dysfunction. Mechanistically, M-CSF-induced macrophage differentiation from prominin-1+ progenitors critically required nitric oxide synthase 2. Accordingly, M-CSF treatment failed to reduce myocardial fibrosis development in Nos2-/- mice. Conclusions: Altering the in vivo fate of inflammatory prominin-1 expressing progenitors from pro-fibrotic into the F4/80 expressing macrophage phenotype protects from myocarditis progression, cardiac fibrosis, and heart failure. These findings offer a modern therapeutic model and challenge former concepts, which attributed macrophages a detrimental role in inflammatory cardiomyopathy progression.

Experimental Model of Isolated Lung Perfusion in Rats: First Brazilian Experience Using the IL-2 Isolated Perfused Rat or Guinea Pig Lung System

Introduction. Lung transplantation has become the mainstay therapy for patients with end-stage lung disease refractory to medical management. However, the number of patients listed for lung transplantation largely exceeds available donors. The study of lung preservation requires accurate, cost-effective small animal models. We have described a model of ex vivo rat lung perfusion using a commercially available system. Methods. Male Wistar rats weighing 250 g-300 g were anesthetized with intraperitoneal sodium thiopental (50 mg/kg body weight). The surgical technique included heart-lung block extraction, assembly, and preparation for perfusion and data collection. We used an IL-2 Isolated Perfused Rat or Guinea Pig Lung System (Harvard Apparatus, Holliston, Mass, United States; Hugo Sachs Elektronik, Alemanha). Results. Preliminary results included hemodynamic and pulmonary mechanics data gathered in the experiments. Conclusion. The isolated rat lung perfusion system is a reliable method to assess lung preservation.

Dietary fish oil is antihypertrophic but does not enhance postischemic myocardial function in female mice.

Clinically and experimentally, a case for omega-3 polyunsaturated fatty acid (PUFA) cardioprotection in females has not been clearly established. The goal of this study was to investigate whether dietary omega-3 PUFA supplementation could provide ischemic protection in female mice with an underlying genetic predisposition to cardiac hypertrophy. Mature female transgenic mice (TG) with cardiac-specific overexpression of angiotensinogen that develop normotensive cardiac hypertrophy and littermate wild-type (WT) mice were fed a fish oil-derived diet (FO) or PUFA-matched control diet (CTR) for 4 wk. Myocardial membrane lipids, ex vivo cardiac performance (intraventricular balloon) after global no-flow ischemia and reperfusion (15/30 min), and reperfusion arrhythmia incidence were assessed. FO diet suppressed cardiac growth by 5% and 10% in WT and TG, respectively (P < 0.001). The extent of mechanical recovery [rate-pressure product (RPP) = beats/min x mmHg] of FO-fed WT and TG hearts was similar (50 +/- 7% vs. 45 +/- 12%, 30 min reperfusion), and this was not significantly different from CTR-fed WT or TG. To evaluate whether systemic estrogen was masking a protective effect of the FO diet, the responses of ovariectomized (OVX) WT and TG mice to FO dietary intervention were assessed. The extent of mechanical recovery of FO-fed OVX WT and TG (RPP, 50 +/- 4% vs. 64 +/- 8%) was not enhanced compared with CTR-fed mice (RPP, 60 +/- 11% vs. 80 +/- 8%, P = 0.335). Dietary FO did not suppress the incidence of reperfusion arrhythmias in WT or TG hearts (ovary-intact mice or OVX). Our findings indicate a lack of cardioprotective effect of dietary FO in females, determined by assessment of mechanical and arrhythmic activity postischemia in a murine ex vivo heart model.

Differential effects of high-fat diet on myocardial lipid metabolism in failing and nonfailing hearts with angiotensin II-mediated cardiac remodeling in mice.

Normal myocardium adapts to increase of nutritional fatty acid supply by upregulation of regulatory proteins of the fatty acid oxidation pathway. Because advanced heart failure is associated with reduction of regulatory proteins of fatty acid oxidation, we hypothesized that failing myocardium may not be able to adapt to increased fatty acid intake and therefore undergo lipid accumulation, potentially aggravating myocardial dysfunction. We determined the effect of high-fat diet in transgenic mice with overexpression of angiotensinogen in the myocardium (TG1306/R1). TG1306/R1 mice develop ANG II-mediated left ventricular hypertrophy, and at one year of age approximately half of the mice present heart failure associated with reduced expression of regulatory proteins of fatty acid oxidation and reduced palmitate oxidation during ex vivo working heart perfusion. Hypertrophied hearts from TG1306/R1 mice without heart failure adapted to high-fat feeding, similarly to hearts from wild-type mice, with upregulation of regulatory proteins of fatty acid oxidation and enhancement of palmitate oxidation. There was no myocardial lipid accumulation or contractile dysfunction. In contrast, hearts from TG1306/R1 mice presenting heart failure were unable to respond to high-fat feeding by upregulation of fatty acid oxidation proteins and enhancement of palmitate oxidation. This resulted in accumulation of triglycerides and ceramide in the myocardium, and aggravation of contractile dysfunction. In conclusion, hearts with ANG II-induced contractile failure have lost the ability to enhance fatty acid oxidation in response to increased fatty acid supply. The ensuing accumulation of lipid compounds may play a role in the observed aggravation of contractile dysfunction.