CD34 EXPRESSION IN STROMAL TUMORS OF THE GASTROINTESTINAL-TRACT

Gastrointestinal stromal tumors (GISTs) are mesenchymal tumors that may exhibit varied morphologic appearances (spindle, epithelioid) and biologic potentials. Given the continuing controversy regarding the type of cell differentiation present in these tumors (muscle versus nerve sheath versus null), we evaluated a set of GISTs, most of which had been previously examined for the presence of smooth muscle differentiation, for expression of CD34, a 115 kDa cell-surface progenitor cell marker also recently identified in a subset of mesenchymal tumors. Using antibody My 10 in deparaffinized, formalin-fixed tissue after pretreatment with microwave energy, we found that 46 of 57, or 81%, of GISTs were CD34+; this fraction of CD34+ tumors exceeded the fraction of these same GISTs found to show muscle actin (72%) expression. In addition, a consistently higher fraction of the tumor cell population was CD34+ than was muscle actin positive. These findings suggest that CD34 is a very sensitive marker for the identification of GISTs. CD34 is normally expressed by endothelial as well as perivascular cells, perhaps related to, but distinct from, vascular smooth muscle cells. While the nature of these latter cells is uncertain, the expression of CD34 in such a large fraction of GISTs may provide evidence of a unique differentiation pathway in these tumors.

The role of cytokines in inflammatory bone loss

Chronic inflammatory processes close to bone often lead to loss of bone in diseases such as rheumatoid arthritis, periodontitis, loosened joint prosthesis and tooth implants. This is mainly due to local formation of bone resorbing osteoclasts which degrade bone without any subsequent coupling to new bone formation. Crucial for osteoclastogenesis is stimulation of mononuclear osteoclast progenitors by macrophage colony-stimulating factor (M-CSF) and receptor activator of nuclear factor-κB ligand (RANKL) which induces their differentiation along the osteoclastic lineage and the fusion to mature, multinucleated osteoclasts. M-CSF and RANKL are produced by osteoblasts/ osteocytes and by synovial and periodontal fibroblasts and the expression is regulated by pro- and anti-inflammatory cytokines. These cytokines also regulate osteoclastic differentiation by direct effects on the progenitor cells. In the present overview, we introduce the basic concepts of osteoclast progenitor cell differentiation and summarize the current knowledge on cytokines stimulating and inhibiting osteoclastogenesis by direct and indirect mechanisms. © Informa Healthcare USA, Inc.

Characterization of mesenchymal stem cells derived from equine adipose tissue

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Twelve-month clinical outcomes after coronary stenting with the Genous Bio-engineered R Stent in patients with a bifurcation lesion: from the e-HEALING (Healthy Endothelial Accelerated Lining Inhibits Neointimal Growth) registry

Background The e-Healthy Endothelial Accelerated Lining Inhibits Neointimal Growth (e-HEALING) registry was designed to capture clinical data on the use of the endothelial progenitor cell capture stent (ECS) in routine clinical practice. In this analysis, we investigated the 12-month clinical outcomes in patients treated with an ECS for a bifurcation lesion. Methods The worldwide, prospective, nonrandomized e-HEALING registry aimed to enrol 5000 patients treated for coronary artery disease with one or more ECS between October 2005 and October 2007. Clinical follow-up was obtained at 1, 6, and 12 months. The primary endpoint was target vessel failure (TVF), defined as the composite of cardiac death, myocardial infarction, and target vessel revascularization at 12 months. Results A total of 573 patients were treated for at least one bifurcation lesion and were assessed in the current analysis. Baseline characteristics showed a median age of 65 years; 21% were diabetic patients and 36% had unstable angina. A total of 63% of the bifurcation lesions were located in the left artery descending and the mean stent length was 20.7 +/- 12.6 mm. At 12 months, TVF was 12.7% and target lesion revascularization was 7.5%. Definite or probable stent thrombosis occurred in 1.7% of the patients. Moreover, one or more stents per lesion [hazard ratio (HR): 2.79, 95% confidence interval (CI): 1.60-4.86, P < 0.001], predilatation (HR: 0.39, 95% CI: 0.17-0.87, P = 0.023), and lesions located in the right coronary artery (HR: 4.56, 95% CI: 1.07-19.5, P = 0.041) were independent predictors of TVF. Conclusion In the e-HEALING registry, coronary bifurcation stenting with the ECS results in favorable clinical outcomes and low incidences of repeat revascularization and stent thrombosis. Coron Artery Dis 23:201-207 (C) 2012 Wolters Kluwer Health vertical bar Lippincott Williams & Wilkins.

