Cellular distribution of HIV-1 Nef protein was studied by expressing the protein in mammalian cells. Cell extracts were fractionated by low- and high-speed centrifugation and by nonionic detergents. Two Nef-related proteins were expressed in COS cells, Nef-27kD and Nef-25kD. Nef-27kD, an N-myristoylated form of Nef, was found in the cytosol and in association with a particulate fraction of the cytoplasm. Treatment of the particulate cytoplasmic fraction with nonionic detergents, using three different protocols designed to isolate the cytoskeleton matrix, indicated that part of Nef was sensitive and part was resistant to detergent solubilization. These two cellular fractions represent membrane- and cytoskeleton-associated Nef. Nef-25kD, initiated from an in-frame AUG codon, was not modified with myristic acid at the amino terminus. Consequently, this protein was present in a soluble form in the cytosol. Furthermore, a mutant of Nef-27kD, in which the myristoylation signal is deleted, appears as a cytoplasmic soluble protein. To determine domains in Nef that are responsible for its subcellular distribution, successive internal deletions of 14-20 amino acids were introduced at the N-terminal portion of the protein. Five mutants were evaluated with respect to their cellular localization. One mutant (pSVLA-5), from which amino acids 73-88 were deleted, did not copurify with the detergent-insoluble fraction. The protein was, however, present in the particulate cytoplasmic fraction, presumably in association with membranes. Taken together, these results suggest that N-myristoylation of Nef affects its association with both membranes and cytoskeleton.(ABSTRACT TRUNCATED AT 250 WORDS)
Expression of the human immunodeficiency virus type 1 nef gene was studied by in vitro transcriptiontranslation and by transfection into monkey COS cells. Two Nef-related peptides, of 27 and 25 kDa, were identified by immunoprecipitation with anti-Nef antibodies. The relation between these two proteins was determined by metabolically labeling transfected COS cells and by deleting the initiator methionine of nef. We found that the 25-kDa polypeptide is not a cleavage product of 27-kDa Nef but rather is initiated from an internal ATG 57 bases downstream from the Nef initiation site. Myristoylation of the 27-kDa but not of the 25-kDa Nef was demonstrated by the contranslational modification of Nef in an in vitro reticulocyte translation system. The myristoylation pattern of the two Nef polypeptides further implies that the 25-kDa polypeptide lacks the amino terminus of 27-kDa Nef. Cellular localization of the various forms of Nef was studied in transiently transfected COS cells. Myristoylation was found to be necessary for membrane association of Nef. Myristoylation-deficient 27-kDa Nef mutant and 25-kDa Nef were confined to the soluble cytoplasmic fraction of transfected cells, whereas part of the wild-type 27-kDa Nef was membrane attached.
nef genes from human immunodeficiency virus type 1 isolates BH10 and LAV1 (lymphadenopathy-associated virus type 1) were expressed in Escherichia coli under the deo operon promoter. The two proteins found in the soluble compartment of the bacterial lysate were purified by ion-exchange column chromatography to apparent homogeneity. Determination of the amino-terminal sequence revealed glycine as the first amino acid in the Nef protein, indicating removal of the initiator methionine during expression in E. coli. Under native conditions, the recombinant Nef protein is a monomer of 23 kilodaltons. In denaturing polyacrylamide gels, however, BH10 and LAV1 Nef proteins migrate as 28 and 26 kilodaltons, respectively. GTP binding and GTPase activity were monitored during Nef protein purification. These activities did not copurify with the recombinant Nef protein from either the BH10 or the LAV1 isolate. Purified recombinant BH10 Nef protein was used as an immunogen to elicit mouse monoclonal antibodies. A series of monoclonal antibodies were obtained which reacted with sequences at either the amino or carboxy terminus of Nef. In addition, a conformational epitope reacting with native BH10, but not LAV1, Nef was isolated.
A nucleotide sequence analysis carried out on the envelope gene of the anemia-inducing strain of the Friend spleen focus-forming virus (F-SFFVA) reveals that its product has some unique features in common with previously described polycythemia-inducing strains of F-SFFV (F-SFFVp). (i) It contains an amino terminus that is highly related to the gp7O of mink cell focus-inducing viruses, (ii) it is a fusion protein containing the amino terminus of gp7O and the carboxy terminus of pl5E, and (iii) it lacks the R-peptide normally found at the carboxy end of the pl5E region. Although the envelope genes of F-SFFVA and F-SFFVp are quite similar overall, they do show sequence variation, particularly at the 3' end in the pl5E-related region. These variations may contribute to previously observed differences in the response of F-SFFVp-and F-SFFVA-infected erythroid cells to regulatory hormone or to differences in the way the envelope glycoproteins are processed. The long terminal repeat regions of F-SFFVA and the Lilly-Steeves strain of F-SFFVp were also sequenced and compared with each other and with a previously published sequence of another F-SFFVp long terminal repeat. The sequences were found to be reasonably similar to each other but different from their ecotropic parent, Friend murine leukemia virus, as a result of a deletion of one copy of the direct tandem repeat in the enhancer regions. The observation that all SFFVs have this common change in the long terminal repeat enhancer region raises the possibility that it is required for pathogenicity.
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