3-(heteroaryl) alanine derivatives-inhibitors of leukocyte...

Details 3-(heteroaryl) alanine derivatives-inhibitors of leukocyte... 3-(heteroaryl) alanine derivatives-inhibitors of leukocyte...

2001-07-19

2004-09-21

Raymond, Richard L. (Department: 1624)

Organic compounds -- part of the class 532-570 series

Organic compounds

Nitrogen attached directly or indirectly to the purine ring...

C544S297000, C544S298000, C544S301000, C544S302000, C544S310000, C544S311000, C544S313000, C514S252010, C514S255050, C514S256000, C514S217030, C514S317000, C514S336000, C514S397000, C514S422000, C540S450000, C540S484000, C540S492000, C540S567000, C562S553000, C562S433000

Reexamination Certificate

active

06794506

ABSTRACT:

BACKGROUND OF THE INVENTION
Field of the Invention
This invention relates to certain 3-(heteroaryl)alanine derivatives which inhibit leukocyte adhesion and, in particular, leukocyte adhesion mediated by VLA-4.
REFERENCES
The following publications, patents and patent applications are cited in this application as superscript numbers:
1
Hemler and Takada, European Patent Application Publication No. 330,506, published Aug. 30, 1989
2
Elices, et al.,
Cell,
60:577-584 (1990)
3
Springer,
Nature,
346:425-434 (1990)
4
Osborn,
Cell,
62:3-6 (1990)
5
Vedder, et al.,
Surgery,
106:509 (1989)
6
Pretolani, et al.,
J. Exp. Med.,
180:795 (1994)
7
Abraham, et al.,
J. Clin. Invest.,
93:776 (1994)
8
Mulligan, et al.,
J. Immunology,
150:2407 (1993)
9
Cybulsky, et al.,
Science,
251:788 (1991)
10
Li, et al.,
Arterioscler. Thromb.,
13:197 (1993)
11
Sasseville, et al.,
Am. J. Path.,
144:27 (1994)
12
Yang, et al.,
Proc. Nat. Acad. Science
(
USA
), 90:10494 (1993)
13
Burkly, et al.,
Diabetes,
43:529 (1994)
14
Baron, et al.,
J. Clin. Invest.,
93:1700 (1994)
15
Hamann, et al.,
J. Immunology,
152:3238 (1994)
16
Yednock, et al.,
Nature,
356:63 (1992)
17
Baron, et al.,
J. Exp. Med.,
177:57 (1993)
18
van Dinther-Janssen, et al.,
J. Immunology,
147:4207 (1991)
19
van Dinther-Janssen, et al.,
Annals. Rheumatic Dis.,
52:672 (1993)
20
Elices, et al.,
J. Clin. Invest.,
93:405 (1994)
21
Postigo, et al.,
J. Clin. Invest.,
89:1445 (1991)
22
Paul, et al.,
Transpl. Proceed.,
25:813 (1993)
23
Okarhara, et al.,
Can. Res.,
54:3233 (1994)
24
Paavonen, et al.,
Int. J. Can.,
58:298 (1994)
25
Schadendorf, et al.,
J. Path.,
170:429 (1993)
26
Bao, et al.,
Diff.,
52:239 (1993)
27
Lauri, et al.,
British J. Cancer,
68:862 (1993)
28
Kawaguchi, et al.,
Japanese J. Cancer Res.,
83:1304 (1992)
29
Kogan, et al., U.S. Pat. No. 5,510,332, issued Apr. 23, 1996
30
International Patent Appl. Publication No. WO 96/01644
All of the above publications, patents and patent applications are herein incorporated by reference in their entirety to the same extent as if each individual publication, patent or patent application was specifically and individually indicated to be incorporated by reference in its entirety.
State of the Art
VLA-4 (also referred to as &agr;
4
&bgr;
1
integrin and CD49d/CD29), first identified by Hemler and Takada
1
is a member of the &bgr;1 integrin family of cell surface receptors, each of which comprises two subunits, an &agr; chain and a &bgr; chain. VLA-4 contains an &agr;4 chain and a &bgr;1 chain. There are at least nine &bgr;1 integrins, all sharing the same &bgr;1 chain and each having a distinct &agr; chain. These nine receptors all bind a different complement of the various cell matrix molecules, such as fibronectin, laminin, and collagen. VLA-4, for example, binds to fibronectin. VLA-4 also binds non-matrix molecules that are expressed by endothelial and other cells. These non-matrix molecules include VCAM-1, which is expressed on cytokine-activated human umbilical vein endothelial cells in culture. Distinct epitopes of VLA-4 are responsible for the fibronectin and VCAM-1 binding activities and each activity has been shown to be inhibited independently.
2
Intercellular adhesion mediated by VLA-4 and other cell surface receptors is associated with a number of inflammatory responses. At the site of an injury or other inflammatory stimulus, activated vascular endothelial cells express molecules that are adhesive for leukocytes. The mechanics of leukocyte adhesion to endothelial cells involves, in part, the recognition and binding of cell surface receptors on leukocytes to the corresponding cell surface molecules on endothelial cells. Once bound, the leukocytes migrate across the blood vessel wall to enter the injured site and release chemical mediators to combat infection. For reviews of adhesion receptors of the immune system, see, for example, Springer