Duration of dual antiplatelet therapy and outcomes after coronary stenting with the genous (TM) bio-engineered R stent (TM) in patients from the e-healing registry

Objective: We investigated the relation between duration of dual antiplatelet therapy (DAPT) and clinical outcomes up to 12 months after Genous (TM) endothelial progenitor cell capturing R stent (TM) placement in patients from the e-HEALING registry. Background: Cessation of (DAPT) has been shown to be associated with the occurrence of stent thrombosis (ST). After Genous placement, 1 month of DAPT is recommended. Methods: Patients were analyzed according to continuation or discontinuation of DAPT at a 30-day and 6-month landmark, excluding patients with events before the landmark. Each landmark was a new baseline, and outcomes were followed up to 12 months after stenting. The main outcome for our current analysis was target vessel failure (TVF), defined as target vessel-related cardiac death or myocardial infarction and target vessel revascularization. Secondary outcomes included ST. (Un)adjusted hazard ratios (HR) for TVF were calculated with Cox regression. Results: No difference was observed in the incidence of TVF [HR: 1.03; 95% confidence intervals (CI): 0.651.65, P = 0.89] in patients continuing DAPT (n = 4,249) at 30 days versus patients stopped (n = 309), and HR: 0.82 (95% CI: 0.551.23, P = 0.34) in patients continuing DAPT (n = 2,654) at 6 months versus patients stopped [n = 1,408] DAPT). Furthermore, no differences were observed in ST. Even after addition of identified independent predictors for TVF, adjusted TVF hazards were comparable. Conclusions: In a post-hoc analysis of e-HEALING, duration of DAPT was not associated with the occurrence of the outcomes TVF or ST. The Genous stent may be an attractive treatment especially in patients at increased risk for (temporary) cessation of DAPT or bleeding. (C) 2011 Wiley Periodicals, Inc.

Stem cells from umbilical cord blood do have myogenic potential, with and without differentiation induction in vitro

The dystrophin gene, located at Xp21, codifies dystrophin, which is part of a protein complex responsible for the membrane stability of muscle cells. Its absence on muscle causes Duchenne Muscular Dystrophy (DMD), a severe disorder, while a defect of muscle dystrophin causes Becker Muscular Dystrophy (DMB), a milder disease. The replacement of the defective muscle through stem cells transplantation is a possible future treatment for these patients. Our objective was to analyze the potential of CD34+ stem cells from umbilical cord blood to differentiate in muscle cells and express dystrophin, in vitro. Protein expression was analyzed by Immunofluorescence, Western Blotting (WB) and Reverse Transcriptase – Polymerase Chain Reaction (RT-PCR). CD34+ stem cells and myoblasts from a DMD affected patient started to fuse with muscle cells immediately after co-cultures establishment. Differentiation in mature myotubes was observed after 15 days and dystrophin-positive regions were detected through Immunofluorescence analysis. However, WB or RT-PCR analysis did not detect the presence of normal dystrophin in co-cultures of CD34+ and DMD or DMB affected patients' muscle cells. In contrast, some CD34+ stem cells differentiated in dystrophin producers' muscle cells, what was observed by WB, reinforcing that this progenitor cell has the potential to originate muscle dystrophin in vitro, and not just in vivo like reported before.

The role of the NG2 proteoglycan in migration and characterization of the interaction with the intracellular binding partner, Syntenin

