Abstract: The present disclosure provides pharmaceutical compositions for treating fungal and bacterial infections. The pharmaceutical compositions of the disclosure comprise a cationic surfactant, a chelating agent, and at least one solvent. The pharmaceutical compositions of the disclosure can be used to treat drug-sensitive or multi drug-resistant bacterial or fungal infections.

Abstract: The present disclosure provides pharmaceutical compositions for treating fungal, viral, and/or bacterial infections. The pharmaceutical compositions of the disclosure can comprise a cationic surfactant, a chelating agent, a pH modifier, and a solvent. The pharmaceutical compositions of the disclosure can be used to treat drug-sensitive or multidrug-resistant bacterial, viral, and/or fungal infections. In some embodiments, the chelating agent can be biodegradable.

Abstract: The present disclosure describes a method of treating an infection, including a parasitic infection, using compounds of the invention. The compounds of the invention can selectively eradicate intracellular mammalian and human parasites.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections. The compounds of the disclosure can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria.

Abstract: The present disclosure provides pharmaceutical compositions for treating fungal and bacterial infections. The pharmaceutical compositions of the disclosure comprise a cationic surfactant, a chelating agent, and at least one solvent. The pharmaceutical compositions of the disclosure can be used to treat drug-sensitive or multi drug-resistant bacterial or fungal infections.

Abstract: The present disclosure provides pharmaceutical compositions for treating fungal and bacterial infections. The pharmaceutical compositions of the disclosure comprise a cationic surfactant, a chelating agent, and at least one solvent. The pharmaceutical compositions of the disclosure can be used to treat drug-sensitive or multi drug-resistant bacterial or fungal infections.

Abstract: The disclosure provides proteasome inhibitors that can be used to halt cell division of rapidly dividing cells by preventing the degradation of cell cycle-regulating proteins, such as cyclins, cyclin-dependent kinase inhibitors, and p53. The proteasome inhibitor compounds can be used to inhibit the proliferation of cancer cells.

Abstract: The present disclosure describes a method of treating an infection, including a parasitic infection, using compounds of the invention. The compounds of the invention can selectively eradicate intracellular mammalian and human parasites.

Abstract: The present disclosure provides pharmaceutical compositions for treating fungal and bacterial infections. The pharmaceutical compositions of the disclosure comprise a cationic surfactant, a chelating agent, and at least one solvent. The pharmaceutical compositions of the disclosure can be used to treat drug-sensitive or multi drug-resistant bacterial or fungal infections.

Abstract: The disclosure provides proteasome inhibitors that can be used to halt cell division of rapidly dividing cells by preventing the degradation of cell cycle-regulating proteins, such as cyclins, cyclin-dependent kinase inhibitors, and p53. The proteasome inhibitor compounds can be used to inhibit the proliferation of cancer cells.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections and cancer, using a photosensitive compound that, upon exposure to white light, can be activated. The photosensitive compound can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria. The photosensitive compounds can also be used to inhibit the proliferation of cancer cells.

Abstract: The present disclosure describes a method to treat conditions, including cancer, using compounds that can target resistant cancer cells. The compounds of the invention can decrease the rate of proliferation of drug-resistant cancer cells, such as glioma, lung cancer, and uterine sarcoma.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections and cancer, using a photosensitive compound that, upon exposure to white light, can be activated. The photosensitive compound can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria. The photosensitive compounds can also be used to inhibit the proliferation of cancer cells.

Abstract: In one aspect, this disclosure describes a pharmaceutical composition that generally includes frankiamicin A and a pharmaceutically acceptable carrier. In another aspect, this disclosure describes a method of treating a subject having, or at risk of having, a condition caused by a microbial infection treatable with frankiamicin A. Generally, the method includes administering to the subject an amount of frankiamicin A effective to ameliorate at least one symptom or clinical sign of the condition.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections and cancer, using a photosensitive compound that, upon exposure to white light, can be activated. The photosensitive compound can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria. The photosensitive compounds can also be used to inhibit the proliferation of cancer cells.

Abstract: In one aspect, this disclosure describes a pharmaceutical composition that generally includes frankiamicin A and a pharmaceutically acceptable carrier. In another aspect, this disclosure describes a method of treating a subject having, or at risk of having, a condition caused by a microbial infection treatable with frankiamicin A. Generally, the method includes administering to the subject an amount of frankiamicin A effective to ameliorate at least one symptom or clinical sign of the condition.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections and cancer, using a photosensitive compound that, upon exposure to white light, can be activated. The photosensitive compound can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria. The photosensitive compounds can also be used to inhibit the proliferation of cancer cells.

Abstract: The present invention provides compositions for removal of arsenic or heavy metal contaminants in the process of fluid filtration comprising an organically modified inorganic adsorbent, wherein the composition is produced by reaction with 1,3-dipolar compounds prior to filtration. Also provided are systems for fluid filtration, comprising compositions as provided herein, in a column or column-like format, wherein a fluid is provided to the column such that the fluid flows through the organically modified inorganic adsorbent, and wherein contaminants present in the fluid are bound to the composition. Additionally provided are methods for fluid filtration, comprising contacting a fluid sample with the composition of claim 1 and collecting the filtered fluid sample after filtration.

Abstract: The present disclosure describes a method to treat conditions, including cancer, using compounds that can target resistant cancer cells. The compounds of the invention can decrease the rate of proliferation of drug-resistant cancer cells, such as glioma, lung cancer, and uterine sarcoma.

Abstract: The present disclosure describes a method to treat conditions, including bacterial infections and cancer, using a photosensitive compound that, upon exposure to white light, can be activated. The photosensitive compound can also interact synergistically with antibiotics used concomitantly to kill drug-resistant bacteria. The photosensitive compounds can also be used to inhibit the proliferation of cancer cells.