Abstract: Novel coordination polymers, their pharmaceutical formulations, useful for treating atheroma, tumors and other neoplastic tissue, as well as other conditions that are responsive to the induction of targeted oxidative stress, are disclosed.

Abstract: The radiation sensitization potential of a candidate compound can be screened by determine its ability to generate one or more reactive oxygen species under appropriate conditions. Compounds determined to have radiation sensitization potential are employed in methods for treating atheroma, tumors and other neoplastic tissue as well as other conditions that typically responsive to radiation sensitization.

Abstract: The radiation sensitization potential of a candidate compound can be screened by determine its ability to generate one or more reactive oxygen species under appropriate conditions. Compounds determined to have radiation sensitization potential are employed in methods for treating atheroma, tumors and other neoplastic tissue as well as other conditions that typically responsive to radiation sensitization.

Abstract: Novel coordination polymers, their pharmaceutical formulations, useful for treating atheroma, tumors and other neoplastic tissue, as well as other conditions that are responsive to the induction of targeted oxidative stress, are disclosed.

Abstract: The present invention provides a process of synthesizing a compound of Formula I by treating, in an inert medium and in the presence of an organic base, a compound of formula A with an organo metallic agent capable of acting as an outer sphere oxidant to form a compound of Formula I.

Abstract: Disclosed are compounds which are conjugates of (a) a moiety capable of localizing in the cells of a tumor or atheroma and (b) a moiety capable of catalyzing the production of reactive oxygen species from a cellular metabolite. The disclosed compounds which are useful for treating atheroma, tumors and other neoplastic tissue.

Abstract: Compositions having a texaphyrin-lipophilic molecule conjugate loaded into a biological vesicle and methods for imaging, diagnosis and treatment using the loaded vesicle are provided. For example, liposomes or red blood cells loaded with a paramagnetic texaphyrin-lipophilic molecule conjugate have utility as a blood pool contrast agent, facilitating the enhancement of normal tissues, magnetic resonance angiography, and marking areas of damaged endothelium by their egress through fenestrations or damaged portions of the blood vascular system. Liposomes or cells loaded with a photosensitive texaphyrin-lipophilic molecule conjugate can be photolysed, allowing for a photodynamic therapy effect at the site of lysis. Availability of red blood cells loaded with a photosensitive texaphyrin-lipophilic molecule conjugate provides a method for delivering a photodynamic therapeutic agent to a desired site with a high concentration of oxygen.

Abstract: Compositions having a texaphyrin-lipophilic molecule conjugate loaded into a biological vesicle and methods for imaging, diagnosis and treatment using the loaded vesicle are provided. For example, liposomes or red blood cells loaded with a paramagnetic texaphyrin-lipophilic molecule conjugate have utility as a blood pool contrast agent, facilitating the enhancement of normal tissues, magnetic resonance angiography, and marking areas of damaged endothelium by their egress through fenestrations or damaged portions of the blood vascular system. Liposomes or cells loaded with a photosensitive texaphyrin-lipophilic molecule conjugate can be photolysed, allowing for a photodynamic therapy effect at the site of lysis. Availability of red blood cells loaded with a photosensitive texaphyrin-lipophilic molecule conjugate provides a method for delivering a photodynamic therapeutic agent to a desired site with a high concentration of oxygen.

Abstract: Texaphyrin/chemotherapeutic drug conjugates, optionally including a platinum(II) or platinum(IV) metal chelating site and/or complex, are useful for treating atheroma, tumors and other neoplastic tissue, neovascular-related diseases, as well as other conditions that are typically responsive to chemotherapy, radiation sensitization and photodynamic therapy.

Abstract: Texaphyrin metal complex-oligonucleotide and -oligonucleotide analog conjugates are provided where the texaphyrin is bound to an internal linkage of the oligonucleotide or oligonucleotide analog, the conjugates having catalytic activity for the hydrolysis of ribonucleic acid. Further, conjugates demonstrating catalytic turnover are described, the conjugates being especially effective under conditions where the concentration of RNA target exceeds that of available conjugate.

Abstract: Texaphyrins substituted with imidazda are provided.

Abstract: The invention relates to the field of radiation sensitizers and the use of texaphyrins for radiation sensitization and other conditions for which X-ray radiation has proven to be therapeutic.

