Chemistry: molecular biology and microbiology – Virus or bacteriophage – except for viral vector or... – Recovery or purification
Reexamination Certificate
1999-04-29
2002-07-16
Clark, Deborah J. R. (Department: 1633)
Chemistry: molecular biology and microbiology
Virus or bacteriophage, except for viral vector or...
Recovery or purification
C435S235100, C435S455000, C424S093200, C424S093210, C424S093600, C424S192100, C424S204100
Reexamination Certificate
active
06420160
ABSTRACT:
The subject of the invention is new vectors for delivering genetic material for use i.a. in gene therapy, in immunotherapy and as a therapeutic or prophylactic vaccine.
In vertebrates, the transfer of genetic material, regardless of its ultimate usefulness, may be achieved by various procedures which, for those most widely known, are (i) transfer by viral vectors, (ii) transfer via packaging into liposomes and the like, (iii) transfer mediated by facilitating agents such as cationic lipids, gold beads or calcium phosphate and (iv) transfer by mere injection of naked DNA, that is to say DNA lacking any other components which may interact or cooperate with the DNA in order to promote its transfer.
Each method is of general application; however, one method rather than another may appear more appropriate depending on various factors such as the type of material to be transferred, the site where it is desired to express this material, the permanent or transient nature of the expression.
For example, if it involves correcting a genetic deficiency in an individual, an integrative mode of transfer using viral vectors derived from retroviruses may be preferred.
In other cases, for example in the treatment of cancers, a transient expression targeted at the site of the tumour will be favoured. To this end, viral vectors such as vaccine vectors are particularly appropriate.
In the case of vaccinal treatments, vaccine vectors, liposomes or even naked DNA may be suitable. The latter will be preferred to retroviral vectors, in particular for preventive vaccination.
It has now been discovered that the capsids of papillomaviruses may be reconstituted in vitro, in the presence of heterologous RNA or DNA, and that this genetic material became efficiently packaged therein. Thus, the capsids, commonly called VLPs for virus-like particles, can serve as vehicle for the transfer of genetic material, with various applications.
Papillomaviruses are nonenveloped small DNA viruses with an icosahedral structure. Their genome codes for up to eight early proteins and two late proteins. Their open reading frames are classified from E1 to E7 without forgetting L1 and L2. The early (E for early) genes are associated with the viral replication and cellular transformation functions. The papillomavirus capsids consist of two proteins L
1
and L
2
(L for late proteins); L
1
being the major constituent. Detailed information may be found in Virology, Second Ed. by B. N. Fields, Raven Press (1990).
VLPs which mimic in every respect the capsids of native virions may be obtained by recombinant expression of either L
1
alone, or of L
1
+L
2
, in the vaccine system (Hagensee et al., J. Virol. (1993) 67: 315) or in the baculovirus system (Kirnbauer et al., PNAS (1992) 89: 12180; Kirnbauer et al., J. Virol. (1993) 67: 6929; Rose et al., J. Virol. (1993) 67: 1936; Le Cann et al., FEMS Microbiol. Lett. (1994) 117: 269).
Since these VLPs adopt a native conformation and react with neutralizing antibodies known to recognize conformational epitopes present in the native virions, it has already been suggested to use these VLPs as vaccines against papillomavirus infections (WO 94/5792).
Many animal species, including humans, are subject to papillomavirus infections. These infectious agents are specific for the group which they infect. Thus, it is possible to distinguish between, inter alia, bovine papillomaviruses and human papillomaviruses (HPV). In humans, different types of HPV are responsible for various diseases. Types 1, 2, 3, 4, 7, 10, and 26-29 are the cause of benign verrucas. Types 5, 8, 9, 12, 14, 15, 17, 19-25, 36, and 46-50 can induce lesions in immunologically deficient individuals. Types 6, 11, 34, 39, 41-44 and 51-55 are responsible for dysplasia or nonmalignant condyloma of the genital and respiratory mucous membranes; in rare cases, some of these types may be involved in invasive carcinomas. Finally, types 16 and 18 and, to a lesser extent, 31, 33, 35 and 45 cause epithelial dysplasia of the genital mucous membrane and are very widely associated with the majority of invasive carcinomas.
