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

Bat immunity has received increasing attention because some bat species are being decimated by the fungal disease,White Nose Syndrome,while other species are potential reservoirs of zoonotic viruses. Identifying specific immune processes requires new specific tools and reagents. In this study,we describe a new mouse monoclonal antibody (mAb) reactive with Eptesicus fuscus immunoglobulins. The epitope recognized by mAb BT1-4F10 was localized to immunoglobulin light (lambda) chains; hence,the mAb recognized serum immunoglobulins and B lymphocytes. The BT1-4F10 epitope appeared to be restricted to Microchiropteran immunoglobulins and absent from Megachiropteran immunoglobulins. Analyses of sera and other E. fuscus fluids showed that most,if not all,secreted immunoglobulins utilized lambda light chains. Finally,mAb BT1-4F10 permitted the identification of B cell follicles in splenic white pulp. This Microchiropteran-specific mAb has potential utility in seroassays; hence,this reagent may have both basic and practical applications for studying immune process. View Publication

Ischemia-induced progenitor cell proliferation is a prominent example of the adult mammalian brain's ability to regenerate injured tissue resulting from pathophysiological processes. In order to better understand and exploit the cell signaling mechanisms that regulate ischemia-induced proliferation,we examined the role of the p42/44 mitogen-activated protein kinase (MAPK) cascade effector ribosomal S6 kinase (RSK) in this process. Here,using the endothelin-1 ischemia model in wild type mice,we show that the activated form of RSK is expressed in the progenitor cells of the subgranular zone (SGZ) after intrahippocampal cerebral ischemia. Further,RSK inhibition significantly reduces ischemia-induced SGZ progenitor cell proliferation. Using the neurosphere assay,we also show that both SGZ- and subventricular zone (SVZ)-derived adult neural stem cells (NSC) exhibit a significant reduction in proliferation in the presence of RSK and MAPK inhibitors. Taken together,these data reveal RSK as a regulator of ischemia-induced progenitor cell proliferation,and as such,suggest potential therapeutic value may be gained by specifically targeting the regulation of RSK in the progenitor cell population of the SGZ. View Publication

Human cytomegalovirus (HCMV) is a significant cause of morbidity and mortality in organ transplant recipients. The use of granulocyte-colony stimulating factor (G-CSF)-mobilized stem cells from HCMV seropositive donors is suggested to double the risk of late-onset HCMV disease and chronic graft-versus-host disease in recipients when compared to conventional bone marrow transplantation with HCMV seropositive donors,although the etiology of the increased risk is unknown. To understand mechanisms of HCMV transmission in patients receiving G-CSF-mobilized blood products,we generated a NOD-scid IL2Rγ(c)(null)-humanized mouse model in which HCMV establishes latent infection in human hematopoietic cells. In this model,G-CSF induces the reactivation of latent HCMV in monocytes/macrophages that have migrated into organ tissues. In addition to establishing a humanized mouse model for systemic and latent HCMV infection,these results suggest that the use of G-CSF mobilized blood products from seropositive donors pose an elevated risk for HCMV transmission to recipients. View Publication

Within high-grade gliomas,the precise identities and functional roles of stem-like cells remain unclear. In the normal neurogenic niche,ID (Inhibitor of DNA-binding) genes maintain self-renewal and multipotency of adult neural stem cells. Using PDGF- and KRAS-driven murine models of gliomagenesis,we show that high Id1 expression (Id1(high)) identifies tumor cells with high self-renewal capacity,while low Id1 expression (Id1(low)) identifies tumor cells with proliferative potential but limited self-renewal capacity. Surprisingly,Id1(low) cells generate tumors more rapidly and with higher penetrance than Id1(high) cells. Further,eliminating tumor cell self-renewal through deletion of Id1 has modest effects on animal survival,while knockdown of Olig2 within Id1(low) cells has a significant survival benefit,underscoring the importance of non-self-renewing lineages in disease progression. View Publication

