Patent Description:
Air pollution is getting worse with industrial development. Major air pollutants are volatile organic compounds (VOCs) such as formaldehyde, harmful gases such as sulfur dioxide, nitrogen oxides, ozone and carbon monoxide, and heavy metals such as Pb, Cd, As, Cr, Cu, Ni. These pollutants are commonly absorbed or condensed into fine dusts (PM<NUM>) or ultrafine dusts (PM<NUM>), and enter into the body through the respiratory tract, thereby causing various respiratory diseases such as asthma and lung function deterioration. Also these pollutants cause various skin diseases such as dermatitis, allergy, atopy and the like.

Formaldehyde is a representative VOC which is classified as carcinogenic to humans, and is well known as the atopy-inducing substance.

Although the components of fine dusts depend on area, environment and season, it has been reported that harmful heavy metals such as Hg, Pb, Cd, As, Cr, Cu, Ni, Zn, Mn, Co and Sn are contained in the fine dust in an amount of about <NUM> wt%.

Various compositions in the form of cosmetics are disclosed to protect the skin from fine dusts and heavy metals.

<CIT> discloses a cosmetic composition comprising at least one more selected from the group consisting of a mushroom polysaccharide, a seaweed polysaccharide, and a ginseng polysaccharide as an active ingredient to absorb the heavy metals in dust storm, exhaust gas, external contaminants and fine dusts.

Korean Patent Registration No. <CIT> discloses a cosmetic composition comprising carboxylated alginic acid, which is prepared by treating alginic acid with hydrogen peroxide, as an active ingredient for cleaning heavy metals.

<CIT> discloses a cosmetic composition for removing heavy metals and fine dusts, comprising lees(residue left after rice liquor is drained) as an active ingredient, which is a by-product produced in a liquor manufacturing process such as rice liquor.

Ethylenediaminetetraacetic acid (EDTA) is an ethylenediamine compound that binds to metal ions with four carboxyl groups and two amine groups, so that it forms a water-soluble chelate compound. Since EDTA has a strong affinity with Pb<NUM>+, it is pharmaceutically used as a treatment for lead poisoning. In relation to cosmetics, EDTA is mainly used as a sequestering agent for Ca<NUM>+ and Mg<NUM>+ contained in cosmetics to increase the stability of cosmetics and also is used as a component for moisturizing skin. Although EDTA is an effective chelating agent for heavy metal ions, since it is known to cause skin irritation, it is usually used in an amount of <NUM> wt% or less based on the total weight of the cosmetics, and not more than <NUM> wt% is usually not used.

<CIT> discloses pharmaceutical dosage forms comprising trientine or a pharmaceutically acceptable salt of trientine in a sealed packaging for treating a disease or conditions where excess copper is not removed from the body.

It is an object of the present invention to provide a composition for a skin having a high metal and formaldehyde removing ability, wherein skin irritation and toxicity is free or extremely low, in comparison with conventional materials.

The present invention provides use of a cosmetic composition for protecting the skin from heavy metals and formaldehyde, comprising at least one selected from the group consisting of trientine or trientine derivative of Formula (<NUM>), cyclen or cyclen derivative of Formula (<NUM>), cyclam or cyclam derivative of Formula (<NUM>), and a salt thereof. <CHM>
<CHM>
<CHM>.

In the present invention, the effective ingredient for protecting the skin from heavy metals and formaldehyde is preferably selected from trientine of Formula (1a), cyclen of Formula (2a), and cyclam of Formula (3a). <CHM>
<CHM>
<CHM>.

The trientine derivative is preferably selected from compounds of Formula (1b) to (1d) or a salt thereof. <CHM>
<CHM>
<CHM>.

The cyclen derivative is preferably selected from compounds of Formula (2b) to (2d) or a salt thereof. <CHM>
<CHM>
<CHM>.

The cyclam derivative is preferably selected from compounds of Formula (3b) to (3d) or a salt thereof. <CHM>
<CHM>
<CHM>.

The composition for skin of the present invention has an effect of eliminating formaldehyde and has strong heavy metal removal ability even in a small amount in comparison with the conventional chelating agent. On the other hand, the composition for skin of the present invention has no or little skin irritation and toxicity, and thus can be effectively used as a skin composition for protecting skin from external environment.