The present invention provides, for its part, noninfectious papillomavirus virus-like particles (VLPs) which comprise a capsid defining an internal space and a nucleic acid molecule contained in this internal space; the nucleic acid molecule being different from the genome of a papillomavirus at least in that it lacks all or part of the regions of the said genome coding for wild-type late proteins.
For the purposes of the present invention, the capsid is mainly made of all or part of a protein L1 or of all or part of a protein L1 and all or part of a protein L2. For the sake of simplicity, only the L1 or L2 protein will be used in the text which follows to designate the whole proteins as well as fragments thereof. It can also be expected that there will be several L1 or L2 proteins obtained from different types.
Among the HPV types from which the L1 and L2 proteins may be derived, there may be mentioned in particular types 1, 6, 10, 11, 16, 18, 31, 33, 35 or 45.
When the proteins are obtained from an HPV-16, -18, -33 or -35 or from any other HPV capable of inducing an invasive carcinoma, it is preferable that the sequence of the L1 protein in use for the purposes of the invention is identical to that of the L1 protein which is present in the papillomavirus when the latter is initially isolated from a benign lesion (e.g. condyloma acuminatum or cervical dysplasia). Indeed, it in fact appears that at the stage of a benign lesion, the papillomavirus can still freely replicate in the complete virion state, whereas at the malignant stage, this function will be impaired in the virus in particular because of a mutation which would have occurred in the ORF coding for L1. This mutation would prevent, inter alia, the formation of the capsids. The sequence of a type 16 L1 protein obtained from an HPV isolated from a condyloma is disclosed in the sequence identifier No. 2 of application WO 94/5792. It can be noted that this sequence is distinguishable from that of an L1 protein of an HPV-16 isolated from a malignant carcinoma in that the amino acid at position 202 is an amino acid other than histidine, i.e. an aspartic acid or glutamic acid residue.
As regards the L2 protein, the latter may be possibly deleted for its DNA binding site in order to promote the elimination of any trace of DNA during the purification of the components necessary for using the VLPs according to the invention. In practice, this involves suppressing or modifying one or several of the first 12 amino acids of the N-terminal end. Such L2 proteins are in particular described in WO 95/20659 and Zhou et al., J. Virol. (1994) 68: 619.
Alternatively, the capsid may consist of one or more hybrid proteins (fusion proteins) corresponding to the chimeras L1-E6, L1-E7, L2-E6, L2-E7 or to any other chimera form in which at least part of an L1 or L2 protein may exist combined with a peptide or polypeptide heterologous to L1 or L2, for example an HIV (human immunodeficiency virus) gag peptide. In order to form such hybrids, several types of association are possible in theory.
For example, it is possible to envisage combining, by a peptide bond, the N-terminal or C-terminal end of the whole L1 and L2 protein with the opposite end of the E6 or E7 protein. The same action can be expected with truncated proteins. The insertion of all or part of E6 or E7 into the centre of the sequence of the L1 or L2 protein can also be expected, still by a peptide bond; preferably, fragments of E6 or E7 corresponding to remarkable epitopes will be inserted. The insertion into the sequence of the L1 or L2 protein can be carried out while preserving the entire L1 or L2 sequence or alternatively by deleting a portion thereof. Obviously, the construction of appropriate expression cassette (by genetic fusion) coding for these hybrid proteins will preside over the production of these proteins.
As previously mentioned, the component(s) constituting the capsid may be produced in recombinant systems, b
Burns Doane Swecker & Mathis L.L.P.
Chen Shin-Lin
Clark Deborah J. R.
Pasteur Merieux Serums et Vaccins
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