The low success rate of animal cloning by somatic cell nuclear transfer (SCNT) is believed to be associated with epigenetic errors including abnormal DNA hypermethylation. Recently,we elucidated by using round spermatids that,after nuclear transfer,treatment of zygotes with trichostatin A (TSA),an inhibitor of histone deacetylase,can remarkably reduce abnormal DNA hypermethylation depending on the origins of transferred nuclei and their genomic regions [S. Kishigami,N. Van Thuan,T. Hikichi,H. Ohta,S. Wakayama. E. Mizutani,T. Wakayama,Epigenetic abnormalities of the mouse paternal zygotic genome associated with microinsemination of round spermatids,Dev. Biol. (2005) in press]. Here,we found that 5-50 nM TSA-treatment for 10 h following oocyte activation resulted in more efficient in vitro development of somatic cloned embryos to the blastocyst stage from 2- to 5-fold depending on the donor cells including tail tip cells,spleen cells,neural stem cells,and cumulus cells. This TSA-treatment also led to more than 5-fold increase in success rate of mouse cloning from cumulus cells without obvious abnormality but failed to improve ES cloning success. Further,we succeeded in establishment of nuclear transfer-embryonic stem (NT-ES) cells from TSA-treated cloned blastocyst at a rate three times higher than those from untreated cloned blastocysts. Thus,our data indicate that TSA-treatment after SCNT in mice can dramatically improve the practical application of current cloning techniques. View Publication

Streptococcus pneumoniae is the most common cause of community-acquired pneumonia in the United States and globally. Despite the availability of pneumococcal capsular polysaccharide (PPS) and protein conjugate-based vaccines,the prevalence of antibiotic-resistant pneumococcal strains,serotype (ST) replacement in nonconjugate vaccine strains,and uncertainty as to whether the PPS vaccine that is used in adults protects against pneumonia emphasize the need for continued efforts to understand the nature of protective PPS antibody responses. In this study,we generated mouse monoclonal antibodies (MAbs) to a conjugate consisting of the PPS of serotype 8 (PPS8) S. pneumoniae and tetanus toxoid. Thirteen MAbs,including four IgMs that bound to PPS8 and phosphorylcholine (PC) and five IgMs and four IgG1s that bound to PPS8 but not PC,were produced,and their nucleotide sequences,epitope and fine specificity,and efficacy against lethal challenge with ST8 S. pneumoniae were determined. MAbs that bound to PPS8 exhibited gene use that was distinct from that exhibited by MAbs that bound to PC. Only PPS8-binding MAbs that did not bind PC were protective in mice. All 13 MAbs used germ line variable-region heavy (V(H)) and light (V(L)) chain genes,with no evidence of somatic hypermutation. Our data reveal a relationship between PPS specificity and V(H) gene use and MAb efficacy in mice. These findings provide insight into the relationship between antibody molecular structure and function and hold promise for the development of novel surrogates for pneumococcal vaccine efficacy. View Publication

Deriving lung progenitors from patient-specific pluripotent cells is a key step in producing differentiated lung epithelium for disease modeling and transplantation. By mimicking the signaling events that occur during mouse lung development,we generated murine lung progenitors in a series of discrete steps. Definitive endoderm derived from mouse embryonic stem cells (ESCs) was converted into foregut endoderm,then into replicating Nkx2.1+ lung endoderm,and finally into multipotent embryonic lung progenitor and airway progenitor cells. We demonstrated that precisely-timed BMP,FGF,and WNT signaling are required for NKX2.1 induction. Mouse ESC-derived Nkx2.1+ progenitor cells formed respiratory epithelium (tracheospheres) when transplanted subcutaneously into mice. We then adapted this strategy to produce disease-specific lung progenitor cells from human Cystic Fibrosis induced pluripotent stem cells (iPSCs),creating a platform for dissecting human lung disease. These disease-specific human lung progenitors formed respiratory epithelium when subcutaneously engrafted into immunodeficient mice. View Publication

To better understand transcriptional regulation during human oogenesis and preimplantation development,we defined stage-specific transcription,which highlighted the cleavage stage as being highly distinctive. Here,we present multiple lines of evidence that a eutherian-specific multicopy retrogene,DUX4,encodes a transcription factor that activates hundreds of endogenous genes (for example,ZSCAN4,KDM4E and PRAMEF-family genes) and retroviral elements (MERVL/HERVL family) that define the cleavage-specific transcriptional programs in humans and mice. Remarkably,mouse Dux expression is both necessary and sufficient to convert mouse embryonic stem cells (mESCs) into 2-cell-embryo-like ('2C-like') cells,measured here by the reactivation of '2C' genes and repeat elements,the loss of POU5F1 (also known as OCT4) protein and chromocenters,and the conversion of the chromatin landscape (as assessed by transposase-accessible chromatin using sequencing (ATAC-seq)) to a state strongly resembling that of mouse 2C embryos. Thus,we propose mouse DUX and human DUX4 as major drivers of the cleavage or 2C state. View Publication

