In plasma, von Willebrand factor (vWf) associates with Factor VIII (FVIII); however, the site at which these proteins first interact has not been defined. Administration of 1-desamino-8-D-arginine vasopressin (DDAVP) causes a rapid, concomitant elevation in plasma levels of both vWf and FVIII, suggesting the existence of a DDAVP-releasable storage pool for both proteins. To determine whether vWf and FVIII can associate intracellularly and colocalize to storage vesicles, we transfected AtT-20 cells with vWf and FVIII expression plasmids. FVIII alone was not detectable within storage granules; however, transfection of vWf cDNA into the same cell caused FVIII to alter its intracellular trafficking and to undergo granular storage, colocalizing to the vWf-containing granules. In contrast, colocalization of FVIII was not observed when these cells were transfected with plasmids encoding defective FVIII-binding vWf mutants. Transfection of bovine endothelial cells with FVIII further demonstrated vesicular storage of FVIII with vWf in Weibel-Palade bodies. Since gene therapy of hemophilia A may ultimately target endothelium or hematopoietic stem cells, the interaction between vWf and FVIII within a secretory cell is important. Thus, vWf can alter the intracellular trafficking of FVIII from a constitutive to a regulated secretory pathway, thereby producing an intracellular storage pool of both proteins.
While studying patient plasma containing an unusual pattern of von Willebrand factor (VWF) multimers, we discovered a previously unreported phenomenon: heavy predominance of dimeric VWF. Genomic analysis revealed a new congenital mutation (Tyr87Ser) that altered the final stages of VWF biosynthesis. This mutation in the propeptide (VWFpp) resulted in synthesis of dimeric VWF with an almost complete loss of N-terminal multimerization. The multimer pattern in patient plasma appears to result from separate alleles' synthesizing wild-type or mutant (dimeric) VWF, with homodimers composing the predominant protomeric species. We have expressed VWF protein containing the Tyr87Ser mutation and analyzed the intracellular processing and resulting VWF biological functions. The expressed dimeric VWF displayed a loss of several specific functions: collagen binding, factor VIII binding, and ristocetin-induced platelet binding. However, granular storage of dimeric VWF was normal, demonstrating that the lack of multimerization does not preclude granular storage. Although the tertiary structure of the VWFpp remains unknown, the mutant amino acid is located in a region that is highly conserved across several species and may play a major role in the multimerization of VWF. Our data suggest that one function of the highly cysteine-rich VWFpp is to align the adjacent subunits of VWF into the correct configuration, serving as an intramolecular chaperone. The integrity of the VWFpp is essential to maintain the proper spacing and alignment of the multiple cysteines in the VWFpp and N-terminus of the mature
Brome mosaic virus (BMV) belongs to a "superfamily" of plant and animal positive-strand RNA viruses that share, among other features, three large domains of conserved sequence in nonstructural proteins involved in RNA replication. Two of these domains reside in the 109-kDa BMV la protein. To examine the role of la, we used biologically active cDNA clones of BMV RNA1 to construct a series of linker insertion mutants bearing two-codon insertions dispersed throughout the la gene. The majority of these mutations blocked BMV RNA replication in protoplasts, indicating that both intervirally conserved domains function in RNA replication. Coinoculation tests with a large number of mutant combinations failed to reveal detectable complementation between mutations in the N-and C-terminal conserved domains, implying that these two domains either function in some directly interdependent fashion or must be present in the same protein. Four widely spaced mutations with temperature-sensitive (ts) defects in RNA replication were identified, including a strongly ts insertion near the nucleotide-binding consensus of the helicaselike C-terminal domain. Temperature shift experiments with this mutant show that la protein is required for continued accumulation of all classes of viral RNA (positive strand, negative strand, and subgenomic) and is required for at least the first 10 h of infection. ts mutations were also identified in the 3' noncoding region of RNA1, 5' to conserved sequences previously implicated in cis for replication. Under nonpermissive conditions, the cis-acting partial inhibition of RNA1 accumulation caused by these noncoding mutations was also associated with reduced levels of the other BMV genomic RNAs. Comparison with previous BMV mutant results suggests that RNA replication is more sensitive to reductions in expression of la than of 2a, the other BMV-encoded protein involved in replication.
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