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ChemSpider 2D Image | Ridinilazole | C24H16N6
Ridinilazole.svg

RIDINILAZOLE

SMT19969

  • Molecular FormulaC24H16N6
  • Average mass388.424 Da
  • ридинилазол [Russian] [INN]ريدينيلازول [Arabic] [INN]利地利唑 [Chinese] [INN]
  • リジニラゾール;

10075
2,2′-Di(4-pyridinyl)-3H,3’H-5,5′-bibenzimidazole
308362-25-6[RN]6,6′-Bi-1H-benzimidazole, 2,2′-di-4-pyridinyl-

Summit Therapeutics (formerly Summit Corp ) is developing ridinilazole the lead compound from oral narrow-spectrum, GI-restricted antibiotics, which also include SMT-21829, for the treatment of Clostridium difficile infection and prevention of recurrent disease.

Ridinilazole (previously known as SMT19969) is an investigational small molecule antibiotic being evaluated for oral administration to treat Clostridioides difficile infection (CDI). In vitro, it is bactericidal against C. difficile and suppresses bacterial toxin production; the mechanism of action is thought to involve inhibition of cell division.[1] It has properties which are desirable for the treatment of CDI, namely that it is a narrow-spectrum antibiotic which exhibits activity against C. difficile while having little impact on other normal intestinal flora and that it is only minimally absorbed systemically after oral administration.[2] At the time ridinilazole was developed, there were only three antibiotics in use for treating CDI: vancomycinfidaxomicin, and metronidazole.[1][2] The recurrence rate of CDI is high, which has spurred research into other treatment options with the aim to reduce the rate of recurrence.[3][4]

As of 2019, two phase II trials have been completed and two phase III trials comparing ridinilazole to vancomycin for CDI are expected to be completed in September 2021.[2][5][6] Ridinilazole was designated as a Qualified Infectious Disease Product (QIDP) and was granted Fast Track status by the U.S. FDA.[2] Fast Track status is reserved for drugs designed to treat diseases where there is currently a gap in the treatment, or a complete lack thereof.[7] The QIDP designation adds five more years of exclusivity for ridinazole upon approval.[8]

str1-1

PATENT

WO-2021009514

Process for preparing ridinilazole useful for treating Clostridium difficile infection. Also claimed is the crystalline form of a compound.

The present invention relates to processes for the preparation of 2,2′-di(pyridin-4-yl)-1/-/,T/-/-5,5′-bibenzo[d]imidazole (which may also be known as 5,5’-bis[2-(4-pyridinyl)-1/-/-benzimidazole], 2,2′-bis(4-pyridyl)-3/-/,3’/-/-5,5′-bibenzimidazole or 2-pyridin-4-yl-6-(2-pyridin-4-yl-3/-/-benzimidazol-5-yl)-1/-/-benzimidazole), referenced herein by the INN name ridinilazole, and pharmaceutically acceptable derivatives, salts, hydrates, solvates, complexes, bioisosteres, metabolites or prodrugs thereof. The invention also relates to various crystalline forms of ridinilazole, to processes for their preparation and to related pharmaceutical preparations and uses thereof (including their medical use and their use in the efficient large-scale synthesis of ridinilazole).

WO2010/063996 describes various benzimidazoles, including ridinilazole, and their use as antibacterials (including in the treatment of CDAD).

WO 2011/151621 describes various benzimidazoles and their use as antibacterials

(including in the treatment of CDAD).

W02007056330, W02003105846 and W02002060879 disclose various 2-amino benzimidazoles as antibacterial agents.

W02007148093 discloses various 2-amino benzothiazoles as antibacterial agents.

W02006076009, W02004041209 and Bowser et at. (Bioorg. Med. Chem. Lett., 2007, 17, 5652-5655) disclose various substituted benzimidazole compounds useful as anti-infectives that decrease resistance, virulence, or growth of microbes. The compounds are said not to exhibit intrinsic antimicrobial activity in vitro.

US 5,824,698 discloses various dibenzimidazoles as broad-spectrum antibiotics, disclosing activity against both Gram-negative and Gram-positive bacteria, including Staphylococcus spp.and Enterococcus spp. However, this document does not disclose activity against anaerobic spore-forming bacteria and in particular does not disclose activity against any Clostridioides spp. (including C. difficile).

