Ternary phase diagrams of a thermoreversible chelating non-ionic surfactant.

The behaviour of a di-block molecule associating a diamide group and a non-ionic surfactant (C(i)E(j)) is determined in a ternary surfactant/water/oil/system. Its properties are compared to the ones of a parent non-ionic surfactant C(i)E(j) through the limits of boundaries in the phase prisms. The existence of a stable microemulsion single phase in a defined temperature and concentration range is demonstrated. The extension of the microemulsion domain is limited by the presence of a gel, containing lyotropic liquid crystals as gelling agents. Temperature dependence is observed for the curvature below the temperature of zero spontaneous curvature, but the ternary system cannot produce reverse microemulsion as observed with classical C(i)E(j). The decrease of the mean curvature with temperature is inhibited by the presence of the diamide as a grafted complexing group. Liquid-liquid extraction processes with this type of surfactant are possible, but will require the presence of at least a fourth component to enlarge the water in an oil microemulsion domain.

Sequence divergence of measles virus haemagglutinin during natural evolution and adaptation to cell culture.

Phylogenetic analysis of the sequence of the H gene of 75 measles virus (MV) strains (32 published and 43 new sequences) was carried out. The lineage groups described from comparison of the nucleotide sequences encoding the C-terminal regions of the N protein of MV were the same as those derived from the H gene sequences in almost all cases. The databases document a number of distinct genotype switches that have occurred in Madrid (Spain). Well-documented is the complete replacement of lineage group C2, the common European genotype at that time, with that of group D3 around the autumn of 1993. No further isolations of group C2 took place in Madrid after this time. The rate of mutation of the H gene sequences of MV genotype D3 circulating in Madrid from 1993 to 1996 was very low (5 x 10(-4) per annum for a given nucleotide position). This is an order of magnitude lower than the rates of mutation observed in the HN genes of human influenza A viruses. The ratio of expressed over silent mutations indicated that the divergence was not driven by immune selection in this gene. Variations in amino acid 117 of the H protein (F or L) may be related to the ability of some strains to haemagglutinate only in the presence of salt. Adaptation of MV to different primate cell types was associated with very small numbers of mutations in the H gene. The changes could not be predicted when virus previously grown in human B cell lines was adapted to monkey Vero cells. In contrast, rodent brain-adapted viruses displayed a lot of amino acid sequence variation from normal MV strains. There was no convincing evidence for recombination between MV genotypes.

Temporal and geographical distribution of measles virus genotypes.

The nucleotide sequence encoding the C terminus of the nucleocapsid protein of measles virus (MV) is the most variable in the genome. The sequence of this region is reported for 21 new MV strains and for virus RNA obtained from cases of subacute panencephalitis (SSPE) tissue. The nucleotide sequence of a total of 65 MV strains has been analysed using the CLUSTAL program to determine the relationships between the strains. An unrooted tree shows that eight different genotypes can be discerned amongst the sequences analysed so far. The data show that the C-terminal coding sequence of the nucleocapsid gene, although highly variable between strains, is stable in a given strain and does not appear to diverge in tissue culture. It therefore provides a good 'signature' sequence for specific genotypes. The sequence of this region can be used to discriminate new imported viruses from old 'endemic' strains of MV in a geographical area. The different genotypes are not geographically restricted although some appear to be the mainly 'endemic' types in large areas of the world. In global terms there appears to be at least four cocirculating genotypes of MV. The low level of divergence in the Edmonston lineage group isolated before 1970 indicates that some isolates are probably laboratory contaminants. This applies to some SSPE isolates such as the Hallé, Mantooth and Horta-Barbosa strains as well as some wild-type isolates from that period.

Receptor usage and differential downregulation of CD46 by measles virus wild-type and vaccine strains.

