DE1917844B2 - 6- (TRIFLUOROMETHYL) - TRYPTOPHANE - Google Patents

Description

The invention relates to 6- (trifluoromethyl) -tryptophan of the formula

CH ₂ - CH - COOH

NH,

and its non-toxic, physiologically acceptable salts and sweeteners with no nutritional effect.

There are already a number of non-nutritional sweeteners with one with natural sugar comparable sweetness. Such substances are particularly necessary as a substitute for natural sugar there, where the consumption of sugar for health reasons, e.g. B. diabetes should be limited. However, the known sweeteners have various disadvantages, such as a bitter aftertaste and toxic side effects. Currently only two types of sweeteners are used in major with no nutritional effects Scope used, namely saccharin-like and cyclamate-like Links. However, both have a bitter aftertaste. The cyclamates are also only effective to a limited extent.

Other sweetening compounds include the amino acids and their enantiomorphic forms (Experientia, Vol. 21, pp. 692-694, [1965]). According to this, a number of amino acids are in the d-enantiomorphic Shape sweet, but there is no absolute correlation. Furthermore, despite the sweet taste the d-enantiomorphic form of a given amino acid becomes the 1-enantiomorphic form of the same Acid be bitter. The separation of the two enantiomorphic forms of a given amino acid is often difficult. Amino acids are therefore not used for sweetening purposes.

It is also known that in the field of sweeteners there is no relationship between structure and there is effect, since even relatively minor changes in the chemical structure of the effect frequently pick up.

It is therefore extremely surprising that the tryptophan mentioned at the outset and its salts are in their d-form produce a distinctly sweet taste in amounts below the amounts at which a unwanted side effect can be determined.

The compound of the invention is a crystalline solid with a solubility that depends on whether it This is the free amine or salts with bases or acid addition salts because of the more favorable Water solubility of the salts, these are used especially where there are higher concentrations of active ingredients would like to have. Suitable base salts are the ammonium, sodium, potassium, calcium and magnesium salts, of which the sodium and calcium salts are preferred. Strong ones suitable for salt formation Acids are, for example, hydrochloric acid, hydrobromic acid, hydroiodic acid and sulfuric acid.

The separation of the compounds according to the invention into their optically active forms is not necessary, since the racemate itself is quite effective, but since the d-enantiomorphic form is the actually active part, a separation may possibly be preferred in order to achieve the desired sweetening effect with a smaller amount of substance . Since, as a rule, only the 1-enantiomorphic form of amino acids is subject to the metabolism of mammals, the use of the d-enantiomorphic form alone can also be preferred in order to exclude any possibility of substance utilization by the body.

The resolution of the racemate to obtain the d-enantiomorphic form can be carried out in a known manner take place. Three methods of this kind are detailed in Chemistry of the Amino Acids, Grennstein et al, Vol. 3, p. 2341 ff (John Wiley and Sons, Inc, New York, 1961) explained and demonstrated by examples. It will particularly pointed to the first two methods (process example 39-5 and process example 39-6).

The substance according to the invention can be used to sweeten various substances, such as. B. cosmetics, food and Luxury foods, adhesives (use on postage stamps and envelopes), animal feed and medicinal Funds, are used.

The sweetener according to the invention can be combined with a flavoring substance in the usual way. He will conveniently prepared in the form of tablets, capsules, liquids or powders. The respectively used The amount of sweetener is not critical as long as an effective amount is used. This is what it is a lot that gives an impression of sweetness comparable to that of sucrose is achieved at a given application rate.

The invention is explained in more detail below with the aid of examples.

example 1
Production of 6- (trifluoromethyl) -tryptophan

A solution of 7.53 g (0.15 mol) of diethylamine in 22.5 ml of cold 60% acetic acid is 8.25 n ?! 37% aqueous formaldehyde solution was added. Then, 19.0 g (O ₁ IOMoI) 6-trifluoromethylindole added and the mixture obtained is heated to 6O ⁰ C. This mixture is kept at this temperature for 2 hours and the solution is poured into 360 ml of 2N sodium hydroxide solution. The desired 3- (diethylaminomethyl) -6- (trifluoromethyl) indole is extracted with ether. After drying the extract and removing the solvent by distillation, the product is isolated as an oil.