NG2 is a transmembrane proteoglycan with two N-terminal LNS domains and a C-terminal PDZ-binding motif. It is expressed in the developing and adult CNS by oligodendroglial precursor cells and subpopulations of perisynaptic glia and elsewhere by many immature cell types. In order to elucidate the functions of the protein and the heterogenous cell population which expresses it, we undertook to identify and characterise interaction partners of the molecule. The presence of the C-terminal PDZ recognition site in NG2 suggested PDZ-domain proteins as intracellular binding partners. In this work, interaction between the PDZ protein Syntenin and NG2 has been characterised. Syntenin is known to be involved in plasma membrane dynamics, metastasis and adhesion. Syntenin may thus link NG2 to the cytoskeleton, mediating migration of developing oligodendrocytes to axonal tracts prior to myelination, as well as process movement of NG2+ perisynaptic glia. NG2 is involved in cell spreading and polyclonal antibodies against NG2 inhibit the migration of immature glia and cell lines expressing the molecule. In this work we have characterised the segments of the extracellular portion of NG2 that are involved in migration. We found that the extracellular region immediately preceding the transmembrane segment is most important for cell motility. As part of this thesis, biochemical approaches to identify a trans-binding ligand interacting with the extracellular part of NG2 was also explored.

Mechanismen der Progenitorzell-induzierten Gefäßneubildung und myokardialen Funktionsverbesserung

Entscheidend für die Sauerstoffversorgung im ischämischen Gewebe ist die Bildung von Blutgefäßen. Dieser Vorgang findet im erwachsenen Organismus in Form von Arteriogenese, Angiogenese und Vaskulogenese statt. Die Entdeckung, dass endotheliale Progenitorzellen (EPC) aus dem Knochenmark mobilisiert werden können, um sich im Ischämiegebiet an der Bildung neuer Kapillaren zu beteiligen, eröffnet einen vollkommen neuen therapeutischen Ansatz. In der hier vorliegenden Arbeit konnte in drei unterschiedlichen Tiermodellen, dem Matrigelmodell, dem Hinterlaufischämiemodell und dem Infarktmodell der Nacktmaus gezeigt werden, dass eine Zelltherapie mit EPC die Neovaskularisation steigert und zu einer myokardialen Funktionsverbesserung beiträgt. Der entscheidende Beitrag der Arbeit liegt jedoch in der Erforschung des Zeitraums der Wirkung der Stammzelltherapie. In allen drei Tiermodellen konnte durch ein spezifisches Abtöten der mit der viralen Thymidinkinase (TK) transduzierten EPC der positive Effekt auf die Neovaskularisation gestoppt werden. Im Herzinfarktmodell der Nacktmaus kam es sogar zu einer signifikanten Verschlechterung der Herzfunktion sowie zu einer Vergrößerung des Infarktareals. Dieser Effekt war durch Apoptose der Zellen in der dritten und vierten Woche nach Infarkt und Zellinfusion zu beobachten. Somit besitzen EPC nicht nur eine Rolle in der initialen Freisetzung von Zytokinen, sondern tragen auch langfristig zur Aufrechterhaltung des zelltherapeutischen Effektes bei. Ob hierfür allein der Mechanismus der Differenzierung verantwortlich ist, bleibt in weiteren Untersuchungen abzuklären. Denkbar wäre auch eine Beeinflussung des Remodeling über parakrine Langzeiteffekte. Im zweiten Teil der Doktorarbeit wurde versucht, das eingeschränkte zelltherapeutische Potential von Progenitorzellen von Patienten mit „Koronarer Herzkrankheit“ (KHK) und ischämischer Kardiomyopathie mit Hilfe zweier eNOSTranskriptionsverstärker, „eNOS-enhancer“, zu verbessern. Im Matrigelmodell der Maus konnten wir eine Verbesserung des Neovaskularisationspotentials von Knochenmarkszellen (BMC) von Patienten nach Präinkubation mit dem eNOS-enhancer nachweisen. Auch im Myokardinfarktmodell der Maus konnten eine Verbesserung der Herzfunktion und eine Reduktion der Infarktgröße beobachtet werden. Beim direkten Vergleich der beiden eNOS-enhancer konnte kein Unterschied gefunden werden. Zusammenfassend leistet die hier vorliegende Arbeit einen wichtigen Beitrag zum Verständnis für die Bedeutung von Progenitorzellen im Rahmen der Stammzelltherapie nach Myokardinfarkt. Ferner wurde die Möglichkeit aufgezeigt, durch gezielte Beeinflussung der Progenitorzellen ihr therapeutisches Potential signifikant zu steigern.