The inventors of the present invention have conducted various studies on heavy metal chelating agents in order to develop a composition for a skin that can effectively remove heavy metals attached or absorbed on the skin induced by exposure to an external pollution environment.

Trientine of the following Formula (1a) is a generic name of Triethylenetetramine (TETA).

Triethylenetetramine dihydrochloride has been shown to participate in the metabolism of copper in mouse experiments (<NPL>)). Triethylenetetramine dihydrochloride is pharmacologically well known as a chelating agent for copper, so is well known as a treatment for Wilson's disease (<NPL>); <NPL>)).

Cyclen of the following Formula (2a) is a generic name of <NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane. It forms a chelate through coordination bond with gadolinium (Gd) and is used for nuclear medical contrast agent.

Cyclam of the following Formula (3a) is a generic name of <NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane. It also forms a chelate through coordination bond with gadolinium (Gd) and is used for nuclear medical contrast agent.

Chelating agents such as trientine, cyclen and cyclam, are pharmaceutically well known for their ability to release copper in the body via oral or vascular administration methods, or use thereof as a contrast agent. However, these have not been reported for use for protecting skin such as removal of heavy metals on the skin.

The present invention discloses that trientine, cyclen, cyclam and derivatives thereof are very useful in the removal of heavy metals from the skin, as well as skin irritation and toxicity. Trientine, cyclen and cyclam are known to be harmful to the skin in the past. As a result of the experiments of the present invention, it has been found that the use of an effective amount for removing heavy metals on the skin does not cause skin irritation and toxicity so that it can be acceptable as ingredients for protecting skin.

On the other hand, it is disclosed by the present invention that trientine, cyclen, cyclam and derivatives thereof are very effective for the removal of formaldehyde which is a primary carcinogen.

The composition for skin of the present invention is characterized in that it comprises trientine, trientine derivatives, cyclen, cyclen derivatives, cyclam, cyclam derivatives or a salt thereof as an effective ingredient for removing heavy metals and formaldehyde on the skin.

On the other hand, in the present invention, it is confirmed that the introduction of a carboxyl group at the amine position of trientine, cyclen and cyclam improves the degree of coordination of heavy metal, while the introduction of an aromatic or heterocyclic group at the amine position significantly reduces skin irritation.

The trientine derivatives, cyclen derivatives and cyclam derivatives according to the present invention are preferably selected from the compounds of the following Formulas (1b) to (<NUM> d). <CHM>
<CHM>
<CHM>
<CHM>
<CHM>
<CHM>
<CHM>
<CHM>
<CHM>.

The trientine or trientine derivatives, cyclen or cyclen derivatives, cyclam or cyclam derivatives of the present invention is not limited to but <NUM> to <NUM> wt%, preferably <NUM> to <NUM> wt%, more preferably <NUM> to <NUM> wt%, based a total weight of the composition.

The trientine or trientine derivatives, cyclen or cyclen derivatives, cyclam or cyclam derivatives of the present invention may be used in the form of water-soluble salts. The said compounds of the present invention may be used in the form of the hydrochloride salt, the sodium salt, and the potassium salt. The said salts of the present invention can be obtained by a known method for preparing the salts. The salt of the present invention is preferably dihydrochloride or tetrahydrochloride, more preferably dihydrochloride.

The composition of the present invention can be used for removing heavy metal ions such as Hg, Pb, Cd, As, Cr, Cu, Ni, Zn, Mn, Co and Sn which be attached, absorbed on the skin.

The composition for a skin according to the present invention can be formulated into an oil-in-water (O/W) emulsion or water-in-oil (W/O) emulsion or an oil-free emulsion. The composition for a skin according to the present invention can be used for cosmetics such as basic cosmetics, makeup cosmetics, cleansing cosmetics, shampoo, soap and so on. Formulations of compositions of the present invention may be soft lotion, nutritional lotion, nutritional essence, nutritional oil, moisturizing oil, nutritional cream, moisturizing cream, powder, pack, foundation, makeup base, stick, cleansing, shampoo, gel, lotion and ointment. The composition for a skin according to the present invention may be used in various forms such as liquid, cream, paste, and solid, and may be formulated using conventional cosmetic preparation methods.

