搜索结果: 'methocult media formulations for human hematopoietic cells serum containing'

In February 2013,zoonotic transmission of a novel influenza A virus of the H7N9 subtype was reported in China. Although at present no sustained human-to-human transmission has been reported,a pandemic outbreak of this H7N9 virus is feared. Since neutralizing antibodies to the hemagglutinin (HA) globular head domain of the virus are virtually absent in the human population,there is interest in identifying other correlates of protection,such as cross-reactive CD8(+) T cells (cytotoxic T lymphocytes [CTLs]) elicited during seasonal influenza A virus infections. These virus-specific CD8(+) T cells are known to recognize conserved internal proteins of influenza A viruses predominantly,but it is unknown to what extent they cross-react with the newly emerging H7N9 virus. Here,we assessed the cross-reactivity of seasonal H3N2 and H1N1 and pandemic H1N1 influenza A virus-specific polyclonal CD8(+) T cells,obtained from HLA-typed study subjects,with the novel H7N9 virus. The cross-reactivity of CD8(+) T cells to H7N9 variants of known influenza A virus epitopes and H7N9 virus-infected cells was determined by their gamma interferon (IFN-γ) response and lytic activity. It was concluded that,apart from recognition of individual H7N9 variant epitopes,CD8(+) T cells to seasonal influenza viruses display considerable cross-reactivity with the novel H7N9 virus. The presence of these cross-reactive CD8(+) T cells may afford some protection against infection with the new virus. View Publication

New vaccines against pertussis are needed to evoke full protection and long-lasting immunological memory starting from the first administration in neonates--the major target of the life-threatening pertussis infection. A novel live attenuated Bordetella pertussis vaccine strain,BPZE1,has been developed by eliminating or detoxifying three important B. pertussis virulence factors: pertussis toxin,dermonecrotic toxin,and tracheal cytotoxin. We used a human preclinical ex vivo model based on monocyte-derived dendritic cells (MDDCs) to evaluate BPZE1 immunogenicity. We studied the effects of BPZE1 on MDDC functions,focusing on the impact of Bordetella-primed dendritic cells in the regulation of Th and suppressor T cells (Ts). BPZE1 is able to activate human MDDCs and to promote the production of a broad spectrum of proinflammatory and regulatory cytokines. Moreover,conversely to its parental wild-type counterpart BPSM,BPZE1-primed MDDCs very efficiently migrate in vitro in response to the lymphatic chemokine CCL21,due to the inactivation of pertussis toxin enzymatic activity. BPZE1-primed MDDCs drove a mixed Th1/Th17 polarization and also induced functional Ts. Experiments performed in a Transwell system showed that cell contact rather than the production of soluble factors was required for suppression activity. Overall,our findings support the potential of BPZE1 as a novel live attenuated pertussis vaccine,as BPZE1-challenged dendritic cells might migrate from the site of infection to the lymph nodes,prime Th cells,mount an adaptive immune response,and orchestrate Th1/Th17 and Ts responses. View Publication

AIM: Commercial regenerative medicine will require large quantities of clinical-specification human cells. The cost and quality of manufacture is notoriously difficult to control due to highly complex processes with poorly defined tolerances. As a step to overcome this,we aimed to demonstrate the use of 'quality-by-design' tools to define the operating space for economic passage of a scalable human embryonic stem cell production method with minimal cell loss. MATERIALS & METHODS: Design of experiments response surface methodology was applied to generate empirical models to predict optimal operating conditions for a unit of manufacture of a previously developed automatable and scalable human embryonic stem cell production method. RESULTS & CONCLUSION: Two models were defined to predict cell yield and cell recovery rate postpassage,in terms of the predictor variables of media volume,cell seeding density,media exchange and length of passage. Predicted operating conditions for maximized productivity were successfully validated. Such 'quality-by-design' type approaches to process design and optimization will be essential to reduce the risk of product failure and patient harm,and to build regulatory confidence in cell therapy manufacturing processes. View Publication