US 2007/0112048 A1 discloses various bi- and triarylimidazolidines and bi- and

triarylamidines as broad-spectrum antibiotics, disclosing activity against both Gram negative and Gram-positive bacteria, including Staphylococcus spp., Enterococcus spp. and Clostridioides spp. However, this document does not disclose compounds of formula (I) as described herein.

Chaudhuri et al. (2007) J.Org. Chem. 72, 1912-1923 describe various bis-2-(pyridyl)-1 H-benzimidazoles (including compounds of formula I as described herein) as DNA binding agents. This document is silent as to potential antibacterial activity.

Singh et al. (2000) Synthesis 10: 1380-1390 describe a condensation reaction for producing 2,2′-di(pyridin-4-yl)-1/-/,T/-/-5,5′-bibenzo[d]imidazole using 4-pyridine

carboxaldehyde, FeCI3, 02, in DMF at 120°C.

Bhattacharya and Chaudhuri (2007) Chemistry – An Asian Journal 2: 648-655 describe a condensation reaction for producing 2,2′-di(pyridin-4-yl)-1/-/,T/-/-5,5′-bibenzo[d]imidazole using 4-pyridine carboxaldehyde and nitrobenzene at 120°C.

WO2019/068383 describes the synthesis of ridinilazole by metal-ion catalyzed coupling of 3,4,3’,4’-tetraaminobiphenyl with 4-pyridinecarboxaldehyde in the presence of oxygen, followed by the addition of a complexing agent.

PATENT

WO2010063996

claiming antibacterial compounds. Bicyclic heteroaromatic compounds, particularly bi-benzimidazole derivatives.

WO2007056330, WO2003105846 and WO2002060879 disclose various 2-amino benzimidazoles as antibacterial agents.

WO2007148093 discloses various 2-amino benzothiazoles as antibacterial agents.

WO2006076009, WO2004041209 and Bowser et al. (Bioorg. Med. Chem. Lett., 2007, 17, 5652-5655) disclose various substituted benzimidazole compounds useful as anti-infectives that decrease resistance, virulence, or growth of microbes. The compounds are said not to exhibit intrinsic antimicrobial activity in vitro.

US 5,824,698 discloses various dibenzimidazoles as broad-spectrum antibiotics, disclosing activity against both Gram-negative and Gram-positive bacteria, including Staphylococcus spp.and Enterococcus spp. However, this document does not disclose activity against anaerobic spore-forming bacteria and in particular does not disclose activity against any Clostridium spp. (including C. difficile).

US 2007/0112048 A1 discloses various bi- and triarylimidazolidines and bi- and triarylamidines as broad-spectrum antibiotics, disclosing activity against both Gram-negative and Gram-positive bacteria, including Staphylococcus spp., Enterococcus spp.

and Clostridium spp. However, this document does not disclose compounds of general formula (I) as described herein.

Chaudhuri et al. (J.Org. Chem., 2007, 72, 1912-1923) describe various bis-2-(pyridyl)-1 H-benzimidazoles (including compounds of formula I as described herein) as DNA binding agents. This document is silent as to potential antibacterial activity.

PATENT

Product PATENT, WO2010063996 ,

protection in the EP until 2029 and expire in the US in December 2029.

PAPER

https://www.frontiersin.org/articles/10.3389/fmicb.2018.01206/full

PAPER

Synthesis (2000), (10), 1380-1390.

https://www.thieme-connect.de/products/ejournals/abstract/10.1055/s-2000-7111

PAPERT

Chemistry – An Asian Journal (2007), 2(5), 648-655.

https://onlinelibrary.wiley.com/doi/abs/10.1002/asia.200700014

Studies of double‐stranded‐DNA binding have been performed with three isomeric bis(2‐(n‐pyridyl)‐1H‐benzimidazole)s (n=2, 3, 4). Like the well‐known Hoechst 33258, which is a bisbenzimidazole compound, these three isomers bind to the minor groove of duplex DNA. DNA binding by the three isomers was investigated in the presence of the divalent metal ions Mg2+, Co2+, Ni2+, Cu2+, and Zn2+. Ligand–DNA interactions were probed with fluorescence and circular dichroism spectroscopy. These studies revealed that the binding of the 2‐pyridyl derivative to DNA is dramatically reduced in the presence of Co2+, Ni2+, and Cu2+ ions and is abolished completely at a ligand/metal‐cation ratio of 1:1. Control experiments done with the isomeric 3‐ and 4‐pyridyl derivatives showed that their binding to DNA is unaffected by the aforementioned transition‐metal ions. The ability of 2‐(2‐pyridyl)benzimidazole to chelate metal ions and the conformational changes of the ligand associated with ion chelation probably led to such unusual binding results for the ortho isomer. The addition of ethylenediaminetetraacetic acid (EDTA) reversed the effects completely.

