RAR selective retinoid agonists

Organic compounds -- part of the class 532-570 series – Organic compounds – Heterocyclic carbon compounds containing a hetero ring...

Reexamination Certificate

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C548S131000, C548S204000, C548S376100, C548S562000, C549S499000, C560S010000, C560S058000, C562S427000, C562S466000, C562S473000

Reexamination Certificate

active

06603012

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates to new RAR selective retinoid agonists and to the use of such retinoic acid receptor agonists, particularly retinoic acid receptor &ggr; (RAR&ggr;) selective agonists for the treatment of emphysema.
Chronic obstructive pulmonary disease (COPD) is a major cause of morbidity and mortality, ranking third and fourth as the leading cause of death in the European Union and North America respectively. COPD is characterized by reduced maximum expiratory flow, which does not change over several months and which persists for 2 or more consecutive years. Patients with the most severe form of COPD generally present with a significant degree of emphysema. Emphysema is defined anatomically by permanent airspace enlargement distal to the terminal bronchioles. It is characterized by gradual loss of lung recoil, alveolar destruction, decreased alveolar surface area and gas exchange, leading to a reduced FEV1. These two features, impaired gas exchange and reduction in expiratory flow, are characteristic physiological abnormalities from which patients with emphysema suffer. The main symptom of patients with severe emphysema is shortness of breath during minimal physical activity.
The most common cause of emphysema is cigarette smoking although other potential environmental toxins may also contribute. These various insulting agents activate destructive processes in the lung including release of active proteases and free radical oxidants in excess of protective mechanisms. The imbalance in protease/anti-protease levels leads to destruction of the elastin matrix, loss of elastic recoil, tissue damage and continuous decline in lung function. Removing the injurious agents (i.e. quit smoking) slows the rate of damage, however, the damaged alveolar structures do not repair and lung function is not regained.
Retinoic acid is a multifunctional modulator of cellular behavior, having the potential to alter both extracellular matrix metabolism and normal epithelial differentiation. In lung, retinoic acid has been shown to modulate various aspects of lung differentiation by interacting with specific retinoic acid receptors (RAR) that are selectively expressed temporally and spatially. Coordinated activation of RAR&bgr; and RAR&ggr; has been associated with lung branching and alveolization/septation. During alveolar septation, retinoic acid storage granules increase in the fibroblastic mesenchyme surrounding alveolar walls and RAR&ggr; expression in the lung peaks. Depletion of these retinyl-ester stores parallels the deposition of new elastin matrix and septation. In support of this concept, (Massaro et al., Am. J. Physiol., 1996, 270, L305-L310) demonstrated that postnatal administration of retinoic acid increases the number of alveoli in rats. Furthermore, the capacity of dexamethasone to prevent the expression of CRBP and RAR&bgr; mRNA and subsequent alveolar septation in developing rat lungs was abrogated by all-trans retinoic acid.
Recent studies demonstrated that all-trans retinoic acid can induce formation of new alveoli and return elastic recoil to near normal in animal models of emphysema (D. Massaro et al. Nature Medicine, 1997, 3, 675). However, the mechanism by which this occurs remains unclear.
