Regulation of human immunodeficiency virus env expression by the rev gene product.

A single simian virus 40 late replacement vector which expresses both the rev and envelope (env) genes of human immunodeficiency virus was used to examine the mechanism underlying the dependence of env gene expression on the rev protein. When rev was deleted from the vector, no envelope protein expression could be detected in transfected cells, and the levels of cytoplasmic env mRNA were dramatically reduced. In contrast to this, the levels of env RNA in total cellular RNA preparations were similar with or without rev coexpression, and analysis of nuclear RNA showed that the levels of nuclear env RNA were increased in the absence of rev. These results suggest that rev functions to regulate nuclear export of env mRNA. It was possible to restore env expression from the vector lacking rev by supplying rev in trans, provided that a cis-acting sequence was also present. This sequence was mapped to a 854-base-pair region within the env open reading frame, and it was shown that the sequence could be moved but that it worked only in its original orientation.     

The simian immunodeficiency virus (SIV) rev gene regulates env expression

The rev gene product is a trans-acting nuclear regulatory protein that is essential for AIDS virus replication. To define the effect of the SIV rev gene on its gp160 expression, two SV40 constructs have been made: pBC17 is a rev+env+ construct, and pBD21 is a rev-env+ construct. After transfecting the constructs into COS-1 cells, RNA, protein, syncytium formation, and monoclonal antibody blocking assays were performed. The results indicated that the SIV rev gene positively influenced the level of full-length env mRNA and was required for expression of SIV gp160.     

Identification of a cis-acting element in human immunodeficiency virus type 2 (HIV-2) that is responsive to the HIV-1 rev and human T-cell leukemia virus types I and II rex proteins.

A simian virus 40 late replacement vector encoding human immunodeficiency virus type 1 (HIV-1) gp120 (pGP120) was used to define a region within the HIV-2 genome that could work as a rev-responsive element (RRE). Our previous work showed that gp120 expression in this system required a functional RRE in cis and required the rev protein in trans (M.-L. Hammarskj?ld, J. Heimer, B. Hammarskj?ld, I. Sangwan, L. Albert, and D. Rekosh, J. Virol. 63:1959-1966, 1989). Using pGP120, we first mapped an RRE to a 1,042-base-pair (bp) Sau3a fragment in the env region of HIV-2. Both HIV-1 rev (rev1) and HIV-2 rev (rev2) could work in conjunction with this fragment. Further mapping showed that a 272-bp subfragment within the 1,042-bp region was sufficient as an RRE. Surprisingly, the smaller fragment worked only with the rev1 protein and not with its homologous rev2 protein. In addition, the rev2 protein failed to function together with the RRE from HIV-1. We also utilized this system to examine the ability of the rex genes of human T-cell leukemia virus types I and II to functionally substitute for rev. These experiments showed that complementation by both the rexI and rexII proteins required the presence of an RRE. The rex proteins worked well in conjunction with either the HIV-1 or the HIV-2 RRE (the 1,042-bp as well as the 272-bp fragment).     

Recognition of the high affinity binding site in rev-response element RNA by the human immunodeficiency virus type-1 rev protein.

The Human Immunodeficiency Virus type-1 rev protein binds with high affinity to a bubble structure located within the rev-response element (RRE) RNA in stemloop II. After this initial interaction, additional rev molecules bind to the RRE RNA in an ordered assembly process which requires a functional bubble structure, since mutations in the bubble sequence that reduce rev affinity block multiple complex formation. We have used synthetic chemistry to characterize the interaction between rev protein and its high affinity binding site. A minimal synthetic duplex RNA (RBC6) carrying the bubble and 12 flanking base pairs is able to bind rev with 1 to 1 stoichiometry and with high affinity. When the bubble structure is inserted into synthetic RNA molecules carrying longer stretches of flanking double-stranded RNA, rev forms additional complexes resembling the multimers observed with the RRE RNA. The ability of rev to bind to RBC6 analogues containing functional group modifications on base and sugar moieties of nucleoside residues was also examined. The results provide strong evidence that the bubble structure contains specific configurations of non-Watson--Crick G:G and G:A base pairs and suggest that high affinity recognition of RRE RNA by rev requires hydrogen bonding to functional groups in the major groove of a distorted RNA structure.     

A tripartite HIV-1 tat-env-rev fusion protein.

