CN1597673A - Paro methylsulfonyl phongl acrylic acid derivative and its preparation method and antiinflammation action - Google Patents

Abstract

A p-methylsulfonyl phenylacrylic acid derivative, its preparing process and its anti-inflammatory action are disclosed. Said derivative includes alpha-substituted p-methylsulfonyl phenylacrylic acid, and its derivatives, such as CO donor-type ester, amide, isohydroxyoximic acid, acylurea, etc.

Description

To methylsulfonyl cinnamic acid derivative and preparation method thereof and anti-inflammatory action

Technical field

The present invention is dividing an application of 02137920.3 application for a patent for invention, and the original bill applying date is on July 9th, 2002.The present invention relates to methylsulfonyl cinnamic acid derivative and preparation method thereof and anti-inflammatory action, especially alpha-substitution to methylsulfonyl cinnamic acid and derivative thereof, its synthetic method and in the application of anti-inflammatory, ease pain.

Background technology

Inflammation is the extremely complicated pathophysiological process of a class, is produced by multiple inflammatory mediator mediation.NSAID (non-steroidal anti-inflammatory drug) (NSAIDs) suppresses prostaglandin(PG) (PGs), leukotriene inflammatory mediators such as (LTs), has good anti-inflammatory, analgesia and refrigeration function, and its clinical application is very extensive, is the second largest class medicine that is only second to anti-infective.But the untoward reaction of NSAIDs is also quite common.The epidemiology survey result shows, uses the crowd of NSAIDs, and 25% gi tract (being called for short GI, down together) side effect occurs, and serious GI complication can appear in 15%-20% among the long-term user, and its symptom comprises ulcer, hemorrhage and perforation.

NSAIDs cause the major cause of GI damage be its at inflammation-inhibiting position PGs synthetic simultaneously, also suppressed the generation that GI has the PGs of mucous membrane protection character.Therefore the optionally generation of inflammation-inhibiting position PGs, the GI untoward reaction that reduces NSAIDs is one of basic point of departure of Recent study and development of new NSAIDs.Since the nineties in 20th century, the work of this respect has obtained a series of breakthrough progress, as cyclooxygenase-2 (COX-2) selective depressant, COX/5-lipoxygenase (5-LO) double inhibitor, nitric oxide donator type NSAIDs (NO-NSAIDs) and cytokine inhibitor etc.

Summary of the invention

The technical problem to be solved in the present invention is: the basic theories how drug application designs; in conjunction with area of computer aided medicinal design means; design and synthesize a series of alpha-substitution to methylsulfonyl cinnamic acid and derivative thereof; and it is carried out anti-inflammatory activity screening and GI untoward reaction observation; anti-inflammatory activity is strong, the little new type NS AIDs of GI side effect so that obtain, and is used for the treatment of autoimmune disorders such as rheumatic rheumatoid arthritis, osteoarthritis.

But the present invention also needs to provide the preparation method of the suitability for industrialized production of new type NS AIDs.

For solving the problems of the technologies described above, the invention provides following technical scheme:

General formula (I), it comprise alpha-substitution to methylsulfonyl compounds derived from phenyl acrylic acid (I _A), and I _ADerivative nitric oxide donator type ester (I _B), I _ADerivative acid amides (I _C), I _ADerivative hydroxamic acid (I _D), I _ADerivative uride (I _E), and and I _ARelevant to methylsulfonyl styrene compound (II _A, II _B).

General formula (I) compound:

General formula (I) comprises (I _A), (I _B), (I _C), (I _D), (I _E);

(I _A) be alpha-substitution to methylsulfonyl compounds derived from phenyl acrylic acid: R ¹Represent thiophenyl, phenoxy group, phenylseleno, 4-nitrophenyl, 4-fluorophenyl, 4-chloro-phenyl-, 4-bromophenyl, 2-fluorophenyl, 2-chloro-phenyl-, 2-bromophenyl, 4-aminomethyl phenyl, 4-p-methoxy-phenyl, 2,5-Dimethoxyphenyl, phenyl, 1-naphthyl, methyl; R ²Representation hydroxy;

(I _B) be I _AThe nitric oxide donator type ester: R ¹Same I _AR ²Represent OR ³, R wherein ³Represent adjacent-,-or right-nitre oxygen aminomethyl phenyl ,-(CH ₂) _nONO ₂(n equals 2～4) ,-R ⁸-O-(3-benzenesulfonyl-1,2,5-oxadiazole-2-oxide compound-4), R ⁸Represent the saturated or unsaturated straight or branched alkyl of 2～4 carbon ,-R ⁹-(4-phenyl-1,2,5-oxadiazole-2-oxide compound-3), R ⁹Represent adjacent-,-or right-methylene oxy-benzyl;