AIMS/HYPOTHESIS: Islet transplantation is a promising cell therapy for patients with diabetes,but it is currently limited by the reliance upon cadaveric donor tissue. We previously demonstrated that human embryonic stem cell (hESC)-derived pancreatic progenitor cells matured under the kidney capsule in a mouse model of diabetes into glucose-responsive insulin-secreting cells capable of reversing diabetes. However,the formation of cells resembling bone and cartilage was a major limitation of that study. Therefore,we developed an improved differentiation protocol that aimed to prevent the formation of off-target mesoderm tissue following transplantation. We also examined how variation within the complex host environment influenced the development of pancreatic progenitors in vivo.backslashnbackslashnMETHODS: The hESCs were differentiated for 14 days into pancreatic progenitor cells and transplanted either under the kidney capsule or within Theracyte (TheraCyte,Laguna Hills,CA,USA) devices into diabetic mice.backslashnbackslashnRESULTS: Our revised differentiation protocol successfully eliminated the formation of non-endodermal cell populations in 99% of transplanted mice and generated grafts containing textgreater80% endocrine cells. Progenitor cells developed efficiently into pancreatic endocrine tissue within macroencapsulation devices,despite lacking direct contact with the host environment,and reversed diabetes within 3 months. The preparation of cell aggregates pre-transplant was critical for the formation of insulin-producing cells in vivo and endocrine cell development was accelerated within a diabetic host environment compared with healthy mice. Neither insulin nor exendin-4 therapy post-transplant affected the maturation of macroencapsulated cells.backslashnbackslashnCONCLUSIONS/INTERPRETATION: Efficient differentiation of hESC-derived pancreatic endocrine cells can occur in a macroencapsulation device,yielding glucose-responsive insulin-producing cells capable of reversing diabetes. View Publication

Rapidly evolving RNA viruses,such as the GII.4 strain of human norovirus (HuNoV),and their vaccines elicit complex serological responses associated with previous exposure. Specific correlates of protection,moreover,remain poorly understood. Here,we report the GII.4-serological antibody repertoire-pre- and post-vaccination-and select several antibody clonotypes for epitope and structural analysis. The humoral response was dominated by GII.4-specific antibodies that blocked ancestral strains or by antibodies that bound to divergent genotypes and did not block viral-entry-ligand interactions. However,one antibody,A1431,showed broad blockade toward tested GII.4 strains and neutralized the pandemic GII.P16-GII.4 Sydney strain. Structural mapping revealed conserved epitopes,which were occluded on the virion or partially exposed,allowing for broad blockade with neutralizing activity. Overall,our results provide high-resolution molecular information on humoral immune responses after HuNoV vaccination and demonstrate that infection-derived and vaccine-elicited antibodies can exhibit broad blockade and neutralization against this prevalent human pathogen. View Publication

Non-typeable Haemophilus influenzae (NTHi) and Moraxella catarrhalis (Mcat) are two common respiratory tract pathogens often associated with acute exacerbations in Chronic Obstructive Pulmonary Disease (COPD) as well as with otitis media (OM) in children. Although there is evidence that these pathogens can adopt persistence mechanisms such as biofilm formation,the precise means through which they contribute to disease severity and chronicity remains incompletely understood,posing challenges for their effective eradication. The identification of potential vaccine candidates frequently entails the characterization of the host-pathogen interplay in vitro even though this approach is limited by the fact that conventional models do not permit long term bacterial infections. In the present work,by using air-liquid-interface (ALI) human airway in vitro models,we aimed to recreate COPD-related persistent bacterial infections. In particular,we explored an alternative use of the ALI system consisting in the assembly of an inverted epithelium grown on the basal part of a transwell membrane with the aim to enable the functionality of natural defense mechanisms such as mucociliary clearance and cellular extrusion that are usually hampered during conventional ALI infection experiments. The inversion of the epithelium did not affect tissue differentiation and considerably delayed NTHi or Mcat infection progression,allowing one to monitor host-pathogen interactions for up to three weeks. Notably,the use of these models,coupled with confocal and transmission electron microscopy,revealed unique features associated with NTHi and Mcat infection,highlighting persistence strategies including the formation of intracellular bacterial communities (IBCs) and surface-associated biofilm-like structures. Overall,this study demonstrates the possibility to perform long term host-pathogen investigations in vitro with the aim to define persistence mechanisms adopted by respiratory pathogens and individuate potential new vaccine targets. View Publication