Die Rolle von Chemokinrezeptor CXCR4 und Connective Tissue Growth Factor innerhalb der Tumor-Stroma-Interaktion in der akuten myeloischen Leukämie

Die akute myeloische Leukämie (AML) ist eine heterogene Erkrankung der hämatopoetischen Vorläuferzelle, die durch unkontrollierte Vermehrung und ein reduziertes Differenzierungsverhalten gekennzeichnet ist. Aufgrund von Therapieresistenzen und häufig vorkommenden Rückfällen ist die AML mit einer schlechten Langzeitprognose verbunden. Neue Studienergebnisse zeigen, dass leukämische Zellen einer hierarchischen Ordnung unterliegen, an deren Spitze die leukämische Stammzelle (LSC) steht, welche den Tumor speist und ähnliche Charakteristika besitzt wie die hämatopoetische Stammzelle. Die LSC nutzt den Kontakt zu Zellen der hämatopoetischen Nische des Knochenmarks, um die erste Therapie zu überdauern und Resistenzen zu erwerben. Neue Therapieansätze versuchen diese Interaktion zwischen leukämischen Zellen und supportiv wirkenden Stromazellen anzugreifen. rnrnIn dieser Arbeit sollte die Bedeutung des CXC-Motiv Chemokinrezeptors Typ 4 (CXCR4) und des Connective Tissue Growth Factors (CTGF) innerhalb der AML-Stroma-Interaktion untersucht werden. CXCR4, der in vivo dafür sorgt, dass AML-Zellen in der Nische gehalten und geschützt werden, wurde durch den neuwertigen humanen CXCR4-spezifischen Antikörper BMS-936564/MDX-1338 in AML-Zelllinien und Patientenzellen in Zellkulturversuchen blockiert. Dies induzierte Apoptose sowie Differenzierung und führte in Kokulturversuchen zu einer Aufhebung des Stroma-vermittelten Schutzes gegenüber der Chemotherapie. Für diese Effekte musste teilweise ein sekundärer Antikörper verwendet werden, der die CXCR4-Moleküle miteinander kreuzvernetzt.rnDie Auswertung eines quantitativen Real time PCR (qPCR)-Arrays ergab, dass CTGF in der AML-Zelllinie Molm-14 nach Kontakt zu Stromazellen hochreguliert wird. Diese Hochregulation konnte in insgesamt drei AML-Zelllinien sowie in drei Patientenproben in qPCR- und Western Blot-Versuchen bestätigt werden. Weitere Untersuchungen zeigten, dass diese Hochregulation (i) unabhängig von der Stromazelllinie ist, (ii) den direkten Kontakt zum Stroma benötigt und (iii) auch unter hypoxischen Bedingungen, wie sie innerhalb des Knochenmarks vorherrschen, stattfindet. Der durch Zell-Zell- oder Zell-Matrix-Kontakt gesteuerte Hippo-Signalweg konnte aus folgenden Gründen als möglicher upstream-Regulationsmechanismus identifiziert werden: (i) Dessen zentraler Transkriptions-Kofaktor TAZ wurde in kokultivierten Molm-14-Zellen stabilisiert, (ii) der shRNA-gesteuerte Knockdown von TAZ führte zu einer reduzierten CTGF-Hochregulation, (iii) CTGF wurde in Abhängigkeit von der Zelldichte reguliert, (iv) Cysteine-rich angiogenic inducer 61 (Cyr61), ein weiteres Zielgen von TAZ, wurde in kokultivierten AML-Zellen ebenfalls verstärkt exprimiert. Der Knockdown von CTGF führte in vitro zu einer partiellen Aufhebung der Stroma-vermittelten Resistenz und die Blockierung von CTGF durch den Antikörper FG-3019 wirkte im AML-Mausmodell lebensverlängernd. rn rnDie Rolle von CTGF in der AML ist bisher nicht untersucht. Die vorliegenden Ergebnisse zeigen, dass CTGF ein interessantes Therapieziel in der AML darstellt. Es bedarf weiterer Untersuchungen, um die Bedeutung von CTGF in der Tumor-Stroma-Interaktion näher zu charakterisieren und nachgeschaltete Signalwege zu identifizieren.

