Drug – bio-affecting and body treating compositions – Plant material or plant extract of undetermined constitution... – Containing or obtained from aloe
Reexamination Certificate
2001-02-26
2002-09-17
Wilson, James O (Department: 1623)
Drug, bio-affecting and body treating compositions
Plant material or plant extract of undetermined constitution...
Containing or obtained from aloe
C536S001110, C536S004100
Reexamination Certificate
active
06451357
ABSTRACT:
FIELD OF INVENTION
The present invention relates generally to a method for the purification of a tyrosinase inhibitor isolated from Aloe. Specifically, the present invention relates to a method for the purification of aloesin, a C-glucosylated 5-methylchromone.
BACKGROUND OF THE INVENTION
There is a world-wide demand for products able to inhibit or prevent excessive pigmentation of the skin. Melanin, the skin's natural pigment, is synthesized in the melanocytes in varying concentrations, depending on skin type (genetic disposition) and environmental effects. Melanocytes are cells which occur in the basal membrane of the epidermis, and account for between 5% and 10% of the cellular content (approximately 1200-1500 melanocytes per cm
2
). Melanocytes are stimulated by ultraviolet (UV) light, producing greater quantities of melanin. The melanin is then transported into the keratinocytes, where it becomes visible as skin color.
The number of melanocytes in human skin is more or less the same, irrespective of skin color. The color of the skin is largely dependent on the quantity and type of melanin produced (black eumelanin or yellow to reddish-brown pheomelanin). Asians and light-skinned people have lower levels of eumelanin than dark-skinned people, and correspondingly less protection against the effects of radiation. People with red hair are characterized by pigmentation with pheomelanin, and have little or no photo-protection. Additionally, the distribution of melanin in the skin also varies. In people with light skin, the greater part of the pigment lies in the basal layer, whereas in those with dark skin, the melanin is spread throughout, reaching into the horny layer.
Tyrosinase is the key enzyme in the synthesis of melanin. It has been determined that tyrosinase needs both the substrate and divalent metal ions for its catalytic activity. The processes presently used for inhibiting the synthesis of melanin with a view to lightening skin are based on substances which interact directly with the tyrosinase, or indirectly regulate its activity, e.g., by complexing the necessary metal ions.
To date, the best-known active substance for de-pigmentation is hydroquinone, a bleaching agent. Hydroquinone, however, does not inhibit melanin bio-synthesis, rather it bleaches existing melanin. If applied over long periods of time, hydroquinone can have serious side effects, which has led to its being permitted only in limited concentrations in some countries and to its being completely forbidden for applications in cosmetic products in other countries. Furthermore, hydroquinone leads to permanent de-pigmentation, and thus to increased photosensitivity of the skin when exposed to UV light.
Better tolerated skin lightening substances currently being used are of natural origin, e.g., arbutin (from the leaves of the common bearberry, Uvae ursi), liquorice extract (from liquorice root), ascorbic acid (vitamin C from citrus fruits) and their derivatives, as well as kojic acid (from carbohydrate solutions under the effect of certain bacteria) (see Kobayashi el al. (1995) BioSci. Biotech. Biochem. 59:1745). These substances, which are highly soluble in water, act on the tyrosinase as competitive inhibitors; however, they are unstable in some formulations, and have the disadvantage that only very small quantities penetrate the deeper skin layers and reach the melanocytes in the basal membrane. A further disadvantage of these substances is their low level of efficacy, which necessitates their being used in high concentrations. Compared to the quantity of hydroquinone used, 17 times as much ascorbic acid and over 100 times as much arbutin is required to achieve a similar effect.