Recently, two cell surface molecules, CD46 and moesin, have been found to be functionally associated with measles virus (MV) infectivity of cells. We investigated the receptor usage of MV wild-type, subacute sclerosing panencephalitis, and vaccine strains and their effect on the down-regulation of CD46 after infection. We found that the infection of human cell lines with all 19 MV strains tested was inhibitable with antibodies against CD46. In contrast, not all strains of MV led to the downregulation of CD46 following infection. The group of CD46 non-downregulating strains comprised four lymphotropic wild-type isolates designated AB, DF, DL, and WTF. Since the downregulation of CD46 is caused by interaction with newly synthesized MV hemagglutinin (MV-H), we tested the capability of recombinant MV-H proteins to downregulate CD46. Recombinant MV-H proteins of MV strains Edmonston, Halle, and CM led to the down-regulation of CD46, whereas those of DL and WTF did not. This observed differential downregulation by different MV strains has profound consequences, since lack of CD46 on the cell surface leads to susceptibility of cells to complement lysis. These results suggest that lymphotropic wild-type strains of MV which do not downregulate CD46 may have an advantage for replication in vivo. The relatively weak immune response against attenuated vaccine strains of MV compared with wild-type strains might be related to this phenomenon.

A new synthesis of 6-O-acylsucroses and of mixed 6,6'-di-O-acylsucroses.

Various 6-O-acylsucroses were synthesized in good yields from unprotected sucrose in N,N-dimethylformamide and the appropriate 3-acylthiazolidine-2-thiones 6 or 3-acyl-5-methyl-1,3,4-thiadiazole-2(3H)-thiones 7. A selective ionization of the free sugar by sodium hydride or triethylamine, followed by acylation with 6, gave 2-O-acylsucroses which were subjected in situ to intramolecular isomerizations using 1,8-diazabicyclo[5.4.0]undec-7-ene (DBU) or an aqueous solution of triethylamine to yield 6-O-acylsucroses. The later were otherwise obtained directly when sucrose was acylated with 6 or 7 in the presence of DBU. Moreover, mixed 6,6'-di-O-acylsucroses were readily obtained from 6'-monoacylates by using a Mitsunobu reaction without involving the concomitant formation of the 3',4'-epoxide.

A comparison of nucleotide sequences of measles virus L genes derived from wild-type viruses and SSPE brain tissues.

The nucleotide sequences of the large protein (L) gene derived from two wild-type measles viruses (MV) and two SSPE brain-derived viruses have been determined. All sequences have single large open reading frames encoding 2183 amino acid residues. The deduced L proteins are well conserved and the proposed functional domains which have been identified for rhabdo- and paramyxoviruses are completely conserved in all strains. The degree of variability of L proteins is the lowest of all structural proteins of MV, reflecting its role in virus reproduction and persistence. Biased hypermutation was not observed in the L genes derived from SSPE brain tissue. None of the nucleotide changes can be associated with the attenuated phenotype of the Edmonston vaccine viruses.

Measles virus-specific dsRNAs are targets for unwinding/modifying activity in neural cells in vitro.

Biased hypermutation events found predominantly in the matrix gene of measles virus isolated from persistent human CNS infections have been attributed to the action of a cellular unwinding/modifying activity (UMA). To define the level and distribution of this activity in brain cells, fractionated extracts were prepared from the nuclei and cytoplasm of human glioblastoma (D-54, U-251) and neuroblastoma (IMR-32, SKN-MC) cells and analyzed for their ability to modify synthetic dsRNAs specific for the measles virus (MV) matrix (M) gene. On a quantitative basis we could show that the activity localized to both the nuclear and cytoplasmic compartments of both cell types analyzed independent of cell proliferation. The presence of significant levels of UMA in the cytoplasm of human brain cells following growth arrestment in vitro with retinoic acid supports the interpretation that UMA may contribute to the attenuation of MV gene functions during the primary infection of brain cells, thereby supporting the establishment of virus persistence.

vpu and env sequence variability of HIV-1 isolates from Tanzania.