Intra-arterial injection of neural stem cells using a microneedle technique does not cause microembolic strokes

Intra-arterial (IA) injection represents an experimental avenue for minimally invasive delivery of stem cells to the injured brain. It has however been reported that IA injection of stem cells carries the risk of reduction in cerebral blood flow (CBF) and microstrokes. Here we evaluate the safety of IA neural progenitor cell (NPC) delivery to the brain. Cerebral blood flow of rats was monitored during IA injection of single cell suspensions of NPCs after stroke. Animals received 1 × 10(6) NPCs either injected via a microneedle (microneedle group) into the patent common carotid artery (CCA) or via a catheter into the proximally ligated CCA (catheter group). Controls included saline-only injections and cell injections into non-stroked sham animals. Cerebral blood flow in the microneedle group remained at baseline, whereas in the catheter group a persistent (15 minutes) decrease to 78% of baseline occurred (P<0.001). In non-stroked controls, NPCs injected via the catheter method resulted in higher levels of Iba-1-positive inflammatory cells (P=0.003), higher numbers of degenerating neurons as seen in Fluoro-Jade C staining (P<0.0001) and ischemic changes on diffusion weighted imaging. With an appropriate technique, reduction in CBF and microstrokes do not occur with IA transplantation of NPCs.

Genome-wide association study of intracranial aneurysm identifies three new risk loci

Saccular intracranial aneurysms are balloon-like dilations of the intracranial arterial wall; their hemorrhage commonly results in severe neurologic impairment and death. We report a second genome-wide association study with discovery and replication cohorts from Europe and Japan comprising 5,891 cases and 14,181 controls with approximately 832,000 genotyped and imputed SNPs across discovery cohorts. We identified three new loci showing strong evidence for association with intracranial aneurysms in the combined dataset, including intervals near RBBP8 on 18q11.2 (odds ratio (OR) = 1.22, P = 1.1 x 10(-12)), STARD13-KL on 13q13.1 (OR = 1.20, P = 2.5 x 10(-9)) and a gene-rich region on 10q24.32 (OR = 1.29, P = 1.2 x 10(-9)). We also confirmed prior associations near SOX17 (8q11.23-q12.1; OR = 1.28, P = 1.3 x 10(-12)) and CDKN2A-CDKN2B (9p21.3; OR = 1.31, P = 1.5 x 10(-22)). It is noteworthy that several putative risk genes play a role in cell-cycle progression, potentially affecting the proliferation and senescence of progenitor-cell populations that are responsible for vascular formation and repair.

Human neural stem cells enhance structural plasticity and axonal transport in the ischaemic brain

Stem cell transplantation promises new hope for the treatment of stroke although significant questions remain about how the grafted cells elicit their effects. One hypothesis is that transplanted stem cells enhance endogenous repair mechanisms activated after cerebral ischaemia. Recognizing that bilateral reorganization of surviving circuits is associated with recovery after stroke, we investigated the ability of transplanted human neural progenitor cells to enhance this structural plasticity. Our results show the first evidence that human neural progenitor cell treatment can significantly increase dendritic plasticity in both the ipsi- and contralesional cortex and this coincides with stem cell-induced functional recovery. Moreover, stem cell-grafted rats demonstrated increased corticocortical, corticostriatal, corticothalamic and corticospinal axonal rewiring from the contralesional side; with the transcallosal and corticospinal axonal sprouting correlating with functional recovery. Furthermore, we demonstrate that axonal transport, which is critical for both proper axonal function and axonal sprouting, is inhibited by stroke and that this is rescued by the stem cell treatment, thus identifying another novel potential mechanism of action of transplanted cells. Finally, we established in vitro co-culture assays in which these stem cells mimicked the effects observed in vivo. Through immunodepletion studies, we identified vascular endothelial growth factor, thrombospondins 1 and 2, and slit as mediators partially responsible for stem cell-induced effects on dendritic sprouting, axonal plasticity and axonal transport in vitro. Thus, we postulate that human neural progenitor cells aid recovery after stroke through secretion of factors that enhance brain repair and plasticity.

