Chemistry: natural resins or derivatives; peptides or proteins; – Proteins – i.e. – more than 100 amino acid residues – Blood proteins or globulins – e.g. – proteoglycans – platelet...
Reexamination Certificate
1999-01-05
2002-08-20
Huff, Sheela (Department: 1642)
Chemistry: natural resins or derivatives; peptides or proteins;
Proteins, i.e., more than 100 amino acid residues
Blood proteins or globulins, e.g., proteoglycans, platelet...
C530S387100, C530S387300, C530S388800, C424S130100, C424S133100
Reexamination Certificate
active
06437098
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to a process for the production of humanized chimera antibody. In contrast to mouse monoclonal antibody, humanized chimera antibody does not cause formation of anti-mouse immunoglobulin antibody in the body of a patient. Thus, side effects are reduced or eliminated and half life in blood increases when the chimera antibody is used. Therapeutic effects which are superior to those obtained in the case of using mouse monoclonal antibody can be obtained in the treatment of human cancers and the like.
BACKGROUND OF THE INVENTION
It is known that, when mouse antibodies are administered to humans, they are recognized as foreign substances and cause formation of anti-mouse immunoglobulin antibodies in the human body, and the thus formed antibodies react with the administered mouse antibodies. As a result, side effects occur (J. Clin. Oncol., 2, 881 (1984); Blood, 65, 1349-1363 (1985); J. Natl. Cancer Inst., 80, 932 (1988); Proc. Natl. Acad. Sci. U.S.A., 82, 1242 (1985)), the antibodies are cleared away quickly (J. Nucl. Med., 26, 1011 (1985); Blood, 65, 1349-1363 (1985); J. Natl. Cancer Inst., 80, 937 (1988)) and effects of the antibodies are reduced (J. Immunol., 135, 1530 (1985); Cancer Res., 46, 6489 (1986)). When mouse monoclonal antibody is converted into humanized chimera antibody, human anti-mouse immunoglobulin antibody form in minimal amounts if at all, and the half life of the chimera antibody in human blood is six times as long as that of mouse monoclonal antibody (Proc. Natl. Acad. Sci. U.S.A., 86, 4220 (1989)). In addition, it is probable that the Fc region of mouse antibody does not fully activate human complement and human effector cells, in comparison with the Fc region of human antibody. For example, the antitumor activity of mouse monoclonal antibody to ganglioside GD
2
, which is effected via human effector cells, is improved when the monoclonal antibody is converted into chimera antibody that has the human antibody Fc region (J. Immunol., 144, 1382-1386 (1990)).
Ganglioside is one of the animal cell membrane-constituting glycolipids and is composed of a sugar chain as a hydrophilic side chain, sphingosine as a hydrophobic side chain and fatty acids. It is known that expression of ganglioside varies defending on the type of cells, organs and animal species. In addition, it has been revealed that quantity and quality of the expressed ganglioside change during the canceration process of cells (Cancer Res., 45, 2405 (1985)). For example, it has been reported that gangliosides GD
2
, GD
3
, GM
2
and the like which hardly exist in normal cells were found in the cells of neuroblastoma, lung small cell carcinoma and melanoma belonging to neuroectodermal-origin tumor which is said to be highly malignant (J. Exp. Med., 155, 1133 (1982); J. Biol. Chem., 257, 12752 (1982); Cancer Res., 47, 225 (1987); ibid., 47, 1098 (1987); ibid., 45, 2642 (1985); Proc. Natl. Acad. Sci. U.S.A., 80, 5392 (1983)).
Ganglioside GD
3
has been found most frequently in melanoma cells among the neuroectodermal-origin tumors, and anti-ganglioside GD
3
monoclonal antibodies (to be referred to as “anti-GD
3
monoclonal antibody” hereinafter) belonging to the mouse IgM class and IgG class have been reported (Int. J. Cancer, 29, 269 (1982); J. Biol. Chem., 257, 12752 (1982); Cancer Res., 47, 225 (1987); Acta Neuropathol., 79, 317 (1989); Proc. Natl. Acad. Sci. U.S.A., 77, 6114 (1980); J. Exp. Med., 155, 1133 (1982); Proc. Natl. Acad. Sci. U.S.A., 81, 5767 (1984)).