(I _C) be I _AAcid amides: R ¹Same I _AR ²Represent NR ⁴R ⁵, R ⁴Represent hydrogen, methyl, benzyl, R ⁵Represent saturated or unsaturated straight or branched alkyl, cyclopentyl, cyclohexyl, benzyl, 1-styroyl, 2-styroyl, 4-oil of mirbane ethyl, ethoxycarbonylmethyl group, 4-nitrophenyl, 4-fluorophenyl, 4-chloro-phenyl-, 4-bromophenyl, 4-aminomethyl phenyl, 4-p-methoxy-phenyl, 2-pyridyl, the 5-methyl-thiazol-2-yl of 1-6 carbon;

(I _D) be I _AHydroxamic acid: R ¹Same I _AR ²Represent N (R ⁶) OH, R ⁶Represent the saturated straight chain of hydrogen, 1～4 carbon or branched-chain alkyl, cyclopentyl, cyclohexyl, phenyl;

(I _E) be I _AUride: R ¹Same I _AR ²Represent NR ⁷CONHR ⁷, R ⁷Represent the saturated straight chain of 1～4 carbon or branched-chain alkyl, cyclopentyl, cyclohexyl.

General formula (II _A) compound:

In the formula, X represents S, NH, NCH ₃, O; Y represents S, NH, O.

General formula (II _B) compound:

In the formula, n equals 1 or 2.

The present invention also comprises I in the general formula (I) _A, I _B, I _C, I _D, I _E, and II _AAnd II _BThe preparation method.

General formula (I in the general formula (I) _A) preparation method of compound, it is characterized in that: to methylsulfonyl phenyl aldehyde and general formula (I _a) compound carries out condensation routinely in the presence of aceticanhydride, Anhydrous potassium carbonate;

R ¹CH ₂COOH I _a

In the formula, R ¹Same general formula (I _A).

General formula (I in the general formula (I) _B) or (I _E) preparation method of compound, it is characterized in that: general formula (I _A) in the presence of dicyclohexylcarbodiimide (DCC) and 4-Dimethylamino pyridine (DMAP), with general formula (I _b) react; Perhaps general formula (I _A) in the presence of DCC, DMAP and DMAP hydrochloride, with general formula (I _b) react; Perhaps general formula (I _A) in the presence of DMAP directly and DCC react;

R ²H I _b

In the formula, R ²Same general formula (I _B) or (I _E).

General formula (I in the general formula (I) _C) or (I _D) preparation method of compound, it is characterized in that: general formula (I _A) earlier with the oxalyl chloride effect, then in the presence of pyridine or triethylamine with general formula (I _b) or its hydrochloride react routinely;

R ²H I _b

In the formula, R ²Same general formula (I _C) or (I _D).

General formula (II _A) preparation method of compound, it is characterized in that: methylsulfonyl phenyl aldehyde and general formula (IIa) are carried out condensation routinely in the presence of acetic acid and fusion sodium-acetate;

In the formula, X represents S, NH, NCH ₃, O; Y represents S, NH, O.

General formula (II _B) preparation method of compound, it is characterized in that: cyclopentanone or pimelinketone earlier with the morpholine reaction, carry out condensation reaction routinely again and to the methylsulfonyl phenyl aldehyde.

General formula (I), general formula (II _A, II _B) compound has anti-inflammatory and analgesic effect.

General formula (I), general formula (II _A, II _B) application of compound in the preparation medicinal composition for diminishing inflammation and relieving pain.

The basic theories of drug application of the present invention design, in conjunction with area of computer aided medicinal design means, designed and synthesized voluntarily a series of alpha-substitution to methylsulfonyl cinnamic acid and allied compound (I) and II _A, II _B, wherein (I) comprises I _A, I _B, I _C, I _D, I _E,, it is carried out anti-inflammatory activity screening and GI untoward reaction observation, its anti-inflammatory activity is strong, the GI side effect is little, can be used as the new type NS AIDs of autoimmune disorders such as treatment rheumatic rheumatoid arthritis, osteoarthritis.

But the present invention also provides the preparation method of the suitability for industrialized production of new type NS AIDs.

One, the anti-inflammatory activity of The compounds of this invention experiment

The present invention is synthetic altogether and studied 70 compounds, and the existing wherein pharmacological effect experimental data of 12 compounds of selecting provides as follows.

1, p-Xylol causes the influence of mice ear

Experimental technique is seen: Xu Shuyun, Bian Rulian, Chen Xiu chief editor, " pharmacological experimental methodology " third edition, Beijing people's health press, 2002 editions, 911

Bureau of drug administration of Ministry of Health of the People's Republic of China compiles.New drug (Western medicine) preclinical study governing principle compilation (pharmacy pharmacology toxicology), 1993,121-124

DC is available from Jiangsu long Australia medicine company limited, and specification is medicinal, down together.

