Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Heterocyclic carbon compounds containing a hetero ring...
Reexamination Certificate
2001-06-15
2004-04-13
Raymond, Richard L. (Department: 1624)
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Heterocyclic carbon compounds containing a hetero ring...
C514S253030, C514S277000, C514S336000, C514S349000, C514S351000, C514S357000, C546S001000, C546S304000, C546S339000, C546S329000
Reexamination Certificate
active
06720315
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to pharmaceutical agents (compounds) which are &agr;
V
&bgr;
3
and/or &agr;
V
&bgr;
5
integrin antagonists and as such are useful in pharmaceutical compositions and in methods for treating conditions mediated by &agr;
V
&bgr;
3
and/or &agr;
V
&bgr;
5
integrins.
BACKGROUND OF THE INVENTION
The integrin &agr;
V
&bgr;
3
(also known as vitronectin receptor), is a member of the integrin family of heterodimeric transmembrane glycoprotein complexes that mediate cellular adhesion events and signal transduction processes. Integrin &agr;
V
&bgr;
3
is expressed in number of cell types and has been shown to mediate several biologically relevant processes, including adhesion of osteoclasts to the bone matrix, vascular smooth muscle cell migration and angiogenesis.
The integrin &agr;
V
&bgr;
3
has been shown to play a role in various conditions or disease states including tumor metastasis, solid tumor growth (neoplasia), osteoporosis, Paget's disease, humoral hypercalcemia of malignancy, osteopenia, angiogenesis, including tumor angiogenesis and lymphangiogenesis, retinopathy including macular degeneration, arthritis, including rheumatoid arthritis, periodontal disease, psoriasis and smooth muscle cell migration (e.g. restenosis artherosclerosis). The compounds of the present invention are &agr;
V
&bgr;
3
antagonists and can be used, alone or in combination with other therapeutic agents, in the treatment or modulation of various conditions or disease states described above. Additionally, it has been found that such agents would be useful as antivirals, antifungals and antimicrobials.
The integrin &agr;
V
&bgr;
5
is thought to play a role in neovascularization. M. C. Friedlander, et al.,
Science,
270, 1500-1502 (1995) disclose that a monoclonal antibody for &agr;
V
&bgr;
5
inhibits VEFG-induced angiogenesis in the rabbit cornea and the chick chorioallantoic membrane model. Therefore compounds which act as antagonists of the &agr;
V
&bgr;
5
integrin will inhibit neovascularization and will be useful for treating and preventing angiogenesis metastasis, tumor growth, macular degeneration and diabetic retionopathy.
Certain compounds may antagonize both the &agr;
V
&bgr;
5
and the &agr;
V
&bgr;
3
receptor and therefore are referred to as “mixed &agr;
V
&bgr;
5
/&agr;
V
&bgr;
3
antagonists” or “dual &agr;
V
&bgr;
3
/&agr;
V
&bgr;
5
antagonists”. Such dual or mixed antagonists are useful for treating or preventing angiogenesis, tumor metastasis, tumor growth, diabetic retinopathy, macular degeneration, atherosclerosis and osteoporosis
It has been shown that the &agr;
V
&bgr;
3
integrin and other &agr;
V
containing integrins bind to a number of Arg-Gly-Asp (RGD) containing matrix macromolecules. Compounds containing the RGD sequence mimic extracellular matrix ligands so as to bind to cell surface receptors. However, it is also known that RGD peptides in general are non-selective for RGD dependent integrins. For example, most RGD peptides which bind to &agr;
V
&bgr;
3
also bind to &agr;
V
&bgr;
5
, &agr;
V
&bgr;
1
and &agr;
IIb
&bgr;
3
. Antagonism of platelet &agr;
IIb
&bgr;
3
(also known as the fibrinogen receptor) is known to block platelet aggregation in humans. In order to avoid bleeding side-effects when treating the conditions or disease states associated with the integrin &agr;
V
&bgr;
3
it would be beneficial to develop compounds which are selective antagonists of &agr;
V
&bgr;
3
as opposed to &agr;
IIb
&bgr;
3
.
Tumor cell invasion occurs by a three step process: 1) tumor cell attachment to extracellular matrix; 2) proteolytic dissolution of the matrix; and 3) movement of the cells through the dissolved barrier. This process can occur repeatedly and can result in metastases at sites distant from the original tumor.
