Abstract: Methods and compositions for enhancing the therapeutic activity of agents at low doses as a result of improved targeted drug delivery, namely precision delivery, are described. The methods and compositions can be used to decrease the effective administered amounts of active therapeutic agents via precision delivery to targets capable of mediating active transport across the biological barrier formed by the vasculature that lines blood vessels. Antibodies (and other targeting agent species) to precisely deliver an active ingredient (i.e., a therapeutic agent) to cells expressing, for example, a target protein on their cell membranes, are also described, as are methods of treating disease.

Abstract: A mechanism of monoamine oxidases (MAOs) driven epithelium-to-mesenchymal transition (EMT) is disclosed. Also disclosed are methods for treating cancer by inhibiting or suppressing MAOs in cancer cells. Novel MAOs inhibitors, such as small molecules, siRNA, shRNA, antisense oligonucleotides, aptamers, decoys, and pharmaceutical compositions useful for treating cancer by disrupting the workings of MAOs are provided. In particular, a class of conjugates formed by covalently conjugating near infrared dye 783, IR-780, and MHI-148 to a MAO inhibitor, such as clorgyline, with and without encapsulation it in a nanoparticle is provided. Other aspects of the invention include methods for forming the nano-conjugates, method for monitoring treatment progress in a cancer patient by monitoring the changes in MAO activity, methods for screening patients who are at risk of cancer or differentiating different forms of cancer by assaying the level and location of MAO activity.

Abstract: A mechanism of monoamine oxidases (MAOs) driven epithelium-to-mesenchymal transition (EMT) is disclosed. Also disclosed are methods for treating cancer by inhibiting or suppressing MAOs in cancer cells. Novel MAOs inhibitors, such as small molecules, siRNA, shRNA, antisense oligonucleotides, aptamers, decoys, and pharmaceutical compositions useful for treating cancer by disrupting the workings of MAOs are provided. In particular, a class of conjugates formed by covalently conjugating near infrared dye 783, IR-780, and MHI-148 to a MAO inhibitor, such as clorgyline, with and without encapsulation it in a nanoparticle is provided. Other aspects of the invention include methods for forming the nano-conjugates, method for monitoring treatment progress in a cancer patient by monitoring the changes in MAO activity, methods for screening patients who are at risk of cancer or differentiating different forms of cancer by assaying the level and location of MAO activity.

Abstract: The present invention relates to oligooxopiperazines that mimic helix ?B of the C-terminal transactivation domain of HIF-1?. Also disclosed are pharmaceutical compositions containing these oligooxopiperazines and methods of using these oligooxopiperazines (e.g., to reduce gene transcription, treat or prevent disorders mediated by interaction of HIF-1? with CREB-binding protein and/or p300, reduce or prevent angiogenesis in a tissue, induce apoptosis, and decrease cell survival and/or proliferation).

Abstract: Disclosed are epidithiodiketopiperazine compounds, pharmaceutical compositions based thereon and methods of treating, reducing or inhibiting transcription and translation of hypoxia-inducible genes.

Abstract: Disclosed are epidithiodiketopiperazine compounds, pharmaceutical compositions based thereon and methods of treating, reducing or inhibiting transcription and translation of hypoxia-inducible genes.

Abstract: The present invention relates to peptidomimetics that mimic helix ?B of the C-terminal transactivation domain of HIF-1?. Methods of using the peptidomimetics to, e.g., inhibit the HIF-1?-p300/CBP interaction, are also disclosed.

Abstract: A mechanism of monoamine oxidases (MAOs) driven epithelium-to-mesenchymal transition (EMT) is disclosed. Also disclosed are methods for treating cancer by inhibiting or suppressing MAOs in cancer cells. Novel MAOs inhibitors, such as small molecules, siRNA, shRNA, antisense oligonucleotides, aptamers, decoys, and pharmaceutical compositions useful for treating cancer by disrupting the workings of MAOs are provided. In particular, a class of conjugates formed by covalently conjugating near infrared dye 783, IR-780, and MHI-148 to a MAO inhibitor, such as clorgyline, with and without encapsulation it in a nanoparticle is provided. Other aspects of the invention include methods for forming the nano-conjugates, method for monitoring treatment progress in a cancer patient by monitoring the changes in MAO activity, methods for screening patients who are at risk of cancer or differentiating different forms of cancer by assaying the level and location of MAO activity.