Polymer/copper combination that can selectively target and kill cancer cells are described. Materials can include the reaction product of a biocompatible hydrophilic polymer and pyridine-2-thiol containing monomer. The copolymer reaction product can include pyridine-2-thiol side groups pendant to the backbone via a disulfide linkage. The hydrophilic component can form the polymer backbone and/or can form hydrophilic pendant groups off of the backbone. Copper ions can be associated with the copolymer.

Polymer/copper combination that can selectively target and kill cancer cells are described. Materials can include the reaction product of a biocompatible hydrophilic polymer and pyridine-2-thiol containing monomer. The copolymer reaction product can include pyridine-2-thiol side groups pendant to the backbone via a disulfide linkage. The hydrophilic component can form the polymer backbone and/or can form hydrophilic pendant groups off of the backbone. Copper ions can be associated with the copolymer.

Polymer/copper combination that can selectively target and kill cancer cells are described. Materials can include the reaction product of a biocompatible hydrophilic polymer and pyridine-2-thiol containing monomer. The copolymer reaction product can include pyridine-2-thiol side groups pendant to the backbone via a disulfide linkage. The hydrophilic component can form the polymer backbone and/or can form hydrophilic pendant groups off of the backbone. Copper ions can be associated with the copolymer.

The present invention provides pharmaceutical formulations including a non-anticoagulant, non-saccharide polymer that with at least one sulfate or sulfonate moiety. The pharmaceutical formulations of the invention are of use to improve blood clotting in a subject. Also provided are useful analytical methods utilizing these polymers to query the dynamics of blood clotting in vitro.

The present invention provides pharmaceutical formulations including a non-anticoagulant, non-saccharide polymer that with at least one sulfate or sulfonate moiety. The pharmaceutical formulations of the invention are of use to improve blood clotting in a subject. Also provided are useful analytical methods utilizing these polymers to query the dynamics of blood clotting in vitro.

The present technology relates to compositions and methods for modulating expression of genes, which include a target oligonucleotide sequence, such as repeats of a particular oligonucleotide sequence containing 3 to 10 nucleotides. In particular aspects, the present technology relates to agents having a formula A-L-B, wherein -L- is a linker; A- is a Brd4 binding moiety; and -B is a nucleic acid binding moiety, such as a polyamide or complementary oligonucleotide, that specifically binds to the target oligonucleotide sequence.

The subject of the invention is an N-sulfonic polyallylamine derivative (NSPAH) with Formula 1, wherein R is —SO.sub.3.sup.− or —H, and n is an integer from 150 to 15000; an application of the N-sulfonic polyallylamine derivative as a medicine, particularly for prevention and treatment of respiratory tract infections caused by the human metapneumovirus (hMPV), respiratory tract infections caused by the human rhinoviruses (HRV), and infections caused by the influenza A virus; as well as a pharmaceutical composition comprising the N-sulfonic polyallylamine derivative and application thereof.

The subject of the invention is an N-sulfonic polyallylamine derivative (NSPAH) with Formula 1, wherein R is —SO.sub.3.sup.− or —H, and n is an integer from 150 to 15000; an application of the N-sulfonic polyallylamine derivative as a medicine, particularly for prevention and treatment of respiratory tract infections caused by the human metapneumovirus (hMPV), respiratory tract infections caused by the human rhinoviruses (HRV), and infections caused by the influenza A virus; as well as a pharmaceutical composition comprising the N-sulfonic polyallylamine derivative and application thereof.

A pharmaceutical composition comprising a polymeric binder including a high molecular weight synthetic polymer having a backbone constituted of non hydrolysable covalent bonds, said polymer being able to form electrostatic bonds at a pH lower than the isoelectric point of gluten and peptides derived from the degradation of gluten, and being able to bind to gluten or peptides derived from the degradation of gluten in the gastrointestinal tract, and a pharmaceutically acceptable carrier. Methods of using the polymeric binder for binding gluten or a peptide derived from the degradation of gluten, for decreasing the degradation of gluten into toxic peptides or for decreasing interaction of gluten or peptides derived from the degradation of gluten with the gastrointestinal mucosa.

A pharmaceutical composition comprising a polymeric binder including a high molecular weight synthetic polymer having a backbone constituted of non hydrolysable covalent bonds, said polymer being able to form electrostatic bonds at a pH lower than the isoelectric point of gluten and peptides derived from the degradation of gluten, and being able to bind to gluten or peptides derived from the degradation of gluten in the gastrointestinal tract, and a pharmaceutically acceptable carrier. Methods of using the polymeric binder for binding gluten or a peptide derived from the degradation of gluten, for decreasing the degradation of gluten into toxic peptides or for decreasing interaction of gluten or peptides derived from the degradation of gluten with the gastrointestinal mucosa.