Chemistry: natural resins or derivatives; peptides or proteins; – Peptides of 3 to 100 amino acid residues – 4 to 5 amino acid residues in defined sequence
Reexamination Certificate
2001-01-05
2002-08-20
Low, Christopher S. F. (Department: 1653)
Chemistry: natural resins or derivatives; peptides or proteins;
Peptides of 3 to 100 amino acid residues
4 to 5 amino acid residues in defined sequence
C530S331000, C530S317000, C514S009100, C514S018700
Reexamination Certificate
active
06437094
ABSTRACT:
The present invention relates to cyclic peptidomimetic compounds, in particular to cyclic peptidomimetic compounds having azabicycloalkane structure and containing the RGD (Arg-Gly-Asp) sequence. Said compounds have inhibiting action on &agr;
v
&bgr;
3
-receptor of the integrin family. The compounds of the present invention are endowed with antiangiogenic properties, hence are useful as medicaments, preferably for the treatment of tumors.
BACKGROUND OF THE INVENTION
The first molecule with antiangiogenic activity was discovered in 1975 by Henry Brem and Judah Folkman in cartilaginous tissues.
In the 80s it was found that interferon (&agr;/&bgr;) is effective in inhibiting tumor angiogenesis.
In 1998, it was widely published, also in the media, that angiostatin and endostatin discovered by J. Folkman at Harvard Medicinal School and Boston Children's Hospital were giving very encouraging results in tuxnor treatment.
To-date, about 30 molecules are tested in clinical trials (Phase I-III).
Of these 30 molecules, only two drugs, of which one is an antibody, are in clinical trials for their activity in inhibiting endothelial specific integrins.
It is calculated that only in the USA, about 9 million patients could benefit from an antiangiogenic therapy.
Recently, FDA has approved clinical trials for the combination of IL-10 with Thalidomide and Methoxyestradiol.
Angiogenesis is intended as the formation of new capillary blood vessels. This natural phenomenon is involved both in physiological processes, as reproduction, and in pathological occurrences, as wound healing, arthritis and tumor vascularization.
A number of growth factors have been identified as capable of promoting angiogenesis, through direct induction of proliferation and/or chemiotaxis of endothelial cells. Other factors, instead, act indirectly, by stimulating other cell types (mast cells, macrophages), which, on their turn, produce angiogenic factors. The presence of growth factors, such as bFGF and VEGF, near a resting capillary net, suggested that angiogenesis might be the outcome of an unbalance between pro- and anti-angiogenic factors.
In the last years, it was reported that tumor growth and metastasis formation is strictly dependent on the development of new vessels capable of vascularizing the tumor mass.
Antiangiogenic tumor therapy is strongly desired by physicians for the following reasons:
specificity: tumor tieovascularization is the target;
bioavailability: the antiangiogenic agent is targeted toward endothelial cells, easily reached without the well-known problems of chemotherapy, which is directed on the tumor cell;
chemoresistance; this is the most striking advantage, in fact, endothelial cells are genetically stable and it is quite difficult to observe drug resistance;
angiogenic blockade avoids metastatic cells to diffuse through blood circulation;
apoptosis: blocking angiogenesis makes tumor cell suffer from oxygen and nutrition lack, thus inducing apoptosis;
antiangiogenic therapy does not give rise to side effects typical of chemotherapy.
The endogenous pro-angiogenic factors to date known are acid/basic Fibroblast Growth factor (a/bFGF) and Vascular Endothelial Growth Factor (VEGF), and its subtype B and C, Angiogenin, Endothelial Growth Factor (EGF), Platelet derived-Endothelial Cell Growth Factor (PD-ECGF), Transforming Growth Factor-&agr; (TGF-&agr;), Transforming Growth Factor-&bgr; (TGF-&bgr;), Tumor Necrosis Factor-&agr; (TNF-&agr;).
Retinoids are tested as potential antiangiogenic agents.
Some PK-C inhibitors, such as Calphostin-C, phorbol esters and Staurosporin, can block angiogenesis, either partially or totally.
