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Disease
Symptom
Drug
Enzyme
Compound
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Target Concepts:
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Query: UMLS:C0153470 (
Spleen
)
4,015
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Spleen
cells which replicate murine cytomegalovirus (MCMV) during acute infection in vivo were identified by electron microscopy and combined immunocytochemical staining and in situ cytohybridization. Most infected cells, as defined by in situ hybridization for viral RNA with MCMV-specific probes, were shown to be positive for
factor VIII
-related antigen and negative for Ia, Thy-1, and F4/80 antigens. Electron microscopic ultrastructural observations indicated that the infected cells in the spleen are predominantly sinusoidal-lining cells. We also studied reactivation of MCMV from latently infected mice by cocultivation of spleen cells with mouse embryo fibroblasts. Virus was only recovered from cells in preparations of stromal (or reticular) fragments, and not from spleen cell suspensions. Neither removal of immunoglobulin-bearing cells from the stromal fragments by panning nor depletion of Thy-1- and Ia-bearing stromal cells by treatment with monoclonal antibodies and complement reduced the frequency of reactivation of MCMV. These data suggest that T lymphocytes, mature B lymphocytes, and other Ia-bearing cells are not predominant reservoirs of latent MCMV.
...
PMID:Pathogenesis of murine cytomegalovirus infection: identification of infected cells in the spleen during acute and latent infections. 282 94
VIII:C was purified from intermediate-purity concentrate by adsorption on polyelectrolyte E5 and affinity chromatography on Sepharose/anti-VIIIR:Ag. The highly purified VIII:C preparation (sp. act. 1598 U/mg) was used to immunize Balb-C mice.
Spleen
cells from a mouse with a serum antibody titer of 963 U/ml were fused with P3 NSI mouse myeloma cells. Hybrid clones were screened by a coagulation inhibition assay and by a four-layer antibody adsorption procedure. Nine monoclonal antibodies specific to VIII:C were produced. Five of these antibodies have been cloned and grown in mouse ascitic fluid. Antibody titers from ascitic fluid ranged from 35 to 82,000 BU/ml. The antibodies, when radiolabeled, form a high-molecular-weight complex with antigens present in normal plasma and
factor VIII
concentrate, but not when incubated with CRM-negative hemophilic plasma. A two-site assay using a combination of monoclonal antibodies is able to detect VIII:CAg in normal plasma and in
factor VIII
concentrate. Sensitive two-site immunoradiometric assays using monoclonal antibodies as the solid phase have been set up.
...
PMID:Monoclonal antibodies to human procoagulant factor VIII. 640 38
Spleen
cells of a BALB/c mouse immunized with
factor VIII
procoagulant activity (VIII:C) (isolated by affinity chromatography) were fused with mouse myeloma cells (P3 x 63 Ag8). After the fusion 12/32 wells produced an inhibitor to VIII:C. Cells from one well (1B3) were subcloned four times in order to isolate the hybridoma that produces the anti-VIII:C antibody. Injection of hybridoma cells in pristane pretreated BALB/c mice results in anti-VIII:C titers of 5000-10,000 Bethesda U/ml. Analysis of the produced immunoglobulin demonstrated heavy chains of IgG1 (produced by the myeloma cell line) and IgG2b subclass. The 1B3 antibody neutralizes VIII:C in LMW FVIII, crysosupernatant, cryoprecipitate, and normal plasma. It was found that binding of the IgG to FVIII results in a delay in its activation and not in an inhibition of its cofactor activity. The antibody removes VIII:C from pooled normal plasma when coupled to Sepharose; when coupled to plastic tubes, it binds VIIICAG from isolated VIII:C, purified FVIII, and pooled normal plasma; it does not bind VIIIR:AG, fibrogen, or serum VIIICAG. The 1B3 antibody can be used successfully in an IRMA for VIIICAG.
...
PMID:A monoclonal antibody to VIII:C produced by a mouse hybridoma. 679 73
Gene therapy for hemophilia A would be facilitated by development of smaller expression cassettes encoding
factor VIII
(
FVIII
), which demonstrate improved biosynthesis and/or enhanced biologic properties. B domain deleted (BDD)
FVIII
retains full procoagulant function and is expressed at higher levels than wild-type
FVIII
. However, a partial BDD
FVIII
, leaving an N-terminal 226 amino acid stretch (N6), increases in vitro secretion of
FVIII
tenfold compared with BDD-
FVIII
. In this study, we tested various BDD constructs in the context of either wild-type or codon-optimized cDNA sequences expressed under control of the strong, ubiquitous
Spleen
Focus Forming Virus promoter within a self-inactivating HIV-based lentiviral vector. Transduced 293T cells in vitro demonstrated detectable
FVIII
activity. Hemophilic mice treated with lentiviral vectors showed expression of
FVIII
activity and phenotypic correction sustained over 250 days. Importantly, codon-optimized constructs achieved an unprecedented 29- to 44-fold increase in expression, yielding more than 200% normal human
FVIII
levels. Addition of B domain sequences to BDD-
FVIII
did not significantly increase in vivo expression. These significant findings demonstrate that shorter
FVIII
constructs that can be more easily accommodated in viral vectors can result in increased therapeutic efficacy and may deliver effective gene therapy for hemophilia A.
...
PMID:Codon optimization of human factor VIII cDNAs leads to high-level expression. 2104 18