PAPER

 Journal of Organic Chemistry (2007), 72(6), 1912-1923.

https://pubs.acs.org/doi/10.1021/jo0619433

Three symmetrical positional isomers of bis-2-(n-pyridyl)-1H-benzimidazoles (n = 2, 3, 4) were synthesized and DNA binding studies were performed with these isomeric derivatives. Like bisbenzimidazole compound Hoechst 33258, these molecules also demonstrate AT-specific DNA binding. The binding affinities of 3-pyridine (m-pyben) and 4-pyridine (p-pyben) derivatized bisbenzimidazoles to double-stranded DNA were significantly higher compared to 2pyridine derivatized benzimidazole o-pyben. This has been established by combined experimental results of isothermal fluorescence titration, circular dichroism, and thermal denaturation of DNA. To rationalize the origin of their differential binding characteristics with double-stranded DNA, computational structural analyses of the uncomplexed ligands were performed using ab initio/Density Functional Theory. The molecular conformations of the symmetric head-to-head bisbenzimidazoles have been computed. The existence of intramolecular hydrogen bonding was established in o-pyben, which confers a conformational rigidity to the molecule about the bond connecting the pyridine and benzimidazole units. This might cause reduction in its binding affinity to double-stranded DNA compared to its para and meta counterparts. Additionally, the predicted stable conformations for p-, m-, and o-pyben at the B3LYP/6-31G* and RHF/6-31G* levels were further supported by experimental pKa determination. The results provide important information on the molecular recognition process of such symmetric head to head bisbenzimidazoles toward duplex DNA.

Patent

US 8975416

PATENT

WO 2019068383

https://patentscope.wipo.int/search/en/detail.jsf?docId=WO2019068383

Clostridium difficile infection (CDI) is the leading cause of infectious healthcare-associated diarrhoea. CDI remains a challenge to treat clinically, because of a limited number of antibiotics available and unacceptably high recurrence rates. Because of this, there has been significant demand for creating innovative therapeutics, which has resulted in the development of several novel antibiotics.

Ridinilazole (SMT19969) is the INN name of 5,5’bis[2-(4-pyridinyl)-lH-benzimidazole], which is a promising non-absorbable small molecule antibiotic intended for oral use in the treatment of CDI. It has been shown to exhibit a prolonged post-antibiotic effect and treatment with ridinilazole has resulted in decreased toxin production. A phase 1 trial demonstrated that oral ridinilazole is well tolerated and specifically targets Clostridia whilst sparing other faecal bacteria.

Ridinilazole has the following chemical structure:

Bhattacharya & Chaudhuri (Chem. Asian J., 2007, No. 2, 648-655) report performing double-stranded DNA binding with three benzimidazole derivatives, including ridinilazole. The compounds have been prepared by dissolving the reactants in nitrobenzene, heating at 120°C for 8- 1 Oh and purifying the products by column chromatography over silica gel. The compounds were obtained in 65-70% yield. Singh et al., (Synthesis, 2000, No. 10, 1380-1390) describe a catalytic redox cycling approach based on Fe(III) and molecular oxygen as co-oxidant for providing access to benzimidazole and

imidazopyridine derivatives, such as ridinilazole. The reaction is performed at high temperatures of 120°C and the product is isolated in 91% yield by using silica flash chromatography.

Both processes are not optimal, for example in terms of yield, ease of handling and scalability. Thus, there is a need in the art for an efficient and scalable preparation of ridinilazole, which overcomes the problems of the prior art processes.

