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1.
J Biol Chem ; 291(47): 24607-24617, 2016 Nov 18.
Artigo em Inglês | MEDLINE | ID: mdl-27758863

RESUMO

Mesenchymal stromal cells (MSCs) present in the bone marrow microenvironment secrete cytokines and angiogenic factors that support the maintenance and regenerative expansion of hematopoietic stem and progenitor cells (HSPCs). Here, we tested the hypothesis that extracellular vesicles (EVs) released by MSCs contribute to the paracrine crosstalk that shapes hematopoietic function. We systematically characterized EV release by murine stromal cells and demonstrate that MSC-derived EVs prompt a loss of HSPC quiescence with concomitant expansion of murine myeloid progenitors. Our studies reveal that HSPC expansion by MSC EVs is mediated via the MyD88 adapter protein and is partially blocked by treatment with a TLR4 inhibitor. Imaging of fluorescence protein-tagged MSC EVs corroborated their cellular co-localization with TLR4 and endosomal Rab5 compartments in HSPCs. The dissection of downstream responses to TLR4 activation reveals that the mechanism by which MSC EVs impact HSPCs involves canonical NF-κB signaling and downstream activation of Hif-1α and CCL2 target genes. Our aggregate data identify a previously unknown role for MSC-derived EVs in the regulation of hematopoiesis through innate immune mechanisms and illustrate the expansive cell-cell crosstalk in the bone marrow microenvironment.


Assuntos
Micropartículas Derivadas de Células/metabolismo , Células-Tronco Hematopoéticas/metabolismo , Células-Tronco Mesenquimais/metabolismo , Receptor 4 Toll-Like/metabolismo , Animais , Quimiocina CCL2/metabolismo , Células-Tronco Hematopoéticas/citologia , Subunidade alfa do Fator 1 Induzível por Hipóxia/metabolismo , Células-Tronco Mesenquimais/citologia , Camundongos , Fator 88 de Diferenciação Mieloide/metabolismo , Proteínas rab5 de Ligação ao GTP/metabolismo
2.
J Neuroinflammation ; 14(1): 133, 2017 07 01.
Artigo em Inglês | MEDLINE | ID: mdl-28668091

RESUMO

BACKGROUND: During acute infections and chronic illnesses, the pro-inflammatory cytokine interleukin-1ß (IL-1ß) acts within the brain to elicit metabolic derangements and sickness behaviors. It is unknown which cells in the brain are the proximal targets for IL-1ß with respect to the generation of these illness responses. We performed a series of in vitro experiments to (1) investigate which brain cell populations exhibit inflammatory responses to IL-1ß and (2) examine the interactions between different IL-1ß-responsive cell types in various co-culture combinations. METHODS: We treated primary cultures of murine brain microvessel endothelial cells (BMEC), astrocytes, and microglia with PBS or IL-1ß, and then performed qPCR to measure inflammatory gene expression or immunocytochemistry to evaluate nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) activation. To evaluate whether astrocytes and/or BMEC propagate inflammatory signals to microglia, we exposed microglia to astrocyte-conditioned media and co-cultured endothelial cells and glia in transwells. Treatment groups were compared by Student's t tests or by ANOVA followed by Bonferroni-corrected t tests. RESULTS: IL-1ß increased inflammatory gene expression and NF-κB activation in primary murine-mixed glia, enriched astrocyte, and BMEC cultures. Although IL-1ß elicited minimal changes in inflammatory gene expression and did not induce the nuclear translocation of NF-κB in isolated microglia, these cells were more robustly activated by IL-1ß when co-cultured with astrocytes and/or BMEC. We observed a polarized endothelial response to IL-1ß, because the application of IL-1ß to the abluminal endothelial surface produced a more complex microglial inflammatory response than that which occurred following luminal IL-1ß exposure. CONCLUSIONS: Inflammatory signals are detected, amplified, and propagated through the CNS via a sequential and reverberating signaling cascade involving communication between brain endothelial cells and glia. We propose that the brain's innate immune response differs depending upon which side of the blood-brain barrier the inflammatory stimulus arises, thus allowing the brain to respond differently to central vs. peripheral inflammatory insults.


