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US-12622913-B2 - Folate salts for medical use

US12622913B2US 12622913 B2US12622913 B2US 12622913B2US-12622913-B2

Abstract

The invention relates to amorphous folate salt. The salt consists of a folate anion and an organic cation. The folate anion is selected from the group consisting of 5-formyl-(6S)-tetrahydrofolic acid, 10-formyl-(6R)-tetrahydrofolic acid, 5-methyl-(6S)-tetrahydrofolic acid, (6S)-tetrahydrofolic acid, 5,10-Methylene-(6R)-tetrahydrofolic acid, and its oxidized derivatives JK12A and Mefox, and the cation is an organic compound selected from the group arginine, choline, acetylcholine, 1,1-dimethyl-biguanidin phenylethylbiguanidin, betaine-methylester and dimethylaminoethanol. The cation is an organic compound with a complementary pharmacological activity.

Inventors

  • Martin Ulmann
  • Gerd WIESLER
  • Arthur Bodenmüller
  • Markus Müller

Assignees

  • APROFOL AG

Dates

Publication Date
20260512
Application Date
20230512

Claims (5)

  1. 1 . An amorphous folate salt consisting of a tetrahydrofolic acid anion and an organic cation characterized in that the anion is selected from the group consisting of 10-formyl-(6R)-tetrahydrofolic acid, 5-methyl-(6S)-tetrahydrofolic acid, (6S)-tetrahydrofolic acid, 5, 10-Methylene-(6R)-tetrahydrofolic acid, and its oxidized derivatives JK12A and Mefox, and the cation is an organic compound selected from the group di-choline, di-acetylcholine, di-1,1-dimethyl-biguanidin, di-phenylethylbiguanidin, and di-betaine-methylester, wherein the folate salts have a high solubility in an apolar solvent, said apolar solvent having a relative polarity of 0.82 compared to water.
  2. 2 . An amorphous folate acid salt according to claim 1 , characterized in that the tetrahydrofolic acid anion is 5-methyl-(6S)-tetrahydrofolic acid and the organic cation is di-choline, wherein the 1 H-NMR shifts in D 2 O are; δ (1H) in ppm Multiplicity Intensity 7.60 d 2H 6.68 d 2H 4.24 m 1H 3.98 m 4H 3.44 m 1H 3.43 m 4H 3.25 m 1H 3.11 s 18H 3.10 m 1H 3.01 m 1H 2.91 m 1H 2.47 s 3H 2.24 m 2H 2.09 m 1H 1.96 m 1H.
  3. 3 . An amorphous folate salt according to claim 1 , characterized in that the tetrahydrofolic acid anion is 5-methyl-(6S)-tetrahydrofolic acid and the organic cation is di-(1,1-dimethyl-biguanidin), wherein the 1 H-NMR shifts in D 2 O are: δ (1H) in ppm Multiplicity Intensity 7.59 d 2H 6.67 d 2H 4.25 m 1H 3.44 m 1H 3.24 m 1H 3.10 m 1H 3.01 m 1H 2.95 s 12H 2.92 m 1H 2.48 s 3H 2.25 m 2H 2.10 m 1H 1.97 m 1H.
  4. 4 . An amorphous folate acid salt according to claim 1 , characterized in that the tetrahydrofolic acid anion is 5-methyl-(6S)-tetrahydrofolic acid and the organic cation is di-(phenylethyl-biguanidin), wherein the 1 H-NMR shifts in D 2 O are: δ (1H) in ppm Multiplicity Intensity 7.58 d 2H 7.29 m 4H 7.21 m 6H 6.65 d 2H 4.24 m 1H 3.44 m 1H 3.40 m 4H 3.24 m 1H 3.10 m 1H 3.01 m 1H 2.91 m 1H 2.78 m 4H 2.49 s 3H 2.24 m 2H 2.09 m 1H 1.96 m 1H.
  5. 5 . A pharmaceutical composition, comprising at least one folate salt according to claim 1 , as a main active compound and at least a pharmaceutically acceptable excipient.