The composition for skin of the present invention may further comprise a known cosmetic ingredient necessary for the above-mentioned formulation, for example, preservatives, antimicrobial agents, antioxidants, plant extracts, pH adjusters, alcohols, pigments, fragrances, blood circulation accelerators, coolants, purified water and ionized water.

On the other hand, the composition for skin of the present invention can be used as a pharmaceutical auxiliary ingredient for hair loss treatment or skin related treatment by effective removal of heavy metals on the skin.

Hereinafter, the composition for skin having a heavy metal and formaldehyde removing ability according to the present invention will be described in detail with reference to the following examples. However, the following examples are only illustrative of the present invention and are not to be construed as limiting the scope of the present invention.

Triethylenetetramine (<NUM>) was dissolved in acetonitrile (ACN) (<NUM>). K<NUM>CO<NUM> (<NUM>) and ethyl bromoacetate (<NUM>) were added and reaction mixture was heated under stirring and under reflux for about <NUM> hours. After completion of the reaction, the reaction mixture was cooled to room temperature, and then filtered. A solid phase of the reaction mixture was discarded and the filtrate was concentrated under vacuum. Methylene chloride (MC) (<NUM>) and purified water (<NUM>) are added to the concentrate and stirred for <NUM>, and then an organic layer is separated. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of diethyl <NUM>,<NUM>,<NUM>,<NUM>-tetrakis (<NUM>-ethoxy-<NUM>-oxoethyl) -<NUM>,<NUM>,<NUM>,<NUM>-tetraazatetradecanedioate was obtained(Yield: <NUM>%).

<NUM>H NMR (CDCl<NUM>): <NUM>(q, <NUM>), <NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>(s, <NUM>), <NUM>(t, <NUM>), <NUM>(t, <NUM>), <NUM>(s, <NUM>), <NUM>(t, <NUM>), <NUM>(t, <NUM>)
Diethyl <NUM>,<NUM>,<NUM>,<NUM>-tetrakis (<NUM>-ethoxy-<NUM>-oxoethyl)-<NUM>,<NUM>,<NUM>,<NUM>-tetraazatetradecanedioate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(s, <NUM>), <NUM>(s, <NUM>), <NUM>(s, <NUM>).

Triethylenetetramine (<NUM>), ethyl <NUM>-bromobenzoate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (Bis(dibenzylideneacetone)palladium) (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(((ethane-<NUM>,<NUM>-diylbis((<NUM>-(ethoxycarbonyl)phenyl)azanediyl)) bis(ethane-<NUM>,<NUM>-diyl))bis(azanetriyl))tetrabenzoate was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>(q, <NUM>), <NUM>(q, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>(t, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(((ethane-<NUM>,<NUM>-diylbis((<NUM>-(ethoxycarbonyl)phenyl)azanediyl)) bis(ethane-<NUM>,<NUM>-diyl))bis(azanetriyl))tetrabenzoate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained (Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>(m, <NUM>), <NUM>~<NUM>(m, <NUM>).

Triethylenetetramine (<NUM>), ethyl <NUM>-bromonicotinate (<NUM>), t-BuONa (<NUM>) and xylene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated diethyl <NUM>,<NUM>'-((<NUM>-((<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)(<NUM>-((<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)(<NUM>-((<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)(<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)amino)ethyl)amino)ethyl)amino)ethyl)azanediyl)dinicotinate was obtained(Yield: <NUM>%).

<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(q, <NUM>), <NUM>(q, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>(t, <NUM>), <NUM>(t, <NUM>)
Diethyl <NUM>,<NUM>'-((<NUM>-((<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)(<NUM>-((<NUM>-(ethoxycarbonyl)pyridin <NUM>-yl)(<NUM>-((<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)(<NUM>-(ethoxycarbonyl)pyridin-<NUM>-yl)amino)ethyl)amino)ethyl)amino)ethyl)azanediyl)dinicotinate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>~<NUM>(m, <NUM>).

Triethylenetetramine (<NUM>), ethyl <NUM>-bromofuran-<NUM>-carboxylate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(((ethane-<NUM>,<NUM>-diylbis((<NUM>-(ethoxycarbonyl)furan-<NUM>-yl)azanediyl))bis(ethane-<NUM>,<NUM> -diyl))bis(azanetriyl))tetrakis(furan-<NUM>-carboxylate) was obtained(Yield: <NUM>%).

