Ripasudil hydrochloride dihydrate Chemical Properties

storage temp. 

Store at -20°C

solubility 

insoluble in EtOH; ≥123.2 mg/mL in DMSO; ≥41.7 mg/mL in H2O

form 

solid

Stability:

Hygroscopic

Safety Information

Risk Statements 

24/25-26-28

Safety Statements 

28-38-41-48

HS Code 

29339900

Ripasudil hydrochloride dihydrate Usage And Synthesis

Description

Ripasudil hydrochloride hydrate (Glanatec®) was approved in Japan in 2014 for the treatment of glaucoma and ocular hypertension. Originally discovered by D. Western Therapeutics Institute, Inc. and licensed by the Kowa Company, Ltd, ripasudil functions as a selective Rho-kinase inhibitor and reduces intraocular pressure by stimulation of aqueous humour drainage of the trabecular meshwork. While this recent approval allows for use of ripasudil as a twice-daily monotherapy treatment when other drugs cannot be used or are not effective, clinical trials using ripasudil as a combination therapy with other glaucoma drugs have shown promising results in the treatment of primary open-angle glaucoma or ocular hypertension. Currently, the Kowa Company is also pursuing trials focused on the use of ripasudil for the treatment of diabetic retinopathy and diabetic macular edema.

Uses

Ripasudil Hydrochloride Dihydrate is a derivative of fasudil and a rho kinase inhibitor (1,2). It is used for the treatment of glaucoma and ocular hypertension.

Uses

Ripasudil (Glanatec TM, Kowa Pharmaceutical), a close derivative of fasudil, is another Rho kinase inhibitor approved in Japan at the end of 2014 for the treatment of glaucoma and ocular hypertensionwhen other therapeutic agents are not effective or cannot be administered. Additionally, ripasudil has been tested in diabetic retinopathy clinical trials and shown to promote corneal endothelial cell proliferation, endothelium regeneration, and wound healing.

Synthesis

While initial synthetic routes to ripasudil were carried out via a stepwise functionalization of 4-fluoroisoquinoline-5-sulfonyl chloride (238), more recent reports describe an efficient route to ripasudil employing a late stage-coupling of Boc-diazepane (237) with 4-fluoroisoquinoline-5-sulfonyl chloride (238), enabling synthesis on multi-kilogram scale and isolation of the drug in high purity. This optimized route to ripasudil begins with 2-nitrobenzene sulfonyl chloride (NsCl)- mediated protection of (S)-2-amino-1-propanol (234) in 82% yield. In this case, use of the NaHCO3/THF/H2O conditions were essential for preventing bis-nosylation.228 Alcohol activation with methanesulfonyl chloride (MsCl) in N-methyl morpholine (NMM) took place smoothly to give the corresponding mesylate 235 in 91% yield. Direct mesylate displacement with 3-aminopropanol and subsequent amine protection as the carbamate ((Boc)2O) in a one-pot fashion provided the corresponding Boc-amino propanol product 236 in 95% yield over 2 steps. With the acyclic diazepane precursor 236 in hand, employment of the intramolecular Fukuyama-Mitsunobu N-alkyl cyclization conditions (diisopropyl azodicarboxylate (DIAD)/PPh3) allowed generation of the diazepane in 75% yield. Nosyl group cleavage with thiophenol/K2CO3 provided the Boc-diazepane 237 in 65% overall yield and 98% purity following a pH-controlled aqueous workup. Finally, 4-fluoroisoquinoline- 5-sulfonyl chloride (238)?aprepared via subjection of 4- fluoroisoquinoline (239) to sulfur trioxide and sulfuric acid followed by treatment with thionyl chloride and finally 4 N HCl in ethyl acetate?awas involved in a 1-pot, two-step procedure in which this sulfonyl chloride was coupled with diazepane 237 (TEA/MeCN) to access the ripasudil framework in quantitative yield. Synthesis of the final drug target by deprotection with 4 M HCl in ethyl acetate followed by neutralization with aqueous sodium hydroxide provided the free base of ripasudil in 93% yield and 99.8% purity. Conversion to the more stable hydrochloride dihydrate form could be performed by treatment of the free base with 1 M HCl/EtOH and subsequent heating of the hydrochloride in H2O/acetone to provide ripasudil hydrochloride dihydrate XXIX in 83% yield.

in vivo

in optic nerve crush (nc) c57bl/6 mice model, oral administration of k-115 (1 mg/kg/d) increased 34 ± 3% survival of rgcs after nc [2].

References

shimokawa h, takeshita a. rho-kinase is an important therapeutic target in cardiovascular medicine[j]. arteriosclerosis, thrombosis, and vascular biology, 2005, 25(9): 1767-1775.yamamoto k, maruyama k, himori n, et al. the novel rho kinase (rock) inhibitor k-115: a new candidate drug for neuroprotective treatment in glaucomanovel rho kinase inhibitor[j]. investigative ophthalmology & visual science, 2014, 55(11): 7126-7136.tanihara h, inoue t, yamamoto t, et al. phase 1

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