Drug – bio-affecting and body treating compositions – Preparations characterized by special physical form – Liposomes
Reexamination Certificate
2000-09-21
2003-05-13
Kishore, Gollamudi S. (Department: 1615)
Drug, bio-affecting and body treating compositions
Preparations characterized by special physical form
Liposomes
C424S001210, C424S009321, C424S009510, C428S402200
Reexamination Certificate
active
06562371
ABSTRACT:
TECHNICAL FIELD
This invention relates to a liposome having active targeting property and ensured stability in blood, which can be used in the diagnosis and/or treatment of diseases, particularly renal diseases, that accompany production of various types of proteoglycan in injured portions of tissues and/or organs.
BACKGROUND ART
In recent years, there have been increased studies on a drug delivery system (DDS) based on a so-called targeting technique in which a drug is efficiently distributed in an organ of interest. Liposomes are one of the most extensively studied means as such a DDS because of their ability to include, or trap, drugs therein.
However, there are various problems to be resolved in putting these liposomes into practical use, particularly, the difficulties in escaping from the mechanism of living body for recognizing foreign bodies and in controlling intracorporeal kinetics. That is, liposomes cause aggregation in blood by their mutual reaction with various blood plasma proteins, including opsonin, and are captured by a reticuloendothelial system (RES) such as in the liver or spleen, so that it has been difficult to deliver liposomes selectively to the target tissues or cells.
In recent years, it became possible to prevent aggregation of liposomes in blood and avoid being captured by RES, by coating the surface of liposome with a hydrophilic polymer such as polyethylene glycol (PEG) and thereby preventing adsorption of various blood plasma proteins, including opsonin, to the liposome surface (U.S. Pat. No. 5,013,556, U.S. Pat. No. 5,676,971).
There are a number of studies based on these techniques with regard to the targeting at tissues of interest, such as tumor tissues, regions of enhanced vascular permeability, inflamed tissues, the liver, the brain and lymph tissues, but all of these cases are based on the effect of so-called passive targeting property, which is induced as a result of the improvement of the stability in blood by avoiding the capture by RES (
Advanced Drug Delivery Reviews
, 24 (1997), 337-334), so that concern has been directed toward the development of a liposome having the ability to bind to the tissues of interest, in which the targeting function is reinforced by so-called active targeting techniques.
Regarding the active targeting techniques, methods for the modification of the liposome surface with target factors such as antibodies, antibody fragments, amino acids, peptides or saccharides have been studied, as well as techniques for making the liposome surface into cationic nature. Particularly, the cation formation can be cited as one of the desirable modification techniques, because it has the ability to deliver genes and the like into cells, as a gene introducing technique, and it improves accumulation of liposome on, for example, an injured portion of vascular endothelium (JP-A-7-89874; the term “JP-A” as used herein means an “unexamined published Japanese patent application”). However, strong aggregation and the like phenomena mediated by the binding of blood protein to liposome were observed by the cationic liposome when compared with a neutral or anionic liposome (
Biochimica et Biophysica Acta
, 1280 (1996), 149-154), so that its sufficient active targeting property in the living body was not obtained as such.
On the other hand, proteoglycans which keep the cell surface anionic are known as the components which their interactions to cationic liposome are expected. It has been reported that overproduction of various types of proteoglycans occurs in tissues of fibrosis in a large number of organs (the liver, the lungs, the heart, the pancreas, the bone marrow and arteries) of tumors such as large bowel cancer, of cell proliferative nephritis and of other inflammatory diseases (
Acta Pathol. Jpn
., 36 (6): 827 (1986),
FEBS Lett
., 244: 315 (1988),
J. Rheumatol
., 18 (10): 1466, (1991),
J. Dent. Res
., 71 (9): 1587, (1992). This reaction in the living body is considered to be a result of excess repairing reaction which occurs during the step of wound healing or of excess cell proliferation in a tumor or the like tissue, so that it is used as a pathological marker of the foci of the aforementioned diseases.
However, very little is known about reports which aim at achieving active targeting for tissues and/or organs in which such proteoglycan is overproduced. For example, JP-A-8-27030 describes that a drug carrier whose surface is modified with a basic compound which takes positive charge within a physiological pH range is accumulated on a cortical portion of the kidney, but there are no reports which disclose a targeting technique for the specific accumulation of a carrier on renal glomerulus, particularly renal glomerulus which caused inflammation by an injury, and proteoglycan producing tissues and/or organs typified thereby.
Glomerulonephritis is one of the diseases so far reported in which production of various types of proteoglycan is accelerated in injured portions (
Clin. Exp. Immunol
., 108: 69, (1997),
Kidney International
, 49: supple. 54, s 55 (1996),
J. Am. Soc. Nephrol
., 2: s 88 (1992)). Importance of the targeting of a drug for a tissue and/or organ overproducing proteoglycan can easily be understood by merely citing this case of glomerulonephritis.
According to the materials produced in 1996 by The Japanese Society of Dialysis Medicine, it is said that about 27,000 patients are subjected to dialysis due to renal insufficiency, and about 50% of the cases is caused by chronic nephropathy, and about 30% thereof by diabetic nephropathy. Since the primary disease in both of the chronic nephropathy and diabetic nephropathy is glomerulonephritis, these patients will be released from the struggling against dialysis when an effective method for the treatment of glomerulonephritis is established. Up to now, however, no effective glomerulonephritis treating method has been found.
For example, a glomerulonephritis, called IgA nephritis, is a glomerulonephritis most frequently found in the Japanese people, and it is said that its patients are estimated to be close to 300,000 in Japan alone and it occupies around 40% of the glomerulonephritis in adults and close to 30% of that in children. As a result of a follow up study carried out in Japan for recent 20 years, it was found that about 40% of IgA nephritis cases, estimated to be 5,000 to 6,000 cases per year (1995), reached terminal renal insufficiency and were subjected to dialysis, so that it is considered that the development of a therapeutic method specific for IgA nephritis is a world-wide pressing need. However, close to 5,000 patients have been subjected to dialysis every year because of the absence of sufficient means for its treatment.
It has been reported that, as a result of 10 years of clinical efficacy evaluation on IgA nephritis, the steroid therapy which is now actively used in Japan for nephrotic syndrome and rapidly progressive glomerulonephritis, and its efficacy is said to be established, also has a possibility of keeping renal functions for a prolonged period of time by its 2 to 3 years of continuous use at an early stage of progressive IgA nephritis.
On the other hand, however, side effects become a serious problem when it is continuously administered for a certain period for such a chronic disease, because problems such as arteriosclerosis, osteoporosis and immunity reduction in adults, slow development in children and the like cannot be avoided. As a result, it becomes a problem that its sufficient efficacy cannot be obtained, because not only QOL (quality of life) of the patient is reduced but also its administration cannot be continued due to side effects and, particularly, its administration for a prolonged period of time is impossible.
In order to resolve these problems, it is necessary to think out a means for expressing its drug effect alone, by a dose which does not express the aforementioned side effects, and it is desirable for this purpose to design a system for efficiently delivering a drug to the glomerulus which caused inflammation by an
Kawahara Kazuo
Kimura Junji
Uchiyama Hideki
Ushijima Hideto
Burns Doane , Swecker, Mathis LLP
Kishore Gollamudi S.
Terumo Kabushiki Kaisha
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