Non-M non-O HIV strains, fragments and uses

Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Amino acid sequence disclosed in whole or in part; or...

Reexamination Certificate

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C530S388750, C530S388350, C530S300000, C435S235100, C424S204100, C424S208100

Reexamination Certificate

active

06509018

ABSTRACT:

The present invention relates to retroviral strains of the non-M, non-O HIV-1 group, in particular a strain designated YBF30, to its fragments and to its uses as a diagnostic reagent and as an immunogenic agent.
The human acquired immunodeficiency viruses HIV-1 and HIV-2 are retrolentiviruses, which are viruses found in a large number of African primates. All these viruses appear to have a common ancestor; however, it is very difficult to prejudge the period at which these different viruses became separated from this precursor. Other viruses which are more distant, but which nevertheless belong to the same group, are found in other mammals (ungulates and felines).
All these viruses are associated with long infections; an absence of symptoms is the rule in monkeys which are infected naturally.
While the origin of HIV-2 appears to be clear on account of its strong homology with the Sooty Mangabey (West Africa) virus, no virus which is closely related to HIV-1 has been found in monkeys. The most closely related viruses are viruses found in two chimpanzees (CPZGAB SIV, ANT SIV).
All the lentiviruses have been found to exhibit substantial genetic variability, and the phylogenetic study of these variants, obtained from a large number of different geographic locations, has enabled 8 subtypes (clades) of HIV-1 to be distinguished, all of which are equidistant from each other. The clades are only a mathematical representation of the expression of the variability: phenetic analysis, which is based on the amino acids rather than on the nucleic acids, gives different results (Korber et al., 1994).
The demonstration of subtypes is in accord with a phylogenetic analysis which does not, to date, have any pathophysiological correlation but, instead, a geographical correspondance. This is because each subtype is mainly found in a particular geographical area. The B subtype is predominant in Europe and the United States whereas two subtypes, i.e. E and B, are found in Thailand and there is a strong correlation between the mode of transmission which, in actual fact, corresponds to a particular population and the subtype found. All the clades have been found in Africa and their distribution across the rest of the world reflects a probability of encounter between persons indulging in high-risk behaviour. The main clade, which is the main one because it is present in substantial proportions in Africa, is clade A. A very great degree of variability has been found in some African countries (G. Myers, 1994; P. M. Sharp et al., 1994). Several subtypes have been characterized in the western central African countries such as the Central African Republic (Murphy et al., 1993) and Cameroon (Nkengasong et al., 1994).
Finally, patients have been characterized who are carriers of viral variants of HIV-1, whose sera have posed detection problems for particular kits which are sold on the French market and whose confirmatory Western blots have been atypical (Loussert-Ajaka et al., 1994; Simon et al., 1994; PCT International Application WO 96/27013).
Analysis of these variants has confirmed the fact that the type 1 HIV viruses should be subdivided into two groups, i.e. the M (major) group and an O (outlier) group, which includes these isolates, as Charneau et al., 1994 had proposed. Analysis of the synonymous mutations
on-synonymous mutations ratio carried out on the sequences of the known O group viruses indicates that this new group is also ancient, even if no more ancient than the M group (Loussert-Ajaka et al., 1995). Its low prevalence to date, i.e. 8% of patients infected with HIV-1 in Cameroon (Zekeng et al., 1994) and 18 cases characterized in France, is thought to be due to factors which are purely epidemiological.
These two groups of HIV-1 form a tree which is in the shape of a double star (
FIGS. 9
to
19