12.5 g (0.046 mol) 3- (diethylaminomethyl) -6- (trifluoromethyl) indole, that in the above described

Manner, and 9.4 g (0.041 mol) of diethyl formamidomalonate are mixed in 31 ml of toluene. Then 0.76 g of powdered potassium hydroxide is added. The mixture obtained is kept at reflux temperature for 1.5 hours while passing in nitrogen. It is then cooled, as a result of which the diethyl ([6- (trifluoromethyl) -3-indolyl] methyl) formamidomalonate which has formed separates out, which is filtered off and washed with water. Part of the wicked separated product is recrystallized from ethanol and melts at 182- ISS "C

A solution of 553 g (0.138 mol) of diethyl ([6- (trifluoromethyl) -3-indolyl] methyl) formamidomalonate in 330 ml of 1.5 η hydrochloric acid, 165 ml of glacial acetic acid and 50 ml of ethanol is then heated under reflux for 17 hours the solution is concentrated in vacuo, the residue is neutralized with ammonium hydroxide and the resulting t- (Trifluoromethyl) -tryptophan filtered off. The isolated The product is washed with water and ethanol. A sample recrystallized from acetic acid melts 267-270 ° C (dec.).

The investigation of dl-6- (trifluoromethyl) -tryptophan in the behavioral test of the mouse, in which the active ingredient When given in different doses to groups of three animals, the results are as follows:

Dose mg / kg

Number of dead
Animals (time)

2 (on the 3rd to 4th day)

3 (on the first day)

3 (from the third hour
up to 7u a day)

The results obtained in this experiment are as follows:

Tabel

link

IO

25th

30th

35

Comparative experiment 1

The sweetness and flavor behavior of dl-6- (trifluoromethyl) -tryptophan is compared against the closest matching ₄ c constricting known compounds on the basis of this, generally conventional fingertip experiment. To do this, the fingertip of the right index finger is dipped into a supply of the compound to be examined in such a way that a uniform amount of substance adheres to it. The sweetness of the respective substance is then assessed on the tongue of the person performing the test according to the following scale: without taste, very slightly sweet, slightly sweet, sweet, very sweet and extremely sweet. At the same time it is also determined whether a substance has an aftertaste

Table II

Sweetness and taste behavior

dl-tryptophan d-tryptophan 1-tryptophan dl-6- (trifluoromethyl) tryptophan

no taste

slightly sweet

no taste

very cute

no
aftertaste

Comparative experiment II

The sweetness and taste behavior of dl-6- (trifluoromethyl) -tryptophan, d-tryptophan as well as dl-tryptophan is made with sugar solutions of one out of five People with an existing group of examiners with many years of experience in this field. Every Substance is assessed individually, and all tests are carried out using the same in each case Amount of water (as it is especially used for drinks) are carried out respectively Solutions of such concentrations with an active ingredient concentration prepared in their sweetness a 10% sugar solution, each tester determining the solution that is his Considered the sweetness of the 10% sugar solution comes closest. This procedure is only deviated in the case of dl-tryptophan, because this has so little sweetening power that none of them can be 10% Sugar solution in its sweetening power can be used to produce the appropriate active ingredient solution for dl-tryptophan The highest possible concentration is therefore only 0.125%, and with this solution, therefore, are also under 10% lying concentrations of sugar solutions were compared and the question of which one was assessed Sugar solution comes closest to dl-tryptophan solution. The results obtained in the above experiment are shown in Table II below. The relative sweetness given in the right column of this table is determined by dividing the concentration of the sugar solution by the concentration in the case of equivalent sweetness divided by the respective active ingredient solution. If not all examiners come to the same result, then the different relative degrees of sweetness interpolated accordingly

Active ingredient

Concentration of Concentration of Active ingredient solutions in
0/0
J Sugar solution in
% 0.1 10 0.2 10 0.25 10 0.3 10 0.4 10 0.125 5.0 (maximum 4.0 Concentration) 3.0 2.0

Number of examiners, the degree of sweetness of the
a particular active solution in relation to the strongest substance
Assign the degree of sweetening to sugar
(Sugar - 1)

d-tryptophan

dl-tryptophan

42

26th

continuation

Active ingredient

Concentration of the active ingredient solutions in%

Concentration of the sugar solution in%

Number of examiners, the degree of sweetness of the a certain respective effective

Assign the solution to the strongest substance with regard to the degree of sweetening in relation to sugar (Sugar = 1)

dl-6- (trifluoromethyl) tryptophan

0.04 10 - 0.03 10 - 0.02 10 4th 0.01 10 1 0.005 10 _

700

The above experiments are all based on dl-6- (trifluoromethyl) -tryptophan, since the inactive 1-enantiomeric form is a non-interfering additive, so that a separation of the dl mixture is not worthwhile

A comparison of dl-6- (trifluoromethyl) -tryptophan with saccharine or cyclamates has been omitted, as side effects of cyclamates are well known and saccharin is known to have a bitter aftertaste Has.

Claims (2)

Patent claims:
1.6- (trifluoromethyl) -tryptophan of the formula " ^N CH ₂ - CH - COOH NH ₂ and its non-toxic physiologically acceptable salts. 2. Sweetener consisting of a compound according to claim 1 and customary additives. 10