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Showing posts with label oxadiazoles. Show all posts
Showing posts with label oxadiazoles. Show all posts

Friday, 18 July 2014

Bishydrazide to Synthesize oxadiazoles......Important drugs



Bishydrazide to Synthesize oxadiazoles





Drugs containing 1, 3, 4-oxadiazole moiety






http://www.pharmatutor.org/articles/Chemistry-common-synthetic-route-oxadiazole-%20important-heterocyclic-moiety-in-medicinal-chemistry?page=0,5

http://www.pharmatutor.org/articles/Chemistry-common-synthetic-route-oxadiazole-%20important-heterocyclic-moiety-in-medicinal-chemistry?page=0,0Links





Novel 2-amino-5-substituted-1,3,4-oxadiazoles have been synthesized in excellent yields using the synthetic route outlined in Scheme 1. IR, 1H NMR, 13C NMR and mass spectral data are in agreement with the proposed structures of all synthesized compounds. 

Lack of 1H NMR resonances observed with NH and NH2 functions in the1H NMR spectrum of 1a-n proved that ring closure starting from 4 resulted in the formation of 2-amino-1,3,4-oxadiazole ring. 
This was further substantiated by the 13C NMR data of 1 which showed the peaks at 8 170-173 and 145-150 due to C2 and C5 of oxadiazole respectively. The IR spectrum shows 1600-1620 ern1 for (C=N-N=C) and 1063-1073 cm-1 for (C-O-C) in the compounds 1a-1n which confirmed the synthesis of 1,3,4-oxadiazoles.



http://www.scielo.cl/scielo.php?pid=S0717-97072010000100030&script=sci_arttextLinks


1,3,4-oxadiazole is a versatile lead molecule for designing potential bioactive agents. The 1,3,4-oxadiazole derivatives have been found to exhibit diverse biological activities such as hypotensive1 anti-microbial2-4, anti-HIV2-4, anti-fungal5-6 anti-inflammatory7 antimitotic activity8 and muscle relaxant9
It have been found in the líterature study that the methods for synthesis of oxadiazole 1 include bromine oxidation of semicarbazide derivative and the cyclodesulfurization of acylthiosemicarbazide derivatives in the solution using I2/NaOH or 1,3-dicyclohexylcarbodimide (DCC)10-13 as well as mercury(II) acetate (Hg(OAc)2) or yellow mercury(II) oxide HgO14-16 Evans17 synthesized oxadiazole derivatives by rapid parallel synthesis in efficient one-pot preparation using resin-bound reagents. All these methods are usually carried out in various different synthetic steps and require the heating at higher temperature. The handling of these reagents is not only difficult but also very hazardous to environment. The each stage of the reaction including extraction and purification of the producís from the mixture requires great precautions.





EXAMPLE 1 3-(Trifluoromethyl -5,6,7,8-tetrahydrori,2,41triazolor4.3-α1pyrazine, hydrochloride salt (1-4)
Step A: Preparation of bishydrazide (1-1)
Figure imgf000008_0001
H
Hydrazine (20.1 g, 35 wt% in water, 0.22 mol) was mixed with 310 mL of acetonitrile. 31.5 g of ethyl trifluoroacetate (0.22 mol) was added over 60 min. The internal temperature was increased to 25 °C from 14 °C. The resulting solution was aged at 22 - 25 °C for 60 min. The solution was cooled to 7 °C. 17.9 g of 50 wt% aqueous NaOH (0.22 mol) and 25.3 g of chloroacetyl chloride (0.22 mol) were added simultaneously over 130 min at a temperature below 16 °C. When the reaction was complete, the mixture was vacuum distilled to remove water and ethanol at 27 ~ 30 °C and under 26 ~ 27 in Hg vacuum. During the distillation, 720 mL of acetonitrile was added slowly to maintain constant volume (approximately 500 mL). The slurry was filtered to remove sodium chloride. The cake was rinsed with about 100 mL of acetonitrile. Removal of the solvent afforded bis-hydrazide \Λ
(43.2 g, 96.5% yield, 94.4 area% pure by HPLC assay).
1H-NMR (400 MHz, DMSO-dfc): δ 4.2 (s, 2H), 10.7 (s, 1H), and 11.6 (s, 1H) ppm.
13C-NMR (125 MHz, DMSO-_f6): δ 41.0, 116.1 (q, J = 362 Hz), 155.8 (q, J = 50 Hz), and 165.4 ppm.
HPLC conditions: Symmetry 4.6 x 250 mm C18 column; UV detection at 210 nm; mobile phase: 1:1 ACN: H2O (0.1% H3PO ); flow rate: 1 rnL/min; retention time of
1-1: 2.9 min.
Step B: Preparation of 5-(trifluoromethyl)-2-(chloromethyl)- 1.3 ,4-oxadiazole
Figure imgf000009_0001
F3C
Figure imgf000009_0002
Bishydrazide LI from Step A (43.2 g, 0.21 mol) in ACN (82 mL) was cooled to
5 °C. Phosphorus oxychloride (32.2 g, 0.21 mol) was added, maintaining the temperature below 10 °C. The mixture was heated to 80 °C and aged at this temperature for 24 h until HPLC showed less than 2 area% of LI. In a separate vessel, 260 mL of LPAc and 250 mL of water were mixed and cooled to 0 °C. The reaction slurry was charged to the quench keeping the internal temperature below 10 °C. After the addition, the mixture was agitated vigorously for 30 min, the temperature was increased to room temperature and the aqueous layer was cut. The organic layer was then washed with 215 mL of water, 215 mL of 5 wt% aqueous sodium bicarbonate and finally 215 mL of 20 wt% aqueous brine solution. HPLC assay yield after work up was 86-92%. Volatiles were removed by distillation at 75-80 mm Hg, 55 °C to afford an oil which could be used directly in Step C without further purification. Otherwise the product can be purified by distillation to afford L2 in 70-80% yield. 1H-NMR (400 MHz, CDC13): 04.8 (s, 2H) ppm.
13C-NMR (125 MHz, CDC13): δ 32.1, 115.8 (q, J = 337 Hz), 156.2 (q, J = 50 Hz), and 164.4 ppm. HPLC conditions: Symmetry 4.6 x 250 mm C18 column; UV detection at 210 nm; mobile phase: 1:1 ACN: H2O (0.1% H3PO4); flow rate: 1 rnL/min; retention time of 1-2: 8.8 min.