3
and Osborn
4
.
Inflammatory brain disorders, such as experimental autoimmune encephalomyelitis (EAE), multiple sclerosis (MS) and meningitis, are examples of central nervous system disorders in which the endothelium/leukocyte adhesion mechanism results in destruction to otherwise healthy brain tissue. Large numbers of leukocytes migrate across the blood brain barrier (BBB) in subjects with these inflammatory diseases. The leukocytes release toxic mediators that cause extensive tissue damage resulting in impaired nerve conduction and paralysis.
In other organ systems, tissue damage also occurs via an adhesion mechanism resulting in migration or activation of leukocytes. For example, it has been shown that the initial insult following myocardial ischemia to heart tissue can be further complicated by leukocyte entry to the injured tissue causing still further insult (Vedder et al.
5
). Other inflammatory or medical conditions mediated by an adhesion mechanism include, by way of example, asthma
6-8
Alzheimer's disease, atherosclerosis
9-10
, AIDS dementia
11
, diabetes
12-14
(including acute juvenile onset diabetes), inflammatory bowel disease
15
(including ulcerative colitis and Crohn's disease), multiple sclerosisl
16-17
, rheumatoid arthritis
18-21
, tissue transplantation
22
, tumor metastasis
23-28
, meningitis, encephalitis, stroke, and other cerebral traumas, nephritis, retinitis, atopic dermatitis, psoriasis, myocardial ischemia and acute leukocyte-mediated lung injury such as that which occurs in adult respiratory distress syndrome.
In view of the above, assays for determining the VLA-4 level in a biological sample containing VLA-4 would be useful, for example, to diagnosis VLA-4 mediated conditions. Additionally, despite these advances in the understanding of leukocyte adhesion, the art has only recently addressed the use of inhibitors of adhesion in the treatment of inflammatory brain diseases and other inflammatory conditions
29,30
. The present invention addresses these and other needs.
SUMMARY OF THE INVENTION
This invention provides certain 3-(heteroaryl)alanine derivatives which bind to VLA-4. Such compounds can be used, for example, to assay for the presence of VLA-4 in a sample and in pharmaceutical compositions to inhibit cellular adhesion mediated by VLA-4, for example, binding of VCAM-1 to VLA-4. The compounds of this invention have a binding affinity to VLA-4 as expressed by an IC
50
of about 15 &mgr;M or less (as measured using the procedures described in Example A below).
In particular, this invention is based on the discovery that the presence of a nitrogen containing heteroaryl group at the 3-position of these alanine derivatives provides significant advantages vis-a-vis aryl or other heteroaryl groups at this position in the molecule.
Accordingly, in one of its composition aspects, this invention is directed to a compound of Formula (I):
wherein:
A is selected from the group consisting of aryl, heteroaryl, cycloalkyl, and heterocyclic group wherein said aryl, heteroaryl, cycloalkyl, or heterocyclic group is optionally substituted, on any ring atom capable of substitution, with 1-3 substituents selected from the group consisting of alkyl, substituted alkyl, alkoxy, substituted alkoxy, acyl, acylamino, thiocarbonylamino, acyloxy, amino, substituted amino, amidino, alkyl amidino, thioamidino, aminoacyl, aminocarbonylamino, aminothiocarbonylamino, aminocarbonyloxy, aryl, substituted aryl, aryloxy, substituted aryloxy, aryloxyaryl, substituted aryloxyaryl, cyano, halogen, hydroxyl, nitro, oxo, carboxyl, cycloalkyl, substituted cycloalkyl, guanidino, guanidinosulfone, thiol, thioalkyl, substituted thioalkyl, thioaryl, substituted thioaryl, thiocycloalkyl, substituted thiocycloalkyl, thioheteroaryl, substituted thioheteroaryl, thioheterocyclic, substituted thioheterocyclic, heteroaryl, substituted heteroaryl, heterocyclic, substituted heterocyclic, cycloalkoxy, substituted cycloalkoxy, heteroaryloxy, substituted heteroaryloxy, heterocyclyloxy, substituted heterocyclyloxy, oxycarbonylamino, oxythiocarbonylamino, —OS(O)
2
-alkyl, —OS(O)
2
-substitute

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