Drug – bio-affecting and body treating compositions – Designated organic active ingredient containing – Phosphorus containing other than solely as part of an...
Patent
1995-08-21
1999-11-16
Kishore, Gollamudi S.
Drug, bio-affecting and body treating compositions
Designated organic active ingredient containing
Phosphorus containing other than solely as part of an...
514 77, 514 78, 514529, 514557, A61K 3166, A61K 31685, A61K 31215, A61K 3119
Patent
active
059858540
DESCRIPTION:
BRIEF SUMMARY
FIELD OF THE INVENTION
The present invention relates to a technique for treating a condition or disease in a human related to supranormal intracellular enzyme activity, and to a prodrug useful in such technique.
BACKGROUND OF THE INVENTION
Many major diseases in humans, including ischemia, stroke, epilepsy, asthma and allergy are believed to be related to the phenomenon of cell hyperexcitation, a term used herein to denote abnormally elevated levels of certain intracellular enzymes. For instance, as a result of supranormal intracellular phospholipases associated with these disease states, cell membranes are broken down. Current pharmacological strategies are therefore aimed at inhibiting this deleterious degradative activity.
It would be useful to be able to selectively target diseased cells characterized by enzyme hyperactivity, so as to introduce a pharmacologically active molecule in the form of a prodrug into a cell, whereby such hyperactivity would act on the prodrug, so that the pharmacologically active molecule accumulates in the diseased cells rather than in the healthy cells.
A non-limiting example of such a pharmacologically active molecule is a calcium chelating agent, which would have many advantages over drugs presently used for the treatment of calcium associated disorders.
Intracellular calcium is an important determinant for cell death, irrespective of the initial insult sustained by the cell. It may be involved in cell death in lymphocyte and killer cell mediated damage of target cells, in organ damage during transplantation, and in other types of tissue damage including ischemic insults. Calcium channel blockers or cell membrane permeable forms of calcium chelators have been suggested to protect against tissue injury or to decrease tissue damage. Thus, it will be apparent that the present invention has potential use (in the embodiment employing a calcium chelator) in relation to these circumstances.
It will also be self-evident that a similar concept can be applied to the treatment of conditions or diseases other than those related to the intracellular level of calcium ions. By way of example, if the active entity incorporated in the prodrug molecule is a protein kinase inhibitor, after administration of the prodrug the inhibitor would accumulate in a cell exhibiting abnormal proliferation, thus potentially providing an important tool for use in antitumor therapy.
The use of prodrugs to impart desired characteristics such as increased bioavailability or increased site-specificity on known drugs is a recognized concept in the state of the art of pharmaceutical development. The use of various lipids in the preparation of particular types of prodrugs is also known in the background art. In none of those instances are the prodrugs characterized in that they achieve preferential accumulation of the drug within the diseased cells of the organ, by activation with intracellular lipases. Rather, they provide for the drug to be transported to a specific site, or to be released within a specific organ. This appraoch is exemplified in the case of the phospholipid prodrugs of salicylates and non-steroidal anti-inflammatory drugs disclosed in WO 91/16920 which, taken orally, protect the gastric mucosa and release the active principle in the gut.
In other examples of phospholipid prodrugs, the formulation of the prodrugs into liposomes or other micellar structures is the feature that enables their preferential uptake, for instance by macrophages or by liver cells as in the case of the phospholipid conjugates of antiviral drugs disclosed in WO 90/00555 and WO 93/00910.
Generally, viral infection is not associated with supranormal phospholipase activity and antiviral phospholipid conjugates do not teach or suggest activation of the drug preferentially in the diseased cells, or in the infected cells as in the case of the phospholipid conjugates of antiviral nucleotides and anti-sense oligonucleotides, such as those disclosed in WO 90/00555, in WO 90/10448 and in NTIS Technical Notes, no. 9, page 630, S
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NTIS Technical Notes, No. 9, 19847, "Prodrugs based on phpospholipid-nucleoside conjugates" Springfield, VA, p. 630.
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Hostetler et al., Jun. 1991, "Phosphatidylaazothymidine. Mechanism of antiretroviral action in cem cells." J. Biol. Chem. 266(18):11714-11715.
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Govez-Cambronero et al., Apr. 1991, "Platelet-activating factor induces tyrosine phossssphorylation in human neutrophils." J. Biol. Chem. 266(10):6240-5.
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D-Pharm Ltd.
Kishore Gollamudi S.
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