2-(substituted-phenyl)amino-imidazoline derivatives

Details 2-(substituted-phenyl)amino-imidazoline derivatives 2-(substituted-phenyl)amino-imidazoline derivatives

2003-04-29

2004-02-17

Morris, Patricia L. (Department: 1625)

Organic compounds -- part of the class 532-570 series

Organic compounds

Heterocyclic carbon compounds containing a hetero ring...

C544S139000, C548S311100, C548S311400, C548S312700

Reexamination Certificate

active

06693200

ABSTRACT:

FIELD OF THE INVENTION
This invention relates to IP receptor antagonists, especially to certain 2-(substituted-phenyl)amino-imidazoline derivatives; pharmaceutical compositions containing them; and methods for their use as therapeutic agents.
BACKGROUND INFORMATION AND RELATED DISCLOSURES
Prostaglandins or prostanoids (PG) are a group of biologically active compounds derived from membrane phospholids and are formed from certain polyunsaturated fatty acids. They fall into several main classes designated by letters including D, E, F, G, H, and I (prostacyclin). The main classes are further subdivided as indicated by subscripts 1, 2, or 3, which reflect the fatty acid precursor, for example PGE
1
or PGE
2
. Prostanoids are ubiquitously produced and the rate of their production usually increases in response to diverse stimuli. They thereby exhibit a wide variety of pharmacological properties.
The diversity of effects of prostanoids can be explained by the existence of a number of distinct receptors that mediate their action. The receptors have been named for the natural prostaglandin for which they have the greatest affinity and have been divided into five main types, designated as DP (PGD
2
), FP (PG
2&agr;
), IP (PGI
2
), TP (TXA2), AND EP (PGE
2
). Additional information relating to prostaglandins and their receptors are described in Goodman & Gillman's,
The Pharmacological Basis of Therapeutics
, ninth edition, McGraw-Hill, New York, 1996, Chapter 26, pages 601-616.
Prostanoids are generated by most cells in response to mechanical, thermal or chemical injury and inflammatory insult, and are responsible for the sensitization or direct activation of nearby sensory nerve endings. The hyperalgesic effects (an increased responsiveness to a stimulus that is normally painful) of several prostanoids have been reported in several inflammatory models of nociception. Even though PGE
2
has attained wide recognition as the primary mediator of hyperalgesia, significant quantities of other prostanoids, including PGI
2
, are released by injury or inflammation. Indeed, when the effects of PGE
2
and PGI
2
on sensory neurons are compared directly, PGI
2
is equally or more effective as a hyperalgesic or sensitizing agent both in vivo and in vitro assays. However, to date, there have been no selective receptor antagonists which could unequivocally characterize the prostanoid receptor subtype(s) that mediate the sensitizing effects of PGE
2
or PGI
2
.
When the intrinsic instability and pharmacokinetic properties of PGI
2
are taken into account, a preponderance of in vivo analgesia studies in rodents suggest that PGI
2
plays a major role in the induction of hyperalgesia. Likewise, in vitro studies provide substantial evidence to suggest that IP receptors act as important modulators of sensory neuron function. Since IP receptors in sensory neurons are coupled to activation of both adenylyl cyclase and phospholipase C, and hence, cAMP-dependent protein kinase and protein kinase C, these receptors can exert powerful effects on ion channel activity and thus neurotransmitter release.
Recent compelling evidence for a prominent role for IP (PGI
2
-preferring) receptors in inflammatory pain has been obtained from recent studies in transgenic mice lacking the IP receptor (T. Murata et al.,
Nature
1997, 388, 678-682). In these animals, the acetic acid-induced writhing response or the carrageenan-induced paw edema was reduced to levels similar to those seen with administration of indomethacin in wild-type mice. In contrast, spinal nociceptive reflexes measured by the tail-flick and hot-plate test were normal. The modest writhing response induced by PGE
2
was unchanged in the transgenic animals.
Based upon these observations, the compounds of the present invention are expected to be effective anti-nociceptive agents.
