Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Virus or component thereof
Reexamination Certificate
2001-08-21
2003-09-16
Housel, James (Department: 1648)
Drug, bio-affecting and body treating compositions
Antigen, epitope, or other immunospecific immunoeffector
Virus or component thereof
C424S184100, C424S227100, C424S217100, C424S278100, C424S283100, C424S202100
Reexamination Certificate
active
06620414
ABSTRACT:
The present invention relates to novel vaccine formulations, methods for preparing them and to their use in therapy. In particular the present invention relates to novel formulations for treating Hepatitis infections and to combination vaccine formulations including a Hepatitis vaccine component.
Viral hepatitis, caused by the A, B, C, D, and E hepatitis viruses, is a very common viral illness. Via the B and C viruses, in particular, it is also responsible for many cases of liver cancer. Thus the development of effective vaccines is critical and, despite notable successes, is still an on-going task. A review on modern hepatitis vaccines, including a number of key references, may be found in the Lancet, May 12th 1990 at page 1142 ff (Prof A. L. W. F. Eddleston). See also ‘Viral Hepatitis and Liver Disease’ (Vyas, B. N., Dienstag, J. L., and Hoofnagle, J. H., eds, Grune and Stratton, Inc. (1984) and ‘Viral Hepatitis and Liver Disease’ (Proceedings of the 1990 International Symposium, eds F. B. Hollinger, S. M. Lemon and H. Margolis, published by Williams and Wilkins).
As used herein the expression ‘hepatitis antigen’ is used to refer to any antigenic material derived from a hepatitis virus which may be used to induce immunity to the virus in humans. The hepatitis antigen may be, for example, a polypeptide obtained by recombinant DNA techniques or an attenuated strain of hepatitis virus which has optionally been inactivated by known methods. The invention extends to all hepatitis antigens, whether A, B, C, D, or E, examples of which are discussed below.
Infection with hepatitis A virus (HAV) is a widespread problem but vaccines which can be used for mass immunisation are available, for example the product ‘Havrix’ (SmithKline Beecham Biologicals) which is a killed attenuated vaccine obtained from the HM-175 strain of HAV [see ‘Inactivated Candidate Vaccines for Hepatitis A’ by F. E. Andre, A Hepburn and E. D'Hondt,
Prog Med. Virol.
Vol 37, pages 72-95 (1990) and the product monograph ‘Havrix’ published by SmithKline Beecham Biologicals (1991)].
Flehmig et al (loc cit., pages 56-71) have reviewed the clinical aspects, virology, immunology and epidemiology of Hepatitis A and discussed approaches to the development of vaccines against this common viral infection.
As used herein the expression ‘HAV antigen’ refers to any antigen capable of stimulating neutralising antibody to HAV in humans. The HAV antigen may comprise live attenuated virus particles or inactivated attenuated virus particles or may be, for example an HAV capsid or HAV viral protein, which may conveniently be obtained by recombinant DNA technology.
Infection with hepatitis B virus (HBV) is a widespread problem but vaccines which can be used for mass immunisation are now available, for example the product ‘Engerix-B’ (SmithKline Beecham plc) which is obtained by genetic engineering techniques.
The preparation of Hepatitis B surface antigen (HBsAg) is well documented. See. for example, Harford et al in
Develop. Biol. Standard
54, page 125 (1983), Gregg et al in
Biotechnology,
5, page 479 (1987), EP-A-0 226 846, EP-A-0 299 108 and references therein.
As used herein the expression ‘Hepatitis B surface antigen’ or ‘HBsAg’ includes any HBsAg antigen or fragment thereof displaying the antigenicity of HBV surface antigen. It will be understood that in addition to the 226 amino acid sequence of the HBsAg S antigen (see Tiollais et al, Nature, 317, 489 (1985) and references therein) HBsAg as herein described may, if desired, contain all or part of a pre-S sequence as described in the above references and in EP-A-0 278 940. In particular the HBsAg may comprise a polypeptide comprising an amino acid sequence comprising residues 12-52 followed by residues 133-145 followed by residues 175-400 of the L-protein of HBsAg relative to the open reading frame on a Hepatitis B virus of ad serotype (this polypeptide is referred to as L*; see EP 0 414 374). HBsAg within the scope of the invention may also include the preS1-preS2 -S polypeptide described in EP 0 198 474 (Endotronics) or analogues thereof such as those described in EP 0 304 578 (Mc Cormick and Jones). HBsAg as herein described can also refer to mutants, for example the ‘escape mutant’ described in WO 91/14703 or European Patent Application Publication Number 0 511 855 A1, especially HBsAg wherein the amino acid substitution at position 145 is to arginine from glycine.