Assuntos
Encéfalo/metabolismo , Células Endoteliais/metabolismo , Interleucina-1beta/farmacologia , Neuroglia/metabolismo , Transdução de Sinais/fisiologia , Animais , Astrócitos/efeitos dos fármacos , Astrócitos/metabolismo , Encéfalo/irrigação sanguínea , Encéfalo/efeitos dos fármacos , Células Cultivadas , Técnicas de Cocultura , Células Endoteliais/efeitos dos fármacos , Feminino , Células HEK293 , Humanos , Masculino , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Knockout , Microvasos/efeitos dos fármacos , Microvasos/metabolismo , Neuroglia/efeitos dos fármacos , Transdução de Sinais/efeitos dos fármacos
3.
Nucleic Acids Res ; 42(7): e53, 2014 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-24474068

RESUMO

Insertional oncogene activation and aberrant splicing have proved to be major setbacks for retroviral stem cell gene therapy. Integrase-deficient human immunodeficiency virus-1-derived vectors provide a potentially safer approach, but their circular genomes are rapidly lost during cell division. Here we describe a novel lentiviral vector (LV) that incorporates human ß-interferon scaffold/matrix-associated region sequences to provide an origin of replication for long-term mitotic maintenance of the episomal LTR circles. The resulting 'anchoring' non-integrating lentiviral vector (aniLV) achieved initial transduction rates comparable with integrating vector followed by progressive establishment of long-term episomal expression in a subset of cells. Analysis of aniLV-transduced single cell-derived clones maintained without selective pressure for >100 rounds of cell division showed sustained transgene expression from episomes and provided molecular evidence for long-term episome maintenance. To evaluate aniLV performance in primary cells, we transduced lineage-depleted murine hematopoietic progenitor cells, observing GFP expression in clonogenic progenitor colonies and peripheral blood leukocyte chimerism following transplantation into conditioned hosts. In aggregate, our studies suggest that scaffold/matrix-associated region elements can serve as molecular anchors for non-integrating lentivector episomes, providing sustained gene expression through successive rounds of cell division and progenitor differentiation in vitro and in vivo.


Assuntos
Vetores Genéticos , Lentivirus/genética , Regiões de Interação com a Matriz , Mitose/genética , Plasmídeos/genética , Animais , Linhagem Celular , Expressão Gênica , Células-Tronco Hematopoéticas/metabolismo , Humanos , Interferon beta/genética , Camundongos , Transdução Genética , Transgenes
5.
Curr Gene Ther ; 16(5): 329-337, 2017.
Artigo em Inglês | MEDLINE | ID: mdl-28093967

RESUMO

Fanconi anemia (FA) is an autosomal recessive, multisystem DNA repair disorder with prominent defects in the hematopoietic stem cell maintenance that result in the progressive attrition and failure in the early school age. Allogeneic stem cell transplantation has proved curative for patients with suitable donors. This, along with the characteristic survival advantage of phenotypically normal over non-corrected FA stem cells underscores the compelling rationale for stem cell gene therapy in the FA. While integrating lentiviral vectors (LV) have become the preferred platform for genetic correction in several hematologic and immunodeficiency disorders, the residual oncogenic potential by these vectors raises concerns in the FA stem cells about insertional mutagenic genetic lesions. On this backdrop, investigators are developing a new generation of non-integrating viral vectors capable of nuclear persistence through serial mitotic cycles and stable under selection to offset the comparatively lower transduction rates. Here, we review the competing approaches to develop such non-integrating lentiviral (NILV) episome vectors that faithfully replicate in the stem cells.


