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Amniotic fluid has been investigated as new cell source for stem cells in the development of future cell-based transplantation. This study reports isolation of viable human amniotic fluid-derived stem cells, labeled with multimodal iron oxide nanoparticles, and its effect on focal cerebral ischemia–reperfusion injury in Wistar rats. Middle cerebral artery occlusion of 60 min followed by reperfusion for 1 h, 6 h, and 24 h was employed in the present study to produce ischemia and reperfusion-induced cerebral injury in rats. Tests were employed to assess the functional outcome of the sensorimotor center activity in the brain, through a set of modified neurological severity scores used to assess motor and exploratory capacity 24 h, 14, and 28 days after receiving cellular therapy via tail vein. In our animal model of stroke, transplanted cells migrated to the ischemic focus, infarct volume decreased, and motor deficits improved. Therefore, we concluded that these cells appear to have beneficial effects on the ischemic brain, possibly based on their ability to enhance endogenous repair mechanisms.
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EPNs comprise a heterogeneous group of neuroepithelial tumors, accounting for about 10% of all intracranial tumors in children and up to 30% of brain tumors in those younger than 3 years. Actually, the pattern therapy for low-grade EPNs includes complete surgical resection followed by radiation therapy. Total surgical excision is often not possible due to tumor location. The aim of this study was to evaluate, for the first time, the anti-tumor activity of Amblyomin-X in 4 primary cultures derived from pediatric anaplastic posterior fossa EPN, Group A (anaplastic, WHO grade III) and one primary culture of a high grade neuroepithelial tumor with MN1 alteration, which was initially misdiagnosed as EPN: i) by in vitro assays: comparisons of temozolomide and cisplatin; ii) by intracranial xenograft model. Amblyomin-X was able to induce cell death in EPN cells in a more significant percentage compared to cisplatin. The cytotoxic effects of Amblyomin-X were not detected on hFSCs used as control, as opposed to cisplatin-treatment, which promoted a substantial effect in the hAFSCs viability. TEM analysis showed ultrastructural alterations related to the process of cell death: mitochondrial degeneration, autophagosomes and aggregate-like structures. MRI and histopathological analyzes demonstrated significant tumor mass regression. Our results suggest that Amblyomin-X has a selective effect on tumor cells by inducing apoptotic cell death and may be a therapeutic option for Group AEPNs.
RESUMO
Amniotic fluid has been investigated as new cell source for stem cells in the development of future cell-based transplantation. This study reports isolation of viable human amniotic fluid-derived stem cells, labeled with multimodal iron oxide nanoparticles, and its effect on focal cerebral ischemia–reperfusion injury in Wistar rats. Middle cerebral artery occlusion of 60 min followed by reperfusion for 1 h, 6 h, and 24 h was employed in the present study to produce ischemia and reperfusion-induced cerebral injury in rats. Tests were employed to assess the functional outcome of the sensorimotor center activity in the brain, through a set of modified neurological severity scores used to assess motor and exploratory capacity 24 h, 14, and 28 days after receiving cellular therapy via tail vein. In our animal model of stroke, transplanted cells migrated to the ischemic focus, infarct volume decreased, and motor deficits improved. Therefore, we concluded that these cells appear to have beneficial effects on the ischemic brain, possibly based on their ability to enhance endogenous repair mechanisms.