Example 1 : Preparation of crude ridinilazole free base

A solution of 3,4,3′,4′-tetraaminobiphenyl (3.28 g, 15.3 mmol) and isonicotinaldehyde (3.21 g, 30.0 mmol) in DMF (40 mL) was stirred at 23 °C for one hour. Then anhydrous ferric chloride (146 mg, 0.90 mmol), water (0.10 mL, 5.4 mmol) and additional DMF (2 mL) were added and fresh air was bubbled into the solution during vigorous stirring for 5 hours at room temperature. Next, water (80 mL) and EDTA (0.29 g) were added resulting in a brownish suspension, which was stirred overnight. The product was isolated by filtration, washed with water, and dried in a desiccator in vacuo as a brown powder (5.56 g; 95%). The addition of EDTA had held iron in solution and the crude ridinilazole contained significantly lower amounts of iron than comparative example 1.

Example 12: Formation of essentially pure ridinilazole free base

To a suspension von ridinilazole tritosylate (1 10 mg, 0.12 mmol) in water (35 mL) featuring a pH value of about 4.5 stirring at 70 °C sodium bicarbonate (580 mg, 6.9 mmol) were added and caused a change of color from orange to slightly tan. The mixture, now at a pH of about 8.5, was cooled down to room temperature and the solids were separated by filtration, washed with water (1 ML) and dried in vacuo providing 40 mg (85%) essentially pure ridinilazole as a brownish powder.

Spectroscopic analysis:

¾ NMR (DMSO-de, 300 MHz): δ 7.55 (d, J = 8.4 Hz, 2H), 7.70 (d, J = 8.4 Hz, 2H), 7.88 (s, 2H), 8.13 (d, J = 5.8 Hz, 4H), 8.72 (d, J = 5.8 Hz, 4H) ppm.

13C NMR (DMSO-d6, 75 MHz): δ 1 13.4 (2C), 1 16.4 (2C), 120.4 (4C), 121.8 (2C), 135.7 (2C), 138.7 (2C), 140.7 (2C), 141.4 (2C), 150.3 (4C), 151.1 (2C) ppm.

IR (neat): v 3033 (w), 1604 (s), 1429 (m), 1309 (m), 1217 (m), 1 1 15 (w), 998 (m), 964 (m), 824 (m), 791 (s), 690 (s), 502 (s) cm .

UV-Vis (MeOH): 257, 341 nm.

The sharp peaks in the ¾ NMR indicated that iron had been efficiently removed.

Comparative example 1 : Preparation of ridinilazole

A solution of 3,4,3′,4′-tetraaminobiphenyl (0.69 g, 3.2 mmol) and isonicotinaldehyde (0.64 g, 6.0 mmol) in DMF (20 mL) was stirred at 80°C for one hour. Then ferric chloride hexahydrate (49 mg, 0.18 mmol), water (0.10 mL, 5.4 mmol) and additional DMF (2 mL) were added and fresh air was bubbled into the solution during vigorous stirring for 10 hours at 120 °C. After cooling to room temperature water (50 mL) and the mixture was stirred for one hour. A black crude product was isolated by filtration and comprised ridinilazole and iron.

References

  1. Jump up to:a b Cho JC, Crotty MP, Pardo J (March 2019). “Clostridium difficile infection”Annals of Gastroenterology32 (2): 134–140. doi:10.20524/aog.2018.0336PMC 6394264PMID 30837785.
  2. Jump up to:a b c d Carlson TJ, Endres BT, Bassères E, Gonzales-Luna AJ, Garey KW (April 2019). “Ridinilazole for the treatment of Clostridioides difficile infection”Expert Opinion on Investigational Drugs28 (4): 303–310. doi:10.1080/13543784.2019.1582640PMID 30767587.
  3. ^ Bassères E, Endres BT, Dotson KM, Alam MJ, Garey KW (January 2017). “Novel antibiotics in development to treat Clostridium difficile infection”Current Opinion in Gastroenterology33 (1): 1–7. doi:10.1097/MOG.0000000000000332PMID 28134686These tables highlight the increased drug development directed towards CDI due to the rise in prevalence of infections and to attempt to reduce the number of recurrent infections.
  4. ^ Vickers RJ, Tillotson G, Goldstein EJ, Citron DM, Garey KW, Wilcox MH (August 2016). “Ridinilazole: a novel therapy for Clostridium difficile infection”International Journal of Antimicrobial Agents48 (2): 137–43. doi:10.1016/j.ijantimicag.2016.04.026PMID 27283730there exists a significant unmet and increasing medical need for new therapies to treat CDI, specifically those that can reduce the rate of disease recurrence.
  5. ^ Clinical trial number NCT03595553 for “Ri-CoDIFy 1: Comparison of Ridinilazole Versus Vancomycin Treatment for Clostridium Difficile Infection” at ClinicalTrials.gov
  6. ^ Clinical trial number NCT03595566 for “Ri-CoDIFy 2: To Compare Ridinilazole Versus Vancomycin Treatment for Clostridium Difficile Infection” at ClinicalTrials.gov
  7. ^ “Fast Track”. U.S. Food and Drug Administration. 2018-11-03.
  8. ^ “”HHS spurs new antibiotic development for biodefense and common infections””Public Health Emergency. U.S. Department of Health and Human Services. Retrieved 2020-12-04.
Clinical data
Other namesSMT19969
ATC codeNone
Identifiers
IUPAC name[show]
CAS Number308362-25-6
PubChem CID16659285
ChemSpider17592423
UNII06DX01190R
KEGGD11958
Chemical and physical data
FormulaC24H16N6
Molar mass388.42 g/mol
3D model (JSmol)Interactive image
SMILES[hide]c6cc(c5nc4ccc(c3ccc2nc(c1ccncc1)[nH]c2c3)cc4[nH]5)ccn6

