Organic compounds -- part of the class 532-570 series – Organic compounds – Carbohydrates or derivatives
Reexamination Certificate
1999-11-16
2004-03-23
Ketter, James (Department: 1635)
Organic compounds -- part of the class 532-570 series
Organic compounds
Carbohydrates or derivatives
C435S252300, C435S320100, C435S325000
Reexamination Certificate
active
06710171
ABSTRACT:
TECHNICAL FIELD
The present invention relates to a novel physiologically active protein originating in mammals, a DNA encoding said protein, and an antibody reactive with said protein.
BACKGROUND ART
A so-called geriatric disease, which is regarded as a current disease in high living standard society, includes arteriosclerosis as well as hypertension and diabetes. Important measures for preventing these diseases are not only development of therapeutic methods but also daily life control.
Arteriosclerosis begins with pathological changes (for example, (1) invasive growth of smooth muscle cells into inner membrane, (2) qualitative and quantitative changes of collagen, elastin, and acidic mucopolysaccharides, and (3) cell foaming by lipid accumulation in the cytoplasm of grown smooth muscle cells and macrophages implanting tissues) occurring in inner membrane of artery. As the result of such pathological changes, (1) foam cells found in the inner membrane produces fat spots on the surface of the inner membrane, (2) lipid accumulates between tissues (deep part of midmembrane) and the inner membrane surface is covered with thick glass-like membrane, accompanied by fibrous growth and calcification, and (3) bleeding and necrosis occur in tissues to cause combined pathological changes involving thrombogenesis, calcification, and deposition of lipid crystals. Such pathological changes, in time, distribute in artery of a whole body and narrow the cavity of the artery. In addition, the site of pathological changes becomes bursal and the vascular wall loses elasticity, thereby hardening blood vessels. The vessels then wind, and normal blood flow is inhibited.
Epidemiological studies so far have illustrated age (about thirties or more), hypercholesterolemia, hypo-HDL-cholesterolemia, systolic hypertension, obesity, hemoglobin high value, and diabetes as risk factors of the onset of arteriosclerosis. Dynamics of in vivo factors inducing the onset include secretion of adrenalin, increase of thromboxane A2, decrease of prostacyclin, increase of serum peroxylipid, increase of free fatty acid, increase of platelet, increase of fibrinogen, increase of blood coagulation factors (XII and XIII), decrease of tissue plasmin, increase of prostaglandin, decrease of antithrombin III, increase of serum LDL, decrease of serum HDL, increase of insulin, and increase of renin.
Studies so far have revealed only that multiple conditions, for example, physical conditions such as age and obesity, complication with other diseases, and abnormalities of the dynamics of many in vivo factors complicatedly are related to each other to cause arteriosclerosis.
Treatments of arteriosclerosis are divided with their purpose into (1) preventive treatments to retract arteriosclerosis and to prevent the onset of arteriosclerosis by correcting lifestyle and physical abnormalities such as obesity (for example, diet therapy and therapeutic exercise) and (2) chemotherapy or surgical therapy to remove vessel occlusion symptoms occurring with the progress of arteriosclerosis or to prevent the onset of vessel cavity occlusion symptoms by thrombus or embolus,.
Since particular decisive causes of arteriosclerosis are unclear, only symptomatic treatment by chemotherapy is currently possible. For example, &bgr; blocker is applied when the enhancement of a catecholamine derivative such as adrenalin is suspected as the cause, eicosapentaenoic acid is applied for a prostaglandin derivative, vitamin E is applied for peroxylipid, and urokinase is applied for thrombus. No effective pharmaceuticals for treating the arteriosclerosis have been provided yet.
In the surgical therapy for arterial occulsion, percutaneous transluminal coronary angioplasty (PTCA) based on the observation by angiography prevails clinically as an effective means to enlarge vessel cavity. PTCA has remarkably progressed and prevailed since it was clinically applied by Gruntzig for the first time in 1977, and the number of the operation has rapidly increased in Japan.
PTCA is the method in which the occlusion (constriction) site is enlarged by inserting a thin catheter with a balloon at the tip in a thick catheter into the coronary artery occlusion site and by expanding the balloon.
However, in cavity enlargement by PTCA, restenosis occurs at the operation site of the artery in about 30 to 50% of the cases within a few months after the operation, and this restenosis is a major drawback of PTCA.
The restenosis has been thought to occur by the amplification of neonatal inner membrane proliferation based on the repair reaction of the injury site of the vascular wall, which has been inevitably caused by the enlargement of the occlusion site by PTCA. Although chemotherapy has been tried for preventing this restenosis, almost no effective drugs have been reported so far.
As mentioned above, at present, a method for the complete treatment and prevention of arteriosclerosis comprising the prevention of the recurrence of arteriosclerosis and the occurrence of restenosis has not established. It is thus desired to clarify the cause of the onset and progress of arteriosclerosis and to develop a method for the effective treatment and prevention thereof, and therapeutic and preventive drugs.
Coronary artery restenosis occurring after PTCA is regarded as a clinical model of arteriosclerosis from pathological viewpoints such as neonatal inner membrane proliferation or intimal thickening. Therefore, to diagnose the tissue characteristics of the vascular wall at the restenosis site after PTCA and to elucidate the difference between the characteristics and those of normal vascular wall by comparing them pathologically and at the gene level are effective to identify the cause and factors of restenosis, and further, arteriosclerosis.
In such comparative studies, a useful method for comparison and examination at the gene level using the genetic engineering technique is called differential display method (Nucleic Acids Research, Vol.21, No.18, pp.4272-4280 (1993); and Science, Vol.257, pp.967-971 (1992)).
Specifically, PCTA is applied to the coronary artery of a large mammal such as a rabbit, the expression patterns of genes in the inner membrane tissue at the PTCA site are examined by differential display method, and they are compared with the gene expression patterns in the inner membrane tissue without PCTA, to thereby identify genes specifically or increasingly expressed after PTCA.
DISCLOSURE OF THE INVENTION
Genes that express specifically or increasingly after PTCA and proteins derived from said genes may be closely related to arteriosclerosis and restenosis. The present invention provides pharmaceuticals and methods for preventing and treating arteriosclerosis and restenosis by identifying genes and proteins expressing specifically in arteriosclerosis and coronary artery restenosis.
As the result of studies on the analyses of genes specific to arteriosclerosis and/or coronary artery restenosis, the present inventors have discovered genes encoding two novel proteins (clone BA0306 and BA2303) that express increasingly at the comparatively early stage (day 1 to 7) after PTCA and completed the present invention.
The two novel protein-encoding genes of the present invention, whose characteristics are mentioned below, are expressed specifically after PTCA, and are thought to be genes involved in onset and progress of arteriosclerosis and/or coronary artery restenosis.
Clone BA0306 has the following characteristics.
(1) Its increased expression is observed on day 1 to 7 after
PTCA of coronary artery (the peak is observed on day 4).
(2) Northern blotting reveals the expression of the mRNA as about 3.5 k and about 4.4 k bands in various human tissues.
(3) It has ten putative transmembrane regions.
(4) It has amino acid sequence homology with
S. cerevisiae
oxidative stress resistance protein,
S. cerevisiae
zinc/cadmium resistance protein, heavy metal ion resistance protein, and so on.
(5) The molecules derived from humans and rabbits have the amino acid sequences of SEQ ID NO: 10 and 8, respe
Nakamura Yusuke
Tanaka Toshihiro
Tsukuda Shuichi
Banner & Witcoff , Ltd.
Ketter James
Nakamaura Yusuke
Schnizer Richard
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