RESUMO
EPNs comprise a heterogeneous group of neuroepithelial tumors, accounting for about 10% of all intracranial tumors in children and up to 30% of brain tumors in those younger than 3 years. Actually, the pattern therapy for low-grade EPNs includes complete surgical resection followed by radiation therapy. Total surgical excision is often not possible due to tumor location. The aim of this study was to evaluate, for the first time, the anti-tumor activity of Amblyomin-X in 4 primary cultures derived from pediatric anaplastic posterior fossa EPN, Group A (anaplastic, WHO grade III) and one primary culture of a high grade neuroepithelial tumor with MN1 alteration, which was initially misdiagnosed as EPN: i) by in vitro assays: comparisons of temozolomide and cisplatin; ii) by intracranial xenograft model. Amblyomin-X was able to induce cell death in EPN cells in a more significant percentage compared to cisplatin. The cytotoxic effects of Amblyomin-X were not detected on hFSCs used as control, as opposed to cisplatin-treatment, which promoted a substantial effect in the hAFSCs viability. TEM analysis showed ultrastructural alterations related to the process of cell death: mitochondrial degeneration, autophagosomes and aggregate-like structures. MRI and histopathological analyzes demonstrated significant tumor mass regression. Our results suggest that Amblyomin-X has a selective effect on tumor cells by inducing apoptotic cell death and may be a therapeutic option for Group AEPNs.
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Background Previous studies have demonstrated remarkable tropism of mesenchymal stem cells (MSCs) toward malignant gliomas, making these cells a potential vehicle for delivery of therapeutic agents to disseminated glioblastoma (GBM) cells. However, the potential contribution of MSCs to tumor progression is a matter of concern. It has been suggested that CD133+ GBM stem cells secrete a variety of chemokines, including monocytes chemoattractant protein-1 (MCP-1/CCL2) and stromal cell-derived factor-1(SDF-1/CXCL12), which could act in this tropism. However, the role in the modulation of this tropism of the subpopulation of CD133+ cells, which initiate GBM and the mechanisms underlying the tropism of MSCs to CD133+ GBM cells and their effects on tumor development, remains poorly defined. Methods/results We found that isolated and cultured MSCs (human umbilical cord blood MSCs) express CCR2 and CXCR4, the respective receptors for MCP-1/CCL2 and SDF-1/CXCL12, and demonstrated, in vitro, that MCP-1/CCL2 and SDF-1/CXC12, secreted by CD133+ GBM cells from primary cell cultures, induce the migration of MSCs. In addition, we confirmed that after in vivo GBM tumor establishment, by stereotaxic implantation of the CD133+ GBM cells labeled with Qdots (705 nm), MSCs labeled with multimodal iron oxide nanoparticles (MION) conjugated to rhodamine-B (Rh-B) (MION-Rh), infused by caudal vein, were able to cross the blood-brain barrier of the animal and migrate to the tumor region. Evaluation GBM tumors histology showed that groups that received MSC demonstrated tumor development, glial invasiveness, and detection of a high number of cycling cells. Conclusions Therefore, in this study, we validated the chemotactic effect of MCP-1/CCL2 and SDF-1/CXCL12 in mediating the migration of MSCs toward CD133+ GBM cells. However, we observed that, after infiltrating the tumor, MSCs promote tumor growth in vivo probably by release of exosomes. Thus, the use of these cells as a therapeutic carrier strategy to target GBM cells must be approached with caution.
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Background: Ependymoma (EPN), the third most common pediatric brain tumor, is a central nervous system (CNS) malignancy originating from the walls of the ventricular system. Surgical resection followed by radiation therapy has been the primary treatment for most pediatric intracranial EPNs. Despite numerous studies into the prognostic value of histological classification, the extent of surgical resection and adjuvant radiotherapy, there have been relatively few studies into the molecular and cellular biology of EPNs. Results: We elucidated the ultrastructure of the cultured EPN cells and characterized their profile of immunophenotypic pluripotency markers (CD133, CD90, SSEA-3, CXCR4). We established an experimental EPN model by the intracerebroventricular infusion of EPN cells labeled with multimodal iron oxide nanoparticles (MION), thereby generating a tumor and providing a clinically relevant animal model. MRI analysis was shown to be a valuable tool when combined with effective MION labeling techniques to accompany EPN growth. Conclusions: We demonstrated that GFAP/CD133+CD90+/CD44+ EPN cells maintained key histopathological and growth characteristics of the original patient tumor. The characterization of EPN cells and the experimental model could facilitate biological studies and preclinical drug screening for pediatric EPNs. Methods: In this work, we established notoriously challenging primary cell culture of anaplastic EPNs (WHO grade III) localized in the posterior fossa (PF), using EPNs obtained from 1 to 10-year-old patients (n = 07), and then characterized their immunophenotype and ultrastructure to finally develop a xenograft model.
