Dihydro-benzo(1,4)oxazines

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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Details

C544S105000

Reexamination Certificate

active

06632814

ABSTRACT:

This invention is directed to aza-bicycles, their preparation, pharmaceutical compositions containing these compounds, and their pharmaceutical use in the treatment of disease states capable of being modulated by the inhibition of cell adhesion.
Cell adhesion is a process by which cells associate with each other, migrate towards a specific target or localise within the extra-cellular matrix. Many of the cell-cell and cell-extracellular matrix interactions are mediated by protein ligands (e.g. fibronectin, VCAM-1 and vitronectin) and their integrin receptors [e.g. &agr;5&bgr;1 (VLA-5), &agr;4&bgr;1 (VLA-4) and &agr;V&bgr;3]. Recent studies have shown these interactions to play an important part in many physiological (e.g. embryonic development and wound healing) and pathological conditions (e.g. tumour-cell invasion and metastasis, inflammation, atherosclerosis and autoimmune disease).
A wide variety of proteins serve as ligands for integrin receptors. In general, the proteins recognised by integrins fall into one of three classes: extracellular matrix proteins, plasma proteins and cell surface proteins. Extracellular matrix proteins such as collagen fibronectin, fibrinogen, laminin, thrombospondin and vitronectin bind to a number of integrins. Many of the adhesive proteins also circulate in plasma and bind to activated blood cells. Additional components in plasma that are ligands for integrins include fibrinogen and factor X. Cell bound complement C3bi and several transmembrane proteins, such as Ig-like cell adhesion molecule (ICAM-1,2,3) and vascular cell adhesion molecule (VCAM-1), which are members of the Ig superfamily, also serve as cell-surface ligands for some integrins.
Integrins are heterodimeric cell surface receptors consisting of two subunits called &agr; and &bgr;. There are at least fifteen different &agr;-subunits (&agr;1-&agr;9, &agr;-L, &agr;-M, &agr;-X, &agr;-IIb, &agr;-V and &agr;-E) and at least seven different &bgr; (&bgr;1-&bgr;7) subunits. The integrin family can be subdivided into classes based on the &bgr; subunits, which can be associated with one or more &agr;-subunits. The most widely distributed integrins belong to the &bgr;1 class, also known as the very late antigens (VLA). The second class of integrins are leukocyte specific receptors and consist of one of three &agr;-subunits (&agr;-L, &agr;-M or &agr;-X) complexed with the &bgr;2 protein. The cytoadhesins &agr;-IIb&bgr;3 and &agr;-V&bgr;3, constitute the third class of integrins.
The present invention principally relates to agents which modulate the interaction of the ligand VCAM-1 with its integrin receptor &agr;4&bgr;1 (VLA-4), which is expressed on numerous hematopoietic cells and established cell lines, including hematopoietic precursors, peripheral and cytotoxic T lymphocytes, B lymphocytes, monocytes, thymocytes and eosinophils.
The integrin &agr;4&bgr;1 mediates both cell-cell and cell-matrix interactions. Cells expressing &agr;4&bgr;1 bind to the carboxy-terminal cell binding domain (CS-1) of the extracellular matrix protein fibronectin, to the cytokine-inducible endothelial cell surface protein VCAM-1, and to each other to promote homotypic aggregation. The expression of VCAM-1 by endothelial cells is upregulated by proinflammatory cytokines such as INF-&ggr;, TNF-&agr;, IL-1&bgr; and IL-4.
Regulation of &agr;4&bgr;1 mediated cell adhesion is important in numerous physiological processes, including T-cell proliferation, B-cell localisation to germinal centres, and adhesion of activated T-cells and eosinophils to endothelial cells. Evidence for the involvement of VLA-4/VCAM-1 interaction in various disease processes such as melanoma cell division in metastasis, T-cell infiltration of synovial membranes in rheumatoid arthritis, autoimmune diabetes, collitis and leukocyte penetration of the blood-brain barrier in experimental autoimmune encephalomyelitis, atherosclerosis, peripheral vascular disease, cardiovascular disease and multiple sclerosis, has been accumulated by investigating the role of the peptide CS-1 (the variable region of fibronectin to which &agr;4&bgr;1 binds via the sequence Leu-Asp-Val) and antibodies specific for VLA-4 or VCAM-1 in various in vitro and in vivo experimental models of inflammation. For example, in a Streptococcal cell wall-induced experimental model of arthritis in rats, intravenous administration of CS-1 at the initiation of arthritis suppresses both acute and chronic inflammation (S. M. Wahl et al., J.Clin.Invest., 1994, 94, pages 655-662). In the oxazalone-sensitised model of inflammation (contact hypersensitivity response) in mice, intravenous administration of anti-&agr;4 specific monoclonal antibodies significantly inhibited (50-60% reduction in the ear swelling response) the efferent response (P. L. Chisholm et al. J.Immunol., 1993, 23, pages 682-688). In a sheep model of allergic bronchoconstriction, HP1/2, an anti-&agr;4 monoclonal antibody given intravenously or by aerosol, blocked the late response and the development of airway hyperresponsiveness (W. M. Abraham et al. J. Clin. Invest., 1994, 93 pages 776-787).
We have now found a novel group of aza-bicycles which have valuable pharmaceutical properties, in particular the ability to regulate the interaction of VCAM-1 and fibronectin with the integrin VLA-4 (&agr;4&bgr;1).
Thus, in one aspect, the present invention is directed to aza-bicycles of general formula (I):
wherein:
R
1
represents a group selected from:
(i) R
3
—Z
3