We identified individuals with variations in ACTL6B,a component of the chromatin remodeling machinery including the BAF complex. Ten individuals harbored bi-allelic mutations and presented with global developmental delay,epileptic encephalopathy,and spasticity,and ten individuals with de novo heterozygous mutations displayed intellectual disability,ambulation deficits,severe language impairment,hypotonia,Rett-like stereotypies,and minor facial dysmorphisms (wide mouth,diastema,bulbous nose). Nine of these ten unrelated individuals had the identical de novo c.1027G{\textgreater}A (p.Gly343Arg) mutation. Human-derived neurons were generated that recaptured ACTL6B expression patterns in development from progenitor cell to post-mitotic neuron,validating the use of this model. Engineered knock-out of ACTL6B in wild-type human neurons resulted in profound deficits in dendrite development,a result recapitulated in two individuals with different bi-allelic mutations,and reversed on clonal genetic repair or exogenous expression of ACTL6B. Whole-transcriptome analyses and whole-genomic profiling of the BAF complex in wild-type and bi-allelic mutant ACTL6B neural progenitor cells and neurons revealed increased genomic binding of the BAF complex in ACTL6B mutants,with corresponding transcriptional changes in several genes including TPPP and FSCN1,suggesting that altered regulation of some cytoskeletal genes contribute to altered dendrite development. Assessment of bi-alleic and heterozygous ACTL6B mutations on an ACTL6B knock-out human background demonstrated that bi-allelic mutations mimic engineered deletion deficits while heterozygous mutations do not,suggesting that the former are loss of function and the latter are gain of function. These results reveal a role for ACTL6B in neurodevelopment and implicate another component of chromatin remodeling machinery in brain disease. View Publication

Human respiratory syncytial virus (RSV) is a major cause of serious respiratory tract infections in infants and the elderly. Recently it was shown that the RSV G glycoprotein mediates attachment to cells using CX3CR1 as a receptor,and that G-specific neutralizing antibodies can be detected using human airway epithelial (HAE) cell cultures. To investigate the contributions of G-specific antibodies to RSV neutralization,we performed HAE neutralization assays on sera from RSV G-immunized mice or RSV-infected infants. We confirmed that G-specific neutralization using serum from mice or humans could only be detected on HAE cultures. We also found that RSV G-specific antibodies in infants were either subgroup specific or cross-neutralizing. Altogether,our results suggest that G is an important target for generating neutralizing antibodies and would be beneficial to include in an RSV vaccine. Further,inclusion of G antigens from both RSV subgroups may enhance the vaccine cross protection potency. View Publication

This protocol describes detailed procedures for the fluorescent high-throughput screening of small molecules that induce neurogenesis in cultures of skeletal muscle cells. The detection of neurogenesis relies on a fluorescent dye,FM 1-43,which is used to study the neuronal property of depolarization-induced synaptic vesicle recycling. Thus,small molecules with neurogenesis-inducing activity in skeletal muscle cells can be rapidly identified by measuring the fluorescence intensity of the treated cells using a fluorescent microplate reader. This protocol uses murine myoblast C2C12 cells for screening,which are readily available and relatively easy to culture. Neurogenesis of PC12 cells induced by nerve growth factor is employed as a positive control for this screening. The screening time for this protocol is 8 d,which also includes the procedure to detect depolarization-induced synaptic vesicle recycling using FM 1-43. View Publication

Differentiation of embryonic and adult myogenic progenitors undergoes a complex series of cell rearrangements and specification events which are controlled by distinct gene regulatory networks. Delineation of the molecular mechanisms that regulate skeletal muscle specification and formation should be important for understanding congenital myopathies and muscular degenerative diseases. Retinoic acid (RA) signaling plays an important role in development. However,the role of RA signaling in adult myogenic progenitors is poorly understood. Here,we investigate the role of RA signaling in regulating myogenic differentiation of myoblastic progenitor cells. Using the mouse myoblast progenitor C2C12 line as a model,we have found that the endogenous expression of most RAR and RXR isotypes is readily detected. While the nuclear receptor co-repressors are highly expressed,two of the three nuclear receptor co-activators and the enzymes involved in RA synthesis are expressed at low level or undetectable,suggesting that the RA signaling pathway may be repressed in myogenic progenitors. Using the alpha-myosin heavy chain promoter-driven reporter (MyHC-GLuc),we have demonstrated that either ATRA or 9CRA is able to effectively induce myogenic differentiation,which can be synergistically enhanced when both ATRA and 9CRA are used. Upon ATRA and 9CRA treatment of C2C12 cells the expression of late myogenic markers significantly increases. We have further shown that adenovirus-mediated exogenous expression of RARalpha and/or RXRalpha is able to effectively induce myogenic differentiation in a ligand-independent fashion. Morphologically,ATRA- and 9CRA-treated C2C12 cells exhibit elongated cell body and become multi-nucleated myoblasts,and even form myoblast fusion. Ultrastructural analysis under transmission electron microscope reveals that RA-treated myogenic progenitor cells exhibit an abundant presence of muscle fibers. Therefore,our results strongly suggest that RA signaling may play an important role in regulating myogenic differentiation. View Publication