Organic compounds -- part of the class 532-570 series – Organic compounds – Carboxylic acid esters
Reexamination Certificate
2002-01-17
2002-12-17
Shah, Mukund J. (Department: 1623)
Organic compounds -- part of the class 532-570 series
Organic compounds
Carboxylic acid esters
C560S187000, C560S188000, C560S198000, C560S201000, C568S031000, C568S032000
Reexamination Certificate
active
06495713
ABSTRACT:
BACKGROUND OF THE INVENTION
This invention is directed to a process for making ketosulfone esters such as (1S)-1-methyl-1-[4-(methylsulfonyl)benzoyl]propyl isopropoxyacetate. These compounds are intermediates useful in the preparation of certain non-steroidal antiinflammatory agents, such as the compounds disclosed in U.S. Pat. No. 5,981,576 and U.S. Pat. No. 6,020,343.
Non-steroidal, antiinflammatory drugs exert most of their antiinflammatory, analgesic and antipyretic activity and inhibit hormone-induced uterine contractions and certain types of cancer growth through inhibition of prostaglandin G/H synthase, also known as cyclooxygenase. Up until recently, only one form of cyclooxygenase had been characterized, this corresponding to cyclooxygenase-1 or the constitutive enzyme, as originally identified in bovine seminal vesicles. Recently the gene for a second inducible form of cyclooxygenase (cyclooxygenase-2) has been cloned, sequenced and characterized from chicken, murine and human sources. This enzyme is distinct from the cyclooxygenase-1 which has now also been cloned, sequenced and characterized from sheep, murine and human sources. The second form of cyclooxygenase, cyclooxygenase-2, is rapidly and readily inducible by a number of agents including mitogens, endotoxin, hormones, cytokines and growth factors. As prostaglandins have both physiological and pathological roles, we have concluded that the constitutive enzyme, cyclooxygenase-1, is responsible, in large part, for endogenous basal release of prostaglandins and hence is important in their physiological functions such as the maintenance of gastrointestinal integrity and renal blood flow. In contrast, we have concluded that the inducible form, cyclooxygenase-2, is mainly responsible for the pathological effects of prostaglandins where rapid induction of the enzyme would occur in response to such agents as inflammatory agents, hormones, growth factors, and cytokines. Thus, a selective inhibitor of cyclooxygenase-2 will have similar antiinflammatory, antipyretic and analgesic properties to a conventional non-steroidal antiinflammatory drug, and in addition would inhibit hormone-induced uterine contractions and have potential anti-cancer effects, but will have a diminished ability to induce some of the mechanism-based side effects. In particular, such a compound should have a reduced potential for gastrointestinal toxicity, a reduced potential for renal side effects, a reduced effect on bleeding times and possibly a lessened ability to induce asthma attacks in aspirin-sensitive asthmatic subjects.
SUMMARY OF THE INVENTION
This invention encompasses a process for making a compound of Formula A
wherein R
2
is C
1-6
alkyl, optionally substituted with C
3-6
cycloalkyl, and
R
3
and R
4
are C
1-6
alkyl,
comprising: reacting pivaloyl chloride with a compound of Formula B
a compound of Formula C
and trialkylamine in the presence of a catalyst in a substantially non-reactive solvent to yield a compound of Formula D
and
oxidizing the compound of Formula D to yield a compound of Formula A.
These compounds are intermediates useful in the preparation of certain non-steroidal anti-inflammatory agents.
DETAILED DESCRIPTION OF THE INVENTION
U.S. Pat. No. 5,981,576, granted on Nov. 9, 1999 and U.S. Pat. No., 6,020,343, granted on Feb. 1, 2000 are hereby incorporated by reference in their entirety.
This invention encompasses a process for making a compound of Formula A
wherein R
2
is C
1-6
alkyl, optionally substituted with C
3-6
cycloalkyl, and
R
3
and R
4
are C
1-6
alkyl,
comprising: reacting pivaloyl chloride with a compound of Formula B
a compound of Formula C
and trialkylamine in the presence of a catalyst in a substantially non-reactive solvent to yield a compound of Formula D
and
oxidizing the compound of Formula D to yield a compound of Formula A.