<NUM>H NMR (CDCl<NUM>): <NUM>(m, <NUM>), <NUM>(q, <NUM>), <NUM>(q, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>(t, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(((ethane-<NUM>,<NUM>-diylbis((<NUM>-(ethoxycarbonyl)furan-<NUM>-yl)azanediyl))bis (ethane-<NUM>,<NUM>-diyl))bis(azanetriyl))tetrakis(furan-<NUM>-carboxylate) (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(m, <NUM>), <NUM>~<NUM>(m, <NUM>).

Cyclen (<NUM>) was dissolved in acetonitrile (<NUM>). K<NUM>CO<NUM> (<NUM>) and ethyl bromoacetate (<NUM>) were added and reaction mixture was heated under stirring and under reflux for about <NUM> hours. After completion of the reaction, the reaction mixture was cooled to room temperature, and then filtered. A solid phase of the reaction mixture was discarded and the filtrate was concentrated under vacuum. MC (<NUM>) and purified water (<NUM>) are added to the concentrate and stirred for <NUM>, and then an organic layer is separated. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetraacetate was obtained(Yield: <NUM>%).

<NUM>H NMR (CDCl<NUM>): <NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>(s, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetraacetate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(s, <NUM>), <NUM>(s, <NUM>).

Cyclen (<NUM>), ethyl <NUM>-bromobenzoate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrabenzoate was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>,<NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>,<NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrabenzoate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(s, <NUM>).

Cyclen (<NUM>), <NUM>-bromonicotinate (<NUM>), t-BuONa (<NUM>) and xylene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetranicotinate was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>,<NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>,<NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetranicotinate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(s, <NUM>).

Cyclen (<NUM>), ethyl <NUM>-bromofuran-<NUM>-carboxylate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrakis(furan-<NUM>-carboxylate) was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>,<NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclododecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrakis(furan-<NUM>-carboxylate) (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(s, <NUM>).

Cyclam (<NUM>) was dissolved in acetonitrile (<NUM>). K<NUM>CO<NUM> (<NUM>) and ethyl bromoacetate (<NUM>) were added and reaction mixture was heated under stirring and under reflux for about <NUM> hours. After completion of the reaction, the reaction mixture was cooled to room temperature, and then filtered. A solid phase of the reaction mixture was discarded and the filtrate was concentrated under vacuum. MC (<NUM>) and purified water (<NUM>) are added to the concentrate and stirred for <NUM>, and then an organic layer is separated. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetraacetate was obtained(Yield: <NUM>%). <NUM>H NMR (CDCl<NUM>): <NUM>(q, <NUM>), <NUM>(s, <NUM>), <NUM>,<NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetraacetate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (D<NUM>O): <NUM>(s, <NUM>), <NUM>(s, <NUM>), <NUM>(t, <NUM>), <NUM>(q, <NUM>).

Cyclam (<NUM>), ethyl <NUM>-bromobenzoate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrabenzoate was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(q, <NUM>), <NUM>,<NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrabenzoate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>,<NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>).

Cyclam (<NUM>), ethyl <NUM>-bromonicotinate (<NUM>), t-BuONa (<NUM>) and xylene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetranicotinate was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(q, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetranicotinate (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>(d, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>).

