Aryl phosphate derivatives of d4T having anti-HIV activity

Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Carbohydrate doai

Reexamination Certificate

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C514S049000, C514S050000, C514S885000, C536S026100, C536S026800, C536S028200

Reexamination Certificate

active

06503890

ABSTRACT:

FIELD OF THE INVENTION
The present invention is directed to aryl phosphate nucleoside derivatives, particularly aryl phosphate derivatives of 2′,3′-didehydro-2′,3′-dideoxythymidine (hereinafter “d4T”), that exhibit potent activity against the human immune deficiency virus (HIV), e.g. as inhibitors of HIV reverse transcriptase.
BACKGROUND OF THE INVENTION
The spread of AIDS and the ongoing efforts to control the responsible virus are well-documented. One way to control HIV is to inhibit its reverse transcriptase activity (RT). Thus, novel, potent, and selective inhibitors of HIV RT are needed as useful therapeutic agents. Known, potent inhibitors of HIV RT include 5′-triphosphates of 2′,3′-dideoxynucleoside (“ddN”) analogues. These active RT inhibitors are generated intracellularly by the action of nucleoside kinase and nucleotide kinase. Thus, ddN compounds such as AZT and d4T have been considered to hold much promise in the search for anti-HIV agents.
The rate-limiting step for the conversion of 3′-azido-3′-deoxythymidine (Zidovudine; AZT) to its bioactive metabolite AZT-triphosphate seems to be the conversion of the monophosphate derivative to the diphosphate derivative, whereas the rate-limiting step for the intracellular generation of the bioactive 2′,3′-dideoxy-2′,3′-didehydrothymidine (d4T) metabolite d4T-triphosphate was reported to be the conversion of the nucleoside to its monophosphate derivative. (Balzarini et al., 1989
, J. Biol. Chem
. 264:6127; McGuigan et al., 1996
, J. Med. Chem
. 39:1748). See
FIG. 1
for the mechanism proposed in the prior art.
In an attempt to overcome the dependence of ddN analogues on intracellular nucleoside kinase activation, McGuigan et al. have prepared aryl methoxyalaninyl phosphate derivatives of AZT (McGuigan et al., 1993
J. Med. Chem
. 36:1048; McGuigan et al., 1992
Antiviral Res
. 17:311) and d4T (McGuigan et al., 1996
J. Med. Chem
. 39:1748; McGuigan et al., 1996
Bioorg. Med. Chem. Lett
. 6:1183). Such compounds have been shown to undergo intracellular hydrolysis to yield monophosphate derivatives that are further phosphorylated by thymidylate kinase to give the bioactive triphosphate derivatives in a thymidine kinase (TK)-independent fashion. However, all attempts to date to further improve the potency of the aryl phosphate derivatives of d4T by various substitutions of the aryl moiety without concomitantly enhancing their cytotoxicity have failed. (McGuigan et al., 1996
J. Med. Chem
. 39:1748).
In the present invention, it has been discovered that a substitution at the aryl moiety in the aryl phosphate derivatives of nucleosides with an electron-withdrawing moiety, such as a para-bromo substitution, enhances the ability of the nucleoside derivatives of d4T to undergo hydrolysis due to the electron-withdrawing property of the substituent. The substituted phenyl phosphate nucleoside derivatives demonstrate potent and specific antiviral activity.
SUMMARY OF THE INVENTION
The present invention is directed to aryl phosphate nucleoside derivatives, particularly aryl phosphate derivatives of 2′,3′-didehydro-2′,3′-dideoxythymidine (hereinafter “d4T”), that exhibit potent activity against HIV, e.g. as inhibitors of HIV reverse transcriptase. Aryl phosphate derivatives of d4T, for example, derivatives having an electron-withdrawing substitution such as a para-bromo substitution on the aryl group, were unexpectedly found to show markedly increased potency as anti-HIV agents without undesirable levels of cytotoxic activity. In particular, these derivatives are potent inhibitors of HIV reverse transcriptase. In a preferred aspect of the present invention, the phosphorus of the aryl phosphate group is further substituted with an amino acid residue that may be esterified or substituted, such as a methoxy alaninyl group.
For example, the para-bromo substituted phenyl methoxyalaninyl phosphate derivative of d4T as an active anti-HIV agent potently inhibits HIV replication in peripheral blood mononuclear cells (PBMNC) as well as TK-deficient CEM T-cells without any detectable cytotoxicity. Furthermore, this novel d4T derivative, d4T-5′-para-bromophenyl methoxyalaninyl phosphate), had potent antiviral activity against RTMDR-1, an AZT- and NNI-resistant strain of HIV-1, and moderate activity against HIV-2. Similarly, the corresponding para-bromo substituted phenyl methoxyalaninyl phosphate derivative of AZT showed potent anti-HIV activity in PBMNC as well as TK-deficient CEM T-cells but it was not effective against the AZT- and NNI-resistant RTMDR-1 or HIV-2. In contrast to these d4T and AZT derivatives, the corresponding 3dT derivative, 3dT-5′-para-bromophenyl methoxyalaninyl phosphate), while showing improved activity over 3dT, was not as active as the d4T and AZT derivatives in PBMNC or TK-deficient CEM T-cells. To our knowledge, this is the first report of a previously unappreciated structure activity relationship determining the potency of phenyl phosphate derivatives of both d4T and AZT.
The lead compounds d4T-5′-(para-bromophenyl methoxyalaninyl phosphate) and AZT-5′-(para-bromophenyl methoxyalaninyl phosphate) provide a basis for the design of effective HIV treatment strategies capable of inhibiting HIV replication, particularly in TK-deficient cells.


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