Chemistry: molecular biology and microbiology – Micro-organism – tissue cell culture or enzyme using process... – Recombinant dna technique included in method of making a...
Reexamination Certificate
2000-08-09
2003-09-09
Mertz, Prema (Department: 1646)
Chemistry: molecular biology and microbiology
Micro-organism, tissue cell culture or enzyme using process...
Recombinant dna technique included in method of making a...
C435S252300, C435S254110, C435S320100, C435S325000, C435S069520, C530S350000, C530S387300, C530S402000
Reexamination Certificate
active
06617135
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to methods for the construction and expression of multiple cytokine protein complexes and their compositions. More specifically, the invention relates to fusion proteins composed of multiple cytokines and a targeting component, and methods of using the same for the treatment of diseases such as cancer and viral infection.
BACKGROUND OF THE INVENTION
The regulatory networks controlling the immune system rely on secreted protein signaling molecules termed cytokines to turn on and off the functions of immune cells as well regulate their proliferation. These responses generally involve multiple cytokines that act in concert to achieve the desired biological effect. Certain cytokines such as interleukin-2 (IL-2) can induce immune cell proliferation by themselves and can activate other functions including secondary cytokine secretion. Another cytokine, interleukin-12 (IL-12) [reviewed by Trinchieri, 1994, Blood 84:4008-4027], can induce proliferation of certain immune cells and induce another key immune modulator, interferon-y (IFN-&ggr;). This induction of IFN-&ggr; is a key activity of IL-12, although IL-12 has other important activities that are IFN-&ggr; independent. Since IL-12 itself is induced at an early stage in infectious disease situations, it is thought to link the innate and acquired immune systems.
Many in vitro studies with both mouse and human immune cells have shown the importance of cytokine combinations in the development of optimal immune responses. For example, most T cells do not express IL-12 receptors (IL-12R) until they have been activated with mitogens or cultured in high concentrations of IL-2 [Desai et al. (1992), J. Immunol. 148:3125-3132]. Once the receptors are expressed, the cells become far more responsive to IL-12. Furthermore, IL-12 induces IFN-&ggr; transcription, but IFN-&ggr; mRNA is degraded shortly thereafter. In the presence of IL-2, the mRNA is stabilized, resulting in a dramatic increase in the amount of IFN-&ggr; produced [Chan et al. (1992) J. Immunol. 148:92-98]. In other studies, it was found that the cytokine combinations IL-3 plus IL-11 or IL-3 plus Steel Factor had a synergistic effect with IL-12 on the proliferation of early hematopoietic progenitor cells [Trinchieri, 1994; cited above]. The combination of interleukin-4 and GM-CSF is particularly useful in stimulating dendritic cells (Palucka et al. [1998] J. Immunology 160:4587-4595). For stimulation of the cell-mediated immune response, it is also useful to combine IL-12 with IL-18, a recently discovered Th1-promoting cytokine with some activities that are complementary to IL-12 (Hashimoto et al. [1999] J. Immunology 163:583-589; Barbulescu et al. [1998] J. Immunology 160:3642-3647). In addition, IL-2 and interferon-&ggr; are synergistic in certain circumstances [Palladino, M. A., U.S. Pat. No. 5,082,658].
In many of these synergy studies it was found that the relative level of each cytokine was very important. Whereas the addition of IL-12 in the presence of suboptimal amounts of IL-2 led to synergy in the induction of proliferation, cytolytic activity and IFN-&ggr; induction, combinations of IL-2 and IL-12 using a high dose of one cytokine were found to be antagonistic [Perussia et al., J. Immunol. 149:3495-3502 (1992); Mehrotra et al., J. Immunol. 151:2444-2452 (1993)]. A similar situation also exists in combinations of IL-12 and IL-7.
