KR20180060246A - The reaction of Na2[B12H12] with thiopyrrolidine for BSH - Google Patents

Abstract

The present invention relates to a method of synthesizing disodium mercapto undecahydro-dodecaborate (Na_2[B_(12)H_(11)SH, BSH). More specifically, the present invention relates to a method of synthesizing BSH by reacting disodium dodecahydro-dodecarborate (Na_2[B_(12)H_(12)]) with a derivative of thio pyrrolidine, and then conducting basic hydrolysis. According to the present invention, it is possible to synthesize BSH, which is a boron-rich drug used in the BNCT treatment for malignant brain tumors, in a convenient and economic manner, without using dangerous reagents and special equipment for synthesis.

Description

Na2 [B12H12] Reaction with Thiopyrrolidine for BSH Synthesis {The reaction of Na2 [B12H12] with thiopyrrolidine for BSH}

The present invention relates to a method for synthesizing disodium mercapto undecahydro-dodecaborate (Na ₂ [B ₁₂ H ₁₁ SH], BSH). More specifically, it is possible to synthesize BSH by base hydrolysis after reacting a disodium dodecahydro-dodecarborate (Na ₂ [B ₁₂ H ₁₂ ]) with a derivative of thiopyrrolidine ≪ / RTI >

Cancer treatment techniques, which are of greatest interest as human important diseases, include surgical methods such as surgery, internal medicine methods such as drug administration, and radiation therapy by gamma irradiation. Such a cancer treatment method not only damages not only cancer cells but also normal cells around cancer cells, but also has a problem of producing cancer cells having resistance in the case of chemotherapy.

Recently, as a method of intensively irradiating a large amount of radiation to a place where cancer cells have been propagated, a compound containing a specific element such as boron is selectively accumulated in cancer cells using an appropriate transporting biochemical substance, and an appropriate amount of thermal neutrons A method of treating cancer by destroying only cancer cells with the energy released from such fission by irradiating the cancerous cell to the cancerous cell proliferation site to induce the fission of the element.

This dual therapy is called neutron capture therapy (NCT). Boron neutron capture therapy (BNCT) is a method that uses boron elements. The reagents used for this purpose are called boron neutron capture therapy agents (BNCT agents).

The boron atoms found in nature are present in a ratio of about 81.17: 18.8 of the two isotopes of 11B and 10B. Among them, when the thermal neutrons are irradiated to the isotope 10B, the boron atom captures the neutrons, followed by the nuclear decay of the boron atom, Subsequently, energy is generated to destroy cancer cells.

Therefore, when a patient is irradiated with a neutron after a boron (10B) compound is administered to a patient, the tumor cell becomes a key target of the neutron, thereby selectively and safely removing only the tumor cells. To achieve the desired effect, the boron accumulation selectivity of the tumor tissue versus the normal tissue under neutron irradiation should be as large as possible.

Although inorganic boron compounds were used as the first-generation boron neutron capture therapy, there was a problem in the passage and toxicity of the cell membrane. However, second-generation therapies including BSH have been developed and new biomarkers have been introduced.

BSH is the most promising known compound among the substances used in boron-neutron capture therapy (BNCT). Na ₂ [ ^x B ₁₂ H ₁₁ SH] (BSH), a boron-10 concentrating compound, is used to treat cancer in patients through BNCT. BSH has the advantage that it is specifically absorbed into brain cancer tumor (glioma) and can be selectively targeted through thermal or epithermal neutrons. Currently, treatments for glioma are rare, so patients with the disease are prematurely dying.

Various derivatives have been synthesized for dodecahyrodecaborate ([B ₁₂ H ₁₂ ] ^2- ) and dodecahydrodecaborate ([B ₁₀ H ₁₀ ] ^2- ) for boron-10 enriched medicines for BNCT Among them, borane anion (BSH), including sulfhydryl, is found to be most suitable for treatment of glioma by neutron capture therapy.