Gombert describes two cosmetic products for lightening skin, both of which are produced from plants. (Gombert (1997) Cosmetics and Toiletries Manufacture Worldwide, pp.151-157). Both products contain a mixture of several competitive tyrosinase inhibitors in an aqueous solution, emulsified into creams. An in vitro enzyme test was carried out, in which it was possible to show that the substances used had an efficient inhibitory effect; however with in vivo tests, it was not until a cream with a 10% active ingredient content had been applied for at least 42 days that a demonstrable de-pigmentation of the skin occurred. In one test involving ten people using a cream with a 3% active ingredient content, proof of any positive effect at all could only be found with two people. It is specifically pointed out that, since the natural substances used in the formulation are extremely unstable, strong antioxidants must be added to the formulation. Also, if the finished formulations are stored at temperatures below 15° C., the substances can crystallize.
Lee and Kim (Cosmetics and Toiletries 110:51-56, October 1995), describe a substance isolated from the bark of the roots of the mulberry bush
Broussonetia papyrifera
, which acts as a free radical scavenger. As the formation of melanin, referred to as melanogenesis, is increased by the presence of free radicals in the skin, it can be reduced with the help of a free radical scavenger of this type. The subject of this article is not the de-pigmentation of skin, but rather the suppression of melanogenesis with the help of a free radical scavenger. Furthermore, it takes over 40 days for the described effect to occur. In this paper also, attention is drawn specifically to the instability of the active substances in the formulation.
Aloe is an intricate plant which contains many biologically active substances. (Cohen et al. in
Wound Healing/Biochemical and Clinical Aspects
, 1st ed. WB Saunders, Philadelphia (1992)). Over 300 species of Aloe are known, most of which are indigenous to Africa. Studies have shown that the biologically active substances are located in three separate sections of the aloe leaf—a clear gel fillet located in the center of the leaf, in the leaf rind or cortex of the leaf and in a yellow fluid contained in the pericyclic cells of the vascular bundles, located between the leaf rind and the internal gel fillet, referred to as the latex. Historically, Aloe products have been used in dermatological applications for the treatment of burns, sores and other wounds. These uses have stimulated a great deal of research in identifying compounds from Aloe plants that have clinical activity, especially anti-inflammatory activity. (See, e.g., Grindlay and Reynolds (1986) J. of Ethnopharmacology 16:117-151; Hart et al. (1988) J. of Ethnopharmacology 23:61-71). As a result of these studies there have been numerous reports of Aloe compounds having diverse biological activities, including anti-tumor activity, anti-gastric ulcer, anti-diabetic, anti-tyrosinase activity (see, e.g., Yagi et al. (1977) Z. Naturforsch 32c: 731-734) and antioxidant activity (see, International Application Serial No. PCT/US95/07404).
Yagi et al. disclose a group of compounds isolated from Aloe, particularly aloesin and one of its derivatives, 2″-O-feruloylaloesin, which are effective inhibitors of tyrosinase. (Yagi et al. (1987) Plant Medica 515-517). Biochemical testing of the enzyme inhibition by means of the Lineweaver Burk diagram showed that 2″-feruloylaloesin was a non-competitive inhibitor of tyrosinase while aloesin is a competitive inhibitor. Aloesin is a C-glucosylated 5-methylchromone having the following chemical structure and conventional numbering:
(Holdsworth (1972)
Chromones in Aloe Species, Part I-Aloesin
PM 19(4):322-325). In vitro, aloesin is a strong inhibitor of tyrosinase activity (Yagi et al. (1987) Planta Medica 515-517). In assays of tyrosinase activity on the substrate L-DOPA, aloesin is capable of 50% inhibition at a concentration of 0.2 mM.
U.S. Pat. No. 6,083,976, entitled “Method of Synthesis of Derivatives of Aloesin.” describes a novel method for the synthesis of derivatives of aloesin alkylated at the C-7 hydroxyl group. The alkylated aloesins, produced by this method have the functionality of aloesin, a tyrosinase-inhibiting compound with skin whitening act
Krishnan Ganapathy
Swanson & Bratschun L.L.C.
Unigen Pharmaceuticals, Inc.
Wilson James O
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