Assuntos
Anemia de Fanconi/terapia , Terapia Genética/métodos , Vetores Genéticos/genética , Células-Tronco Hematopoéticas/citologia , Lentivirus/genética , Plasmídeos/genética , Animais , Anemia de Fanconi/genética , Técnicas de Transferência de Genes , Células-Tronco Hematopoéticas/metabolismo , Humanos
6.
Stem Cell Res Ther ; 7(1): 170, 2016 11 19.
Artigo em Inglês | MEDLINE | ID: mdl-27865213

RESUMO

Fanconi anemia (FA) is an autosomal-recessive disorder associated with hematopoietic failure and it is a candidate for hematopoietic stem cell (HSC)-directed gene therapy. However, the characteristically reduced HSC numbers found in FA patients, their ineffective mobilization from the marrow, and re-oxygenation damage during ex vivo manipulation have precluded clinical success using conventional in vitro approaches. We previously demonstrated that lentiviral vector (LV) particles reversibly attach to the cell surface where they gain protection from serum complement neutralization. We reasoned that cellular delivery of LV to the bone marrow niche could avoid detrimental losses during FA HSC mobilization and in vitro modification. Here, we demonstrate that a VSV-G pseudotyped lentivector, carrying the FANCC transgene, can be transmitted from carrier to bystander cells. In cell culture and transplantation models of FA, we further demonstrate that LV carrier cells migrate along SDF-1α gradients and transfer vector particles that stably integrate and phenotypically correct the characteristic DNA alkylator sensitivity in murine and human FA-deficient target bystander cells. Altogether, we demonstrate that cellular homing mechanisms can be harnessed for the functional phenotype correction in murine FA hematopoietic cells.


Assuntos
Medula Óssea/fisiologia , Anemia de Fanconi/genética , Anemia de Fanconi/terapia , Lentivirus/genética , Animais , Linhagem Celular , Anemia de Fanconi/patologia , Proteína do Grupo de Complementação C da Anemia de Fanconi/genética , Técnicas de Transferência de Genes , Terapia Genética/métodos , Vetores Genéticos/genética , Células HEK293 , Células-Tronco Hematopoéticas/citologia , Humanos , Camundongos , Camundongos Endogâmicos C57BL , Camundongos Transgênicos , Fenótipo , Transgenes/genética
7.
Front Microbiol ; 7: 2135, 2016.
Artigo em Inglês | MEDLINE | ID: mdl-28119670

RESUMO

Colistin has long been a reserve drug used for the treatment of carbapenem resistant Klebsiella pneumoniae. Carbapenem resistance in K. pneumoniae has been increasing and is as high as 44% in India. Although a reserve agent, with rise in rates of resistance to carbapenems, the usage of colistin has increased over the years leading to slow emergence of resistance. Colistin resistance is mainly mediated by the alteration in the LPS of bacterial outer membrane with the addition of L-Ara4-N and PEtN molecules. These alterations are mediated by mutations in several genes involved in lipidA modifications and most commonly mutations in mgrB gene has been reported. Recently there is emergence of plasmid mediated resistance due to mcr-1 and mcr-2 genes which poses a threat for the rapid global spread. This study aims at characterizing eight colistin resistant K. pneumoniae from bacteremia by whole genome sequencing. Eight K. pneumoniae were isolated from blood culture during 2013 and 2014 at the Department of Clinical Microbiology, Christian Medical College, India. Antimicrobial susceptibility testing was performed and minimum inhibitory concentration (MIC) was determined for colistin and polymyxin B by broth-micro dilution method. Whole genome sequencing was performed using Ion Torrent and the genome of all eight isolates was analyzed. The eight isolates were resistant to all the antimicrobials expect tigecycline. MIC of colistin and polymyxin B were ranged from 4 to 1024 µg/ml and 0.5 to 2048 µg/ml respectively. Multiple mutations were observed in the chromosomal genes involved in lipid A modifications. mcr-1 and mcr-2 gene was absent in all the isolates. The most significant were mutations in mgrB gene. Among the eight isolates, four, three and one were belonged to sequence types ST 231, ST14 and ST147 respectively. Seven isolates had blaOXA-48 like, one co-expressed blaNDM-1 and blaOXA-48 like genes leading to carbapenem resistance. Overall, multiple numbers of alterations have been observed. This includes silent mutations, point mutations, insertions and/or deletions. Mutations in mgrB gene is responsible for resistance to colistin in this study. Due to emergence of resistance to reserve drugs, there is a need for combination therapies for carbapenem resistant K. pneumoniae and colistin must be judiciously used.