Initially, BSH compounds were synthesized by direct reaction of H ₂ S and a closo-dodecaborate anion under acidic conditions under pressure (WH Konth, JC Sauer, DC England, WR Hertler and EL Muetterties, J. Mol. Am. Chem. Soc. 1964, 86, 3973]. This reaction, however, has the disadvantage of producing a mixture of mono- and dimercapto derivatives that are difficult to separate, such as the hydroxyl derivatives of the croso-dodecaborate anion. Thereafter, a convenient method for the synthesis of monomercapto derivatives has been developed. This procedure synthesized a chloro-dodecaborate anion through basic hydrolysis after reacting with different thioamides ([B ₁₂ H ₁₂ ] ² -) in an acidic medium [T. Nakgawa, T Yoshizaki and K. Aono, Japanese patent 50-92897]. However, such synthesis methods are complicated and generally involve many synthetic steps, and certain intermediates are toxic and have problems in purification. Overall yield is generally low when viewed at the end. The best reported synthesis [M. The 7-step synthetic method for producing Na ₂ [B ₁₂ H ₁₁ SH] compound in 68% of the actual yields showed a yield of 68% in K. Aomo, K. Aono, K. Nagasawa, S. Sumimoto, Chemistry Express 1987, 2, 173-176.

Another convenient method for the synthesis of BSH compounds is the electrochemical oxidation of the chloro-dodecaborate anion with thiourea [V, A. Brattsev and J. H. Morris. In Advances in Neutron Capture Therapy, Vol II, Chemistry and Biology Eds. B. Larron, J. Crawford, and R. Weinreich, Elsevier Science B. V., Amsterdam, 1997, 51].

The present inventors have found that disodium mercapto undecahydro-dodecaborate (Na ₂ [B ₁₂ H (H ₂ O)] is used as a starting material for the production of BSH compounds economically and with high yield, using derivatives of thiopyrrolidine ₁₁ SH], BSH) was synthesized to complete the invention.

It is an object of the present invention to provide a manufacturing method which solves the problems in the conventional method by making it possible to provide a cost effective method for manufacturing BSH and to synthesize it at a high yield.

In order to accomplish the above object, the present invention provides a process for the preparation of a compound of formula (I), which comprises reacting a disodium dodecahydro-dodecarborate [B ₁₂ H ₁₂ ] ^2- (1) and thiopyrrolidine (B ₁₂ H ₁₁ SH) ^2- (3) and a pharmaceutically acceptable salt thereof, which comprises reacting a derivative (2) with mercapto undecahydro-dodecaborate As an aspect thereof.

[Reaction Scheme 1]

Wherein R is a single functional group selected from the group consisting of S, CH ₂ , and N-CH ₃ functional groups, n is 1 or 2, and R may be an aliphatic chain.

An anticancer pharmaceutical composition comprising the mercapto undecahydro-dodecaborate ([B ₁₂ H ₁₁ SH] ^{2 -} , produced by the above process) and a pharmaceutically acceptable salt thereof To the other side.

According to the present invention, BSH, which is a boron-rich drug used in the treatment of BNCT for malignant brain tumors, can be economically synthesized without dangerous reagents and special apparatus for synthesis.

Figure 1 is a chemical structure of the synthesis target BSH of the present invention.
2 shows a method of synthesizing BSH using the reaction between thiopyrrolidine and Na ₂ [B ₁₂ H ₁₂ ] according to the present invention.
Figure 3 is a ¹ H NMR spectrum of a cyclothiol derivative.
Figure 4 is a mass spectrum of a cyclothiol derivative.
Figure 5 is a ¹ H NMR spectrum of a thiocarolactum derivative.
Figure 6 is a ¹ H NMR spectrum of disodium mercapto undecahydro-dodecaborate (Na ₂ [B ₁₂ H ₁₁ SH]).
Figure 7 is a Mass spectrum of disodium mercapto undecahydro-dodecaborate (Na ₂ [B ₁₂ H ₁₁ SH]).

Hereinafter, the present invention will be described in detail.

One aspect of the present invention is a process for the preparation of a compound of formula (I), which comprises reacting disodium dodecahydro-dodecarborate [B ₁₂ H ₁₂ ] ^2- (1) and a derivative of thiopyrrolidine (3) and a pharmaceutically acceptable salt thereof, which comprises reacting mercapto undecahydro-dodecaborate, [B ₁₂ H ₁₁ SH] ^{2 -} , (3) .

[Reaction Scheme 1]

Wherein R is one functional group selected from the group consisting of S, CH ₂ and N-CH ₃ functional groups, n is 1 or 2, and R is an aliphatic chain.