Rofecoxib (RC) is synthetic by patent (WO, the patent No. 9800416) method, and its structure is proved conclusively through wave spectrum.RC is the COX-2 selective depressant of listing in 1999, bibliographical information, its anti-inflammatory activity and DC are suitable, but the GI side effect is significantly less than DC, thus with it as the reference medicine, same down.

All medicines all use 0.5% Xylo-Mucine (CMC-Na) to be mixed with 1.59 * 10 ^-3MolL ^-1Suspension (with volumetric molar concentrations such as RC).The DC dosage is set at 20mgkg ^-1, this dosage is converted by human dosage.The RC dosage is 10mgkg ^-1

Fasting is 12 hours before every group of 10 mouse, administration, freely drinks water.To the mouse stomach administration, the administration capacity is 0.2ml10g ^-1After administration l hour the wide both sides of mouse right ear evenly are coated with dimethylbenzene 20 μ l with microsyringe and cause inflammation, left auricle is done contrast.After causing scorching 1 hour mouse is taken off cervical vertebra and put to death, take off two ears, respectively take off an auricle scales/electronic balance weighing in same position, cause scorching auricle weight and deduct control sides auricle weight and be the swelling degree with punch tool (diameter 7mm) along the auricle baseline.Each group data is carried out t check, the significance of comparative group differences.

By table 1 as seen, Compound I _A13, I _B10, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _D4, I _E5, II _A6And II _B1Compare the tangible anti-inflammatory activity of performance (there was no significant difference (P＞0.05) is compared with DC in P＜0.001 with RC, show that its anti-inflammatory activity is suitable for P＜0.05, P＜0.01 with negative control group CMC-Na.

Table 1. compound p-Xylol causes the influence (x ± s) of mice ear

Compound dosage number of mice ear swelling inhibiting rate Activity

(mg·kg ^-1)?(n) (mg) (％) ratio

CMC-Na 10 11.1±2.26 ^###※※※ 0

DC 20.0 10 7.37±1.71 ^*** 33.60 0.87

RC 10.0 10 6.83±2.19 ^*** 38.47 1.00

I _A13 11.5 10 8.75±3.30 ^* 21.18 0.55

I _B10 19.6 10 7.47±2.53 ^** 32.70 0.97

I _C3 14.5 10 7.24±2.34 ^** 34.77 0.90

I _C8 13.9 10 7.46±2.65 ^** 32.79 0.85

I _C10 14.1 10 7.37±2.17 ^** 33.60 0.87

I _C11 13.1 10 7.44±2.79 ^** 32.97 0.86

I _C18 11.6 10 7.33±2.46 ^** 33.96 0.88

I _C20 12.0 10 8.04±3.47 ^* 27.57 0.72

I _D4 12.4 10 6.48±2.59 ^*** 41.62 1.08

I _E5 14.2 10 8.56±3.02 ^* 22.88 0.59

II _A6 8.9 10 7.18±2.96 ^** 35.32 0.92

II _B1 8.0 10 7.10±2.52 ^** 36.04 0.94

Note： ^*P＜0.05， ^**P＜0.01， ^***P＜0.001，vs?CMC-Na； ^###P＜0.001，vs?DC； ^※※※P＜0.001，vs?RC

2, on Carrageenan causes the influence of rat paw edema

Experimental technique is seen: Xu Shuyun, Bian Rulian, Chen Xiu chief editor, " pharmacological experimental methodology " third edition, Beijing people's health press, 2002 editions, 911.

Bureau of drug administration of Ministry of Health of the People's Republic of China compiles. " new drug (Western medicine) preclinical study governing principle compilation " (pharmacy pharmacology toxicology), 1993,121-124

Winter?CA，Risley?EA，Nuss?GW.Carrageenin-induced?edema?in?hind?paw?ofthe?rat?as?an?assay?for?antiinflammatory?drugs.Proc?Soc?Exp?Biol?Med，1962，111：544-547

Van?Arman?CG，Begany?AJ，Miller?LM，et?a1.Some?details?of?the?inflammationscaused?by?yeast?and?carrageenin(with?appendix?on?kinetics?of?the?reaction).Pharmacol?Exp?Ther，1965，150：328-334

Select Compound I _A13, I _B10, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _D4, I _E5, II _A6And II _B1Be mixed with 3.19 * 10 with 0.5%CMC-Na ^-3MolL ^-1Suspension (with volumetric molar concentrations such as RC).The DC dosage is set at 10mgkg ^-1, this dosage is converted by human dosage.The RC dosage is 5mgkg ^-1

Fasting is 12 hours before every group of 9 rats, administration, freely drinks water.To the rat oral gavage administration, the administration capacity is 5mlkg ^-1The right back sufficient plantar aponeurosis of rat injection 1% carrageenin (sterile saline preparation) 0.05ml is down given in administration after 1 hour.Mensuration cause scorching before and cause 1,2,3, the 4 and 5 hour right back sufficient sole of the foot volume of rat in scorching back, be the swelling degree with its sufficient sole of the foot volume difference that causes before and after scorching.Each group data is carried out t check, the significance of comparative group differences.