RESUMO
Background Previous studies have demonstrated remarkable tropism of mesenchymal stem cells (MSCs) toward malignant gliomas, making these cells a potential vehicle for delivery of therapeutic agents to disseminated glioblastoma (GBM) cells. However, the potential contribution of MSCs to tumor progression is a matter of concern. It has been suggested that CD133+ GBM stem cells secrete a variety of chemokines, including monocytes chemoattractant protein-1 (MCP-1/CCL2) and stromal cell-derived factor-1(SDF-1/CXCL12), which could act in this tropism. However, the role in the modulation of this tropism of the subpopulation of CD133+ cells, which initiate GBM and the mechanisms underlying the tropism of MSCs to CD133+ GBM cells and their effects on tumor development, remains poorly defined. Methods/results We found that isolated and cultured MSCs (human umbilical cord blood MSCs) express CCR2 and CXCR4, the respective receptors for MCP-1/CCL2 and SDF-1/CXCL12, and demonstrated, in vitro, that MCP-1/CCL2 and SDF-1/CXC12, secreted by CD133+ GBM cells from primary cell cultures, induce the migration of MSCs. In addition, we confirmed that after in vivo GBM tumor establishment, by stereotaxic implantation of the CD133+ GBM cells labeled with Qdots (705 nm), MSCs labeled with multimodal iron oxide nanoparticles (MION) conjugated to rhodamine-B (Rh-B) (MION-Rh), infused by caudal vein, were able to cross the blood-brain barrier of the animal and migrate to the tumor region. Evaluation GBM tumors histology showed that groups that received MSC demonstrated tumor development, glial invasiveness, and detection of a high number of cycling cells. Conclusions Therefore, in this study, we validated the chemotactic effect of MCP-1/CCL2 and SDF-1/CXCL12 in mediating the migration of MSCs toward CD133+ GBM cells. However, we observed that, after infiltrating the tumor, MSCs promote tumor growth in vivo probably by release of exosomes. Thus, the use of these cells as a therapeutic carrier strategy to target GBM cells must be approached with caution.
RESUMO
Background: Ependymoma (EPN), the third most common pediatric brain tumor, is a central nervous system (CNS) malignancy originating from the walls of the ventricular system. Surgical resection followed by radiation therapy has been the primary treatment for most pediatric intracranial EPNs. Despite numerous studies into the prognostic value of histological classification, the extent of surgical resection and adjuvant radiotherapy, there have been relatively few studies into the molecular and cellular biology of EPNs. Results: We elucidated the ultrastructure of the cultured EPN cells and characterized their profile of immunophenotypic pluripotency markers (CD133, CD90, SSEA-3, CXCR4). We established an experimental EPN model by the intracerebroventricular infusion of EPN cells labeled with multimodal iron oxide nanoparticles (MION), thereby generating a tumor and providing a clinically relevant animal model. MRI analysis was shown to be a valuable tool when combined with effective MION labeling techniques to accompany EPN growth. Conclusions: We demonstrated that GFAP/CD133+CD90+/CD44+ EPN cells maintained key histopathological and growth characteristics of the original patient tumor. The characterization of EPN cells and the experimental model could facilitate biological studies and preclinical drug screening for pediatric EPNs. Methods: In this work, we established notoriously challenging primary cell culture of anaplastic EPNs (WHO grade III) localized in the posterior fossa (PF), using EPNs obtained from 1 to 10-year-old patients (n = 07), and then characterized their immunophenotype and ultrastructure to finally develop a xenograft model.