A 26 kd protein reactive with antiserum to the transactivator tat of the Human Immunodeficiency Virus Type 1 (HIV-1) has been detected in virus producing cells. The 26 kd protein is shown to be a tripartite fusion protein including coding sequences of the tat, envelope (env) and regulator of virion expression (rev) genes. Fusion of these coding sequences occurs by use of a previously undescribed exon within env. This 26 kd protein, designated tnv, has tat but no rev activity detectable with the assay used. The existence of other less abundant tat and rev related proteins in HIV-1 producing cells is also noted.     

A novel human immunodeficiency virus type 1 protein, tev, shares sequences with tat, env, and rev proteins

We have characterized a novel 28-kilodalton protein, p28tev, detected in human immunodeficiency virus type 1-infected cells. tev is recognized by both tat and rev monospecific antibodies. tev is initiated at the tat AUG and contains the first exon of tat at its amino terminus, a small portion of env in the middle, and the second exon of rev at its carboxy terminus. A cDNA clone producing tev was cloned and expressed in human cells. Sequence analysis revealed that the tev mRNA is generated by splicing to a novel exon located in the env region. This identifies a fourth class of multiply spliced human immunodeficiency virus mRNAs, produced in infected and transfected cells. tev is regulated during the virus life cycle similarly to the other regulatory proteins, tat, rev, and nef, and displays both tat and rev activities in functional assays. Since tev contains important functional domains of tat and rev and is produced very early after transfection, it may be an important regulator in the initial phase of virus expression. Another rev-related protein, p18(6)Drev, containing env and rev sequences, was characterized and was found not to have detectable rev activity.     

The rev (trs/art) protein of human immunodeficiency virus type 1 affects viral mRNA and protein expression via a cis-acting sequence in the env region.

The study of expression of several human immunodeficiency virus type 1 proviral mutants in human cells in the presence or absence of rev (trs/art) protein reveals that rev increases the levels of unspliced and env mRNA and the accumulated structural viral proteins. rev protein produced from appropriate expression vectors fully complements the rev-defective mutants. rev requires the presence of a specific cis-acting sequence for its function. This rev-responsive element sequence has been localized within a 520 base-pair fragment in the env region of human immunodeficiency virus type 1. gag and env expression is coordinately regulated by rev. Two independent cis-acting elements localized in the gag and env regions are responsible for the low levels of gag and env mRNA in the absence of rev. These elements are different than the rev-responsive element and act independent of each other.     

Methylphosphonate mapping of phosphate contacts critical for RNA recognition by the human immunodeficiency virus tat and rev proteins.

The HIV-1 regulatory proteins tat and rev are both RNA binding proteins which recognize sequences in duplex RNA which are close to structural distortions. Here we identify phosphate contacts which are critical for each binding reaction by use of a new method. Model RNA binding sites are constructed carrying substitutions of individual phosphodiesters by uncharged methylphosphonate derivatives isolated separately as Rp and Sp diastereoisomers and tested for protein binding by competition assays. In the binding of tat to the trans-activation response region (TAR), three phosphates, P21 and P22 which are adjacent to the U-rich bulge and P40 on the opposite strand, are essential and in each case both isomers inhibit binding. Similarly, in the interaction between the HIV-1 rev protein and the rev-responsive element (RRE) both methylphosphonate isomers at P103, P104, P124 and P125 interfere with rev binding. At P106, only the Rp methylphosphonate isomer is impaired in rev binding ability and it is proposed that the Rp oxygen is hydrogen-bonded to an uncharged amino acid or to a main chain hydrogen atom. Synthetic chemistry techniques also provide evidence for the conformations of non-Watson-Crick G106:G129 and G105:A131 base-pairs in the RRE 'bubble' structure upon rev binding. Almost all functional groups on the 5 bulged residues in the bubble have been ruled out as sites of contact with rev but, by contrast, the N7-positions of each G residue in the flanking base-pairs are identified as sites of likely hydrogen-bonding to rev. The results show that both tat and rev recognize the major groove of distorted RNA helixes and that both proteins make specific contacts with phosphates which are displaced from the sites of base-pair contact.     