Retinoids are a class of compounds structurally related to vitamin A, comprising natural and synthetic compounds. Several series of retinoids have been found clinically useful in the treatment of dermatological and oncological diseases. Retinoic acid and its other naturally occurring retinoid analogs (9-cis retinoic acid, all-trans 3,4-didehydro retinoic acid, 4-oxo retinoic acid and retinol) are pleiotropic regulatory compounds that modulate the structure and function of a wide variety of inflammatory, immune and structural cells. They are important regulators of epithelial cell proliferation, differentiation and morphogenesis in lungs. Retinoids exert their biological effects through a series of hormone nuclear receptors that are ligand inducible transcription factors belonging to the steroid/thyroid receptor superfamily. The retinoid receptors are classified into two families, the retinoic acid receptors (RARs) and the retinoid X receptors (RXRs), each consisting of three distinct subtypes (&agr;, &bgr;, and &ggr;). Each subtype of the RAR gene family encodes a variable number of isoforms arising from differential splicing of two primary RNA transcripts. All-trans retinoic acid is the physiological hormone for the retinoic acid receptors and binds with approximately equal affinity to all the three RAR subtypes, but does not bind to the RXR receptors for which 9-cis retinoic acid is the natural ligand.
In many non-pulmonary tissues, retinoids have anti-inflammatory effects, alter the progression of epithelial cell differentiation, and inhibit stromal cell matrix production. These properties have led to the development of topical and systemic retinoid therapeutics for dermatological disorders such as psoriasis, acne, and hypertrophic cutaneous scars. Other applications include the control of acute promyelocytic leukemia, adeno- and squamous cell carcinoma, and hepatic fibrosis. A limitation in the therapeutic use of retinoids outside of cancer has stemmed from the relative toxicity observed with the naturally occurring retinoids, all-trans retinoic acid and 9-cis retinoic acid. These natural ligands are non-selective and therefore have pleiotropic effects throughout the body, which are often toxic. Recently various retinoids have been described that interact selectively or specifically with the RAR or RXR receptors or with specific subtypes (&agr;, &bgr;, &ggr;) within a class.
Thus the retinoids according to the invention can further be used for the therapy and prophylaxis of dermatological disorders which are accompanied by epithelial lesions, e.g. acne and psoriasis, light- and age-damaged skin; as well as for the promotion of wound healing, for example of incised wounds, such as surgical wounds, wounds caused by burns and other wounds caused by cutaneous trauma; and for the therapy and prophylaxis of malignant and premalignant epithelial lesions, tumours and precancerous changes of the mucous membrane in the mouth, tongue, larynx, oesophagus, bladder, cervix and colon. In particular, the retinoids according to the invention promote repair of damaged alveoli.
SUMMARY OF THE INVENTION
This invention provides new RAR selective retinoid agonists of formula I
wherein
R
1
and R
2
independently of each other are hydrogen or lower alkyl;
A is C(R
5
R
6
),
n is an integer 1, 2 or 3,
B is C(R
3
R
4
), oxygen, S(O)
m
or N-alkyl and
m is 0, 1 or 2; or
A is oxygen,
n is 1 and
B is C(R
3
R
4
);
X is —CR
7′
— or nitrogen;
R
3
, R
4
, R
5
and R
6
independently of each other are hydrogen or lower alkyl;
R
7
and R
7′
independently of each other are hydrogen, alkyl, alkenyl, alkoxy, alkoxyalkyl, substituted alkyl, phenyloxy or substituted phenyloxy, or R
7
and R
7′
together are —(CH
2
)
p
—, where p is 2-6, with the proviso that when X is nitrogen then R
7
is alkyl, alkoxyalkyl or substituted alkyl;
Z is —COO—, —OCO—, —CH
2
—CH
2
—, —CH═CH—, —C≡C—, —CH
2
O—, —CH
2
S—, —OCH
2
—, —SCH
2
—, —COCH
2
— or —CH
2
CO—, with the provisos that when Z is —OCH
2
—, or —SCH
2
—, then X is —CR
7′
—, and that when Z is —C≡C— then X is CR
7′
and R
7
is phenoxy or substituted phenoxy;
Ar is phenyl, substituted phenyl or a heteroarylic ring; and
R
8
is hydrogen, lower alkyl or benzyl;
and pharmaceutically acceptable salts of carboxylic acids of formula I.
DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS
In one aspect, this invention provides new RAR selective retinoid agonists of formula I
wherein
R
1
, R
2
are independently of each other hydrogen or lower alkyl;
A represents C(R
5
R
6
) and
n is an integer 1, 2 or 3; or
A is oxygen and
n is 1;
B represents C(R
3
R
4
), oxygen, S(O)
m
or N-alkyl, with the proviso that when A is oxygen, then B is C(R
3
R
4
);
m is 0, 1 or 2;
X is —CR
7′
— or nitrogen;
R
3
, R
4
, R
5
, R

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