Cyclam (<NUM>), ethyl <NUM>-bromofuran-<NUM>-carboxylate (<NUM>), t-BuONa (<NUM>) and toluene (<NUM>) were added, stirred, and then heated to <NUM>. <NUM>% (t-Bu)<NUM>P toluene solution (<NUM>) was added, stirred for about <NUM> and then heated to <NUM>. Pd(dba)<NUM> (<NUM>) was added, heated under reflux. After completion of the reaction, the reaction mixture was cooled to room temperature, a purified water (<NUM>) was added, stirred for <NUM>, and then an organic layer is separated. An aqueous layer of the reaction mixture was discarded. The organic layer was treated with MgSO<NUM>, concentrated under vacuum, and then subjected to column purification with MC-methanol. <NUM> of tetraethyl <NUM>,<NUM>',<NUM>",<NUM>"'-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrakis(furan-<NUM>-carboxylate) was obtained(Yield: <NUM>%)
<NUM>H NMR (CDCl<NUM>): <NUM>(d, <NUM>), <NUM>(q, <NUM>), <NUM>,<NUM>~<NUM>(m, <NUM>), <NUM>,<NUM>(m, <NUM>), <NUM>(t, <NUM>)
Tetraethyl <NUM>,<NUM>',<NUM>",<NUM>‴-(<NUM>,<NUM>,<NUM>,<NUM>-tetraazacyclotetradecane-<NUM>,<NUM>,<NUM>,<NUM>-tetrayl)tetrakis(furan-<NUM>-carboxylate) (<NUM>), NaOH (<NUM>), methanol (<NUM>) and purified water (<NUM>) were added and the reaction mixture was heated to <NUM>-<NUM>, stirred for <NUM> hours. After completion of the reaction, the reaction mixture was cooled to about <NUM> and concentrated under vacuum. The solvent was removed. The reaction mixture was adjusted to pH <NUM>-<NUM> with <NUM>% aqueous HCl, stirred for <NUM>, and extracted with MC (<NUM>). The extracted organic layer was treated with MgSO<NUM>. <NUM> of the title compound was obtained(Yield: <NUM>%).

<NUM>H NMR (DMSO): <NUM>(d, <NUM>), <NUM>~<NUM>(m, <NUM>), <NUM>(m, <NUM>).

<NUM> of Pb(NO<NUM>)<NUM>, <NUM> of Cd(NO<NUM>)<NUM> and <NUM> of Zn(NO<NUM>)<NUM> were added to <NUM> of distilled water to prepare a <NUM> ppm aqueous solution of heavy metal contamination sources respectively.

Trientine, cyclen, cyclam, the derivatives thereof prepared by Embodiments <NUM> to <NUM> and EDTA as Comparative Example <NUM>, were added to <NUM> of distilled water to prepare <NUM> wt%, <NUM> wt%, and <NUM> wt% of active ingredient samples respectively.

A pig was slaughtered, flayed and the bristle was shaved. The pig skin was cut to prepare <NUM>*<NUM> size of skin samples respectively.

<NUM> of heavy metal contamination sources were treated to pig skin samples respectively and skin samples were left at room temperature for <NUM> for heavy metal to be attached or absorbed on skin samples, and then, the said active ingredients samples were treated to the contaminated skin samples and the skin samples were left for <NUM>. The said skin samples were cleanly wiped with wet gauze, and then, added to <NUM> of methanol and extracted by shaking with ultrasonic for <NUM>. <NUM> of methanol was further added and mixed. The pig skin samples were removed from the extracted solutions to prepare the test solutions.

The test solutions were analyzed for heavy metal components using an inductively coupled plasma mass spectrometer (ICP-MS, Xseries™ <NUM>, Thermo Fisher Scientific, UK).

In ICP-MS, the specific mass-to-charge ratio (m/z) of lead (Pb) is <NUM>-<NUM>, that of cadmium (Cd) is <NUM>, and that of zinc (Zn) is <NUM>-<NUM>. The heavy metal removal rate was calculated according to the following Equation <NUM>, and the test result is shown in Table <NUM> and <FIG>.

As shown in Table <NUM> and <FIG>, <NUM> wt% of the heavy metal chelating compounds according to the present invention have <NUM>% of Pb removal rate, <NUM>% of average removal rate of Cd, <NUM>% of Cu removal rate. These compounds of the present invention have the remarkably removal ability of heavy metals attached or absorbed on the skin in comparison with the EDTA of Comparative Example <NUM> (Pb <NUM>%, Cd <NUM>%, Cu <NUM>%) and Control <NUM> without the chelate (Pb <NUM>%, Cd <NUM>%, Cu <NUM>%).

The same results are obtained even in <NUM> wt% and <NUM> wt% of the aqueous solution. However, the difference of heavy metal removal rate between <NUM> wt% and <NUM> wt% of the said examples is not remarkable. This means that heavy metals can be sufficiently removed at <NUM> wt% of the aqueous solution.

A total of <NUM> people (<NUM> men and <NUM> women in their <NUM> and <NUM>) were tested for skin irritation using the patch method according to the guidelines of CTFA (The Cosmetic, Toiletry & Fragrance Association, Inc. Washington, DC).