(ii) R
3
—L
2
—R
4
—Z
3

(iii) R
3
—L
3
—Ar
1
—L
4
—Z
3

(iv) R
3
—L
3
—Ar
1
—L
2
—R
4
—Z
3

R
2
represents hydrogen, halogen, lower alkyl or lower alkoxy;
R
3
is alkyl, alkenyl, alkynyl, aryl, arylalkyl, arylalkenyl, arylalkynyl, cycloalkyl, cycloalkylalkyl, cycloalkylalkenyl, cycloalkylalkynyl, cycloalkenyl, cycloalkenylalkyl, heteroaryl, heteroarylalkyl, heteroarylalkenyl, heteroarylalkynyl, heterocycloalkyl or heterocycloalkylalkyl;
R
4
is an alkylene chain, an alkenylene chain, or an alkynylene chain;
R
5
is hydrogen or lower alkyl;
R
6
is hydrogen, alkyl, alkenyl, aryl, arylalkyl, cycloalkyl, cycloalkylalkyl, heteroaryl or heteroarylalkyl;
R
7
is hydrogen or lower alkyl;
R
8
is hydrogen, alkyl, aryl, arylalkyl, cycloalkyl, cycloalkylalkyl, heteroaryl, heteroarylalkyl, heterocycloalkyl or heterocycloalkylalkyl;
R
9
is alkyl, aryl, cycloalkyl, heteroaryl or heterocycloalkyl, or alkyl substituted by aryl, an acidic functional group, cycloalkyl, heteroaryl, heterocycloalkyl, —S(O)
m
R
3
, —C(═O)—NY
4
Y
5
or —NY
4
Y
5
;
R
10
is hydrogen, R
3
or alkyl substituted with alkoxy, cycloalkyl, hydroxy, mercapto, alkylthio or —NY
4
Y
5
;
R
11
and R
13
are each independently selected from hydrogen or a group consisting amino acid side chains, an acidic functional group, R
3
, —C(═O)—R
3
, or —C(═O)—NY
4
Y
5
, or alkyl substituted by an acidic functional group or by R
3
, —NY
4
Y
5
, —NH—C(═O)—R
3
, —C(═O)—R
4
—NH
2
, —C(═O)—Ar
1
—NH
2
, —C(═O)—R
4
—CO
2
H, or —C(═O)—NY
4
Y
5
;
or R
10
and R
11
or R
10
and R
13
together with the atoms to which they attached form a 3- to 6-membered heterocycloalkyl ring;
R
12
is C
1-6
alkylene, optionally substituted by R
3
;
R
14
is alkyl, aryl, arylalkyl, cycloalkyl, cycloalkylalkyl, heteroaryl, heteroarylalkyl, heterocycloalkyl or heterocycloalkylalkyl;
R
17
represents hydrogen, R
9
, —C(═O)—R
9
, —C(═O)—OR
14
or —SO
2
R
9
;
A
1
represents a straight chain C
2-3
alkylene linkage optionally substituted by one or more groups chosen from alkyl, aryl, arylalkyl, heteroaryl, heteroarylalkyl, imino, oxo, thioxo, or alkyl substituted by —ZR
6
, —NY
1
Y
2
, —CO
2
R
6
or —C(═O)—NY
1
Y
2
;
Ar
1
is arylene or heteroaryldiyl;
L
1
represents:
(i) a direct bond;
(ii) an alkenylene, alkylene, alkynylene, cycloalkenylene, cycloalkylene, heteroaryldiyl, heterocycloalkylene or arylene linkage each optionally substituted by (a) an acidic functional group, cyano, oxo, —S(O)
m
R
9
, R
3
, —C(═O)—R
3
, —C(═O)—OR
3
, —N(R
8
)—C(═O)—R
9
, —N(R
8
)—C(═O)—O

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