Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Bacterium or component thereof or substance produced by said...
Reexamination Certificate
1999-05-13
2001-07-03
Graser, Jennifer (Department: 1641)
Drug, bio-affecting and body treating compositions
Antigen, epitope, or other immunospecific immunoeffector
Bacterium or component thereof or substance produced by said...
C424S185100, C424S190100, C424S192100, C424S193100, C424S197110, C530S350000
Reexamination Certificate
active
06254875
ABSTRACT:
The present invention relates to a novel antigen of
Haemophilus influenzae
, vaccines comprising it and its use in therapy and diagnosis.
H. influenzae
is a Gram-negative aerobic heterotrophic bacteria with the form of rods (Krieg and Holt (ed),
Bergey's Manual of Systemic Bacteriology
, pp 563 (1984). It is a pathogen in acute respiratory infections and is also found in patients with chronic bronchitis and otitis media.
We have now identified, and purified, a unique 26 kDa outer membrane protein (called OMP26) from NTHI, and have surprisingly found that this protein can, when used as an immunogen, induce protective immune responses against infection with homologous and heterologous strains of NTHi. This protein has a molecular mass on SDS-PAGE similar to P5, but has been found to be distinctly different from the protein.
The outer membrane protein PS is one of two lower molecular mass bands on SDS-PAGE gels used to subtype
H. influenzae
strains, and has an apparent molecular mass of 25-27 kDa. the P5 protein is heat-modifiable, demonstrating an apparent mass of 35 kDa after heating for 30 min at 100° C. in the presence of &bgr;-mercaptoethanol. Recently, another protein expressed by NTHi, called a fimbrin protein, has been characterised and shown to have similar molecular mass properties, heat modifiability and a 92% sequence homology to the previously described P5. the protein, OMP26, does not demonstrate either sequence homology or heat-modifiable characteristics as defined for either P5 or the fimbrin protein.
Thus, in a first aspect, the present invention provides a protein having a molecular weight of 26 kDa, as determined by SDS-PAGE, which protein is an outer membrane protein of
H. influenzae
. This protein is designated OMP26.
In particular, the protein of the invention has the amino acid sequence shown in
FIG. 1
, or one substantially homologous thereto. In a separate embodiment, the protein of the invention has the amino acid sequence shown in
FIG. 1
commencing from amino acid no. 24, or one substantially homologous thereto. The first 23 amino acids constitute a “signal” sequence and it will be appreciated that a protein minus this sequence will be equally applicable. The protein of the invention is an immunogen and is thus capable of inducing an immune response which will protect against infection with
H. influenzae.
In the context of the present invention proteins which are “substantially homologous” to OMP26 may be 40%, 50%, 60%, 70%, 80%, 90%, 95% or even 99% homologous. Preferably, the protein will be at least 70% homologous, more preferably 80% homologous, even more preferably 90% homologous and most preferably 95% homologous. The skilled man will appreciate that the percentage degree of homology is one factor only. What is important is that the protein retains its antigenic effect. Thus, it is reasonable to have a protein having a relatively low degree of homology, for instance 40%, while retaining the antigenic activity discussed herein.
In addition, it is known in the art that “conservative” or indeed “semi-conservative” changes can be made to the amino acid sequence of a protein which will not alter its fundamental activity. For example, amino acids such as glycine, valine, leucine and isoleucine, which all have aliphatic side chains, may often be substituted for each other without substantially altering the biological activity of the protein. Similarly, amino acids such as phenylalanine, tyrosine and tryptophan, which all have aromatic side chains, may be substituted for each other. Such proteins which retain the antigenic effect described herein are within the scope of the present invention.
It is also possible that antigenic parts or regions of OMP26 can be employed to induce the protective effect against
H. influenzae
. Such antigenic parts or regions are also within the scope of the present invention.
In a second aspect, the present invention provides a nucleic acid sequence, preferably DNA, which codes for a protein of the invention, variants thereof as described above or indeed antigenic parts or regions. In particular, the invention provides a DNA sequence as shown in
FIG. 1
which codes for OMP26. The skilled man will appreciate that due to the degeneracy of the genetic code it is possible to make conservative changes to the DNA sequence which will not result in changes to the amino acid sequence of the protein. Thus, such DNA sequences are also within the scope of the present invention. Suitably, nucleic acid of the invention can form part of a vector such as a plasmid.