PIP: The nucleotide sequences of an approximately 1400-base pair (bp) region spanning the vpu and env (V1-V3) genes of 9 HIV-1 isolates originating from Tanzania were determined. Peripheral blood lymphocyte (PBL) specimens were obtained in 1988 from urban patients with clinical signs of AIDS attending the Muhimbili Medical Center, Dar es Salaam, Tanzania. 9 samples (TZ005, TZ012, TZ016, TZ017, TZ023, TZ030, TZ053, TZ064, and TZ112) were randomly chosen for virus isolation by cocultivation with HIV-negative donor PBLs. Viral DNA sequences between the positions 5543 and 6956 were amplified by polymerase chain reaction (PCR), using 2 sets of primer pairs, subcloned into a Bluescript vector, and sequenced on both strands. Sequence analysis revealed vpu and env open reading frames (ORFs) for all clones, except 2 that had a missense mutation in vpu (TZ016) or env (TZ017). The vpu sequences showed a high degree of homology among all isolates, with TZ005, TZ016, and TZ030 having identical sequences. Phylogenetic tree analysis indicated that most of the isolates fell into the D subtype. The analysis of the deduced protein sequences of the V3 loop, which contains the principal neutralizing domain (PND), revealed an amino acid pattern closely related, but not identical, to known African HIV isolates. The GSGQ motif was found in 4 isolates (TZ005, TZ030, TZ053, and TZ080), and the GPGQ motif was found in 2 cases (TZ016 and TZ017). The V3 variability of the HIV isolates was greater than previously reported for Tanzanian viruses. Although AIDS viruses are believed to have originated from Africa, little is known about the sequence variability of African HIV-1 isolates, compared to the information available on Euro-American viruses. The variability of East African HIV-1 isolates are consistent with the view that these are rapidly changing viruses for which further variants are likely to be discovered.^ieng

Generation and properties of measles virus mutations typically associated with subacute sclerosing panencephalitis.

Subacute sclerosing panencephalitis (SSPE), a very rare but lethal disease caused by measles viruses (MV) persisting in the human central nervous system (CNS) is characterized by lack of viral budding, reduced expression of the viral envelope proteins and spread of MV genomes through the CNS despite massive immune responses. The five major MV genes from several SSPE cases were cloned and sequenced, the two transmembrane envelope glycoproteins hemagglutinin (H) and fusion protein (F) were expressed and their maturation, cellular localization and functionality analyzed. We conclude that 1) mutations in the MV genes arise not only individually, by errors of the MV polymerase, but also in clusters as hypermutations, presumably due to RNA unwinding/modifying activity altering accidentally formed double-stranded RNA regions, 2) MVs spread in SSPE brains after clonal selection, 3) the MV matrix (M) gene is most heavily mutated and dispensable, 4) the two genes encoding envelope transmembrane proteins give rise to functional but altered proteins (typically F is heavily altered in its cytoplasmic domain), 5) H protein is transported poorly to the cell surface, 6) F and H proteins maintain tightly interdepending fusion functions, presumably to allow local cell fusion and MV ribonucleoprotein (RNP) spread through the CNS.

Transcription inhibition and other properties of matrix proteins expressed by M genes cloned from measles viruses and diseased human brain tissue.

Ribonucleoprotein (RNP) cores extracted from virions of wild-type (Edmonston strain) measles virus (MV) or obtained from MV-infected cells (cRNP) were shown to be capable of transcribing RNA in vitro but at relatively low efficiency. The tightly bound matrix (M) protein could be effectively removed from virion RNP (vRNP) and from cRNP by exposure to buffers of high ionic strength (0.5 to 1.0 M KCl) but only at pH 8.0 or higher. The vRNP and cRNP cores complexed with M protein exhibited markedly reduced transcriptional activity at increasing concentrations, whereas vRNP and cRNP cores free of M protein exhibited linear and substantially higher transcriptional activity; these data suggest that M protein is the endogenous inhibitor of MV RNP transcription. M-gene cDNA clones derived from three strains of wild-type (wt) MV and 10 clones from mRNAs isolated from the brain tissue of patients who had died from subacute sclerosing panencephalitis (SSPE) and from measles inclusion body encephalitis (MIBE) were recloned in the pTM-1 expression vector driven by the bacteriophage T7 RNA polymerase expressed by a coinfecting vaccinia virus recombinant. All 10 mutant SSPE and MIBE clones expressed in vitro and in vivo M proteins that reacted with monospecific anti-M polyclonal antibody and migrated on polyacrylamide gels to positions identical to or only slightly different from those of the M proteins expressed by wt MV clones. When reconstituted with cRNP cores, the three expressed wt M proteins and 6 of the 10 mutant-expressed M proteins showed equivalent capacity to down-regulate MV transcription. Three of the M proteins from SSPE clones and one from the MIBE clone showed little or no capacity to down-regulate transcription when reconstituted with cRNP cores. The only plausible explanations for loss of transcription inhibition activity by the four SSPE/MIBE M proteins were exceedingly high degrees of hypermutations leading to U-->C transitions and cloning-corrected mutations in the initiator codon (ATG-->ACG) of the four M genes. However, only the hypermutated M protein expressed by the MIBE cDNA clone exhibited virtually no capacity to bind cRNP cores in a reconstitution assay. These experiments provide some preliminary data to support the hypothesis that MV encephalitis may result from certain selective mutations in the M gene.