After the injection carrageenin caused inflammation, the right back sufficient sole of the foot volume of rat obviously increased, and gave DC, RC in advance and can significantly reduce the increase of rat paw volumetrical.Can find out that from table 2 CMC-Na compares with negative control group, I _A13, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _E5, II _A6And II _B1After causing scorching 3 hours, can obviously alleviate rat paw edema degree (P＜0.05, P＜0.01, P＜0.001), wherein I _A13, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _E5And II _B1Anti-inflammatory action and DC and RC be (P＞0.05) quite, II _A6Anti-inflammatory activity significantly is better than DC and RC (P＜0.05).

Table 2. compound on Carrageenan causes the influence (x ± s) of rat paw edema

Compound dosage rat paw edema inhibiting rate Activity

(mg·kg ^-1) (n) (ml) (％) ratio

CMC-Na 9 0.92±0.17 ^###※※ 0

DC 10.0 9 0.58±0.16 ^*** 36.96 1.06

RC 5.0 9 0.60±0.24 ^** 34.78 1.00

I _A13 5.7 9 0.55±0.12 ^*** 40.22 1.16

I _B10 9.8 9 0.84±0.17 8.70 0.24

I _C3 7.2 9 0.45±0.11 ^*** 51.09 1.47

I _C8 7.0 9 0.62±0.17 ^** 32.61 0.94

I _C10 7.0 9 0.63±0.14 ^** 31.15 0.91

I _C11 6.6 9 0.65±0.15 ^** 29.35 0.84

I _C18 5.8 9 0.48±0.16 ^*** 47.83 1.38

I _C20 5.4 9 0.60±0.29 ^* 34.78 1.00

I _D4 6.3 9 0.81±0.16 11.96 0.34

I _E5 8.3 9 0.59±0.15 ^*** 35.87 1.03

II _A6 4.4 9 0.39±0.13 ^***#※ 57.61 1.66

II _B1 4.0 9 0.64±0.18 ^** 30.43 0.87

Note： ^*P＜0.05， ^**P＜0.01， ^***P＜0.001，vs?CMC-Na； ^#P＜0.05， ^###P＜0.001，vs?DC； ^※P＜0.05， ^※※P＜0.01，vs?RC

Two, The compounds of this invention is to the influence of rat gastrointestinal tract

Experimental technique is seen: Xia Min, Tao Jiayong. ethanol is to mouse gastric mucosal damage mechanism, and new digestion disease is learned magazine, 1997,5 (4): 211-212

Bandarage?UK，Chen?LQ，Fang?XQ，et.al.Nitrosothiol?Esters?of?Diclofenac：Synthesis?and?Pharmacological?Characterization?as?Gastrointestinal-Sparing?Prodrug.J?Med?Chem，2000，43：4005-4016

Select Compound I _A13, I _B10, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _D4, I _E5, II _A6And II _B1As being subjected to the reagent thing.Dosage and medicine preparation are with 1.2.To the continuous gastric infusion of rat 7 days, and after the last administration, observe and comparative drug to the influence of rat gastrointestinal tract.

All rat fasting 12 hours, administration is cervical vertebra dislocation execution rat after 1 hour, open the abdominal cavity immediately, in distance pylorus 2cm place's ligation, inject 10% formaldehyde 10ml from orifice of the stomach, cut off along greater gastric curvature after fixing 10 minutes, take out stomach and duodenum, with 0.9% normal saline flushing, flatten, put and survey the ulcer area under the dissecting microscope.

Can find out Compound I from table 3 _B10, I _C3, I _C8, I _C10, I _C11, I _C18, I _C20, I _D4And I _E5The GI side effect significantly less than DC (P＜0.01), with RC and CMC-Na there was no significant difference (P＞0.05); Compound I I _A6And II _B1The GI untoward reaction significantly less than DC (P＜0.05), with RC quite (P＞0.05), but greater than CMC-Na (P＜0.05, P＜0.01).

Table 3 compound is to the influence of rat gastrointestinal tract

Compound dosage rat ulcer area

(mg·kg ^-1) (n) (mm ²)

CMC-Na 9 0.03±0.04 ^##

DC 5.0 9 1.53±1.13 ^**※

RC 5.0 9 0.19±0.25 ^##

I _A13 5.7 9 0.39±0.18 ^**##※

I _B10 9.8 9 0.03±0.04 ^##

I _C3 7.2 9 0.05±0.05 ^##

I _C8 7.0 9 0.03±0.04 ^##

I _C10 7.0 9 0.18±0.19 ^##

I _C11 6.6 9 0.12±0.11 ^##

I _C18 5.8 9 0.09±0.10 ^##

I _C20 5.4 9 0.07±0.05 ^##

I _D4 6.3 9 0.07±0.09 ^##

I _E5 8.3 9 0.20±0.25 ^##

II _A6 4.4 9 0.37±0.03 ^**#

II _B1 4.0 9 0.31±0.25 ^*#

Note： ^*P＜0.05， ^**P＜0.01，vs?CMC-Na； ^#P＜0.05， ^##P＜0.01，vs?DC； ^※P＜0.05，vs?RC

Embodiment

The present invention has synthesized 70 compounds altogether, below is part embodiment wherein, and these embodiment also do not mean that limitation of the present invention.

