Compositions and methods to enhance cancer chemotherapy in...

Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Heterocyclic carbon compounds containing a hetero ring...

Reexamination Certificate

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C540S545000

Reexamination Certificate

active

06472385

ABSTRACT:

BACKGROUND OF THE INVENTION
Progression through the cell cycle is regulated carefully at various checkpoints to avoid proliferation when adverse conditions exist. For example, cells with damaged DNA arrest at checkpoints in the G
1
or S phase to prevent replication of damaged DNA or in the G
2
phase to prevent aberrant mitosis. The function of these checkpoints is to provide more time to repair damaged DNA prior to replication and mitosis, thereby enhancing cell survival and reducing the probability of mutation and carcinogenesis.
Anticancer agents including, but not limited to, cisplatin, irinotecan and radiation, work by causing DNA damage in tumor cells. However, this damage can result in arrest of cell cycle progression thereby providing time for the tumor cells to recover by repairing their DNA so that the tumor continues to grow. One successful approach to increase the cell killing activity of these anticancer agents is to inhibit cell cycle arrest such that cells continue to replicate and divide prior to repair of their damaged DNA.
Agents that abrogate the G
2
checkpoint activated by DNA damage include the methylxanthines caffeine and pentoxifylline (Lau et al. Proc. Natl Acad. Sci. USA 1982 79:2942-6; O'Connor et al. J. Biol. Chem. 1993 268:8298-8308; Demarcq et al. Cell Growth Differ 1994 5:983-93); the phosphatase inhibitors okadaic acid (Yamashita et al. EMBO J 1990 13:4331-8); fostriecin (Roberge et al. Cancer Res. 1994 54:6115-21; Guo et al. EMBO J 1995 14:976-85) and calyculin A (Nakamura et al. Cancer Res. 1994 54:2088-90); and certain protein kinase antagonists, such as staurosporine (Tam, S.W. Cell Growth Natl Acad. Sci. USA 1992 89:2272-6). However, many of these agents are too cytotoxic for clinical use.
A staurosporine analog, 7-hydroxystaurosporine (UCN-01) , a potent protein kinase inhibitor, has been demonstrated at noncytotoxic doses to abrogate the G
2
arrest caused by the DNA damaging agent cisplatin (Wang et al. J. Natl. Can. Inst. 1996 88(14):956-64; Bunch, R. T. and Eastman, A. Clin. Can. Res. 1996 2:791-797). Further, using Chinese hamster ovary cells incubated with doses of cisplatin that cause predominantly an S-phase arrest, it has been shown that UCN-01 abrogates this S-phase arrest, causing progression of cells to G
2
and M and, subsequently, apoptotic cell death (Bunch, R. T. and Eastman, A. Cell Growth and Differentiation 1997 8:779-788). Abrogation of S phase arrest has also been observed in human cells. During a Phase I clinical trial of UCN-01, however, this compound bound avidly to plasma proteins thereby preventing penetration into the tumor and inhibiting activity of the compound (Fuse et al. Cancer Res. 1998 58:3248-3253; and Sausville et al. Cancer Chemotherapy Pharmacology 1998 42:S54-S59).
In the present invention, new compositions are provided which also abrogate DNA damage-induced cell cycle arrest. However, the abrogation activity of these compositions is not inhibited by binding to human plasma proteins. These compositions are believed to be particularly useful in enhancing anticancer chemotherapies in p53 defective tumors.
SUMMARY OF THE INVENTION
An object of the present invention is to provide ompositions comprising formula (I):
wherein
R
1
and R
2
are each OH, O, OCH
3
, OC
2
H
5
, OC
6
H
5
, OCH
2
C
6
H
5
or a related alkyl group; and
R
3
, R
4
, R
5
, R
6
are each selected from a group consisting of H, CH
3
, C
2
H
5
, COOH, CONH
2
, CHO, COCH
3
, COOCH
3
, CH
2
NHCH
3
, OH, OCH
3
, OC
2
H
5
, NH
2
, NHR′ and NNR′
2
, wherein R′ is an alkyl group.
Another object of the present invention is to provide a method of abrogating DNA damage induced cell cycle arrest in cells comprising administering to cells a composition comprising formula (I).
Another object of the present invention is to provide a method of enhancing the cell killing activity of DNA damaging anticancer agents comprising administering in combination with the DNA damaging anticancer agent a composition comprising formula (I).