Synthesis of 1,3,4-oxadiazoles

Recent Literature

A direct access to symmetrical and unsymmetrical 2,5-disubstituted [1,3,4]-oxadiazoles has been accomplished through an imine C-H functionalization of N-arylidenearoylhydrazide using a catalytic quantity of Cu(OTf)2. These reactions can be performed in air atmosphere and moisture making it exceptionally practical for application in organic synthesis.
S. Guin, T. Ghosh, S. K. Rout, A. Banerjee, B. K. Patel, Org. Lett.201113, 5976-5979.




A facile and general protocol for the preparation of 2-amino-1,3,4-oxadiazoles relies on a tosyl chloride/pyridine-mediated cyclization of thiosemicarbazides that consistently outperforms the analogous semicarbazide cyclizations. Various 5-alkyl- and 5-aryl-2-amino-1,3,4-oxadiazoles have been prepared in good yields.
S. J. Dolman, F. Gosselin, P. D. O'Shea, I. W. Davies, J. Org. Chem.200671, 9548-9551.





An oxidative desulfurization approach enables the construction of oxadiazole and thiadiazole heterocycles in the presence of iodobenzene and Oxone. The use of iodobenzene and the inexpensive readily available oxidant Oxone makes the reaction system simple and versatile for desulfurization.
K. N. Patel, N. C. Jadhav, P. B. Jagadhane, V. N. Telvekar, Synlett201223, 1970-1972.




The reaction of a thiosemicarbazide intermediate with EDC·HCl in DMSO or p-TsCl, triethylamine in N-methyl-2-pyrrolidone gives the corresponding 2-amino-1,3,4-oxadiazoles and 2-amino-1,3,4-thiadiazoles through regioselcective cyclization processes.
S.-J. Yang, S.-H. Lee, H.-J. Kwak, Y.-D. Gong, J. Org. Chem.201378, 438-444.




N-Isocyaniminotriphenylphosphorane, aldehydes, and benzoic acids undergo a one-pot, three-component reaction under mild conditions to afford 2-aryl-5-hydroxyalkyl-1,3,4-oxadiazoles in good yields.
M. Adib, M. R. Kesheh, S. Ansari, H. R. Bijanzadeh, Synlett2009, 1575-1578.





Symmetric and unsymmetric 1,3,4-oxadiazoles were synthesized in situ from hydrazine hydrate and the corresponding 2-acyl-4,5-dichloropyridazin-3-ones as acylating agents in polyphosphoric acid (PPA) or BF3·OEt2 in excellent yields.
Y.-D. Park, J.-J. Kim, H.-A. Chung, D.-H. Kweon, S.-D. Cho, S.-G. Lee, Y.-J. Yoon, Synthesis2003, 560-564.





A simple and straightforward method for the direct carboxylation of aromatic heterocylces such as oxazoles, thiazoles, and oxadiazoles using CO2 as the C1 source requires no metal catalyst and only Cs2CO3 as the base. A good functional group tolerance is achieved.
O. Vechorkin, N. Hirt, X. Hu, Org. Lett.201012, 3567-3569.





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DR ANTHONY MELVIN CRASTO Ph.D , Born in Mumbai in 1964 and graduated from Mumbai University, Completed his  PhD from ICT ,1991,  Mumbai, India in Organic chemistry, The thesis topic was Synthesis of Novel Pyrethroid Analogues, Currently he is working with GLENMARK- GENERICS LTD, Research centre as Principal Scientist, Process Research (bulk actives) at Mahape, Navi Mumbai, India. Prior to joining Glenmark, he worked with major multinationals like Hoechst Marion Roussel, now Sanofi Aventis,  & Searle India ltd, now Rpg lifesciences, etc. He has worked in Basic research, Neutraceuticals, Natural products, Flavors, Fragrances, Pheromones, Vet Drugs, Drugs, formulation, GMP etc. He has total 25 yrs exp in this field, he is now helping millions, has million hits on google on all organic chemistry websites.His New Drug Approvals ,  Green Chemistry International,  Eurekamoments in Organic Chemistry ,   WIX BLOG WORLD DRUG TRACKER
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