Another aspect of the present invention is a method for preparing the mercapto undecahydro-dodecaborate (B ₁₂ H ₁₁ SH ² -) prepared by the above-described preparation method and a pharmaceutically acceptable salt thereof, Or a pharmaceutically acceptable salt thereof.

The present invention provides a method for preparing a monomercapto derivative comprising a nucleophilic attack of thiopyrrolidine on [B12H12] 2-phase fluidized by base hydrolysis.

BSH is a drug used to treat boron-neutron capture of brain tumors, which selectively binds to malignant tissue of the tumor by direct intra-arterial injection (internal carotid artery) to the patient, provides high concentrations in the tumor, , Whereas binding in the brain or blood vessels is considerably less than can be tolerated. It is believed that the cause of the lesser absorption in the normal brain is due to the blood-brain barrier. The chemical structure of BSH is the same as in Fig. 1 and has a three-dimensional structure.

Hereinafter, the present invention will be described in more detail with reference to Examples. It is to be understood by those skilled in the art that these examples are for illustrative purposes only and that the scope of the present invention is not construed as being limited by these examples.

Example 1. Obtaining BSH

의 형태를 갖는데, X는 S, CH2, N-CH3 중 하나이며, n은 1또는 2, R은 aliphatic chain이 될 수 있다. 이 과정은 (도 2)의 반응식으로 요약될 수 있다.The thiopyrrolidine derivative was first reacted with Na2 [B12H12] with good stirring and HCl was added dropwise at 105 ° C over 10 minutes. It was confirmed that the gas generated vigorously in the reaction, but the intensity was greatly decreased after 6 hours. Wherein the derivative of thiopyrrolidine is

Wherein X is one of S, CH2, N-CH3, n is 1 or 2, and R can be an aliphatic chain. This process can be summarized by the reaction scheme of FIG. 2.

The thiopyrrolidine derivatives were tested for X = S, n = 1 and R = tButyl derivatives and X = CH2, n = 4 and R = methyl derivatives (FIG. 3) 4), it was confirmed that the reaction was carried out when the cyclothiol derivative was applied and that the reaction was carried out when the thioarolactum derivative was applied as shown in Fig. 5 (Fig. 5).

Next, the viscous solution produced by the reaction was cooled at room temperature and diluted with a small amount of benzene (within 3% of the total solution amount).

To the diluted solution, a large amount of benzene was added for microcrystallization, and after filtration, it was dissolved in 30% ethanol.

Finally, a precipitate was obtained by adding cesium chloride (CsCl) and the precipitate was recrystallized from hot water to give Cs2 [B12H11SH] .H2O hydrate in the form of Na2 [B12H11SH] salt.

Finally, it was confirmed by analyzing the NMR data (FIG. 6) and the mass spectrum (FIG. 7) that the sodium salt (Na ₂ B ₁₂ H ₁₁ SH ) material of BSH was finally made.

Analysis of this whole process shows that it is possible to shorten the synthesis time and to apply it to the mass production process, because it takes less than half the time compared with the previously reported BSH manufacturing method.

Having described specific portions of the present invention in detail, those skilled in the art will appreciate that these specific embodiments are merely preferred embodiments and that the scope of the present invention is not limited thereby. something to do. Accordingly, the actual scope of the present invention will be defined by the appended claims and their equivalents.

Claims (3)

Reacting a disodium dodecahydro-dodecarborate [B ₁₂ H ₁₂ ] ^2- ) (1) with a derivative (2) of thiopyrrolidine as shown in Reaction Scheme 1 below A method for preparing mercapto undecahydro-dodecaborate, [B ₁₂ H ₁₁ SH] ^2- , (3) and a pharmaceutically acceptable salt thereof,
[Reaction Scheme 1]

In Scheme 1,
Wherein R is a single functional group selected from the group consisting of S, CH ₂ , N-CH ₃ functional groups,
Wherein n is 1 or 2,
Wherein R is a carbon chain far mercapto undeca dihydro-dodecaborate (mercapto undecahydro-dodecaborate, [B 12 H 11 SH] 2-,) method and pharmaceutically acceptable salts, characterized in that the (aliphatic chain).
An anticancer pharmaceutical composition comprising the mercapto undecahydro-dodecaborate, [B ₁₂ H ₁₁ SH] ^2- , prepared by the preparation method of claim 1, and a pharmaceutically acceptable salt thereof, Composition.

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