Embodiment 1

E-2-(2, the 5-Dimethoxyphenyl)-3-(4-methylsulfonyl phenyl)-vinylformic acid (I _A13)

To the methylsulfonyl phenyl aldehyde (1.8g, 10mmol), 2, the 5-dimethoxyphenylacetic acid (2.2g, 11mmol), heavily steam diacetyl oxide (5ml, 53mmol) and anhydrous K ₂CO ₃(0.7g, 5mmol) stirring and refluxing is 2 hours, and is cold slightly, add water to muddiness, place, separate out red-brown oily matter, the layer that anhydrates that inclines adds 2NNaOH solution 6ml, boils 1 hour, filter, the brown solid is separated out in the filtrate acidifying, filter, filter cake 80% ethyl alcohol recrystallization obtains yellow crystals 2.9g, yield 80.1%, 148～150 ℃ of mp.

IR(KBr，cm ^-1)：3300～2600(OH)，1681(C＝O)，1301(SO ₂)，1148(SO ₂)；

ESI-MS：361[M-H] ⁺；

¹HNMR(300MHz，DMSO-d ₆，CDCl ₃)，δ(ppm)：3.02(s，3H，CH ₃)，3.60(s，6H，CH ₃O)，6.49(d，1H，J＝2.7Hz，ArH)，6.81～6.91(m，2H，ArH)，7.25(d，2H，J＝8.4Hz，ArH)，7.72(d，2H，J＝8.4Hz，ArH)，7.88(s，1H，＝CH)

Embodiment 2

E-2-(2-chloro-phenyl-)-3-(4-methylsulfonyl phenyl)-vinylformic acid 4-(4-phenyl-1,2, the methoxy benzyl ester (I of 5-oxadiazole-2-oxide compound-3-) _B10)

E-2-(2-chloro-phenyl-)-3-(4-methylsulfonyl phenyl)-vinylformic acid (I _A3) with reference to I _A13The preparation method by methylsulfonyl phenyl aldehyde and o-chlorobenzene acetic acid are made, be light yellow crystal, yield 71.2%, mp217～219 ℃.IR(KBr，cm ^-1)：3300～2600(OH)，1704(C＝O)，1289(SO ₂)，1142(SO ₂)；ESI-MS：359[M+Na] ⁺； ¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.03(s，3H，CH ₃)，7.14(d，1H，J＝7.8Hz，ArH)，7.30～7.34(m，3H，ArH)，7.39(t，1H，ArH)，7.50(d，1H，J＝7.2Hz，ArH)，7.78(d，2H，J＝9.0Hz，ArH)，8.05(s，1H，＝CH)

With DCC (0.34g, 1.66mmol), DMAP (0.31g, 2.5mmol) and DMAPHCl (0.26g 1.66mmol) adds among the methylene dichloride 10ml and to reflux 30 minutes, adds I again _A3(0.3g, 0.8mmol) and 4-(4-phenyl-1,2, the methoxyl group benzylalcohol (0.27g of 5-oxadiazole-2-oxide compound-3-), 0.89mmol), continued stirring and refluxing 16 hours, and be cooled to room temperature, filter, filtrate water 10ml dilution, add 2N HCl solution 2ml, methylene dichloride (3 * 10ml) extractions, combined dichloromethane layer, the saturated common salt water washing, anhydrous sodium sulfate drying filters, and filtrate concentrates, column chromatography [ethyl acetate: sherwood oil (60～90 ℃)=1: 3 (v: v)], get faint yellow solid 0.7g, yield 69.9%, 60～62 ℃ of mp.

