Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: Methods for the rapid elimination of carbon monoxide (CO) from CO-bound hemoglobin, myoglobin and cytochrome c oxidase in subjects with CO poisoning are described. The disclosed therapy involves the use of rationally designed, modified, regulator of CO metabolism (RcoM) proteins and pharmaceutical compositions thereof, which scavenge carbon monoxide from poisoned tissue. The recombinant RcoM compositions are infused into blood, where they rapidly sequester carbon monoxide and limit the toxic effects of carbon monoxide on cellular respiration, oxygen transport and oxygen utilization.

Abstract: Compositions that include a globin, such as hemoglobin, in a relaxed state are described. Globin molecules in a relaxed state (R state) have a higher binding affinity for carbon monoxide and oxygen than globin molecules in a tense state (T state). Hemoglobin in a relaxed state can be, for example, hemoglobin that is substantially free of 2,3-diphosphoglycerate or hemoglobin that includes a ?-Cys93 that is covalently modified to inhibit one or both salt bridges between ?-Asp94, ?-His146 and ?-Lys40. Methods for using these compositions, such as for treating carbon monoxide poisoning, and methods for producing these compositions, are also disclosed.

Abstract: Synthetic heme-containing molecules are described. The heme-containing molecules include a heme group bound to either two non-contiguous peptides or a single contiguous peptide via cysteine residues. Use of the synthetic heme-containing molecules, such as for the treatment of carboxyhemoglobinemia, cyanide poisoning and hydrogen sulfide (H2S) poisoning, is further described.

Abstract: In vitro and in vivo methods of removing carbon monoxide from hemoglobin in blood or animal tissue are described. Methods of treating carboxyhemoglobinemia (carbon monoxide poisoning) in a subject are also described. The methods include administering natural or artificial oxygen carriers that are in their reduced form. Methods of producing a reduced oxygen carrier are further described. Methods of treating cyanide poisoning or hydrogen sulfide poisoning with oxygen carriers are also described.

Abstract: It is disclosed herein that microperoxidases are capable of binding carbon monoxide (CO) with high affinity and displacing CO from hemoglobin, thereby acting as CO scavengers. The present disclosure provides methods of treating carboxyhemoglobinemia (or CO poisoning) in a subject by administering a therapeutically amount of an isolated or recombinant microperoxidase. Methods of removing CO from hemoglobin in blood or tissue by administering a therapeutically amount of an isolated or recombinant microperoxidase are also described. Methods of determining the effectiveness of a microperoxidase for removing CO from hemoglobin are further described.

Abstract: In vitro and in vivo methods of removing carbon monoxide from hemoglobin in blood or animal tissue are described. Methods of treating carboxyhemoglobinemia (carbon monoxide poisoning) in a subject are also described. The methods include administering natural or artificial oxygen carriers that are in their reduced form. Methods of producing a reduced oxygen carrier are further described. Methods of treating cyanide poisoning or hydrogen sulfide poisoning with oxygen carriers are also described.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: Synthetic heme-containing molecules are described. The heme-containing molecules include a heme group bound to either two non-contiguous peptides or a single contiguous peptide via cysteine residues. Use of the synthetic heme-containing molecules, such as for the treatment of carboxyhemoglobinemia, cyanide poisoning and hydrogen sulfide (H2S) poisoning, is further described.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: In vitro and in vivo methods of removing carbon monoxide from hemoglobin in blood or animal tissue are described. Methods of treating carboxyhemoglobinemia (carbon monoxide poisoning) in a subject are also described. The methods include administering natural or artificial oxygen carriers that are in their reduced form. Methods of producing a reduced oxygen carrier are further described. Methods of treating cyanide poisoning or hydrogen sulfide poisoning with oxygen carriers are also described.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.

Abstract: It is disclosed herein that microperoxidases are capable of binding carbon monoxide (CO) with high affinity and displacing CO from hemoglobin, thereby acting as CO scavengers. The present disclosure provides methods of treating carboxyhemoglobinemia (or CO poisoning) in a subject by administering a therapeutically amount of an isolated or recombinant microperoxidase. Methods of removing CO from hemoglobin in blood or tissue by administering a therapeutically amount of an isolated or recombinant microperoxidase are also described. Methods of determining the effectiveness of a microperoxidase for removing CO from hemoglobin are further described.

Abstract: Described herein is a new antidote for the rapid elimination of carbon monoxide from hemoglobin, including brain, heart, and red cell hemoglobin. The disclosed therapy involves the use of modified human globins, particularly neuroglobins modified at residue 64 and cytoglobins modified at residue 81, which bind carbon monoxide with extremely high affinity. The monomeric mutant globins are infused into blood, where they rapidly and irreversibly sequester carbon monoxide, and thus limit toxic effects of carbon monoxide on cellular respiration and oxygen transport and utilization.