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Medulloblastoma is the most common malignant tumors of central nervous system in the childhood. The treatment is severe, harmful and, thus, has a dismal prognosis. As PRAME is present in various cancers, including meduloblastoma, and has limited expression in normal tissues, this antigen can be an ideal vaccine target for tumor immunotherapy. In order to find a potential molecular target, we investigated PRAME expression in medulloblastoma fragments and we compare the results with the clinical features of each patient. Analysis of gene expression was performed by real-time quantitative PCR from 37 tumor samples. The Mann-Whitney test was used to analysis the relationship between gene expression and clinical characteristics. Kaplan-Meier curves were used to evaluate survival. PRAME was overexpressed in 84% samples. But no statistical association was found between clinical features and PRAME overexpression. Despite that PRAME gene could be a strong candidate for immunotherapy since it is highly expressed in medulloblastomas.
Assuntos
Antígenos de Neoplasias/genética , Neoplasias Cerebelares/genética , Perfilação da Expressão Gênica/métodos , Meduloblastoma/genética , Proteínas de Neoplasias/genética , Neoplasias Cerebelares/terapia , Criança , Humanos , Imunoterapia , Meduloblastoma/terapia , Reação em Cadeia da Polimerase/métodos , Estatísticas não ParamétricasRESUMO
Medulloblastoma is the most common malignant tumors of central nervous system in the childhood. The treatment is severe, harmful and, thus, has a dismal prognosis. As PRAME is present in various cancers, including meduloblastoma, and has limited expression in normal tissues, this antigen can be an ideal vaccine target for tumor immunotherapy. In order to find a potential molecular target, we investigated PRAME expression in medulloblastoma fragments and we compare the results with the clinical features of each patient. Analysis of gene expression was performed by real-time quantitative PCR from 37 tumor samples. The Mann-Whitney test was used to analysis the relationship between gene expression and clinical characteristics. Kaplan-Meier curves were used to evaluate survival. PRAME was overexpressed in 84 percent samples. But no statistical association was found between clinical features and PRAME overexpression. Despite that PRAME gene could be a strong candidate for immunotherapy since it is highly expressed in medulloblastomas.
Meduloblastoma é o tumor maligno mais comum em sistema nervoso central na infância. O tratamento é agressivo e o prognóstico é restrito. Como PRAME está presente em vários tumores, incluindo meduloblastoma, e possui baixa expressão em tecidos normais, este antígeno pode ser ideal na imunoterapia. A fim de encontrar um potencial alvo molecular, investigamos a expressão PRAME em fragmentos de meduloblastoma e comparamos os resultados com as características clínicas de cada paciente. Análise da expressão do gene foi realizada por PCR real-time quantitativo em 37 amostras de tumor. O teste de Mann-Whitney foi utilizado para análise da relação entre a expressão do gene e características clínicas e teste de Kaplan-Meier para avaliar a sobrevida. PRAME teve superexpresssão em 84 por cento amostras, mas não houve nenhuma relação estatística entre as características clínicas e superexpressão de PRAME. Apesar disso, o gene PRAME poderia ser um forte candidato para a imunoterapia, pois é altamente expresso em meduloblastomas.
Assuntos
Criança , Humanos , Antígenos de Neoplasias/genética , Neoplasias Cerebelares/genética , Perfilação da Expressão Gênica/métodos , Meduloblastoma/genética , Proteínas de Neoplasias/genética , Neoplasias Cerebelares/terapia , Imunoterapia , Meduloblastoma/terapia , Reação em Cadeia da Polimerase/métodos , Estatísticas não ParamétricasRESUMO
Um banco de tumores com organização sistematizada das informações permite a elaboração de pesquisas em câncer com conclusões sólidas e científicas. Assim, há a necessidade de um protocolo específico, cuja principal vantagem seria a de agregar informações qualificadas sobre o doador às amostras tumorais utilizadas para a pesquisa. O objetivo deste trabalho foi desenvolver um protocolo de procedimentos simples, confiável e reproduzível, para adquirir e armazenar amostras de tumores do sistema músculo-esquelético. O planejamento deste protocolo tem como base os dados da literatura relacionada a bancos de tecidos neoplásicos, no período de 1969 a 2005. Descreve a captação, armazenamento das amostras e o histórico do doador. O banco de tumores com um protocolo eficiente permite armazenar amostras de tecido normal e neoplásico, além de registrar dados referentes a pacientes com lesões neoplásicas. Além disso, possibilita o fornecimento, aos pesquisadores em câncer, de amostras de tecido em condições ideais para a pesquisa.