8.
Sci Signal ; 9(444): ra88, 2016 09 06.
Artigo em Inglês | MEDLINE | ID: mdl-27601730

RESUMO

Exosomes are paracrine regulators of the tumor microenvironment and contain complex cargo. We previously reported that exosomes released from acute myeloid leukemia (AML) cells can suppress residual hematopoietic stem and progenitor cell (HSPC) function indirectly through stromal reprogramming of niche retention factors. We found that the systemic loss of hematopoietic function is also in part a consequence of AML exosome-directed microRNA (miRNA) trafficking to HSPCs. Exosomes isolated from cultured AML or the plasma from mice bearing AML xenografts exhibited enrichment of miR-150 and miR-155. HSPCs cocultured with either of these exosomes exhibited impaired clonogenicity, through the miR-150- and miR-155-mediated suppression of the translation of transcripts encoding c-MYB, a transcription factor involved in HSPC differentiation and proliferation. To discover additional miRNA targets, we captured miR-155 and its target transcripts by coimmunoprecipitation with an attenuated RNA-induced silencing complex (RISC)-trap, followed by high-throughput sequencing. This approach identified known and previously unknown miR-155 target transcripts. Integration of the miR-155 targets with information from the protein interaction database STRING revealed proteins indirectly affected by AML exosome-derived miRNA. Our findings indicate a direct effect of AML exosomes on HSPCs that, through a stroma-independent mechanism, compromises hematopoiesis. Furthermore, combining miRNA target data with protein-protein interaction data may be a broadly applicable strategy to define the effects of exosome-mediated trafficking of regulatory molecules within the tumor microenvironment.


Assuntos
Exossomos/metabolismo , Hematopoese , Leucemia Mieloide Aguda/metabolismo , MicroRNAs/metabolismo , Proteínas Proto-Oncogênicas c-myb/biossíntese , RNA Neoplásico/metabolismo , Animais , Exossomos/genética , Exossomos/patologia , Células HL-60 , Xenoenxertos , Humanos , Leucemia Mieloide Aguda/genética , Leucemia Mieloide Aguda/patologia , Camundongos , MicroRNAs/genética , Transplante de Neoplasias , Proteínas Proto-Oncogênicas c-myb/genética , RNA Neoplásico/genética
9.
PLoS One ; 8(9): e74925, 2013.
Artigo em Inglês | MEDLINE | ID: mdl-24040363

RESUMO

Many replicating viruses, including HIV-1 and HTLV-1, are efficiently transmitted from the cell surface of actively infected cells upon contact with bystander cells. In a previous study, we reported the prolonged cell surface retention of VSV-G replication-deficient pseudotyped lentivector prior to endocytic entry. However, the competing kinetics of cell surface versus dissociation, neutralization or direct transfer to other cells have received comparatively little attention. Here we demonstrate that the relative efficiency of cell-cell surface transmission can outpace "cell-free" transduction at limiting vector input. This coincides with the prolonged half-life of cell bound vector but occurs, unlike HTLV-1, without evidence for particle aggregation. These studies suggest that cell-surface attachment stabilizes particles and alters neutralization kinetics. Our experiments provide novel insight into the underexplored cell-cell transmission of pseudotyped particles.


Assuntos
Vetores Genéticos , Lentivirus/metabolismo , Glicoproteínas de Membrana/metabolismo , Proteínas do Envelope Viral/metabolismo , Animais , Comunicação Celular , Membrana Celular/metabolismo , Proteínas de Fluorescência Verde/metabolismo , Células HEK293 , Humanos , Células Jurkat , Camundongos , Células NIH 3T3 , Transdução Genética , Replicação Viral
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