Integrins are a class of receptors involved in the mechanism of cell adhesion and alterations in the function of these receptors are responsible in the occurrence of a number of pathologic manifestations, for example embryogenic development, blood coagulation, osteoporosis, acute renal failure, retinopathy, cancer, in particular metastasis. Among the molecular targets involved in angiogenesis, &agr;
v
&bgr;
3
integrins play an important role in adhesion, motility, growth and differentiation of endothelial cells. &agr;
v
&bgr;
3
integrins bind the RGD sequence (Arg-Gly-Asp), which constitutes the recognition domain of different proteins, such as laminin, fibronectin and vitronectin. The role of RGD sequence is described, for example, in Grant et al., J. Cell Physiology, 1992, Saiki et al., Jpn. J. Cancer Res. 81; 668-75. Carron et al, 1998, Cancer Res. 1; 58(9):1930-5 disclosed an RGD-containing tripeptide, named SC-68448, capable of inhibiting the binding between &agr;v&bgr;3 integrin with vitronectin (IC
50
=1 nM), Other works (Sheu et al., 1197, BBA; 1336(3):445-54 - Buckle at al., 1999, Nature 397:534-9) showed that RGD peptides can diffuse through the cell membrane and bind to the protein caspase-3, inducing apoptosis.
Therefore, RGD sequence is the basis for developing antagonists of the different integrins. To date, the reasons for which in many cases a high selectivity for certain integrins is observed is not quite clear, although a different conformation of the RGD sequence can be taken as an explanation. Recent data demonstrated that this sequence is often inserted into a type II-&bgr;-turn between two &bgr;-sheets extending from the core of the protein.
Thus the problem to provide substances having high selectivity toward integrins has not been fully satisfied yet.
There is a structural constraint to this research, namely, the RGD sequence must be kept unaltered, since it is well known that any modification to this sequence implies a loss of activity.
To find the correct structure that can block the molecule in a precise reverse-turn conformation, inducing a &bgr;-turn geometry, is very critical.
It is well known that the &agr;
v
&bgr;
3
-receptor, a member of the integrin family, is implicated in angiogenesis and in human tumor metastasis.
Metastasis of several tumor cell lines as well as tumor-induced angiogenesis can be inhibited by antibodies or small, synthetic peptides acting as ligands for these receptors (Friedlander et al.: Science 1995, 270, 1500-1502.
In order to have an inhibiting property, all the peptides must contain the Arg-Gly-Asp (RGD) sequence. Notwithstanding this RGD sequence, a high substrate specificity is present, due to different conformations of the RGD sequence in different matrix proteins (Ruoshlati et al. Science 1987, 238, 491-497). This flexibility of particular RGD portion is an obstacle to the determination of the bioactive conformation to be used in the widespread struture-activity drug design.
A solution was provided by Haubner et al. (J. Am. Chem. Soc. 1996, 118, 7881-7891) by inserting the RGD sequence in cyclic, rigid peptide structure. Spatial screening led to the highly active first-generation peptide c(RGDfV) (cyclic Arg-Gly-Asp-D-Phe-Val; WO97/06791), which shows a &bgr;II'/&ggr;-turn arrangement. A reduction of the flexibility is a technical goal to be achieved in order to obtain antagonists of integrins. Due to the width of the integrin family and to the number of different physiological activities of said integrins, it is highly desired to obtain active agents having highly selective inhibiting action.
A solution proposed in the art was to introduce in the peptidomimetic structure a rigid building block (turn mimetics).
Despite different tentatives and a number of structures proposed, Haubner et al (J. Am. Chem. Soc. 1996, 118, 7881-7891), identified an RGD“spiro” structure capable of providing the desired &bgr;II'/&ggr;-turn arrangement. Actually, four different structures are enabled in this work: an (S)-proline derivative, an (R)-proline derivative, a thiazabicyclo structure and a diaza-spiro-bicyclic structure. Non-homogeneous results were obtained. The Spiro structure was the only one able to adopt a &bgr;II'/&ggr;-turn conformation, but lacks of biological activity, The (S)-proline is very active, but less selective. The (R)-proline is active and selective. The thiazabicyclo-structure is a
Giannini Giuseppe
Scolastico Carlo
Low Christopher S. F.
Lurton David
Nixon & Vanderhye
Sigma-Tsu Industrie Farmaceutiche Riunite S.p.A.
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