An embodiment of the invention encompasses the process wherein trialkylamine is triethylamine.
Another embodiment of the invention encompasses the process wherein the catalyst is 4-dimethylaminopyridine.
Another embodiment of the invention encompasses the process wherein the substantially non-reactive solvent is toluene.
Another embodiment of the invention encompasses the process wherein pivaloyl chloride is sequentially the last reagent to be added.
Another embodiment of the invention encompasses the process wherein the ratio of trialkylamine to the compound of Formula B is in the range of about 2.1 to 3.1 equivalents of trialkylamine relative to about 1 equivalent of the compound of Formula B.
Another embodiment encompasses the process wherein the ratio of pivaloyl chloride to the compound of Formula B is less than about 2.5 equivalents of pivaloyl chloride relative to about 1 equivalent of the compound of Formula B. Preferably, the equivalence ratio of pivaloyl chloride to the compound of Formula B is about 1.5 to 1.
Another embodiment encompasses the process wherein the ratio of the compound of Formula C to the compound of Formula B is at least about 1.2 equivalents of the compound of Formula C relative to about 1 equivalent of the compound of Formula B and the ratio of the catalyst to the compound of Formula B is at least about 0.3 equivalents of the catalyst relative to about 1 equivalent of the compound of Formula B.
Another embodiment of the invention encompasses the process further comprising of making the compound of Formula A at ambient temperature.
Another embodiment of the invention encompasses the process wherein conversion to the compound of Formula D is greater than about 95%.
The invention also encompasses the process further comprising of making the compound of Formula B by reacting a compound of Formula E
with a lithiating agent and a compound of Formula F
in a substantially non-reactive solvent at a reduced temperature to produce a compound of Formula B. The term “lithiating agent” means for example n-butyllithium, hexyllithium and phenyllithium. Preferably, the reduced temperature is about −35° C. to about −30° C. Within this embodiment is encompassed this process further comprising of making the compound of Formula E by reacting a compound of Formula G
with pyrrolidine and thionyl chloride in a substantially non-reactive solvent at a reduced temperature to produce a compound of Formula E. Preferably the reduced temperature is below about −5° C.
The invention also encompasses a process for making a compound of Formula A1
comprising: reacting pivaloyl chloride to a mixture of a compound of Formula B1
a compound of Formula C1
and trialkylainine in the presence of a catalyst in a substantially non-reactive solvent to yield a compound of Formula D1
and
oxidizing the compound of Formula D1 to yield a compound of Formula A1.
Within this embodiment is encompassed the process wherein trialkylamine is triethylamine.
Within this embodiment is encompassed the process wherein the catalyst is 4-dimethylaminopyridine.
Within this embodiment is encompassed the process wherein the substantially non-reactive solvent is toluene.
Within this embodiment is encompassed the process wherein the ratio of trialkylamine to the compound of Formula B1 is in the range of about 2.1 to 3.1 equivalents of trialkylamine relative to about 1 equivalent of the compound of Formula B1.
Within this embodiment is encompassed the process wherein the ratio of pivaloyl chloride to the compound of Formula B1 is less than about 2.5 equivalents of pivaloyl chloride relative to about 1 equivalent of the compound of Formula B1. Preferably, the equivalence ratio of pivaloyl chloride to the compound of Formula B1 is about 1.5 to 1.
Within this embodiment is encompassed the process wherein the ratio of the compound of Formula C1 to the compound of Formula B1 is at least about 1.2equivalents of the compound of Formula C relative to about 1 equivalent of the compound of Formula B1 and the ratio of the catalyst to the compound of Formula B1 is at least about 0.3 equivalents of the catalyst relative to about 1 equivalent of the compound of Formula B1.
Within this process
Chen Cheng Yi
Chen Weirong
Dagneau Philippe
O'Shea Paul
Tan Lushi
Merck & Co. , Inc.
Rose David L.
Shah Mukund J.
Tucker Zachary C.
Yuro Raynard
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