Synergy studies between IL-12 and other cytokines for the generation of anti-tumor responses in mice have also shown mixed results. In some models synergy was seen at suboptimal doses of each cytokine and higher doses led to enhanced toxicity, while in other models, combinations of IL-12 and IL-2 showed little or no synergy [see, for example, Nastala et al., J. Immunol. 153:1697-1706. (1994)]. These results may reflect the inherent difficulty of combining two potentially synergistic agents in vivo, especially when there is the need to maintain a fixed ratio of activities of two agents with different pharmacological properties, such as different circulating half-life and biodistribution.
In in vitro cell culture experiments, it is straightforward to control cytokine levels, but many factors can affect the relative biodistribution and localization of cytokines in vivo, thus affecting their immunostimulatory capacity. The most important of these factors is the half-life. The half-life of IL-2 in the circulation after bolus injection is approximately 10 minutes. In striking contrast to these pharmacokinetic properties, the circulating half-life of IL-12 has been reported to be >3 hr in mice [Wysocka et al (1995) Eur. J. Immunol. 25:672] and from 5-10 hr in humans [Lotze et al. (1996) Ann NY Acad Sci 795:440-454].
This difference is thought to be due to the relatively small sizes of both IL-2 and GM-CSF (15-25 kD vs. 75 kD for IL-12), allowing IL-2 and GM-CSF to be cleared by renal filtration. Proteins with a molecular weight of less than about 50 kD are cleared by renal filtration. Almost all cytokines are smaller than 50 kD and undergo similar, rapid clearance by renal filtration. When treatment with two such small, rapidly cleared cytokines is desired, it is sufficient to simply co-administer the cytokines. However, co-administration is not optimal for cytokines with significantly different half-lives.
The systemic administration of cytokines is difficult due to their deleterious side effects. For example, high levels of Interferon-alpha result in significant side effects, including skin, neurologic, immune and endocrine toxicities. It is expected that multiple cytokine fusions might show particularly serious side effects.
To reduce side effects of systemic administration of cytokines, one strategy is to fuse a cytokine to a second molecule with targeting capability. Fusions in which an Fc region is placed at the N-terminus of a another protein (termed ‘immunofusins’ or ‘Fc-X’ fusions, where X is a ligand such as Interferon-alpha) have a number of distinctive, advantageous biological properties [Lo et al., U.S. Pat. Nos. 5,726,044 and 5,541,087; Lo et al., Protein Engineering 11:495]. In particular, such fusion proteins can still bind to the relevant Fc receptors on cell surfaces. However, when the ligand binds to its receptor on a cell surface, the orientation of the Fc region is altered and the sequences that mediate antibody-dependent cell-mediated cytotoxicity (ADCC) and complement fixation appear to be occluded. As a result, the Fc region in an Fc-X molecule does not mediate ADCC or complement fixation effectively. The cytotoxic effect due to the fusion of an N-terminal cytokine and a C-terminal Fc region is well known. For example, fusion of IL-2 to the N-terminus of an Fc region creates a molecule that is able to bind to cells bearing the IL-2 receptor, fix complement, and lyse the cells as a result [Landolfi, N. F. (1993) U.S. Pat. No. 5,349,053]. In contrast, Fc-IL-2 fusion proteins do not have this property. Thus, Fc-X fusions are expected to have the virtues of increased serum half-life and relative concentration in the liver, without the deleterious effects of ADCC and complement fixation.
It has been demonstrated that many different proteins with short serum half-lives can be fused to an Fc region in an Fc-X configuration, and the resulting fusions have much longer serum half-lives. However, the serum half-lives of two different Fc fusions will not generally be identical. Thus, when delivery of two different X moieties is desired, co-administration of two different Fc-X proteins will not generally be optimal.
Under some circumstances, a better approach is to target the effect of the cytokine to a cell surface antigen by fusing it to an antibody (or fragment derived therefrom) having specificity and affinity for that antigen (Gillies, U.S. Pat. No. 5,650,150; Gillies et al., Proc. Natl. Acad. Sci. 89:1428) or by linking a protein antigen and s
Gillies Stephen D.
Lo Kin-Ming
EMD Lexigen Research Center Corp.
Mertz Prema
Testa Hurwitz & Thibeault LLP
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