Normally the HBsAg will be in particle form. The particles may comprise for example S protein alone or may be composite particles, for example (L*,S) where L* is as defined above and S denotes the S-protein of HBsAg. The said particle is advantageously in the form in which it is expressed in yeast.
Hepatitis C virus (HCV) is specifically discussed in GB 2 212 511B and references therein. It has been reported that vaccines may be prepared from one or more immunogenic polypeptides derived from HCV c DNA.
Hepatitis D virus is discussed in ‘Viral Hepatitis and Liver Disease’ (1990 Symposium (loc. cit).
Hepatitis E virus (HEV) is specifically discussed in WO 89/12462 and references therein. An example of a vaccine composition includes, in a pharmacologically acceptable adjuvant, a recombinant protein or protein mixture derived from HEV.
Whilst experimental and commercially available Hepatitis vaccines, for example Havrix and Engerix-B, afford excellent results it is an accepted fact that an optimal vaccine needs to stimulate not only neutralising antibody but also needs to stimulate as effectively as possible cellular immunity mediated through T-cells. There also exists a need for combination vaccines containing a Hepatitis component to stimulate cellular immunity in this way. The present invention achieves these aims.
The present invention provides a vaccine comprising a hepatitis antigen in conjunction with 3-O-deacylated monophosphoryl lipid A (abbreviated herein to MPL) and a suitable carrier.
3-O-deacylated monophosphoryl lipid A (or 3 De-O-acylated monophosphoryl lipid A) has formerly been termed 3D-MPL or d3-MPL to indicate that position 3 of the reducing end glucosamine is de-O-acylated. For preparation, see GB 2 220 211 A Chemically it is a mixture of 3-deacylated monophosphoryl lipid A with 4, 5 or 6 acylated chains. Herein the term 3D-MPL (or d3-MPL) is abbreviated to MPL since ‘MPL’ is a Registered Trademark of Ribi Immunochem., Montana which is used by Ribi to denote unambiguously their 3-O-deacylated monophosphoryl lipid A product.
GB 2 220 211 A mentions that the endotoxicity of the previously used enterobacterial lipopolysacharides (LPS) is reduced while the immunogenic properties are conserved. However GB 2 220 211 cited these findings merely in connection with bacterial (Gram negative) systems. At the priority date of the present invention the suitability of 3-Deacyleted monophosphoryl lipid A as an adjuvant for a vaccine containing a hepatitis viral antigen had not been suggested.
Surprisingly, however, it has been found that vaccine compositions according to the invention comprising hepatitis viral antigens have particularly advantageous properties as described herein.
A particular advantage is that the vaccine formulations of the invention are very effective in inducing protective immunity, even with very low doses of antigen.
They provide excellent protection against primary infection and stimulate advantageously both specific humoral (neutralising antibodies) and also effector cell mediated (DTH) immune responses.
A further important advantage is that vaccine compositions according to the invention may also be used as therapeutic vaccines.
The MPL as defined above will normally be present in the range of 10-100 ug, preferably 25-50 ug per dose wherein the Hepatitis antigen will be typically present in a range 2-50 ug per dose.
The carrier may be an oil in water emulsion, a lipid vehicle, or alum (aluminium salt).
Non-toxic oil in water emulsions preferably contain a non-toxic oil, e.g. squalene and an emulsifier such as Tween 80, in an aqueous carrier. The aqueous carrier m
Garcon-Johnson Nathalie Marie-Josephe Claude
Hauser Pierre
Thiriart Clothilde
Voet Pierre
Hill Myron G.
Housel James
Kinzig Charles
Majarian William R.
SmithKline Beecham Biologicals (s.a.)
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