Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Cyclopentanohydrophenanthrene ring system doai
Reexamination Certificate
2000-10-18
2004-01-13
Page, Thurman K. (Department: 1616)
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Cyclopentanohydrophenanthrene ring system doai
C514S169000, C424S489000, C424S490000, C424S451000, C424S472000
Reexamination Certificate
active
06677328
ABSTRACT:
FIELD OF THE INVENTION
The invention relates to the area of precancerous cell formation in the colon in those patients at risk for developing such precancerous cells. It also relates to preventing recurrence of such cell formation in those having been treated for cancer of the colon.
BACKGROUND OF THE INVENTION
Cancer of the colon is a common and deadly disease in the Western world. Genetic predisposition plays an important role, but exposure to substances that initiate and promote cancer is essential for a malignant tumor to develop. Bile acids have been implicated as important cancer-promoting agents.
In the normal colon mucosa, epithelial cells line crypts along the mucosal wall. Those epithelial cells which line the colon exposed surface and approximately the upper ⅔ of the crypt are normally non-proliferating, while those lining the lower ⅓ of the crypts are proliferating. As the proliferating cells migrate toward the upper portion of the crypt they transform and lose their proliferative ability. Ultimately the oldest cells are shed from the colon surface in the normal functioning of the colon. However, when the proliferating epithelial cells are induced to retain their proliferative capacity after reaching the upper ⅓ of the crypt, the normal process may go awry and microadenomas form. The proliferating cell, now at the surface of the colon continues to proliferate and a polyp develops.
Polyps may be either benign or cancerous. Some never become cancerous, but it is believed that adenomatous polyps are the main precursors of colon cancer and that about 90% of colon cancers develop from adenomatous polyps. Most adenomas do not continue to grow in size, but those that do are more likely to develop malignant changes. Therefore, reducing the number of adenomas and/or preventing their growth substantially reduces the number of potential colon cancers in the future.
Since subjects once treated for colon cancer have a much greater risk for developing further adenomas and cancers, potential adenoma prevention is extremely valuable in this population. The same may be said for close blood relatives of those treated for colon cancer, who may be at increased risk for adenoma and colon cancer cancer development.
Bile acids have been implicated as important cancer promoting agents. In the normal sequence of events, bile acids are conjugated with taurine and glycine, making them more hydrophilic. It is these conjugated bile acids that are primarily involved in the digestion of fat. The bulk of these are reabsorbed in the final segment of the small bowel. However some of the conjugated bile acids are not absorbed and pass further down the GI tract.
Bacterial modification of the conjugated bile acids occurs in the lower intestine or colon. Two primary pathways are involved, deconjugation and dehydroxylation. Free bile acids are produced from the conjugate and removal of the 7-alpha hydroxyl group results in formation of secondary bile acids. Each of these steps changes the bile acid to a more lipophilic compound and to one which is more cytotoxic and more cancer promoting than the unmodified compound.
Normal fecal bile acids in healthy adults have been reported as:
Deoxycholic acid
45%-55%
(more lipophilic)
Lithocholic acid
30%-40%
(more lipophilic)
Cholic acid
3%-5%
(more hydrophilic)
Chenodeoxycholic acid
3%-5%
Conjugated bile acids
<5%
(more hydrophilic)
Oxo bile acids
variable
Unsaturated bile acids
<1%
The normal healthy control is believed to have a proper balance of bile acids. If the lipophilic/hydrophilic balance of the bile acid pool is significantly upset in the lipophilic direction, the bile acids may become toxic or harmful to the colonic epithelial cells. It is believed that as the lipophilic nature of the bile acid pool increases, the mucosal epithelial cells are more likely to be damaged by the presence of the secondary bile acids, especially deoxycholate. The damaged cells then begin the repair process which includes inducing cell proliferation. Repeated and frequent damage repeatedly induces proliferation and repair. The process of apoptosis or programmed cell death may also be affected. Research in rats has shown that excessive lipophilic bile acids in the colon can impair apoptosis and possibly increase the risk of forming adenomas and cancer. In addition, once the cell membrane has been compromised, agents which would not affect or which would have a difficult time affecting the colonic mucosal epithelial cells are more likely to have a significant impact.
OBJECTS OF THE INVENTION
It is therefore an object of the present invention to provide a method of preventing formation and/or growth of adenomas and microadenomas as precursor lesions of cancer.
It is another object of the invention to provide a method of protecting colonic mucosal epithelial cells from the damaging affects of an overly lipophilic bile acid pool exposure.
It is still another object of the invention to provide a method of treating patients having a high risk of adenoma development so as to lower that risk.
SUMMARY OF THE INVENTION
These and other objects of the invention are achieved by administering an effective adenoma or microadenoma preventing amount of ursodiol or a pharmaceutically acceptable salt or a pharmaceutically acceptable conjugate thereof to a mammal in need of such treatment.
DETAILED DESCRIPTION OF THE INVENTION
The instant invention is a method of preventing adenomas or microadenomas in a mammal at risk of developing such adenomas or microadenomas comprising administering to such mammal an effective adenoma and/or microadenoma preventing amount of ursodiol or a pharmaceutically acceptable salt or a pharmaceutically acceptable conjugate thereof in one or more divided doses.
Ursodiol is ursodeoxycholic acid (chemical name: 3-&agr;-7-&bgr;-dihydroxy-5-&bgr;-cholan-24-oic acid), and is commercially available in pharmaceutical a dosage form under the name ACTIGALL® (Summit Pharmaceuticals, a division of Ciba-Geigy Corporation). Pharmaceutically acceptable salts of ursodiol include the alkali metal (preferably sodium and potassium) and alkaline earth metal (preferably calcium and magnesium) salts; most preferably sodium or potassium salts. Pharmaceutically acceptable conjugates of ursodiol include conjugates thereof with glycine or taurine. Preferably, free ursodiol is used in the present invention.
While any mammal may be treated with the present invention, the invention is primarily directed toward humans, farm animals, and pets; most preferably humans. Since ursodiol is, in part, metabolized to lithocholic acid, a liver toxin, mammals treated in accordance with the present invention should be capable of detoxifying lithocholic acid and removing it from the body. In humans, this is reasonably efficiently carried out by the process of sulfation and conjugation, with elimination in the feces and urine. Those of ordinary skill in the art (particularly in veterinary medicine) will be able to determine whether a particular species is capable of processing lithocholic acid to avoid any significant liver damage from the instant process.
For purposes of the present invention, the at risk population of one or more of the mammals to be treated includes those (1) having been diagnosed with colon cancer, colonic adenomas, and/or colonic microadenomas; and/or (2) having a close blood relative who has been diagnosed with colon cancer, colonic adenomas, and/or colonic microadenomas.
For purposes of the present invention the effective amount of ursodiol, its salts and its conjugates is calculated on the amount of ursodiol and is from about 1 mg/kg/day orally to about 30 mg/kg/day orally; preferably about 5 mg/kg/day to about 20 mg/kg/day; more preferably, about 8 mg/kg/day to about 10 mg/kg/day. The dosage may be in 1 or more divided doses. Typically, the daily dose is given in 1-4, preferably 2-3 divided doses. Typical doses for an adult human of about 60 kg is 300 mg of ursodiol from 1 to 4 times, preferably 1-3 times, most preferably 2-3 times a day.
The active agent ma
Allen Carroll Wayne
Brasitus Thomas Albert
Earnest David Lewis
Messerschmidt Gerald Leigh
Borovian Joseph J.
Ferraro Gregory D.
George Konata M
Novartis Corp.
Page Thurman K.
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