As discussed herein, the proteins of the invention stimulate an immune response against
H. influenzae
and thus, in a third aspect, the present invention provides a vaccine formulation comprising a protein of the invention, as defined herein, optionally together with one or more carriers and/or adjuvants.
In a fourth aspect, the invention provides the use of the protein of the invention, as defined herein, in the preparation of a vaccine against
H. influenzae.
The vaccine composition of the invention can be used to immunize a subject against
H. influenzae
infection. Therefore, the invention provides, in a fifth aspect, a method of immunizing a subject against infection by
H. influenzae
, which comprises administering to the subject a vaccine composition of the invention. The vaccine compositions of the invention can be used to produce both systemic immunity and/or mucosal immunity.
In a sixth aspect, the present invention provides a method for the prophylaxis or treatment of respiratory tract infections or otitis media which comprises the step of administering to a subject a vaccine composition of the invention.
In other aspects the invention provides:
(a) The use of a protein of the invention, as defined herein, in the diagnosis of
H. influenzae
infection; and
(b) A kit for use in the diagnosis of
H. influenzae
infection comprising a protein of the invention, as defined herein.
Preferred features of each aspect of the invention are equally preferred for each other aspect mutatis mutandis.
The invention will now be described with reference to the following examples, which should not be construed as in any way limiting the invention.
REFERENCES:
patent: 5780601 (1998-07-01), Green et al.
patent: WO 94/12641 (1994-06-01), None
Coulton et al., Can. J. Microbiol. 29:280-87 (1983).
Kyd et al., Infec. and Immun., 62(12):5652-5658.
Fleischmann et al., Science, 269:496-512.
Sirakova et al., Infec. and Immun., 62(5):2002-2020.
Van Alphen, et al., J. Bacteriol., 155(2):878-885.
Cruse et al. The Illustrated Dictionary of Immunology.New York:CRC Press, p. 24, 1995.*
Aasland et al., 1988, J. Bacteriol., 170(12):5916-5918, “Identity of the 17-Kilodalton Protein, a DNA-Binding Protein fromEscherichia coli, and the firA Gene Product”.
Dicker et al., 1991, J. Bacteriol, 173:334-344, “Cloning and nucleotide sequence of the firA gene and the firA200(TS) allel forE. coli”.
El-Adhami et al., 1999, Infec. and Immun., 67(4):1935-1942, “Characterization of the Gene Encoding a 26-Kilodalton Protein (OMP26) from NontypeableHaemophilus influenzaeand Immune Responses to the Recombinant Protein”.
Fujita et al., 1989, J. Bacteriol., 1989, 173(3):1333-1339, “The ompH gene ofYersinia enteroliticeacloning, sequencing, expression and compurance with known enterobacteria ompH sequences”.
Hirvas et al., 1990, FEBS 08227, 262(1):123-126, “Bacterial ‘histone-like protein l’ (HLP-1) is an outer membrane constituent→”.
Hirvas et al., 1991, 173(3):1223-1229, “The ompH Gene ofYersinia enterocolitica: Cloning, Sequencing, Expression, and Comparison with Known Enterobacterial ompH Sequences”.
Holck et al., 1988, Gene, 67:117-124, “Cloning and sequencing of the gene for the DNA-binding 17K protein ofEscherichia coli”.
Kelly et al., 1993, . Biol. Chem., 268(26):19866-19874, “The firA Gene ofEscherichia coliencodes UDP-3-0-(R-3-hydroxymyristoyl)-glucosamine N-Acyltransferase”.
Koski et al., 1989, J. Biol. Chem., 264(32):18973-18980, “Isolation, Cloning, and Primary Structure of a Cationic 16
Cripps Allan
Kyd Jennelle
Smith Christopher John
Graser Jennifer
Pennie & Edmonds LLP
Provalis UK Limited
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