Mössbauer studies of different types of hematin

Applications of Mössbauer Spectroscopy in Biomedical Research

A brief review on the applications of Mössbauer spectroscopy in biomedical research discusses the results of more than fifty years of experience in this field. Basing on the numerous results the main directions of biomedical applications of Mössbauer spectroscopy are considered as follows: 1) studies of the quantitative changes of iron-containing biomolecules related to pathological processes; 2) studies of the qualitative changes in iron-containing biomolecules related to pathological processes; 3) studies of the effect of various environmental factors (physical, chemical, and biological) on iron-containing biomolecules; 4) studies of metabolic processes by means of analysis of the Mössbauer nuclides pathways in organisms; 5) studies of dynamic processes; 6) studies of pharmaceutical compounds and blood substitutes containing Mössbauer nuclides; 7) miscellaneous studies. Some examples of biomedical research using ⁵⁷Fe, ⁵⁷Co, ¹¹⁹Sn, ¹⁵³Sm, and ¹⁹⁷Au Mössbauer nuclides are presented.

Definition of an electronic profile of compounds with inhibitory activity against hematin aggregation in malaria parasite

Malaria is one of the most important parasitic diseases, affecting almost half of the world and posing a threat to the other half. Xanthone derivatives can behave as antimalarial drugs in the same mechanistic way as chloroquine and other related quinolines. This action is due to the inhibition of the detoxification pathway of the parasite, responsible for the production of hemozoin. We report a study of the electronic properties of the xanthonic and quinolinic compounds based on DFT calculations, in order to determine a pattern that could be applied to the development of new potentially active antimalarial molecules. As a result, a new interpretation of structure-activity relationship of the quinoline antimalarial drugs, and of the active hydroxylated xanthones is proposed here. We conclude that electronic features rather than steric factors control primarily the inhibitory activity of the studied compounds against hematin aggregation, concurring to a potential antimalarial activity.

Physico-chemical aspects of hemozoin (malaria pigment) structure and formation

Recent literature dealing with the chemical composition, structure and mechanism of formation of hemozoin and its synthetic counterpart, beta-hematin, is reviewed.

Alcohol-water as a novel medium for beta-hematin preparation

It is shown that alcohol-water mixtures (e.g., 43 wt% ethanol) provide a suitable medium for the efficient production in high yield of beta-hematin from ferriprotoporphyrin IX (FP), as measured by infrared spectroscopy. Previous and present light-absorption data of FP, obtained under specific acid conditions in an ethanol-water medium, suggest the presence of FP monomers, which are considered to promote the reaction leading to beta-hematin. Other aspects of the mechanism of reaction are discussed.