Use of anabolic agents, anti-catabolic agents, antioxidant...

Drug – bio-affecting and body treating compositions – Plant material or plant extract of undetermined constitution... – Containing or obtained from leguminosae

Reexamination Certificate

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C514S062000, C514S023000, C514S042000

Reexamination Certificate

active

06797289

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to compositions for the protection, treatment and repair of connective tissues in humans and other animals.
BACKGROUND OF THE INVENTION
The tissues of mammals, including humans, are in a constant state of flux between the anabolic processes that build up tissues, and the catabolic processes which degrade tissues. The state of health exists when there is a balance between these two processes, and derangements of the balance produce disease. This holds true for all tissues of the body. Connective tissues are of particular importance for several reasons. First, they support the “functional cells” of the body, i.e., epithelial, muscle and neural cells. Second, they play critical roles in intercellular communication, which is essential for multicellular life.
The inflammatory process occupies a key position in this balance. When injury to tissues occurs, inflammation initiates the biochemical processes that result in tissue repair. Because inflammation results in the symptoms of pain, inflammation, and swelling of the tissues involved, it is often regarded by both patients and physicians as an abnormal and undesirable state, which should be treated and relieved as soon and as completely as possible. As a result, pharmacies are full of “anti-inflammatory drugs” (such as corticosteroids and the non-steroidal anti-inflammatory drugs, such as aspirin). Under certain circumstances, inflammation can indeed be destructive; however, it is important to remember that inflammation is closely linked with tissue healing. Indeed, inflammation is not easily categorized as strictly anabolic or catabolic—it may have either effect. Its purpose in the body is to remove, dilute or wall-off the injurious agent(s). It also sets into motion the biochemical processes that repair and reconstruct the damaged tissue. Because it is essential to healing, and because it can also cause tissue destruction, inflammation and its mediators are important factors in the anabolic and catabolic balance.
One very important class of inflammatory mediators is the eicosanoid group. The eicosanoids are synthesized in the body from essential fatty acids (“FAs”). Through a series of biochemical reactions, the precursor fatty acids are modified to produce intermediate metabolites, arachadonic acid (“AA”), an omega-6 FA; and eicosapentanoic acid (“EPA”), an omega-3 FA. Eicosanoids produced from arachidonic acid include the 2-series of prostaglandins and the 4-series of leukotrienes, which are generally proinflammatory. The eicosanoids derived from EPA, such as the 3 series prostaglandins and hydroxyeicosapentaenoic acid (“HEPE”), are less inflammatory than those derived from AA. In addition, such eicosanoids may even have anti-inflammatory effects.
As a class, the eicosanoids are short-lived and locally active. They are responsible for the initial events of inflammation, including vasodilation, increased vascular permeability, and chemotaxis. Moreover, the eicosanoids are instrumental in the early steps of the healing process. For example, the eicosanoids trigger the release of cytokines such as TGF-B, which in turn stimulates the migration and proliferation of connective tissue cells, and the deposition of extracellular matrix. Specific constitutive eicosanoids also have protective effects in the gastrointestinal mucosa and kidney, because they maintain glycosaminoglycan synthesis and normal perfusion of these organs.
Because of anabolic processes such as these, and because of the influence of natural anti-catabolic and anti-oxidant agents in the body, the outcome of the majority of cases of inflammation is resolution of the injury and healing of the damaged tissues. Only in pathologic situations does inflammation itself become a contributor to disease.
Research on the therapeutic use of eicosanoid precursor FAs (including cis-linoleic and alpha-linolenic acids, the so-called omega-3 and omega-6 fatty acids) has been primarily directed towards their use as competitive inhibitors of the synthesis of eicosanoids, and therefore, their anti-inflammatory effects. Except in cases of severe or absolute dietary deficiency, little attention has been given to the beneficial, anabolic effects that the eicosanoids have in connective tissues. However, naturally occurring “subclinical” deficiencies of eicosanoids probably contribute significantly to disease, and are under diagnosed. For example, the enzyme delta-6-desaturase is responsible for the committed step in the synthesis of AA. Activity of this enzyme, (delta-6-desaturase) decreases with age. This is likely to prove a significant factor in the increased incidence of connective tissue dysfunction in older population segments since a deficiency of AA would decrease anabolic processes and allow catabolic events to dominate.
Given the importance of inflammation in the healing of tissues, and the protective role that some eicosanoids play, it is not surprising that pharmaceuticals that decrease inflammation by blocking eicosanoid production should also have negative effects on healing and anabolic processes. It has long been known that corticosteroid drugs, which are strongly anti-inflammatory, also delay healing and decrease the production of extracellular matrix components. This is because cortisol and related compounds stabilize cell membranes and therefore inhibit the release of phospholipase A2, the precursor of AA. Recently attention has turned to the non-steroidal anti-inflammatory drugs (“NSAIDs”). Numerous studies have shown that NSAIDs, like corticosteroids, can decrease the synthesis of matrix components by connective tissue cells, because they inhibit prostaglandin endoperoxide synthase, and thus block the cyclooxygenase pathway.
Since the inflammatory process is the sine qua non of tissue healing, and since the eicosanoids are the mediators of the inflammatory process, the use of AA (and other eicosanoid compounds) is a novel approach to therapy of injured tissues. Kirkpatrick et al. investigated the use of prostanoid precursors on chick embryonic cartilage in organ culture and found no significant effects. [Kirkpatrick, C. J., “Effects of Prostanoid Precursors and Indomethacin on Chick Embryonic Cartilage Growth in Organ Culture,”
Expl. Cell Biol.
51:192-200 (1993)]. The experimental model in this work may have contributed to the absence of significant effects, because avian cartilage and embryonic cartilage differ significantly from mammalian, postnatal cartilage. For example, embryonic cartilage of any species is hypermetabolic and anabolic to begin with because it is in a period of exponential growth. Kent et al. examined the effects of AA in lapine cartilage and found a positive effect, although previous and subsequent research failed to confirm this. [Kent, L. et al., “Differential Response of Articular Chondrocyte Populations to Thromboxane B2 and Analogs of Prostaglandin Cyclic Endoperoxidases,”
Prostaglandins,
19:391-406 (1980)]. Kirkpatrick and Gardner found that AA and various metabolites of AA had insignificant or inhibitory effects on biosynthesis. [Kirkpatrick C. J. and Gardner, D. L., “Influence of PGA1 on Cartilage Growth,”
Experientia,
33(4):504 (1976)]. Lippiello, et al. found, however, that AA and other omega-6 fatty acids had beneficial effects on chondrocyte metabolism in cell culture. [Lippiello, L., Ward, M., “Modification of articular cartilage chondrocyte metabolism by in vitro enrichment with fatty acids (abstract),”
Trans. Orthop. Res. Soc.
13:162 (1988); Lippiello, L., “Prostaglandins and articular cartilage; does Prostaglandin perturbation perpetuate cartilage destruction?”
Semin Arthritis Rheum
11:87 (1981).] These variable results are not unexpected, since the balance between anabolic and catabolic processes in the body is delicate and easily perturbed. Phan et al., suggest that products of AA via the cyclooxygenase pathway are anti-fibrogenic while AA products via the lipoxygenase pathway are pro-fibrogenic. This phenomenon demonstrates

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