In addition to being mediators of hyperalgesia, prostanoids are known to be generated locally in the bladder in response to physiologic stimuli such as stretch of the detrusor smooth muscle, injuries of the vesical mucosa, and nerve stimulation (K. Anderson,
Pharmacological Reviews
1993, 45(3), 253-308). PGI
2
is the major prostanoid released from the human bladder. Several lines of evidence suggest that prostanoids may be the link between detrusor muscle stretch produced by bladder filling and activation of C-fiber afferents by bladder distension. It has been proposed that prostanoids may be involved in the pathophysiology of bladder disorders, e.g., bladder outlet obstruction, and conditions associated with urinary incontinence such as urge incontinence, stress incontinence, and bladder hyperreactivity. Therefore, antagonists of prostanoid IP receptors are expected to be useful in the treatment of such conditions.
Certain 2-(substituted-phenyl)amino-imidazoline compounds have been exemplifed in the patent literature. For example, European Patent No. 0 017 484 B1 (Fujisawa Pharmaceutical) discloses compounds useful for treatment of hypertensive, inflammatory and gastrointestinal disorder and relief from pain of various origins; U.S. Pat. No. 4,287,201 (Olson et al.) discloses compounds useful in delaying the onset of egg production in young pullets, interrupting egg production in mature hens, and in producing an artificial molt; U.S. Pat. No. 4,396,617 (Dolman and Kuipers) discloses fungicides active against rust of beans, brown rust of wheat and mildew on cereals; U.S. Pat. No. 4,889,868 (Huang) discloses lipoxygenase and phospholipase C inhibitors and platelet-activating factor receptor antagonists useful for the treatment of inflammatory or allergic conditions and myocardial infarctions; U.S. Pat. No. 5,326,776 (Winn et al.) discloses compounds that are angiotensin II receptor antagonists; British Patent Application No. GB 2 038 305 (Duphar International Research) discloses compounds that can be used to inhibit growth of side shoots tobacco or tomato plants, or inhibit lawn growth, or dwarf ornamental plants; and PCT Published Application No. WO 96/30350 (Fujisawa Pharmaceutical) discloses compounds useful as a medicament for prophylactic and therapeutic treatment of nitric oxide synthase-mediated diseases.
The disclosures of these and other documents referred to throughout this application are incorporated herein by reference.
SUMMARY OF THE INVENTION
This invention provides compounds represented by Formula I:
wherein:
R
1
is a group represented by formula (A), (B) or (C);
wherein:
X is independently in each occurrence S, O or N;
R
2
and R
4
are each independently in each occurrence:
(1) hydrogen,
(2) alkyloxy, or
(3) halogen;
R
3
is independently in each occurrence:
(1) alkyl,
(2) cycloalkyl,
(3) halogen,
(4) heterocyclyl,
(5) —NR
8
R
9
,
(6) —(CH
2
)
m
CONR
8
R
9
, wherein m is an integer from 0 to 3,
(7) —(CH
2
)
m
SO
2
NR
8
R
9
, wherein m is an integer from 0 to 3,
(8) —(CH
2
)
m
NR
7
COR
9
, wherein m is an integer from 0 to 3,
(9) —(CH
2
)
m
NR
7
SO
2
R
9
, wherein m is an integer from 0 to 3,
(10) —(CH
2
)
m
NR
7
C(V)NR
8
R
9
, wherein V is S or O, and m is an integer from 0 to 3,
(11) —(CH
2
)
m
OY wherein m is an integer from 0 to 3, and Y is: hydrogen, alkyl, alkyloxyalkyl, cycloalkyl, haloalkyl, hydroxyalkyl, heterocyclyl, or carboxyalkyl, or
(12) —O(CH
2
)
n
Z wherein n is an integer from 1 to 4 and Z is: cycloalkyl, hydroxyalkyl, cycloalkyloxy, heterocyclyl, aryloxy, heteroaryl, —COR
9
, —CONR
8
R
9
, —SO
2
R
9
, —SO
2
NR
8
R
9
, —NR
7
SO
2
R
9
, or unsubstituted aryl or mono-, di-, or tri-substituted aryl, the substituents being independently selected from alkyl, halogen, or alkyloxy;
R
5
is independently in each occurrence:
(1) —(CH
2
)
m
OY wherein m is an integer from 0 to 3, and Y is: hydrogen, alkyl, alkyloxyalkyl, cycloalkyl, haloalkyl, hydroxyalkyl, heterocyclyl, or carboxyalkyl, or
(2) —O(CH
2
)
n
Z wherein n is an integer from 1 to 4, and Z is: cycloalkyl, hydroxyalkyl, cycloalkyloxy, heterocyclyl, aryloxy, heteroaryl, —COR
9
, —CONR
8
R
9
, —SO
2
R
9
, —SO
2
NR
8
R
9
, or —NR
7
SO
2
R
9
, or unsubstituted aryl or mono-, di-, or tri-substitut

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