IR(KBr，cm ^-1)：1712(C＝O)，1600(C＝C)，1?305(SO ₂)，1149(SO ₂)；

ESI-MS：639[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.01(s，3H，CH ₃)，5.10(s，2H，CH ₂)，5.21(s，2H，CH ₂)，6.97(d，2H，J＝8.7Hz，ArH)，7.10(d，1H，ArH)，7.20(d，2H，J＝8.4Hz，ArH)，7.26～7.29(m，3H，ArH)，7.29(t，1H，ArH)，7.54～7.72(m，4H，ArH)，7.53(d，2H，J＝8.5Hz，ArH)，7.84(d，2H，J＝8.1Hz，ArH)，7.93(s，1H，＝CH)

Embodiment 3

N-(4-fluorophenyl)-E-2-(2, the 5-Dimethoxyphenyl)-4-(methylsulfonyl phenyl)-acrylamide (I _C3)

I _A13(0.72g, 2mmol) with anhydrous N, (0.15ml 2mmol) adds among the anhydrous methylene chloride 10ml N-diformamide, stirs into muddy suspension, and in the ice bath, (1.2g 9mmol), has a large amount of gases to produce to drip oxalyl chloride under nitrogen protection.Stirring at room gets yellow clear liquor after 4 hours, pressure reducing and steaming solvent and excessive oxalyl chloride, and getting yellow solid is I _A13Acyl chlorides.It is dissolved among the anhydrous methylene chloride 10ml, ice bath drips dry pyridine 1ml and para-fluoroaniline (0.2g down, 2mmol) (with anhydrous methylene chloride 2ml dilution), drip and finish, stirred 3 hours under the room temperature, then add water 5ml termination reaction, with methylene dichloride (3 * 10ml) extractions, the combined dichloromethane layer, the saturated common salt water washing, anhydrous sodium sulfate drying filters, filtrate concentrates, [acetone: (v: v)], get yellow powder, acetone: the sherwood oil recrystallization gets yellow crystals 0.75g to sherwood oil (60～90 ℃)=1: 3 to column chromatography, yield 83.8%, 182～184 ℃ of mp.

IR (KBr, cm ^-1): 3339 (NH), 1670 (acid amides I), 1536 (acid amides II), 1316 (acid amides III), 1304 (SO ₂), 1146 (SO ₂);

ESI-MS：478[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.00(s，3H，CH ₃)，3.72(s，6H，CH ₃O)，6.67(s，1H，CONH)，6.67～7.01(m，4H，ArH)，7.23(d，2H，J＝8.3Hz，ArH)，7.41(m，3H，ArH)，7.72(d，2H，J＝7.42Hz，ArH)，7.91(s，1H，＝CH)

Embodiment 4

N-phenyl-E-2-(2, the 5-Dimethoxyphenyl)-4-(methylsulfonyl phenyl)-acrylamide (I _C8)

With reference to I _C3The preparation method by I _A13Make with aniline.[acetone: (v: v)], acetone: the sherwood oil recrystallization gets yellow granular crystal to sherwood oil (60～90 ℃)=1: 3 to column chromatography, yield 81.3%, mp191～193 ℃.

IR (KBr, cm ^-1): 3372 (NH), 1670 (acid amides I), 1527 (acid amides II), 1316 (acid amides III), 1301 (SO ₂), 1146 (SO ₂);

ESI-MS：438[M+H] ⁺；460[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.01(s，3H，CH ₃)，3.73(s，6H，CH ₃O)，6.69(s，1H，CONH)，7.01(d，2H，ArH)，7.10(t，1H，ArH)，7.23～7.37(m，4H，ArH)，7.46(d，2H，J＝7.7Hz，ArH)，7.74(d，2H，J＝8.4Hz，ArH)，7.93(s，1H，＝CH)

Embodiment 5

N-(4-p-methoxy-phenyl)-E-2-(2-chloro-phenyl-)-4-(methylsulfonyl phenyl)-acrylamide (I _C10)

I _C10With reference to I _C3The preparation method by I _A3Make with P-nethoxyaniline.[acetone: (v: v)], acetone: the sherwood oil recrystallization gets yellow granular crystal to sherwood oil (60～90 ℃)=1: 3 to column chromatography, yield 80.5%, mp186～188 ℃.

IR (KBr, cm ^-1): 3350 (NH), 1665 (acid amides I), 1511 (acid amides II), 1320 (acid amides III), 1296 (SO ₂), 1145 (SO ₂);

ESI-MS：464.0[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.01(s，3H，CH ₃)，3.79(s，3H，CH ₃O)，6.85(d，2H，J＝9.0Hz，ArH)，6.96(s，1H，CONH)，7.18(d，2H，J＝8.4Hz，ArH)，7.28(d，1H，ArH)，7.35～7.42(m，3H，ArH)，7.39(t，1H，J＝6.1Hz，ArH)，7.61(d，1H，J＝7.9Hz，ArH)，7.74(d，2H，J＝8.5Hz，ArH)，8.05(s，1H，＝CH)

Embodiment 6

N-(2-pyridyl)-E-2-(2-chloro-phenyl-)-4-(methylsulfonyl phenyl)-acrylamide (I _C11)

With reference to I _C3The preparation method by I _A3Make with the 2-aminopyridine.[acetone: (v: v)], acetone: the sherwood oil recrystallization gets light yellow crystal to sherwood oil (60～90 ℃)=1: 3 to column chromatography, yield 80%, 179～181 ℃ of mp.

