Endothelial progenitor cell vascular endothelial growth factor gene transfer for vascular regeneration.
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BACKGROUND: Previous studies have established that bone marrow-derived endothelial progenitor cells (EPCs) are present in the systemic circulation. In the current study, we investigated the hypothesis that gene transfer can be used to achieve phenotypic modulation of EPCs. METHODS AND RESULTS: In vitro, ex vivo murine vascular endothelial growth factor (VEGF) 164 gene transfer augmented EPC proliferative activity and enhanced adhesion and incorporation of EPCs into quiescent as well as activated endothelial cell monolayers. To determine if such phenotypic modulation may facilitate therapeutic neovascularization, heterologous EPCs transduced with adenovirus encoding VEGF were administered to athymic nude mice with hindlimb ischemia; neovascularization and blood flow recovery were both improved, and limb necrosis/autoamputation were reduced by 63.7% in comparison with control animals. The dose of EPCs used for the in vivo experiments was 30 times less than that required in previous trials of EPC transplantation to improve ischemic limb salvage. Necropsy analysis of animals that received DiI-labeled VEGF-transduced EPCs confirmed that enhanced EPC incorporation demonstrated in vitro contributed to in vivo neovascularization as well. CONCLUSIONS: In vitro, VEGF EPC gene transfer enhances EPC proliferation, adhesion, and incorporation into endothelial cell monolayers. In vivo, gene-modified EPCs facilitate the strategy of cell transplantation to augment naturally impaired neovascularization in an animal model of experimentally induced limb ischemia. (+info)
Eradication of residual bcr-abl-positive clones by inducing graft-versus-host disease after allogeneic stem cell transplantation in patients with Philadelphia chromosome-positive acute lymphoblastic leukemia.
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Persistence of bcr-abl transcripts after marrow grafting is thought to convey a high risk for relapse in patients with Philadelphia chromosome (Ph)-positive acute lymphoblastic leukemia (ALL). Donor leukocyte infusion (DLI) is closely associated with development of graft-versus-host disease (GVHD) and has well-defined activity against relapsed chronic myelogenous leukemia (CML) but not ALL. We report two patients with Ph-positive ALL who remained bcr-abl positive by reverse transcriptase polymerase chain reaction (RT-PCR) after marrow grafting. Residual bcr-abl transcripts in both patients were eliminated following acute GVHD, which was induced by either DLI or rapid reduction of immunosuppression. Both patients have continued in complete molecular remission for 18 months and 8 months following transplantation, respectively. Our observation suggests that induction of GVHD may eliminate minimal residual disease, thereby preventing leukemia relapse in patients transplanted for Ph-positive ALL. (+info)
Autologous stem cell transplantation in follicular non-Hodgkin's lymphoma.
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The failure of conventional chemotherapy to improve overall survival rates in follicular non-Hodgkin's lymphoma (NHL) has led to the development of alternative treatment regimens. One such regimen is high-dose chemotherapy (HDT) with autologous stem cell transplantation (ASCT). In ASCT stem cells, harvested predominantly from peripheral blood, are used to repopulate the haemopoietic system after high-dose chemotherapy. Comparison of failure-free survival rates following ASCT, with those previously obtained with conventional chemotherapy, suggests a benefit for ASCT in patients who have previously responded to chemotherapy. Other factors that adversely influence the outcome of ASCT include large tumour burden and bcl-2 overexpression. Although ASCT in follicular NHL can prolong the period of remission, relapse is still common and can be caused either by contamination of the stem cell harvest with tumour cells, or regrowth of residual malignant cells not eradicated by the high-dose chemotherapy. Several strategies have been developed to reduce the rate of relapse, including in vitro purging of the stem cell product to remove tumour cells and using allogenic stem cells from HLA-matched donors with no history of malignant disease. While both these methods may have some benefit, they also have limitations. In vitro purging is labour intensive, costly and, as yet, the effect on relapse is unclear. Allogenic stem cell transplants have been associated with a reduced risk of relapse, but this is offset by increased transplant-related mortality. The most promising strategy to reduce the rate of relapse following ASCT is in vivo purging using rituximab, a monoclonal antibody to CD20. Rituximab mobilises mechanisms to kill lymphoma cells, and causes a rapid depletion of B cells from peripheral blood. Rituximab has demonstrated good efficacy as monotherapy in patients with both aggressive and indolent lymphoma and has shown very high response rates (>95%) when used in combination with HDT. (+info)
In vivo purging and relapse prevention following ASCT.
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The combination of high-dose chemotherapy and autologous stem cell transplantation (ASCT) is a potentially curative therapy for patients with relapsed chemosensitive non-Hodgkin's lymphoma (NHL) and is increasingly being considered as a first-line treatment for NHL patients with poor prognosis or poor outcomes from chemotherapy. However, there is a degree of relapse following the latter which is associated with high levels of tumour cell contamination of the stem cells and/or the presence of residual malignant cells in the host following chemotherapy. Reducing the rate of relapse can be achieved by pre-transplant purging of the stem cell graft followed by post-transplant maintenance to minimise residual disease. Various methods of in vitro purging have been shown to reduce, but not eliminate, the level of stem cell contamination and invariably result in a reduced harvest. To date, this has been reflected in disappointing outcomes for the patient. In contrast, in vivo purging with rituximab during the process of stem cell mobilisation and collection does not adversely affect the yield or function of stem cells and shows a significant improvement in the level of tumour cell contamination as measured by bcl-2 clearance. The relapse potential from residual malignant cells in the host can be addressed by a programme of post-transplant rituximab maintenance therapy. In one study 17 patients with follicular lymphoma who underwent ASCT with in vivo rituximab-purged stem cells, followed by rituximab maintenance, have all remained in complete response at a median follow-up of 12.4 months. The optimum in vivo rituximab purging protocol and the precise effect in terms of overall and disease-free survival are currently being evaluated but appear to present an attractive first-line alternative for NHL patients with poor prognosis or poor outcomes following chemotherapy. (+info)
Rituximab: enhancing stem cell transplantation in mantle cell lymphoma.