Description

CROSS REFERENCE This application is a Continuation and claims benefit of U.S. patent application Ser. No. 16/651,688 filed Mar. 27, 2020, which is a 371 application and claims benefit of International Patent Application No. PCT/EP2018/073280 filed Aug. 29, 2018, which claims benefit of European Patent Application No. 17020449.9 filed Sep. 29, 2017, the specification(s) of which is/are incorporated herein in their entirety by reference. FIELD OF THE INVENTION The present invention relates to folate salts, their preparation and compositions comprising the same. BACKGROUND OF THE INVENTION Depression and other mental health disorders such as dementia, autism, ADHD and Alzheimer, as well as chronic non-communicable diseases (NCDs) such as diabetes 2, vascular diseases, and cancer are a growing burden for patients and the health care systems, especially in view of the aging population. There are various reasons for these different diseases; however, as a common risk factor a suboptimal folate-status has been found, in the whole body or in specific tissues. It is well known that vitamins of the B-complex group are involved in numerous metabolic processes of the body, e.g. in the conversion of carbohydrates into glucose, which is metabolized to produce energy. These vitamins are further essential in the breakdown of fats and proteins and play an important role in maintaining muscle tone along the lining of the digestive tract and promoting health of the nervous system, and e.g. eyes, skin, hair, liver. In addition, it is known that folate is compulsory in the production and maintenance of new cells. Especially important in times of rapid cell division and growth such as infancy and pregnancy. Folate is needed to replicate DNA. Thus, folate deficiency hinders DNA synthesis and cell division, affecting most clinically the bone marrow, a site of rapid cell turnover. Because RNA and protein synthesis are not hindered, large red blood cells, i.e. megaloblasts, are produced, resulting in macrocytic anemia, such as megaloblastic anemia, as may be seen in celiac disease, and in anemias of nutritional origin, or in pregnancy, infancy, or childhood. Accordingly, both adults, especially elderly, and children need folate to make normal red blood cells and prevent anemia. Folate also helps prevent changes to DNA that may lead to cancer. Folate derivatives such as diverse tetrahydrofolic acid derivatives may also be used as drug or as basic substance for the preparation of other derivatives. Yet, also tetrahydrofolic acid and the derivatives thereof are known to possess an extreme instability, particularly due to their susceptibility to oxidation. In particular, 5-formyltetrahydrofolic acid (Folinic acid, Leucovorin) has importance as a drug ingredient mainly in oncology, as concomitant therapy with methotrexate and 5-fluorouracil treatment, and in the treatment of folic acid deficiency anemia associated with pregnancy, antibiotic therapy etc. Among folates and reduced folates, the calcium salts can be mentioned as the most relatively stable derivatives: U.S. Pat. Nos. 5,817,659 and 6,441,168 disclose crystalline salts, preferably calcium salts, of 5-methyl-(6R, S)-, (6S)- or (6R)-tetrahydrofolic acid having a water of crystallization of at least one equivalent per equivalent of said acid. 5-methyltetrahydrofolate is the only folic acid derivative on the market which can directly penetrate the blood/brain barrier without further metabolism. Naturally occurring 5-methyltetrahydrofolic acid is solely in the S form; the R form is considered biochemically inactive and is excreted through the kidney. Besides, several compositions for human and animal consumption, comprising either folates and/or reduced folates, have been reported, in various forms and together with vitamins, arginine, lysine, thiamine and/or other active ingredients, either as a nutritional supplement or for the treatment and prevention of various diseases such as, for instance, neurological, pathophysiological, cardiovascular diseases, arthritic and inflammation conditions. Various folate salts are known. In general, these salts comprise a folate and an inorganic cation such as calcium and magnesium or an organic cation such as glucosamine or galactosamine. These alkaline earth metal cations are inert insofar that they themselves do not show any pharmacological effect in humans. The scarce solubility in aqueous solutions of such salts has been widely reported. WO 2009/103334 describes a 5-methyl-tetrahydrofolic acid glucosamine salt (5-MTHF-glucosamine) having a good water solubility. Further, the solubility of folate salts in apolar solvents is very limited as well. For instance, the 5-MTHF-glucosamine was described as a creamy to light-brown powder that is very soluble in water (at 25° C.), soluble in dilute acid or dilute alkali and insoluble in organic solvents (EFSA Journal 2013; 11(10):3358). Aqueous compositions with improved solubility and stability of fol