KM-641 (FERM BP-3116) disclosed in EP-A-0 493 686 is an anti-GD
3
monoclonal antibody belonging to the mouse IgG3 class, which reacts not only with ganglioside GD
3
but also with ganglioside 3′,8′-LD1 and is possessed of a broad range of antitumor spectrum. In addition, KM-641 has stronger binding activities to antigens than anti-GD
3
monoclonal antibody R24 which has been disclosed in J. Exp. Med., 155, 1133 (1982) and it shows strong antitumor activities.
The mouse monoclonal antibody R24 to the ganglioside GD
3
was once used for the treatment of melanoma, but the administered mouse monoclonal antibody R24 did not fully exert its effect due to the formation of anti-mouse immunoglobulin antibody in the patient's body (Eur. J. Cancer Clin. Oncol., 24, suppl 2, s 65 (1988)).
Consequently, the use of chimera antibody for anti-GD
3
monoclonal antibody would be advantageous in that anti-mouse immunoglobulin antibody does not form in the body, side effects are reduced or eliminated, its half life in blood is prolonged and its antitumor effector effect increases, and thus therapeutic effects of the chimera antibody which are superior to those of mouse monoclonal antibody can be obtained in the treatment of human cancers and the like.
Several processes for the production of humanized chimera antibodies are known. Humanized chimera antibody, in which constant regions of the heavy chain (to be referred to as “H chain” hereinafter) and the light chain (to be referred to as “L chain” hereinafter) of mouse monoclonal antibody are converted into human constant regions, is produced in animal cells making use of recombinant DNA techniques. Examples of such processes include a process in which humanized chimera antibody is produced using chromosomal DNA as a gene which encodes mouse H chain variable region (to be referred to as “V
H
” hereinafter) and L chain variable region (to be referred to as “V
L
” hereinafter) (Morrison et al., Proc. Natl. Acad. Sci. U.S.A., 81, 6851 (1984); Neuberger et al., Nature, 314, 268 (1985); Nishimura et al., Cancer Res., 47, 999 (1987); Dorai et al., J. Immunol., 139, 4232 (1987); Kameyama et al., FEBS letter, 244, 301 (1989)) and another process in which humanized chimera antibody is produced using cDNA (Gillies et al., J. Immunol. Methods, 125, 191 (1989); Liu et al., published International Application in Japan No. 2-501886). Cloning and base sequence determination of hybridoma cell chromosomal DNA which encodes mouse V
H
and V
L
require much time and labor in comparison with those of cDNA that encodes mouse V
H
and V
L
. Consequently, the process in which cDNA is used for the production of humanized chimera antibody is more desirable than the chromosomal DNA process.
Gillies et al. have succeeded in expressing humanized chimera antibody in animal cells, making use of an expression vector for animal cells having inserted therein a humanized chimera H chain gene obtained by linking mouse V
H
-encoding cDNA with human C
H
-encoding chromosomal DNA, and a humanized chimera L chain gene obtained by linking mouse V
L
-encoding cDNA with human C
L
-encoding chromosomal DNA (J. Immunol. Methods, 125, 191 (1989)). However, when an attempt was made to prepare chimera antibodies from several types of antibodies, a problem was found that there were certain chimera antibodies whose L chains could not be expressed without converting leader sequences. In addition, humanized chimera antibody can be produced more simply when cDNA which encodes human C
H
and C
L
is used instead of the human C
H
- and C
L
-encoding chromosomal DNA.
In published International Application in Japan No. 2-501886, Liu et al. discloses a process for the expression of humanized chimera antibody in animal cells, which comprises using an expression vector for animal cells having inserted therein a chimera H chain cDNA obtained by linking mouse V
H
-encoding cDNA with human C
H
-encoding cDNA and a chimera L chain cDNA obtained by linking mouse V
L
-encoding cDNA with human C
L
-encoding cDNA. According to this process, however, it is necessary to alter the J
H
portion of the V
H
-encoding cDNA and the J
L
portion of the V
L
-encoding cDNA by means of mutation, because the cDNA which encodes mouse V
H
or V
L
is linked with the human C
H
- or C
L
-encoding cDNA at the J region in the mouse variable region. In addition, with regard to the chimera L chain prepared using mouse Jk5, leucine which is one of the amino acids of the framework 4 is changed to isoleucine when made into humanized chime
Hanai Nobuo
Hasegawa Mamoru
Kuwana Yoshihisa
Miyaji Hiromasa
Shitara Kenya
Helms Larry R.
Huff Sheela
Kyowa Hakko Kogyo Co. Ltd.
Nixon & Vanderhye PC
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