pyridoxal-isonicotinoyl-hydrazone and 2-pyridylcarboxaldehyde-isonicotinoylhydrazone

pyridoxal-isonicotinoyl-hydrazone has been researched along with 2-pyridylcarboxaldehyde-isonicotinoylhydrazone* in 1 studies

Other Studies

1 other study(ies) available for pyridoxal-isonicotinoyl-hydrazone and 2-pyridylcarboxaldehyde-isonicotinoylhydrazone

Article	Year
Future of toxicology--iron chelators and differing modes of action and toxicity: the changing face of iron chelation therapy. Chemical research in toxicology, 2007, Volume: 20, Issue:5 Iron (Fe) chelation therapy was initially designed to alleviate the toxic effects of excess Fe evident in Fe-overload diseases. However, the novel toxicological properties of some Fe chelator-metal complexes have shifted appreciable focus to their application in cancer chemotherapy. Redox-inactive Fe chelator complexes are well suited for the treatment of Fe-overload diseases, whereas Fe chelator complexes with high redox activity have shown promising results as chemotherapeutics against cancer. Within this perspective, we discuss the different modes of action and toxicological profiles of Fe chelators, including analogues of 2-pyridylcarboxaldehyde isonicotinoyl hydrazone, di-2-pyridylketone isonicotinoyl hydrazone, di-2-pyridylketone thiosemicarbazone, and the clinically trialed chelator 3-aminopyridine-2-carboxaldehyde thiosemicarbazone. The potential application of these agents in the changing face of Fe chelation therapy is discussed. Topics: Chelation Therapy; Humans; Hydrazones; Iron Chelating Agents; Iron Overload; Isoniazid; Pyridines; Pyridoxal; Structure-Activity Relationship; Thiosemicarbazones; Toxicology	2007

Article

Year

Future of toxicology--iron chelators and differing modes of action and toxicity: the changing face of iron chelation therapy.

Chemical research in toxicology, 2007, Volume: 20, Issue:5

Iron (Fe) chelation therapy was initially designed to alleviate the toxic effects of excess Fe evident in Fe-overload diseases. However, the novel toxicological properties of some Fe chelator-metal complexes have shifted appreciable focus to their application in cancer chemotherapy. Redox-inactive Fe chelator complexes are well suited for the treatment of Fe-overload diseases, whereas Fe chelator complexes with high redox activity have shown promising results as chemotherapeutics against cancer. Within this perspective, we discuss the different modes of action and toxicological profiles of Fe chelators, including analogues of 2-pyridylcarboxaldehyde isonicotinoyl hydrazone, di-2-pyridylketone isonicotinoyl hydrazone, di-2-pyridylketone thiosemicarbazone, and the clinically trialed chelator 3-aminopyridine-2-carboxaldehyde thiosemicarbazone. The potential application of these agents in the changing face of Fe chelation therapy is discussed.

Topics: Chelation Therapy; Humans; Hydrazones; Iron Chelating Agents; Iron Overload; Isoniazid; Pyridines; Pyridoxal; Structure-Activity Relationship; Thiosemicarbazones; Toxicology

2007