/////////RIDINILAZOLE, SMT19969, SMT 19969, ридинилазол , ريدينيلازول , 利地利唑 , リジニラゾール , Qualified Infectious Disease Product, QIDP,  Fast Track , PHASE 3,  Clostridioides difficile infection , 


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DR ANTHONY CRASTO

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DR ANTHONY MELVIN CRASTO Ph.D

DR ANTHONY MELVIN CRASTO Ph.D

DR ANTHONY MELVIN CRASTO, Born in Mumbai in 1964 and graduated from Mumbai University, Completed his Ph.D from ICT, 1991,Matunga, Mumbai, India, in Organic Chemistry, The thesis topic was Synthesis of Novel Pyrethroid Analogues, Currently he is working with GLENMARK LIFE SCIENCES LTD, Research Centre as Principal Scientist, Process Research (bulk actives) at Mahape, Navi Mumbai, India. Total Industry exp 30 plus yrs, Prior to joining Glenmark, he has worked with major multinationals like Hoechst Marion Roussel, now Sanofi, Searle India Ltd, now RPG lifesciences, etc. He has worked with notable scientists like Dr K Nagarajan, Dr Ralph Stapel, Prof S Seshadri, Dr T.V. Radhakrishnan and Dr B. K. Kulkarni, etc, He did custom synthesis for major multinationals in his career like BASF, Novartis, Sanofi, etc., He has worked in Discovery, Natural products, Bulk drugs, Generics, Intermediates, Fine chemicals, Neutraceuticals, GMP, Scaleups, etc, he is now helping millions, has 9 million plus hits on Google on all Organic chemistry websites. His friends call him Open superstar worlddrugtracker. His New Drug Approvals, Green Chemistry International, All about drugs, Eurekamoments, Organic spectroscopy international, etc in organic chemistry are some most read blogs He has hands on experience in initiation and developing novel routes for drug molecules and implementation them on commercial scale over a 30 PLUS year tenure till date June 2021, Around 35 plus products in his career. He has good knowledge of IPM, GMP, Regulatory aspects, he has several International patents published worldwide . He has good proficiency in Technology transfer, Spectroscopy, Stereochemistry, Synthesis, Polymorphism etc., He suffered a paralytic stroke/ Acute Transverse mylitis in Dec 2007 and is 90 %Paralysed, He is bound to a wheelchair, this seems to have injected feul in him to help chemists all around the world, he is more active than before and is pushing boundaries, He has 9 million plus hits on Google, 2.5 lakh plus connections on all networking sites, 90 Lakh plus views on dozen plus blogs, 233 countries, 7 continents, He makes himself available to all, contact him on +91 9323115463, email amcrasto@gmail.com, Twitter, @amcrasto , He lives and will die for his family, 90% paralysis cannot kill his soul., Notably he has 33 lakh plus views on New Drug Approvals Blog in 233 countries......https://newdrugapprovals.wordpress.com/ , He appreciates the help he gets from one and all, Friends, Family, Glenmark, Readers, Wellwishers, Doctors, Drug authorities, His Contacts, Physiotherapist, etc

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