Functional similarity of HIV-I rev and HTLV-I rex proteins: identification of a new nucleolar-targeting signal in rev protein

We have tested the functional compatibility between rev protein of human immunodeficiency virus type I (HIV-I) and rex protein of human T-cell lymphotropic virus type I (HTLV-I). Each protein recognized the other's cis-acting sequence, albeit at reduced levels. Both proteins localize predominantly in the nucleolus. We have identified a new nucleolar-targeting signal in rev protein, which was homologous to that of rex protein. The sequence [35-RQARRNRRRRWRERQR-50] in rev protein, when fused to the amino-terminus of beta-galactosidase, directed the hybrid protein to the cell nucleolus. A deletion mutant which lacks several amino acid residues within the signal failed to function in the CAT assay system. These results demonstrate that the nucleolar targeting signals are essential for the functions of Rev and Rex.     

Analysis of rev gene function on human immunodeficiency virus type 1 replication in lymphoid cells by using a quantitative polymerase chain reaction method.

Most detailed analyses of the human immunodeficiency virus type 1 (HIV-1) rev gene product have relied on transfection of subgenomic env constructs into cells in which amplification of the transfected DNA occurs. This was necessitated by difficulties in quantitating low-abundance HIV-1 mRNA species and in distinguishing different RNAs of similar sizes. We have modified the conventional polymerase chain reaction method for general use as an extremely sensitive procedure for quantitative analysis of RNA species. Using this method, we assessed the role of the HIV-1 rev gene in viral replication following mutagenesis of an infectious molecular clone, HIV-1JR-CSF. Following transfection of wild-type and mutant proviral constructs, we can specifically detect unspliced RNA and distinguish between the spliced tat-rev and nef mRNAs, which are not resolved by standard RNA analyses. Our results show that the rev protein of HIV-1JR-CSF simultaneously down regulates the expression of tat-rev and nef RNAs and up regulates the level of unspliced full-length HIV-1 RNA. A cis-acting element(s), located exclusively within the env sequences, is essential to exhibit this regulation. Fractionation of cells shows that the ultimate effect of Rev is to direct the appearance of unspliced or singly spliced RNAs in the cytoplasm. Models are discussed for possible mechanisms of Rev action.     

蛋白酪氨酸磷酸酶-PEST在生理调节及相关疾病中的作用

蛋白质分子中酪氨酸残基可逆性的磷酸化是细胞内信号分子传导的基本方式。两类作用相反的酶参与磷酸化的调节:蛋白酪氨酸激酶(protein tyrosinekinase,PTK)和蛋白酪氨酸磷酸酶(protein tyrosine phosphatase,PTP)。含脯氨酸-谷氨酸-丝氨酸-苏氨酸(P-E-S-T)结构域的蛋白酪氨酸磷酸酶(PTP-PEST)属于非受体型酪氨酸磷酸酶类,其本身能与多种蛋白质相互作用,并在细胞迁移、免疫细胞活化和胚胎发育等生理过程中发挥重要作用。本文对PTP-PEST的结构特点、生理功效、介导的信号传导途径和近年来PTP-PEST在疾病中的作用作一综述。     

Roles of Arabidopsis AtREV1 and AtREV7 in translesion synthesis

Plants have mechanisms for repairing and tolerating detrimental effects by various DNA damaging agents. A tolerance pathway that has been predicted to be present in higher plants is translesion synthesis (TLS), which is catalyzed by polymerases. In Arabidopsis (Arabidopsis thaliana), however, the only gene known to be involved in TLS is the Arabidopsis homolog of REV3, AtREV3, which is a putative catalytic subunit of Arabidopsis DNA polymerase zeta. A disrupted mutant of AtREV3, rev3, was previously found to be highly sensitive to ultraviolet-B (UV-B) and various DNA damaging agents. REV1 and REV7 are thought to be components of translesion synthesis in plants. In this study, we identified the Arabidopsis homologs of REV1 and REV7 (AtREV1 and AtREV7). Several mutants carrying disrupted AtREV1 and AtREV7 genes were isolated from Arabidopsis T-DNA-inserted lines. An AtREV1-disrupted mutant, rev1, was found to be moderately sensitive to UV-B and DNA cross-linkers. A rev1rev3 double mutant, like rev3, showed high sensitivity to UV-B, gamma-rays, and DNA cross-linkers. An AtREV7-disrupted mutant, rev7, was possibly sensitive to cis-diamminedichloroplatinum(II), a kind of DNA cross-linker, but it was not sensitive to acute UV-B and gamma-ray irradiation. On the other hand, the aerial growth of rev7, like the aerial growth of rev1 and rev3, was inhibited by long-term UV-B. These results suggest that a TLS mechanism exists in a higher plant and show that AtREV1 and AtREV7 have important roles in tolerating exposure to DNA-damaging agents.     