IR (KBr, cm ^-1): 3394 (NH), 1689 (acid amides I), 1511 (acid amides II), 1314 (acid amides III), 1300 (SO ₂), 1149 (SO ₂);

ESI-MS：435.1[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.01(s，3H，CH ₃)，7.10(t，1H，J＝7.6Hz，ArH)，7.21(d，2H，J＝8.5Hz，ArH)，7.27(d，1H，ArH)，7.39(t，1H，J＝7.5Hz，ArH)，7.49(t，1H，J＝7.5Hz，ArH)，7.59(d，1H，J＝8.0Hz，ArH)，7.74(d，2H，J＝8.5Hz，ArH)，7.81(t，1H，J＝8.8Hz，ArH)，8.10(s，1H，CONH)，8.20(d，1H，J＝5.0Hz，ArH)，8.37(s，1H，＝CH)，8.46(d，1H，J＝8.5Hz，ArH)

N, N-dimethyl-E-2-(2-chloro-phenyl-)-4-(methylsulfonyl phenyl)-acrylamide (I _C18)

With reference to I _C3The preparation method by I _A3Make with dimethylamine hydrochloride.Column chromatography [acetone: sherwood oil (60～90 ℃)=1: 3 (v: v)], pale yellow powder, acetone: the sherwood oil recrystallization gets the granular crystal 0.55g of milk yellow, yield 76.8%, mp188～190 ℃.

IR (KBr, cm ^-1): 1632 (acid amides), 1305 (SO ₂), 1146 (SO ₂);

ESI-MS：364[M+1] ⁺，386[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：3.00(s，3H，CH ₃)，3.06(s，3H，CH ₃)，3.16(s，3H，CH ₃)，6.91(s，1H，CONH)，7.26(d，2H，ArH)，7.27～7.30(m，2H，ArH)，7.36～7.40(m，2H，ArH)，7.73(d，2H，J＝8.5Hz，ArH)

Embodiment 8

N-propyl group-E-2-(2-chloro-phenyl-)-4-(methylsulfonyl phenyl)-acrylamide (I _C20)

With reference to I _C3The preparation method by I _A3Make with Tri N-Propyl Amine.[acetone: (v: v)], acetone: the sherwood oil recrystallization gets white cotton-shaped crystal to sherwood oil (60～90 ℃)=1: 3 to column chromatography, yield 80.7%, mp121～123 ℃.

IR (KBr, cm ^-1): 3325 (NH), 1657 (acid amides I), 1522 (acid amides II), 1300 (acid amides III), 1290 (SO ₂), 1153 (SO ₂);

ESI-MS：378[M+1] ⁺，400[M+Na] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：0.83～0.87(t，3H，CH ₃)，1.45～1.52(q，2H，CH ₂)，2.98(s，3H，CH ₃)，3.25～3.31(m，2H，CH ₂)，5.41(s，1H，CONH)，7.12～7.18(m，3H，ArH)，7.33(t，1H，J＝7.5Hz，ArH)，7.40(t，1H，J＝7.9Hz，ArH)，7.54(d，1H，J＝8.0Hz，ArH)，7.70(d，2H，J＝8.2Hz，ArH)，7.94(s，1H，＝CH)

Embodiment 9

N-sec.-propyl-E-2-(2-chloro-phenyl-)-3-(4-methylsulfonyl phenyl) propylene hydroxamic acid (I _D4)

E-2-(2-chloro-phenyl-)-3-(4-methylsulfonyl phenyl)-acrylate chloride is with reference to I _A13The preparation method of acyl chlorides by I _A3Make.

(0.9g 8mmol) is dissolved among tetrahydrofuran (THF)/water (5: 1) solution 12ml, and (1.6ml 12mmol), stirs, and the ice bath cooling drips I to add triethylamine with the N-isopropyl-hydroxylamine hydrochloride _A3Acyl chlorides (0.7g, anhydrous methylene chloride solution 2mmol) drip to be finished, continue reaction 4 hours, then add 2N HCl solution 5ml, with methylene dichloride (3 * 10ml) extractions, use the saturated common salt water washing after merging organic layer, anhydrous sodium sulfate drying filters, and filtrate concentrates, column chromatography [ethyl acetate: sherwood oil (60～90 ℃)=1: 4 (v: v)], get pale yellow powder 0.42g, yield 53.4%, 157～159 ℃ of mp.