A filter paper disk was placed in an <NUM> diameter, <NUM> panels of pin chamber. Then, <NUM>µℓ each of the compositions according to Experimental Example <NUM> was dropped on a filter paper disk, naturally dried for <NUM>, and then the pin chambers were attached to the subject's back region with a Scanpor tape.

After <NUM> hours, the pin chamber was removed, and skin conditions were visually observed. The degree and grade for skin irritation were calculated according to the following Equation <NUM>, and the results are shown in Table <NUM> below.

(-): No erythema or particularly no symptoms; (±): slightly reddish than the periphery; (+): Apparent reddening than periphery; (++): More reddened and swollen than periphery.

As shown in Table <NUM>, all of the compounds according to the present invention have grade I, which is a non-stimulating range, within the concentration range of <NUM> wt% in the human skin irritation test. In the concentration range of <NUM> wt%, trientine, cyclen and cyclam have grade II (light stimulus range), whereas all of these aromatic and heterocyclic derivatives have grade I, indicating that skin irritation reduction is improved. On the other hand, The EDTA of Comparative Example <NUM> was evaluated to be grade III (moderate irritation range) at a concentration of <NUM> wt%, indicating that the skin irritation is higher than those of the compounds of the present invention.

Purified water was added to <NUM>% formaldehyde solution to prepare a <NUM>% diluted solution of formaldehyde. <NUM> molar equivalents of Trientine, cyclen, cyclam, and derivative compounds of the present invention were added to the diluted solution, and the change of amount of formaldehyde was analyzed by gas chromatography (GC) while stirring at room temperature.

The content of formaldehyde was measured under the following analysis conditions in the initial state, after <NUM> and <NUM>, the result was shown in Table <NUM>.

As shown in Table <NUM>, GC analysis shows that the formaldehyde was remarkably reduced by about <NUM>% to <NUM>% in <NUM> after the addition of the compounds of the present invention and completely undetected after <NUM>. This means that the compounds of the present invention effectively remove formaldehyde.

Compositions which comprise <NUM> wt% trientine, cyclen, cyclam and the trientine derivatives, cyclen derivatives and cyclam derivatives prepared in the Embodiments <NUM> to <NUM> were prepared in the formulation of an oil-in-water (O/W) emulsion.

The ingredients of the composition are shown in Table <NUM> below.

The compositions for skin were prepared in the following steps.

The compositions for skin prepared according to Embodiments <NUM> to <NUM>, Comparative Example <NUM> and Control <NUM> were tested for the heavy metal removal ability.

The tests were carried out in the same manner as in Experimental Example <NUM>, and the results are shown in Table <NUM> below.

As shown in Table <NUM> and <FIG>, <NUM> wt% of the heavy metal chelating compositions according to Embodiments <NUM> to <NUM> have <NUM>% of Pb removal rate, <NUM>% of average removal rate of Cd, <NUM>% of Cu removal rate. These compounds of the present invention have the remarkably removal ability of heavy metals attached or absorbed on the skin in comparison with the EDTA of Comparative Example <NUM> (Pb <NUM>%, Cd <NUM>%, Cu <NUM>%) and Control <NUM> without the chelate (Pb <NUM>%, Cd <NUM>%, Cu <NUM>%).

The compositions for skin prepared according to Embodiments <NUM> to <NUM>, Comparative Example <NUM> were tested for the skin irritation.

As shown in Table <NUM>, all of the <NUM> wt of compositions for skin according to the present invention have grade I, which is a non-stimulating range, whereas the EDTA of Comparative Example <NUM> was evaluated to be grade II (weak irritation range), indicating that the skin irritation is higher than those of the compounds of the present invention.

Claim 1:
Use of a cosmetic composition for protecting the skin from heavy metals and formaldehyde, comprising at least one selected from the group consisting of trientine or trientine derivative of Formula (<NUM>), cyclen or cyclen derivative of Formula (<NUM>), cyclam or cyclam derivative of Formula (<NUM>), and a salt thereof.
<CHM>
<CHM>
<CHM>
wherein: R<NUM>, R<NUM>, R<NUM>, R<NUM>, R<NUM> and R<NUM> is each independently hydrogen, -R<NUM>-COOH;
R<NUM> is a C<NUM>-C<NUM> alkyl group, an unsubstituted or substituted aromatic hydrocarbon group, or an unsubstituted or substituted aromatic heterocyclic group.