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Mantle cell lymphoma (MCL) responds poorly to standard chemotherapy regimens used in non-Hodgkin's lymphoma. As a result, a combination of high-dose chemotherapy (HDT) with autologous stem cell transplantation (ASCT) is being investigated in patients with MCL. So far, however, there is no evidence for long-term remission -- believed, in part, to be due to contamination of the transfusion product with residual cancer cells. Many ex-vivo purging methods have been developed to remove tumour cells, but these are complicated, time-consuming and expensive. This study describes an in vivo purging method using rituximab to produce a tumour-free stem cell product for re-infusion following HDT. The regimen is split into a purging phase and a myeloablative phase, which together consist of four-step high-dose sequential chemotherapy (sHDT) and six infusions of rituximab immunotherapy. The sHDT comprises cyclophosphamide, cytosine arabinoside, melphalan and mitoxantrone plus melphalan. There are two separate stem cell harvests and three reinfusions. In a pilot study 28 patients with untreated MCL received standard chemotherapy followed by sHDT with rituximab in vivo purging. Preliminary results indicate that in PCR analyses of leukaphereses from 20 assessable patients, 100% lymphoma-negative harvests were achieved following in vivo purging. PCR analyses of the bone marrow following the four-step high-dose regimen with purging and transplantation showed that all patients achieved molecular remission. After a median follow-up of 22 months (range 10-42 months), two patients had died while 26 were alive and disease free. This method allows efficient in vivo purging in the context of an effective chemotherapy regimen and may have a role as first-line therapy in MCL patients who respond poorly to standard treatment. (+info)
Bcl-2 clearance: optimising outcomes in follicular non-Hodgkin's lymphoma.
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The long median survival time of patients with follicular non-Hodgkin's lymphoma (NHL), means that the efficacy of new treatments are difficult to assess in the short term. Bcl-2 is an inhibitor of apoptosis and overexpression of the bcl-2 gene in the blood or bone marrow is a feature in up to 85% of patients with follicular NHL. Levels of bcl-2(+) cells in the peripheral blood or bone marrow therefore are a useful measure of disease status in such patients and can be detected by polymerase chain reaction (PCR). Complete bcl-2 clearance from the bone marrow (molecular remission) following autologous stem cell transplant (ASCT) for follicular NHL is considered to be an important prognostic factor for disease-free survival. Tumour cell contamination of the stem cell grafts used in ASCT is commonly associated with relapse. This can be addressed by purging the stem cell harvest prior to transplantation. Various methods of in vitro purging after stem cell collection have been shown to reduce the level of contamination but yield is invariably reduced and grafts remain bcl-2 positive. However, in vivo purging with rituximab during the process of collection has been used to obtain bcl-2-negative stem cell harvests without compromising the yield. Rituximab is a monoclonal antibody licensed for treatment of relapsed and refractory low-grade or follicular NHL. Rituximab targets the CD20 antigen, which is found on cells of the B cell lineage. When used for in vivo purging it depletes the peripheral blood of CD20-positive cells and prevents contamination by lymphoma cells. Molecular remission, as measured by bone-marrow bcl-2 clearance, has been achieved in 7/7 patients with follicular NHL at 1 year after treatment with ASCT using rituximab as an 'in vivopurse', followed by rituximab maintenance. Early clinical outcomes are also encouraging. (+info)
The use of zanamivir to treat influenza A and B infection after allogeneic stem cell transplantation.
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The use of zanamivir in seven patients with influenza (three A and four B) post allograft is described. Inhaled zanamivir (10 mg twice daily) was continued from the diagnosis of influenza until excretion of virus ceased (median duration 15 days, range 5 to 44 days). There was no toxicity attributable to zanamivir and rapid resolution of influenza symptoms was seen. There was no mortality due to influenza in the seven patients. The good outcome of 30 previous patients with influenza post transplant is described. A randomised multicentre study would be required to demonstrate efficacy. (+info)
Palivizumab is highly effective in suppressing respiratory syncytial virus in an immunosuppressed animal model.
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Respiratory syncytial virus (RSV) is widely recognized as a leading cause of pneumonia, with substantial mortality, in bone marrow transplant recipients. We tested the efficacy of a systemic monoclonal antibody (MAB) preparation possessing a high titer of anti-RSV neutralizing antibody, palivizumab (Synagis) for prophylaxis and therapy of RSV infection in cytoxan (CY) immunosuppressed cotton rats, a model in which the efficacy of a polyclonal anti-RSV product (Respigam) has been demonstrated. Both prophylaxis and therapy with this MAB were highly effective in reducing pulmonary viral replication. However, multiple sequential therapeutic doses of MAB were necessary to control rebound viral replication in continually suppressed animals. (+info)