IR(KBr，cm ^-1)：3237(OH)，1305(SO ₂)，1149(SO ₂)；

ESI-MS：394[M+H] ⁺，416[M+Na] ⁺；

¹H-NMR(300MHz，CDCl ₃)，δ(ppm)：1.26(d，6H，CH ₃)，3.01(s，3H，CH ₃)，4.27(m，1H，CH)，7.14～7.19(t，3H，ArH)，7.31～7.34(m，3H，ArH)，7.42(d，1H，J＝7.7Hz，ArH)，7.74(d，2H，J＝8.3Hz，ArH)

Embodiment 10

N, N '-dicyclohexyl-E-2-methyl-3-(4-methylsulfonyl phenyl) propylene uride (I _E5)

With E-2-methyl-3-(4-methylsulfonyl phenyl)-vinylformic acid (I _A16) (0.48g, 2mmol), and DCC (0.4g, 2mmol) and DMAP number, add among the anhydrous methylene chloride 10ml, stirring at room 3 hours, the elimination precipitation, filtrate concentrates, column chromatography [ethyl acetate: sherwood oil (60～90 ℃)=1: 3 (v: v)], obtain white cotton-shaped solid 0.4g, yield 44.8%, mp198～200 ℃.

IR (KBr, cm ^-1): 3291 (NH), 1719 (C=O), 1642 (acid amides I), 1536 (acid amides II), 1307 (SO ₂), 1281 (acid amides III), 1144 (SO ₂);

ESI-MS：445[M-H] ⁺；

¹HNMR(300MHz，CDCl ₃)，δ(ppm)：1.14～1.85(m，20H，CH ₂)，2.12(s，3H，CH ₃)，3.07(s，3H，CH ₃)，3.63～3.65(m，1H，CH)，3.94～4.01(m，1H，CH)，6.83(s，1H，＝CH)，6.86(s，1H，CONH)，7.46(d，2H，J＝8.3Hz，ArH)，7.94(d，2H，J＝8.7Hz，ArH)

Embodiment 11

Z-1-methyl-5-(4-methylsulfonyl benzene methylene base)-2-imido-imidazol-4-one (II _A6)

To the methylsulfonyl phenyl aldehyde (1.8g, 10mmol), inosine (1.1g; 10mmol), and the fused sodium-acetate (2.9g, 35mmol) backflow was stirred 24 hours with Glacial acetic acid 14ml; be cooled to the room temperature after coagulation and become block; add entry 10ml, smash to pieces, suction filtration; washing; DMF and water recrystallization get pale yellow powder shape solid 2.5g, yield 89.6%, 262～264 ℃ of mp.

IR(KBr，cm ^-1)：3378(NH)，1666(C＝O)，1305(SO ₂)，1146(SO ₂)；

ESI-MS：280[M+H] ⁺；302[M+Na] ⁺；

¹HNMR(DMSO-d ₆)，δ(ppm)：3.20(m，6H，CH ₃)，6.29(s，1H，＝CH)，7.82(d，2H，J＝8.5Hz，ArH)，8.27(d，2H，J＝8.5Hz，ArH)

Embodiment 12

E-2-(4-methylsulfonyl benzene methylene base)-cyclopentanone (II _B1)

With cyclopentanone (8.4g, 0.1mol), morpholine (10.4g 0.12mol) adds in the 20ml benzene, loads onto water trap, azeotropic dehydration, till anhydrous generation, pressure reducing and steaming benzene and morpholine, fractionation obtains enamine 13.1g, yield 85.6%.(12g 0.065mol) adds among the benzene 20ml, loads onto water trap with it with to the methylsulfonyl phenyl aldehyde; azeotropic dehydration, till anhydrous generation, totally 12 hours; boil off benzene, cooling adds 20% hydrochloric acid 80ml; stirred 2 hours, and generated a large amount of yellow solids, suction filtration; washing, ethyl alcohol recrystallization gets yellow needle-like crystal 15g; yield 92%, 135～137 ℃ of mp.

IR(KBr，cm ^-1)：1713(C＝O)，1312(SO ₂)，1152(SO ₂)；

ESI-MS：273[M+Na] ⁺；

¹HNMR(CDCl ₃)，δ(ppm)：2.09(m，2H，CH ₂)，2.46(t，2H，CH ₂)，2.98～3.04(m，2H，CH ₂)，3.09(s，3H，CH ₃)，7.39(s，1H，＝CH)，7.70(d，2H，J＝8.4Hz，ArH)，7.98(d，2H，J＝8.2Hz，ArH)

Claims (5)

1, general formula (II _A):

In the formula, X represents S, NH, NCH ₃, O; Y represents S, NH, O.

2, general formula (II _B):

In the formula, n equals 1 or 2.

3, claim 1 general formula (II _A) preparation method of compound, it is characterized in that: methylsulfonyl phenyl aldehyde and general formula (IIa) are carried out condensation in the presence of acetic acid and fusion sodium-acetate;

In the formula, X represents S, NH, NCH ₃, O; Y represents S, NH, O.

4, claim 2 general formula (II _B) preparation method of compound, it is characterized in that: cyclopentanone or pimelinketone earlier with the morpholine reaction, again with to the condensation of methylsulfonyl phenyl aldehyde.

5, general formula (II _A), (II _B) application of compound in the preparation medicinal composition for diminishing inflammation and relieving pain.