Antigenic determinants of measles virus hemagglutinin associated with neurovirulence.

The biological activity of monoclonal antibodies specific for the hemagglutinin protein of measles virus strain CAM recognizing six epitope groups according to their binding properties to measles virus strain CAM/R401 was investigated in vivo in our rat model of measles encephalitis. When injected intraperitoneally into measles virus-infected suckling rats, some monoclonal antibodies modified the disease process and prevented the necrotizing encephalopathy seen in untreated animals. The analysis of measles virus brain isolates revealed emergence of variants that resisted neutralization with the passively transferred selecting monoclonal antibody but not with other monoclonal antibodies. Monoclonal antibody escape mutants were also isolated in vitro, and their neurovirulence varied in the animal model. Sequence data from the hemagglutinin gene of measles virus localize a major antigenic surface determinant of the hemagglutinin protein between amino acid residues 368 and 396, which may be functionally important for neurovirulence. The data indicate that the interaction of antibodies with the measles virus H protein plays an important role in the selection of neurovirulent variants. These variants have biological properties different from those of the parent CAM virus.

Clonal expansion of hypermutated measles virus in a SSPE brain.

Nucleotide sequence analysis was carried out to study genes encoding the matrix (M) protein of measles virus (MV) from several regions of the brain of a case of subacute sclerosing panencephalitis. This analysis revealed the presence of MV with "wild-type" sequences as well as variants which had undergone at least five biased hypermutation events (U to C and A to G in the positive strand sequences). Despite the presence of MV variants with genes encoding the intact matrix protein open reading frame, M protein could not be detected in any of the brain regions. The distribution of virus variants was studied by cDNA cloning and sequence analysis and by in situ hybridization. The hypermutated viruses appeared to expand clonally throughout the brain of patient B.

Constant and variable regions of measles virus proteins encoded by the nucleocapsid and phosphoprotein genes derived from lytic and persistent viruses.

The nucleotide sequences of the N and P genes of two wild type measles virus strains JM and CM in two distinct lineages of the virus have been analyzed and compared with those of other MV strains in order to assess which parts of the internal proteins are variable. Most variations in the P protein appear to occur in the N-terminus, while the middle part of the protein (residues 201-350) and the C-terminus are conserved. The C protein varies primarily in its N-terminal amino acids. The C-terminal amino acid residues of the V protein, which are unique to this protein, do not vary significantly between measles virus strains. The data show that evolutionary trees determined on the basis of the N, P, or M genes are the same and that probably no recombination has taken place between these genes in the strains investigated so far. The M protein appears to be less variable than the other genes and thus changes observed in this gene in some SSPE and MIBE viruses may be of greater significance than were assumed earlier.

Subacute sclerosing panencephalitis is typically characterized by alterations in the fusion protein cytoplasmic domain of the persisting measles virus.

Our recent extensive analysis of three cases of subacute sclerosing panencephalitis (SSPE) revealed intriguing genetic defects in the persisting measles virus (MV): the fusion (F) genes encoded truncated cytoplasmic F protein domains (Cattaneo et al., Virology 173, 415-425, 1989). Now this MV genomic region has been investigated in eight additional SSPE cases by PCR amplification, replacement cloning into a vector containing the F gene of a lytic MV, in vitro expression, and sequencing. In all cases at least part of the clones showed mutations leading to F protein truncations, elongation, or nonconservative amino acid replacements. It is proposed that alteration of the F protein cytoplasmic domain may play a critical role in the development of SSPE.

Nucleotide sequence of the genes encoding the matrix protein of two wild-type measles virus strains.

The nucleotide sequences of the matrix protein (M) genes of two wild-type measles virus (MV) isolates (JM and CM) have been determined and shown to differ in 56 positions; 31 of these differences are located in the non-coding region and 25 in the coding region of the gene. Most (80%) of the mutations in the coding region are changes to the third base of a codon. A maximum parsimony analysis of the available M gene nucleotide sequences allowed the construction of a tree with at least three lineages or subtypes. One wild-type strain (JM) was very similar to a subacute sclerosing panencephalitis virus strain (case B); the second wild-type strain, CM, showed nucleotide sequence similarity with MV from a case of measles inclusion body encephalitis. Both wild-type virus sequences are distinct from those so far determined for vaccine strains.

