Drug – bio-affecting and body treating compositions – Antigen – epitope – or other immunospecific immunoeffector – Amino acid sequence disclosed in whole or in part; or...
Reexamination Certificate
2000-06-23
2002-09-17
Saunders, David (Department: 1644)
Drug, bio-affecting and body treating compositions
Antigen, epitope, or other immunospecific immunoeffector
Amino acid sequence disclosed in whole or in part; or...
C424S193100
Reexamination Certificate
active
06451314
ABSTRACT:
TECHNICAL FIELD
The invention relates to the methods and compositions for the modulation of T cell function in the treatment of for example, autoimmune diseases, allergic responses, transplant rejection, and other immunological disorders. In particular, it concerns complexes which target helper T cells by using a complex of the major histocompatibility complex (MHC) glycoproteins with peptides representing fragments of antigens associated with such diseases. These complexes can be further conjugated to radioisotopes or other labels for diagnostic purposes, or to toxins or other substances which render the complexes therapeutically useful.
BACKGROUND OF THE INVENTION
A number of pathological responses involving unwanted T cell activation are known. For instance, a number of allergic diseases, have been associated with particular MHC alleles or suspected of having an autoimmune component.
Other deleterious T cell-mediated responses include the destruction of foreign cells that are purposely introduced into the body as grafts or transplants from allogeneic hosts. This process, known as “allograft rejection,” involves the interaction of host T cells with foreign MHC molecules. Quite often, a broad range of MHC alleles are involved in the response of the host to an allograft.
Autoimmune disease is a particulalry important class of deleterious immune response. In autoimmune diseases, self-tolerance is lost and the immune system attacks “self” tissue as if it were a foreign target. More than 30 autoimmune diseases are presently known; these include many which have received much public attention, including myasthenia gravis (MG) and multiple sclerosis (MS).
A crude approach to treating autoimmune disease and other immunopathologies is general immunosuppression. This has the obvious disadvantage of crippling the ability of the subject to respond to real foreign materials to which it needs to mount an immune response. An only slightly more sophisticated approach relies on the removal of antibodies or immune complexes involving the target tissue. This also has adverse side effects, and is difficult to accomplish. The invention approach, described in detail below, relies on a “clonotypic” reagent—i.e., a reagent which attacks only the cells of the immune system which are responsive to the autoantigen.
In the general paradigm now considered to describe the immune response, specific antigens presented result in a clonal expansion, as first proposed by Burnet in 1959. According to this scenario, a particular subject will have hundreds of thousands of T and B cells each bearing receptors that bind to different antigenic determinants. Upon exposure to an antigen, the antigen selectively binds to cells bearing the appropriate receptors for the antigenic determinants it contains, ignoring the others. The binding results in a cloned population of thousands of daughter cells, each of which is marked by the same receptor. A clonotypic reagent affects only a subset of the T and B cells which are appropriate for the antigen of interest. In the case of the invention compositions, the antigenic determinant is usually that associated with an autoimmune disease.
The clonotypic reagent compositions of the invention are specifically designed to target T-helper cells which represent the clones specific for the antigenic determinant(s) of the tissue which is affected by the autoimmune disease. T-helper cells recognize a determinant only in association with an MHC protein; the complexes of the invention therefore include an effective portion of the MHC protein.
There have, recently, been some related approaches which attempt to interdict the immune response to specific antigens. For example, the autoantigen thyroglobulin has been conjugated to ricin A and the conjugate was shown to suppress specifically the in vitro antibody response of lymphocytes which normally respond to this antigen. It was suggested that such immunotoxins would specifically delete autoantibody-secreting lymphocyte clones (Rennie, D. P., et al.,
Lancet
(Dec. 10, 1983) 1338-1339). Diener, E., et. al.,
Science
(1986) 231:148-150 suggested the construction of compounds which cause antigen-specific suppression of lymphocyte function by conjugating daunomycin to the hapten (in this case, of ovalbumin) using an acid-sensitive spacer. The conjugate caused hapten-specific inhibition of antibody secretion by B lymphocytes in vitro and in vivo. A conjugate of daunomycin (with an acid-sensitive spacer) to a monoclonal antibody-specific to T cells also eliminated the response by T-lymphocytes to concanavalin A. Steerz, R. K. M., et al.,
J. Immunol
. (1985) 134:841-846 utilized radiation as the toxic element in a toxin conjugate. Rats were administered a radioactively labeled, purified receptor from electric fish, prior to injection with cold receptor. Injection with this receptor is a standard procedure to induce experimental autoimmune myasthenia gravis (EAMG). Control rats that received preinjection only either of cold receptor or radiolabeled albumin, prior to administration of receptor to induce the disease develop the symptoms of EAMG; those pretreated with radioactively-labeled receptor showed reduced symptoms. It was surmised that the labeled, and therefore destructive, receptor selectively eliminated immunocompetent cells. Similar work utilizing a ricin/receptor conjugate for pretreatment was reported by Killen, J. A., et al.,
J. Immunol
. (1984) 133:2549-2553.
A less specific approach which results in the destruction of T cells in general is treatment with an IL-2/toxin conjugate as reported by Hixson, J. R., Medical
Tribune
(Jan. 28, 1988) 4-5. In a converse, but related, approach Liu, M. A., et al.,
Science
(1988) 239:395-397, report a method to “link up” cytotoxic T cells with a desired target, regardless of the cytotoxic T cell specificity. In this approach, antibody specific to the universal cytotoxic T-lymphocytes to destroy human melanoma cells when melanocyte-stimulating hormone was the hormone used.
The current model of immunity postulates that antigens mobilize an immune response, at least in part, by being ingested by an antigen-presenting cell (APC) which contains on its surface a Class II glycoprotein encoded by a gene in the major histocompatibility complex (MHC). The antigen is then presented to a specific T helper cell in the context of the surface bound MHC glycoprotein, and by interaction of the antigen specific T cell receptor with the antigen —MHC complex, the T helper cell is stimulated to mediate the antigen-specific immune response, including induction of cytotoxic T cell function, induction of B cell function, and secretion of a number of factors aiding and abetting this response.
The involvement of the MHC Class II proteins in autoimmune disease has been shown in animal models. Administration of antibodies to either MHC Class II proteins themselves or antibodies to agents that induce expression of the MHC Class II genes interferes with development of the autoimmune condition in these model systems. The role of helper T cells has also been demonstrated in these models by counteracting the autoimmune system using anti-CD4 monoclonal antibodies; CD4 is the characteristic helper T cell receptor (Shizuru, J. A. et al.,
Science
(1988) 240:659-662).
Recent experiments have shown that, under certain circumstances, anergy or nonresponsiveness can be induced in autoreactive lymphocytes (see, Schwartz,
Cell
(1989) 1073-1081, which is incorporated herein by reference). In vitro experiments suggest that antigen presentation by MHC Class II molecules in the absence of an unknown co-stimulatory signal induces a state of proliferative non-responsiveness in syngeneic T cells (Quill et al.,
J. Immunol
. (1987) 138:3704-3712, which is incorporated herein by reference). These reports, however, provide no clear evidence that induction of anergy in vivo is possible or that autoimmune disease can be effectively treated in this manner.
SUMMARY OF THE INVENTION
The present invention is directed to methods and compositions tha
Clark Brian R.
Lerch Bernard L.
Sharma Somesh D.
Anergen Inc.
DeCloux Amy
Saunders David
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