Yet another object of the present invention is to provide a method for treating cancer comprising administering to a patient suffering from cancer an anticancer agent which induces DNA damage of tumor cells and a composition comprising formula (I).
DETAILED DESCRIPTION OF THE INVENTION
The present invention relates to a novel family of compositions which abrogate DNA damage-induced cell cycle arrest without untoward binding to human plasma proteins. Compositions of the present invention comprise a ring structure similar to that of the kinase inhibitor, K252a. The structure of K252a is shown below.
The K252a family of alkaloid toxins-kinase inhibitors are some of the most widely used compounds in biological research on the role of protein kinases in cellular transduction systems, biological functions and pathophysiology of neurological disorders (Lazarovici et al. Adv. Exp. Med. Biol. 1996 391:367-77). Members of the K252a family have been demonstrated to inhibit a number of neurotrophin-mediated cellular responses, and to preferentially inhibit the activity of neurotrophin-mediated receptors. K252a has also been demonstrated to inhibit the growth of human prostate carcinoma cells (Delsite, R. and Djakiew, D. J. Androl. 1996 17(5):481-90). K252 derivatives with protein C kinase inhibition activity have also been disclosed to be useful in the treatment or prophylaxis of circulatory system disorders, inflammation, allergies and tumors (JP 62155284; JP 93001794).
K252a has a similar ring structure to staurosporine and the staurosporine analog, UCN-01. However, in K252a the hexose. moiety is replaced with a pentose moiety. Unlike staurosporine and UCN-01, it has now been found that activity of K252a is not inhibited by addition of human plasma proteins. It is believed that the pentose ring of this structure prevents binding of this compound to human plasma proteins. However, K252a only abrogates cell cycle arrest in the S phase. K252a does not abrogate cell cycle arrest in the G
2
phase. In fact, K252a, when used alone, actually causes G
2
arrest.
It has now been found, however, that modifying the basic ring structure of K252a at carbon 7 prevents both cytotoxicity and cell cycle arrest. It has also now been found that maintenance of the pentose moiety in this ring structure results in compounds which do not bind or bind only weakly to human plasma protein.
Accordingly, the present invention relates to compositions comprising a structure as depicted in formula (I):
In this composition, R
1
and R
2
are preferably each selected from the group consisting of OH, O, OCH
3
, OC
2
H
5
, OC
6
H
5
, OCH
2
C
6
H
5
or a related alkyl group. R
3
, R
4
, R
5
, R
6
and R
7
are preferably each selected from the group consisting of H, CH
3
, C
2
H
5
, COOH, CONH
2
, CHO, COCH
3
, COOCH
3
, CH
2
NHCH
3
, OH, OCH
3
, NH
2
, NHR′ and NR′
2
, wherein R′ is an alkyl group. However, as will be obvious to those of skill in the art upon this disclosure, other groups which produce compositions of similar activity can also be substituted at these positions on the ring structure.
Several exemplary compositions comprising these critical features have been synthesized. These include ICP1 having the structure of formula (II), ICP2(a,b) having the structure of formula (III), and ICP3(a,b) having the structure of formula (IV), respectively:
Further, using ICP1, it has now been demonstrated that a composition comprising formula (I) abrogates cell cycle arrest at non-toxic concentrations. Unlike K252a, this composition of the present invention does not cause G
2
arrest at concentrations capable of abrogating arrest. Further, ICP1 was demonstrated to maintain its ability to abrogate cell cycle arrest in the presence of human plasma. Thus, unlike staurosporine and UCN-01, activity of the compositions of the present invention is not limited by binding to plasma proteins. Experiments of cell cycle analysis were conducted in accordance with procedures described by Demarcq et al. Cell Growth and Differ. 1994 5:983-993;

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