). Two isolates, i.e. CPZGAB SIV, characterized from a chimpanzee from Gabon (Huet et al., 1990) and CPZANT SIV, characterized from a chimpanzee in the Antwerp Zoo, possess sequences and genetic organizations which are very closely related to HIV-1 but which do not fall within either of these two groups and form two new branches on the phylogenetic tree.
The demonstration of new variants is important for developing sufficiently sensitive and specific reagents for detecting HIV infections, that is to say reagents which do not lead to false-negative or false-positive results, and for developing compositions which are protective in regard to subtypes which do not belong either to the M group or to the O group.
Consequently, the applicant has set itself the objective of providing a non-M, non-O strain, as well as sequences derived from this strain, which are suitable for detecting non-M and non-O HIV-1 variants and which do not lead to false-negative or false-positive results being obtained. In order to do this, the inventors have, in particular, established an algorithm for differentiating between, and confirming, group M and group O HIV-1 infections, thereby enabling them to select non-M, non-O variants.
The present invention relates to a non-M, non-O HIV-1 strain which exhibits the morphological and immunological characteristics of the retrovirus which was deposited on Jul. 2, 1996 under number I-1753 (designated YBF30) in the Collection Nationale de Cultures de Microorganismes (National Collection of Microorganism Cultures), kept by the Pasteur Institute.
A non-M, non-O variant is understood as meaning a type 1 HIV which cannot serologically and molecularly be recognized as belonging to either of these groups.
The present invention also relates to the complete nucleotide sequence of the strain as defined above (SEQ ID No. 1) as well as to nucleic acid fragments which are at least 10 nucleotides in size and which are derived from the said strain.
Fragments of this type which may be mentioned are:
YBF 30 LTR (SEQ ID No. 2),
YBF 30 GAG (SEQ ID No. 3) (gag gene),
YBF 30 POL (SEQ ID No. 5) (pol gene),
YBF 30 VIF (SEQ ID No. 7) (vif gene),
YBF 30 VPR (SEQ ID No. 9) (vpr gene),
YBF 30 VPU (SEQ ID No. 11) (vpu gene),
YBF 30 TAT (SEQ ID No. 13) (tat gene),
YBF 30 REV (SEQ ID No. 15) (rev gene),
YBF 30 ENV gp160 (SEQ ID No. 17) (env gene),
YBF 30 NEF (SEQ ID No. 19) (nef gene),
the SEQ ID Nos. 21-57, also designated, respectively, YLG, LPBS.1, GAG Y AS1.1, GAG Y AS1, GAG 6, GAG Y S1, GAG Y S1.1, GAG Y S1.2, YRT AS1.3, YRT AS1.2, YRT AS1.1, YRT 2, YRT AS1, YRT 2.1, YRT 2.2, YRT 2.3, YRT 2.4, 4481-1, 4481-2, 4235.1, 4235.2, 4235.3, 4235.4, SK69.6, SK69.5, SK69.4, SK69.3, SK69.2, SK69.1, SK68.1, SK68.2, SK68.3, LSI AS1.3, LSI AS1.2, LSI AS1.1, LSI A1, YLPA, as well as any sequence which is not identical to one of the above nucleotide sequences or is not complementary to one of these sequences but is nevertheless capable of hybridizing specifically with a nucleic acid sequence derived from a non-M, non-O HIV-1 virus.
Such sequences can be used in the specific identification of a non-M, non-O HIV-1, and as diagnostic reagents, either alone or pooled with other reagents, for the differential identification of any HIV-1.
These sequences may, in particular, be employed in diagnostic tests which comprise either a direct hybridization with the viral sequence to be detected or an amplification of the said viral sequence, with these tests using, as primers or as probes, an oligonucleotide which comprises at least 10 nucleotides and which is included in any one of the above sequences, in particular one of the abovementioned sequences, SEQ ID Nos. 21-57.
The present invention also relates to HIV-1 viruses which are characterized in that they differ both from the M group and from the O group and exhibit the following characteristics:
little or no serological reactivity with regard to proteins of the M and O groups and strong serological reactivity with regard to proteins which are derived from the YBF30 strain or the CPZGAB SIV strain;
absence of genomic amplification when using primers from the env and gag regions of HIV-1 viruses of the M and O groups;
genomic amplification in the presence of primers which are derived fr

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