Seftor et al. (
Proc. Natl. Acad. Sci. USA
, Vol. 89 (1992) 1557-1561) have shown that the &agr;
V
&bgr;
3
integrin has a biological function in melanoma cell invasion. Montgomery et al., (
Proc. Natl. Acad. Sci. USA
, Vol. 91 (1994) 8856-60) have demonstrated that the integrin &agr;
V
&bgr;
3
expressed on human melanoma cells promotes a survival signal, protecting the cells from apoptosis. Mediation of the tumor cell metastatic pathway by interference with the &agr;
V
&bgr;
3
integrin cell adhesion receptor to impede tumor metastasis would be beneficial.
Further, with the discovery that &agr;
V
&bgr;
3
plays a role in the process of lymphatic dissemination via adhesion of melanoma cells to lymph node by binding the vitronectin receptor (Nip et al.,
J Clin Invest
1992, 90, 1406), inhibitors of &agr;
V
&bgr;
3
may also be useful for making alterations in lymphatic endothelial-tumor cell adhesion, thereby further reducing the potential for tumor metastasis.
Brooks et al (
Cell
, Vol. 79 (1994) 1157-1164) have demonstrated that antagonists of &agr;
V
&bgr;
3
provide a therapeutic approach for the treatment of neoplasia (inhibition of solid tumor growth) since systemic administration of &agr;
V
&bgr;
3
antagonists causes dramatic regression of various histologically distinct human tumors.
The compounds of the present invention are useful for the treatment, including prevention of angiogenic disorders. The term angiogenic disorders include conditions involving abnormal neovascularization. The growth of new blood vessels, or angiogenesis, also contributes to pathological conditions such as diabetic retinopathy including macular degeneration (Adamis et al.,
Amer. J. Ophthal
., Vol. 118, (1994) 445-450) and rheumatoid arthritis (Peacock et al.,
J. Exp. Med
., Vol. 175, (1992), 1135-1138). Therefore, &agr;
V
&bgr;
3
antagonists would be useful therapeutic agents for treating such conditions associated with neovascularization (Brooks et al.,
Science
, Vol. 264, (1994), 569-571).
It has been reported that the cell surface receptor &agr;
V
&bgr;
3
is the major integrin on osteoclasts responsible for attachment to bone (for a review, see Rodan and Rodan, 1997,
J. Endocrinol.
154, S47, Nakamura et al.,
J. Cell Science,
1999 112, 3985). Osteoclasts cause bone resorption and when such bone resorbing activity exceeds bone forming activity it leads to an increased number of bone fractures, incapacitation and increased mortality. Antagonists of &agr;
V
&bgr;
3
have been shown to be potent inhibitors of osteoclastic activity both in vitro (Sato et al.,
J. Cell. Biol
., Vol. 111 (1990) 1713-1723) and in vivo (Fisher et al.,
Endocrinology
, Vol. 132 (1993) 1411-1413). Antagonism of &agr;
V
&bgr;
3
leads to decreased bone resorption and therefore restores a normal balance of bone forming and resorbing activity. Thus it would be beneficial to provide antagonists of osteoclast &agr;
V
&bgr;
3
which are effective inhibitors of bone resorption and therefore are useful in the treatment or prevention of osteoporosis.
The role of the &agr;
V
&bgr;
3
integrin in smooth muscle cell migration also makes it a therapeutic target for prevention or inhibition of neointimal hyperplasia which is a leading cause of restenosis after vascular procedures (Choi et al.,
J. Vasc. Surg
. Vol. 19(1) (1994)125-34). Prevention or inhibition of neointimal hyperplasia by pharmaceutical agents to prevent or inhibit restenosis would be beneficial.
White (
Current Biology
, Vol. 3(9)(1993) 596-599) has reported that adenovirus uses &agr;
V
&bgr;
3
for entering host cells. The integrin appears to be required for endocytosis of the virus particle and may be required for penetration of the viral genome into the host cell cytoplasm. Thus compounds which inhibit &agr;
V
&bgr;
3
would find usefulness as antiviral agents.
SUMMARY OF THE INVENTION
The compounds of this invention are 1) &agr;
V
&bgr;
3
integrin antagonists; or 2) &agr;
V
&bgr;
5
integrin antagonists; or 3) mixed or dual &agr;
V
&bgr;
3
/&agr;
V
&bgr;
5
antagonists. The present invention includes compounds which inhibit the respective integrins and also includes pharmaceutical compositions comprising such compounds. The present invention further provides for methods
Clare Michael
Khanna Ish Kumar
Lu Hwang-Fun
Malecha James W.
Nagarajan Srinivasan Raj
Kovacevic Cynthia S.
Patel Sudhaker B.
Pharmacia Corporation
Polster Rachel A.
Raymond Richard L.
LandOfFree
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