FMS-related tyrosine kinase 3 ligand (FLT3L),encoded by FLT3LG,is a hematopoietic factor essential for the development of natural killer (NK),B cells,and dendritic cells (DCs) in mice. We describe three humans homozygous for a loss-of-function FLT3LG variant,with a history of various recurrent infections,including severe cutaneous warts. The patients’ bone marrow was hypoplastic,with low levels of hematopoietic progenitors,particularly myeloid and B-cell precursors. Counts of B cells,monocytes,and DCs were low in the patients’ blood,whereas the other blood subsets,including NK cells,were affected only moderately,if at all. The patients had normal counts of Langerhans cells and dermal macrophages in the skin but lacked dermal DCs. Thus,FLT3L is required for B-cell and DC development in mice and humans. However,unlike its murine counterpart,human FLT3L is required for the development of monocytes but not NK cells. View Publication

In bone marrow,cell numbers are balanced between production and loss. After chemotherapy,blood cell counts decrease initially but later recover as hematopoietic progenitor cells expand,although the mechanisms underlying this recovery are still unclear. We investigated the influence of red blood cells (RBCs) on hematopoietic stem cell (HSC) function during bone marrow recovery. Following chemotherapy,RBC concentrations in bone marrow peaked on day 5 posttreatment,coinciding with the recovery of hematopoiesis. Coculture of HSCs with RBCs resulted in a significant increase in hematopoiesis. Direct contact between RBCs and HSCs was essential for enhancement of hematopoiesis,and HSCs precultured with RBCs resulted in greater numbers of donor‐derived mature hematopoietic cells after transplantation. RNA‐sequencing analysis showed that Hes1 was the most significantly upregulated transcription factor in RBC coculture,and the response to RBC‐induced hematopoiesis of Hes1‐deficient HSCs was reduced. These findings imply a role of RBCs and Hes1 in the enhancement of hematopoietic recovery following bone marrow stress. View Publication

Human amniotic membrane is a standard substratum used to culture limbal epithelial stem cells for transplantation to patients with limbal stem cell deficiency. Various methods were developed to decellularize amniotic membrane,because denuded membrane is poorly immunogenic and better supports repopulation by dissociated limbal epithelial cells. Amniotic membrane denuding usually involves treatment with EDTA and/or proteolytic enzymes; in many cases additional mechanical scraping is required. Although ensuring limbal cell proliferation,these methods are not standardized,require relatively long treatment times and can result in membrane damage. We propose to use 0.5 M NaOH to reliably remove amniotic cells from the membrane. This method was used before to lyse cells for DNA isolation and radioactivity counting. Gently rubbing a cotton swab soaked in NaOH over the epithelial side of amniotic membrane leads to nearly complete and easy removal of adherent cells in less than a minute. The denuded membrane is subsequently washed in a neutral buffer. Cell removal was more thorough and uniform than with EDTA,or EDTA plus mechanical scraping with an electric toothbrush,or n-heptanol plus EDTA treatment. NaOH-denuded amniotic membrane did not show any perforations compared with mechanical or thermolysin denuding,and showed excellent preservation of immunoreactivity for major basement membrane components including laminin α2,γ1-γ3 chains,α1/α2 and α6 type IV collagen chains,fibronectin,nidogen-2,and perlecan. Sodium hydroxide treatment was efficient with fresh or cryopreserved (10% dimethyl sulfoxide or 50% glycerol) amniotic membrane. The latter method is a common way of membrane storage for subsequent grafting in the European Union. NaOH-denuded amniotic membrane supported growth of human limbal epithelial cells,immortalized corneal epithelial cells,and induced pluripotent stem cells. This simple,fast and reliable method can be used to standardize decellularized amniotic membrane preparations for expansion of limbal stem cells in vitro before transplantation to patients. View Publication