Identification of several different lineages of measles virus.

The sequences of a region of the nucleocapsid protein gene, between nucleotides 1231 and 1686, encoding the C-terminal 151 amino acid residues of the nucleocapsid protein have been determined for 16 strains of measles virus. Analysis of this region showed that it is highly divergent (up to 7.2% divergence in the nucleotide sequence and 10.6% divergence in the amino acid sequence between most distant strains) and that several lineages of measles virus can be found to co-circulate at a given time. Some of the lineages show geographical restriction. The results for measles virus are similar to those reported for other human paramyxoviruses such as mumps virus, parainfluenza type 3 virus and the avian Newcastle disease virus.

Restricted expression of measles virus in primary rat astroglial cells.

Persistent infection of the central nervous system (CNS) with measles virus (MV) is associated with characteristic restrictions of viral envelope gene expression as documented in subacute sclerosing panencephalitis (SSPE), measles inclusion body encephalitis (MIBE), or subacute measles encephalitis (SAME) in rats. To determine whether these restrictions are the result of a long lasting virus-host cell interaction or primarily based on intrinsic brain cell factors MV gene expression was analyzed in primary rat astroglial cultures. It could be shown that MV infection of these cells led to a defective replication cycle with a reduced synthesis of viral envelope proteins and a steep expression gradient of the monocistronic viral mRNAs similar to the findings in brain tissue of SSPE, MIBE, and SAME. This restriction of MV gene expression has not been observed in cells of nonneural origin. We suggest that this cell-type specific regulation of MV gene expression contributes to early events in the establishment of MV persistent infection in CNS tissue.

Antibody-induced restriction of viral gene expression in measles encephalitis in rats.

After infection with the neurotropic CAM/RBH measles virus (MV) strain, newborn Lewis rats succumb to an acute necrotizing encephalopathy. Passive transfer of neutralizing monoclonal antibodies directed against MV hemagglutinin prevented this disease process. Instead, either an antibody-induced acute or subacute measles encephalitis developed after a prolonged incubation period with a restricted expression of MV structural proteins. The molecular biological analysis of MV gene expression in brain tissue of rats treated with MV-neutralizing antibodies revealed a transcriptional restriction of viral mRNAs, particularly for the envelope proteins, leading to a steep expression gradient. Based on in situ hybridization, it was concluded that the efficiency of transcription of viral genes at the single-cell level is reduced compared with that of controls. Passive immunization with monoclonal antibodies directed against other MV structural proteins proved to be ineffective. Similar results were obtained in MV-infected weanling Brown Norway rats. These rats developed a clinically silent encephalitis in the presence of high titers of neutralizing antibodies. In such animals, a pronounced attenuation of the viral gene transcription was observed. These findings indicated that neutralizing antibodies directed against a restricted set of specific antigenic sites on the viral hemagglutinin protein expressed on cell membranes exert a modulating effect on the viral gene expression at the level of transcription. This phenomenon contributes to the switch from the acute cytopathic effect to a persistent infection in the central nervous system.

Mutated and hypermutated genes of persistent measles viruses which caused lethal human brain diseases.

Persistent measles viruses (MVs) causing lethal human brain diseases are defective, and the structure of several mutated matrix genes has been elucidated previously. The present study of four persistent MVs revealed a high number of differences from a consensus sequence also in other genes. Amino acid changes accumulated in the carboxyl terminus of the nucleocapsid protein and in the amino terminus of the phosphoprotein, but did not significantly alter these products, which are implicated in viral replication and transcription. The contrary is true for the envelope glycoproteins: In three of four cases, mutations caused partial deletion of the short intracellular domain of the fusion protein, most likely compromising efficient viral budding. Moreover, in the hemagglutinin gene of a strain showing strongly reduced hemadsorption, 20 clustered A to G mutations, resulting in 16 amino acid changes, were detected. This hypermutation might be due to unwinding modification of a part of the MV RNA genome accidentally present in a double-stranded form. Finally, we classified four lytic and seven persistent MV strains on the basis of their sequences. Surprisingly, the four lytic viruses considered belong to the same class. The persistent viruses form more loosely defined groups, which all differ from the vaccine strain Edmonston.