Simian immunodeficiency virus displays complex patterns of RNA splicing.

The human and simian immunodeficiency viruses encode at least six gene products that apparently serve regulatory functions. To evaluate the regulation of simian immunodeficiency virus gene expression at the level of RNA splicing, we used the polymerase chain reaction to amplify and clone cDNAs corresponding to a large array of mRNAs from infected cells. We identified mRNAs that used splice acceptor sites upstream of the initiator codons for tat, rev, vpr, nef, vif, and vpx, suggesting that these proteins may be expressed from different mRNAs. We also provide hybridization data suggesting that the same splice acceptor site may be used for both rev and env mRNAs. Furthermore, we isolated both tat and rev cDNAs that utilized three alternative splice acceptor sites at the start of coding exon 2, indicating that different versions of these proteins may be encoded. Finally, approximately 10 to 20% of simian immunodeficiency virus mRNAs spliced an intron from their untranslated 5' ends, and sequences contained within this intron constituted a portion of the tat-responsive TAR element. Thus, alternative pre-mRNA splicing adds a level of complexity to simian immunodeficiency virus expression, which may affect several levels of gene regulation.     

Independent fluctuation of human immunodeficiency virus type 1 rev and gp41 quasispecies in vivo.

The human immunodeficiency virus type 1 (HIV-1) overlapping rev and env coding sequences have been examined from sequential peripheral blood mononuclear cell DNA samples from one individual. These were the same DNA samples from which sequence data for the tat and nef/long terminal repeat loci have been derived and span a 4-year period. The rev/env sequences were established by sequencing cloned polymerase chain reaction products. The structure of the populations of rev protein sequences increased in complexity with disease, while those of the corresponding env sequences remained complex. This suggests that the rev and env populations evolved differently, probably reflecting different selection pressures. No defective rev variants encoded substitutions in residues 76 through 79, indicating that the experimental finding of down regulation of rev activity by competitive inhibition may not necessarily occur in vivo. After having analyzed three HIV loci (15% of the genome) from the same individual over 4 years, it is clear that no two loci evolved similarly, indicating the difficulties in comparing data from different loci.     

Interaction of gene HSM3 with genes of the epistatic RAD6 group in yeast Saccharomyces cerevisiae

In eukaryotes, damage tolerance of matrix DNA is mainly determined by the repair pathway under the control of the RAD6 epistatic group of genes. T this pathway is also a main source of mutations generated by mutagenic factors. The results of our recent studies show that gene HSM3 participating in the control of adaptive mutagenesis increases the frequency of mutations induced by different mutagens. Mutations rad18, rev3, and mms2 controlling various stages of the RAD6 pathway are epistatic with mutation hsm3 that decreases UV-induced mutagenesis to the level typical for single radiation-sensitive mutants. The level of mutagenesis in the double mutant srs2 hsm3 was lower than in both single mutants. Note that a decrease in the level of mutagenesis relative to the single mutant srs2 depends on the mismatch repair, since this level in the triple mutant srs2 hsm3 pms 1 corresponds to that in the single mutant srs2. These data show that the mutator phenotype hsm3 is probably determined by processes occurring in a D loop. In a number of current works, the protein Hsm3 was shown to participate in the assembly of the proteasome complex S26. The assembly of proteasomes is governed by the N-terminal domain. Our results demonstrated that the Hsm3 protein contains at least two domains; the N-terminal part of the domain is responsible for the proteasome assembly, whereas the C-terminal portion of the protein is responsible for mutagenesis.     

Mutational analysis of the human T-cell leukemia virus type I trans-acting rex gene product.

Expression of the human T-cell leukemia virus type I (HTLV-I) rex gene is a prerequisite for the expression of the retroviral structural proteins. We have generated internal deletion mutants of this 27-kDa nucleolar trans-acting gene product to define functional domains in the Rex protein. The phenotype of the various mutant proteins was tested on the homologous HTLV-I rex response element sequence and the heterologous human immunodeficiency virus type 1 (HIV-1) rev response element sequence. Our results indicate that a region between amino acid residues 55 and 132 in the 189-amino-acid Rex protein is required for Rex-mediated trans activation on both retroviral response element sequences. In addition, substitution of the Rex nuclear localization signal by a sequence of the HIV-1 rev gene product targets the Rex protein to the correct subcellular compartment required for Rex function.