Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Bacterium or component thereof or substance produced by said...
Reexamination Certificate
2001-08-29
2004-11-23
Swartz, Rodney P (Department: 1645)
Drug, bio-affecting and body treating compositions
Antigen, epitope, or other immunospecific immunoeffector
Bacterium or component thereof or substance produced by said...
C424S250100, C424S184100, C530S350000, C435S069700
Reexamination Certificate
active
06821521
ABSTRACT:
The present invention relates to a multicomponent vaccine and methods for preparing a multicomponent vaccine that confers protective immunity to a broad spectrum of infection by Gram negative pathogens. In particular the present invention relates to a multicomponent vaccine that provides both passive and active protective immunity to meningococcal disease.
Meningococcal meningitis is a major problem worldwide and in many countries incidence of infection is increasing.
Neisseria meningitidis
is the causative agent of the disease and is also responsible for meningococcal septicaemia, which is associated with rapid onset and high mortality, with around 22% of cases proving fatal.
At present, vaccines directed at providing protective immunity against meningococcal disease provide only limited protection because of the many different strains of
N. meningitidis
. Vaccines based upon the serogroup antigens, the capsular polysaccharides, offer only short lived protection against infection and do not protect against many strains commonly found in North America and Europe. A further drawback of these vaccines is that they provide low levels of protection for children under the age of 2 years, one of the most vulnerable groups that are commonly susceptible to infection.
The meningococcal transferrin receptor is made up of two types of component protein chain, Transferrin binding protein A (TbpA) and TbpB. The receptor complex is believed to be formed from a dimer of TbpA which associates with a single TbpB (Boulton et al. (1998)). Epitopes present in TbpA are known to be masked within the interior of the protein (Ala'Aldeen (1996)). Vaccines against meningococcal meningitis based on TbpB from one strain alone show some cross reactivity and there is evidence of a cross-reactive immune response in rabbits immunised with TbpB alone (Feirrerós et al. (1998)).
Gomez et al (Vaccine Vol. 16 (1998) No. 17 pp. 1633-1633) describes a study on the effects of a number of different adjuvant compositions in vaccines comprising TbpA+TbpB complex. Immunization rates against meningococcal challenge were highest in compositions comprising TbpA+TbpB and RAS adjuvant.
Ala'Aldeen (J. Med. Microbiol. Vol. 44 (1996) pp. 237-237 provides a review of Tbps of
N. meningitidis
and their potential use as candidate vaccine antigens. Ala'Aldeen suggests that cross reactivity and broad spectrum protection is mainly associated with the TbpB subunit (page 240, third paragraph).
Gorringe et al (Vaccine Vol. 13 (1995) No. 13 pp. 1207-1207) describes the human antibody response to Tbps and evaluates their value as vaccine antigens by testing human sera for anti-Tbp antibodies. Gorringe et al does not describe the components of any such vaccine, but investigates the levels of antibody cross reactivity between purified TbpA and TbpB subunits and TbpA+B complex.
Boulton et al (Biochem. J. (1998) 334 pp. 269-273) describes the isolation and characterisation of TbpB from
N. meningitidis
and also postulates the make-up of the Tbp complex in vivo as a TbpA dimer plus TbpB monomer.
It would be of advantage, nevertheless, to provide a vaccine that gives a broader range of protective immunity to infection from a wider spectrum of strains of
N. meningitidis
. It would be of further advantage to provide a vaccine that confers protective immunity to infants as well as adults and whose protection is long term. It would also be of advantage to provide a vaccine that protects against sub-clinical infection, i.e. where symptoms of meningococcal infection are not immediately apparent that the infected individual may act as a carrier of the pathogen.
It is an object of the present invention to provide compositions containing Tbps, and vaccines based thereon, that meet or at least ameliorate the disadvantages in the art. In particular, it is an object of the invention to provide a vaccine composition that consistently and reliably induces protective immunity to meningococcal infection.
Accordingly, a first aspect of the present invention provides a composition comprising both transferrin binding proteins A (TbpA) and B (TbpB), suitably in a molar ratio of about 2:1 (TbpA:TbpB). In a preferred embodiment of the present invention the molar ratio of TbpA to TbpB is 2:1.
The composition may be combined with a pharmaceutically acceptable carrier—for example the adjuvant alum although any carrier suitable for oral, intravenous, subcutaneous, intraperitoneal or any other route of administration is suitable—to produce a pharmaceutical composition for treatment of meningococcal disease.
The present invention thus provides for a vaccine comprising both TbpA+B proteins, preferably with a molar ratio of between 1.8 and 2.2 molecules of TbpA to one molecule of TbpB, more preferably 2 molecules of TbpA to one of TbpB. This particular combination of components, surprisingly, can provide higher protective immunity to meningococcal infection, compared to vaccination with TbpB alone. In a specific embodiment of the invention, described in more detail below, a 1:1 combination of A:B is more protective against challenge than B alone. This is surprising as TbpA has previously been considered to be non-protective. The present results differ from this established view with some experiments (described in more detail below) showing that, when administered as a vaccine, TbpA is also able to provide protective immunity to meningococcal infection. However, the present results most strikingly demonstrate the consistent performance of vaccines that comprise both Tbps A and B compared to those comprising Tbp A or B alone. It is this lack of variability between compositions and the consistently high level of protection to infection induced in response to vaccination with Tbp A+B, that enables the compositions of the invention to demonstrate significant advantage over the vaccines of the prior art.
Transferrin binding proteins are known to be located on the outer membranes of a number of Gram negative bacteria such as
N. meningitidis
. Formulations of the composition of the present invention with conventional carriers or adjuvants provide a composition for treatment of infection by these bacteria.
It is an advantage that following administration of a composition according to the present invention antibodies may be raised against epitopes that consist of sequences from TbpA and TbpB in juxtaposition. Thus, the immune response obtainable using such a composition may be improved compared with that from prior art vaccine compositions which comprise only one component of the Tbp complex and in which the full range of potential Tbp epitopes are unavailable. It is a further option in the present invention for one Tbp subunit component of the TbpA+B complex to be from a first strain of
N. meningitidis
and another from a second strain different from the first. For example, the TbpA dimer is taken from the first strain and the TbpB is from the second. The TbpA and TbpB proteins may be selected independently from strains K454, H44/76 and B16B6. In all aspects of the invention the Tbps can be directly isolated from the bacterial source or can be produced by recombinant methods commonly known in the art. Combinations of proteins from other strains are also envisaged, and the combining of components from different strains of bacteria offers the potential for providing an individual with a broader spectrum of protection against meningococcal infection. It is further optional for a composition or vaccine of the invention to contain a mixture of A proteins from different strains or a mixture of B proteins from different strains, broadening further the potential spectrum of protection conferred by the invention. A still further option is for Tbps to be obtained from or derived from other bacteria, including
N. gonorrhoeae, N. lactamica
and
Moraxella catarrhalis.
In the present invention, the term “transferrin binding protein” or “Tbp” refers to a protein which either alone binds to transferrin or can be part of a complex of proteins
Gorringe Andrew Richard
Hudson Michael John
Reddin Karen Margaret
Robinson Andrew
Health Protection Agency
Shahnan Shah Khatol
Sterne Kessler Goldstein & Fox PLLC
Swartz Rodney P
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