Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Radical -xh acid – or anhydride – acid halide or salt thereof...
Reexamination Certificate
2001-10-25
2003-12-30
Killos, Paul J. (Department: 1625)
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Radical -xh acid, or anhydride, acid halide or salt thereof...
C514S543000, C562S426000
Reexamination Certificate
active
06670398
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The current invention provides compounds, compositions and methods to modulate organ and tissue transplant rejection and prolong the survival of transplanted organs and tissues.
2. Background Art
Organ and tissue transplantation has become a standard surgical procedure. In 1990, 15,000 organ transplantations were performed, and by 1999, this number was up to 21,000. The success of surgical transplantation of organs and tissue is largely dependent on the ability of the clinician to modulate the immune response of the transplant recipient. Specifically the immunological response directed against the transplanted foreign tissue must be controlled if the tissue is to survive and function. Currently, skin, kidney, liver, pancreas, lung and heart are the major organs or tissues with which allogeneic transplantations are performed. It has long been known that the normally functioning immune system of the transplant recipient recognizes the transplanted organ as “non-self” tissue and thereafter mounts an immune response to the presence of the transplanted organ. Left unchecked, the immune response will generate a plurality of cells and proteins that will ultimately result in the loss of biological functioning or the death of the transplanted organ.
This tissue/organ rejection can be categorized into three types: hyperacute, acute and chronic. Hyperacute rejection is essentially caused by circulating antibodies in the blood that are directed against the tissue of the transplanted organ (transplant). Hyperacute rejection can occur in a very short time—often in minutes—and leads to necrosis of the transplant. Acute graft rejection reaction is also immunologically mediated and somewhat delayed compared to hyperacute rejection. The chronic form of graft rejection that can occur years after the transplant is the result of a disease state commonly referred to as Graft Arterial Disease (GAD). GAD is largely a vascular disease characterized by neointimal proliferation of smooth muscle cells and mononuclear infiltrates in large and small vessels. This neointimal growth can lead to vessel fibrosis and occlusion, lessening blood flow to the graft tissue and resulting in organ failure. Current immunosuppressant therapies do not adequately prevent chronic rejection. Most of the gains in survival in the last decade are due to improvements in immunosuppressive drugs that prevent acute rejection. However, chronic rejection losses remain the same and drugs that can prevent it are a critical unmet medical need.
It is additionally known that the transplant-host relationship is not restricted to rejection by the host organism alone; in certain cases an immune reaction originating from the transplant and directed against the host tissue (Graft versus Host Disease (GVHD)) can occur (EP-A-217,206). A differentiation is therefore made between a rejection between transplant and host and between host and transplant.
Tissue and organ transplant recipients are customarily treated with one or more cytotoxic agents in an effort to suppress the transplant recipient's immune response against the transplanted organ or tissue. Current immunosuppressant drugs include: cyclosporin, tacrolimus (FK506), sirolimus (rapamycin), methotrexate, mycophenolic acid (mycophenolate mofetil), everolimus, azathiprine, steroids and NOX-100. All of these drugs have side effects (detailed below) that complicate their long-term use. For example, cyclosporin (cyclosporin A), a cyclic polypeptide consisting of 11 amino acid residues and produced by the fungus species Tolypocladium inflatum Gams, is currently the drug of choice for administration to the recipients of allogeneic kidney, liver, pancreas and heart (i.e., wherein donor and recipient are of the same species of mammals) transplants. However, administration of cyclosporin is not without drawbacks as the drug can cause kidney and liver toxicity as well as hypertension. Moreover, use of cyclosporin can lead to malignancies (such as lymphoma) as well as opportunistic infection due to the “global” nature of the immunosuppression it induces in patients receiving long term treatment with the drug, i.e., the hosts normal protective immune response to pathogenic microorganisms is downregulated thereby increasing the risk of infections caused by these agents.
FK506 (tacrolimus) has also been employed as an immunosuppressive agent as a stand-alone treatment or in combination. Although its immunosuppressive activity is 10-100 times greater than cyclosporin, it still has toxicity issues. Known side effects include kidney damage, seizures, tremors, high blood pressure, diabetes, high blood potassium, headache, insomnia, confusion, seizures, neuropathy, and gout. It has also been associated with miscarriages.
Methotrexate is commonly added to the treatment of the cytotoxic agent. Methotrexate is given in small doses several times after the transplant. Although the combination of cyclosporin and methotrexate has been found to be effective in decreasing the severity of transplant rejection, there are side effects, such as mouth sores and liver damage.
Severe transplant rejection can be treated with steroids. However, the side effects of steroids can be extreme, such as weight gain, fluid retention, elevated blood sugar, mood swings, and/or confused thinking.
Rapamycin, a lipophilic macrolide used as an anti-rejection medication can be taken in conjunction with other anti-rejection medicines (i.e., cyclosporin) to reduce the amount of toxicity of the primary cytotoxic agent, but it too has specific side effects, such as causing high cholesterol, high triglycerides, high blood pressure, rash and acne. Moreover, it has been associated with anemia, joint pain, diarrhea, low potassium and a decrease in blood platelets.
Vitamin D has been employed to decrease bone loss caused by cyclosporin (U.S. Pat. No. 6,071,897) and was shown to decrease the possibility of infection noted by the use of cyclosporin.
Although many approaches have been conceived to treat transplant rejection, there is still room for improvement. (See U.S. Pat. Nos. 6,239,124, 6,071,897, 5,788,968, 5,728,721, 5,308,847, 5,298,523, 5,212,155, 5,100,899 all herein incorporated by reference in their entirety.)
U.S. Pat. No. 5,262,439 to Parthasarathy, which is assigned to AtheroGenics, Inc. discloses analogs of probucol with increased water solubility in which one or both of the hydroxyl groups are replaced with ester groups that increase the water solubility of the compound. In one embodiment, the derivative is selected from the group consisting of a mono- or di-probucol ester of succinic acid, glutaric acid, adipic acid, seberic acid, sebacic acid, azelaic acid, or maleic acid. In another embodiment, the probucol derivative is a mono- or di-ester in which the ester contains an alkyl or alkenyl group that contains a functionality selected from the group consisting of a carboxylic acid group, amine group, salt of an amine group, amide groups, amide groups, and aldehyde groups.
U.S. Pat. No. 6,121,319, which issued on Sep. 19, 2000, and corresponding WO 98/51662 filed by AtheroGenics, Inc. and published on Nov. 18, 1998, describes certain compounds of formula having the structure
wherein:
R
a
, R
b
, R
c
, and R
d
are independently any group that does not otherwise adversely affect the desired properties of the molecule, including hydrogen, straight chained, branched, or cyclic alkyl which may be substituted, aryl, substituted aryl, heteroaryl, substituted heteroaryl, alkaryl, substituted alkaryl, aralkyl or substituted aralkyl; substituents on the R
a
, R
b
, R
c
and R
d
groups are selected from the group consisting of hydrogen, halogen, alkyl, nitro, amino, haloalkyl, alkylamino, dialkylamino, acyl, and acyloxy;
Z is selected from the group consisting of hydrogen, alkyl, substituted alkyl, alkenyl, substituted alkenyl, alkynyl, substituted alkynyl, aryl, aralkyl, alkaryl, heteroaryl, heteroaralkyl, a carbohydrate group, —(CH
2
)—R
e
, —C(O)—R
g
, and —C(O)—(CH
2
)
n
—R
h
, wh
Edwards David B.
Glass Mitchell
Somers Patricia K.
AtheroGenics, Inc.
Killos Paul J.
King & Spalding LLP
Knowles, Esq. Sherry M.
Scrivner, Esq. Alan L.
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