Abstract: The invention is directed to phosphoramidite derivatives of macrocycles, such as porphyrins and expanded porphyrins, including sapphyrins and texaphyrins. The phosphoramidite derivatives are useful as intermediates in the preparation of macrocycle-oligonucleotide conjugates.

Abstract: The invention is directed to a particular class of metal complexes, specifically certain texaphyrin metal complexes, which both hydrolyze and photocleave RNA, and which also both hydrolyze RNA and photocleave DNA.In one embodiment, the present invention is directed to a method for both hydrolyzing and photocleaving a polymer of ribonucleic acid, the method comprising the steps of contacting the polymer of ribonucleic acid with a texaphyrin metal complex exhibiting catalytic activity for both hydrolysis and photocleavage of ribonucleic acid polymers, incubating the polymer and the metal complex under conditions and for a time sufficient to hydrolyze the phosphate ester bond of the polymer, and exposing the texaphyrin metal complex to light for a time sufficient to photocleave the polymer.

Abstract: A method of phosphate ester hydrolysis including incubating a solution of an aqueous phosphate ester with a metallotexaphyrin complex under conditions and for a time sufficient to hydrolyze the phosphate ester. The metal is a metal cation having catalytic activity for ester bond hydrolysis in aqueous solution. Phosphate ester substrates include nucleic acid such as RNA, phosphoric anhydrides, phospholipids, and alkyl phosphate esters.

Abstract: Methods for photocleavage of a polymer of ribonucleic acid using a texaphyrin or a texaphyrin metal complex are provided. A preferred method of use is the site-specific cleavage of a polymer of ribonucleic acid and a preferred texaphyrin is a derivatized texaphyrin having binding specificity, in particular, a texaphyrin covalently coupled to a site-directing molecule, preferably an oligonucleotide. Possible substrates for cleavage include messenger, ribosomal, transfer, small nuclear, and small cytosolic ribonucleic acids, and RNA cofactors, thereby inactivating these ribonucleic acids and providing a multifaceted approach for treating benign or malignant cancer cells, or other undesired cells or tissues.

Abstract: The invention is directed to a method of incorporating expanded porphyrins, and particularly of incorporating a sapphyrin or a texaphyrin, before, during, or after chemical synthesis of an oligomer to form an expanded porphyrin-oligonucleotide conjugate, and particularly a sapphyrin- or texaphyrin-oligonucleotide conjugate. This method includes reacting derivatized nucleotides and a sapphyrin or a texaphyrin in a desired order in an automated or manual DNA synthesizer having a solid support to form a sapphyrin- or a texaphyrin-oligonucleotide conjugate.

Abstract: Texaphyrins are provided for use as radiation sensitizers. Advantageous properties of texaphyrins for use as a radiation sensitizer include: i) a low redox potential which allows radiation-induced hydrated electrons to flow to texaphyrin rather than neutralizing hydroxyl radicals, allowing hydroxyl radicals to cause cellular damage, ii) a relatively stable texaphyrin radical that reacts readily to covalently modify neighboring molecules causing further cellular damage, iii) intrinsic biolocatization, and iv) indifference to the presence or absence of O.sub.2. These properties allow texaphyrins to be particularly effective for treating the hypoxic areas of solid neoplasms. Methods of treatment for an individual having a neoplasm or atheroma include the use of a texaphyrin as a radiation sensitizer and as an agent for photodynamic tumor therapy, or the use of a texaphyrin for internal and for external ionizing radiation. Novel texaphyrins are provided.

Abstract: Methods of cleavage of a polymer of deoxyribonucleic acid using photosensitive texaphyrins are disclosed. A preferred method of use is the site-specific cleavage of a polymer of deoxyribonucleic acid and a preferred texaphyrin is a derivatized texaphyrin having binding specificity, in particular, a texaphyrin covalently coupled to a site-directing molecule, preferably an oligonucleotide.

Abstract: The present invention is directed to chromophoric probes for use in detecting nucleic acid sequences. More particularly, the invention is directed to probes that comprise a texaphyrin chromophore molecule covalently coupled or conjugated to a site-directing molecule, the site-directing molecule having affinity for a biological receptor or a nucleic acid sequence. In one embodiment of the invention, the probe comprises a texaphyrin chromophore conjugated to an oligonucleotide having complementary binding affinity for a target nucleic acid sequence.