Patterns of molecular response to and relapse after combination of sorafenib, idarubicin, and cytarabine in patients with FLT3 mutant acute myeloid leukemia

BACKGROUND: FMS-like tyrosine kinase 3 (FLT3) is a class III receptor tyrosine kinase involved in hematopoietic progenitor cell development. Mutations of FLT3 have been reported in about a third of patients with acute myeloid leukemia (AML), and inhibitors of FLT3 are of clinical interest. Sorafenib is an orally active multikinase inhibitor with potent activity against FLT3 and the Raf/ERK/MEK kinase pathway. METHODS: We studied the patterns of molecular response and relapse in 18 patients with mutated FLT3 treated with the combination of sorafenib, idarubicin, and cytarabine. RESULTS: The median follow-up was 9 months. Sixteen patients achieved complete remission (CR), and the other 2 patients achieved CR but lacked platelet recovery for an overall response rate of 100%. Ten patients had their FLT3-mutated clone eradicated, with 6 patients who showed some residual FLT3-mutated cells, and 2 patients who showed persistent FLT3-mutated cells. The elimination of FLT3-mutated population at the time of morphologic CR, however, was not predictive of relapse. After a median follow-up of 9 months (range, 1-16 months), 10 (55%) patients had relapsed, with a median CR duration of 8.8 months (range, 1-9.5 months). By DNA sequencing, there was no evidence of an acquired FLT3 point mutation at the time of relapse in 7 patients tested, which suggested the presence of other mechanisms of sorafenib resistance. CONCLUSION: Sorafenib, combined with chemotherapy, is effective in attaining CR, but relapses still occur.

Stem Cells From Umbilical Cord Wharton's Jelly From Preterm Birth Have Neuroglial Differentiation Potential

Objective:The aim of the study is to determine the neuroglial differentiation potential of human Wharton's jelly-derived mesenchymal stem cells (WJ-MSCs) from preterm birth when compared to term delivery.Study Design:The WJ-MSCs from umbilical cords of preterm birth and term controls were isolated and induced into neural progenitors. The cells were analyzed for neuroglial markers by flow cytometry, real-time polymerase chain reaction, and immunocytochemistry. Results:Independent of gestational age, a subset of WJ-MSC displayed the neural progenitor cell markers Nestin and Musashi-1 and the mature neural markers microtubule-associated protein 2, glial fibrillary acidic protein, and myelin basic protein. Neuroglial induction of WJ-MSCs from term and preterm birth resulted in the enhanced transcription of Nestin and Musashi-1.Conclusions:Undifferentiated WJ-MSCs from preterm birth express neuroglial markers and can be successfully induced into neural progenitors similar to term controls. Their potential use as cellular graft in neuroregenerative therapy for peripartum brain injury in preterm birth has to be tested.

Multicycle dose-intensive chemotherapy for women with high-risk primary breast cancer: results of International Breast Cancer Study Group Trial 15-95

PURPOSE: To compare adjuvant dose-intensive epirubicin and cyclophosphamide chemotherapy administered with filgrastim and progenitor cell support (DI-EC) with standard-dose anthracycline-based chemotherapy (SD-CT) for patients with early-stage breast cancer and a high risk of relapse, defined as stage II disease with 10 or more positive axillary nodes; or an estrogen receptor-negative or stage III tumor with five or more positive axillary nodes. PATIENTS AND METHODS: Three hundred forty-four patients were randomized after surgery to receive seven cycles of SD-CT over 22 weeks, or three cycles of DI-EC (epirubicin 200 mg/m2 plus cyclophosphamide 4 gm/m2 with filgrastim and progenitor cell support) over 6 weeks. All patients were assigned tamoxifen at the completion of chemotherapy. The primary end point was disease-free survival (DFS). RESULTS: After a median follow-up of 5.8 years (range, 3 to 8.4 years), 188 DFS events had occurred (DI-EC, 86 events; SD-CT, 102 events). The 5-year DFS was 52% for DI-EC and 43% for SD-CT, with hazard ratio of DI-EC compared with SD-CT of 0.77 (95% CI, 0.58 to 1.02; P = .07). The 5-year overall survival was 70% for DI-EC and 61% for SD-CT, with a hazard ratio of 0.79 (95% CI, 0.56 to 1.11; P = .17). There were eight cases (5%) of anthracycline-induced cardiomyopathy (two fatal) among those who received DI-EC. Women with hormone receptor-positive tumors benefited significantly from DI-EC. CONCLUSION: There was a trend in favor of DI-EC with respect to disease-free survival. A larger trial or meta-analysis will be required to reveal the true effect of dose-intensive therapy.