A Tumor Bank with systematic organization of data allows for the carrying out of cancer research with sound and scientific conclusions. The need thus arises for a specific protocol whose main advantage would be that of adding qualified donor information to tumor samples used in research. The purpose of this study was to develop a simple, reliable, and replicable procedures protocol to acquire and store samples of musculoskeletal tumors. The basis for the planning of this protocol comprises the information gathered in the literature relating to tumor tissue banks from 1969 to 2005. The paper describes the capture, storage, and donor background. The tumor bank with an efficient protocol allows to store both healthy and neoplastic tissue, and to record information relating to patients with neoplastic lesions. Furthermore, it enables supplying tissue samples in ideal research conditions.
Assuntos
Humanos , Neoplasias Ósseas , Bancos de Tecidos/organização & administração , Bancos de Tecidos/tendências , Neoplasias/patologia , Guias como AssuntoRESUMO
0 osteossarcoma (OS) é um tumor ósseo maligno, derivado do mesenquima primitivo e entre os tumores ósseos é o que apresenta maior incidência em adolescentes.0 pico de ocorrência é a segunda década de vida, acometendo com maior freqüência sítios de crescimento rápido, durante o estirao de crescimento. 0 interesse na patologia e biologia do OS tem aumentado consideravelmente, uma vez que entre os tumores sólidos da infância e adolescência é exemplo proeminente da eficácia do tratamento quimioterápico agressivo. 0 conhecimento dos eventos genéticos relacionados com a gênese e os mecanismos de resistência a drogas desses tumores contribuem para um melhor entendimento da biologia do OS. 0 presente trabalho teve os seguintes objetivos: 1.Investigar a expressao de genes que possam estar envolvidos na resistência a drogas no OS, na tentativa de contribuir para o conhecimento desse complexo mecanismo. 2. Avaliar as regioes de perda elou ganho de material cromossômico em OS por meio de hibridaçao genômica comparativa (CGH).3. Investigar comparativamente, em linhagens celulares de OS a instabilidade cromossômica, avaliada por meio de hibridaçao in situ fuorescente (FISH) e os dados de ganho e/ou perda de material cromossômico obtidos por CGH. Nós investigamos o gene de resistência a múltiplas drogas (MDR1), o proto-oncogene ERBB2 e um gene associado à resistência à cisplatina (CRAb). A relaçao entre a expressao do gene MDR1, resposta à quimioterapia e recaída da doença ainda permanece controversa. A expressao da proteína erbb2 tem sido relacionada a mau prognóstico e a proposta é utilizar essa proteína como alvo terapêutico em OS. 0 produto do gene CRAb foi associado à resistência a cisplatina, porém sem nenhuma investigaçao anterior descrita na literatura. Foram estudadas 26 amostras de 20 pacientes portadores de OS e uma amostra de osso normal sem evidência clínica de doença óssea. A estratégia de investigaçao utilizada foi a combinaçao de transcriçao reversa - reaçao em cadeia da polimerase (RT-PCR). 0 gene MDR1 foi investigado em 24 samples, 63 por cento positivo para a expressao do gene (5 amostras pré-quimioterapia e 10 amostras pós-quimioterapia). 0 gene CRAb foi investigado em 23 amostras, 57 por cento foram positivas (6 amostras pré-quimioterapia e 7 pós-quimioterapia). 0 gene ERBB2 foi investigado em 21 amostras, somente uma teve... (au)
