Celeste Buchensky scite author profile

Heme (iron protoporphyrin IX) is an important molecule involved in many biological reactions, including oxygen transport, respiration, photosynthesis and drug detoxification. Trypanosoma cruzi parasites, the etiological agent of Chagas' disease, take up heme from the environment to supply their nutritional needs because they do not synthesize this cofactor. However, the mechanisms involved in heme transport across biological membranes are poorly understood. Indeed, in T. cruzi, no heme transporter has yet been characterized. In the present work, we evaluate the heme uptake processes by T. cruzi epimastigotes using fluorescent heme-analogues. Heme uptake decreased significantly when cells were pretreated with different concentrations of SnPPIX, PdMPIX or ZnMPIX, this observed competition suggests that they are taken up by the same transport system. We studied the growth behavior of epimastigotes using the same heme-analogues and the treatments with SnPPIX or PdMPIX impaired cell growth but when heme was added to the culture medium the observed inhibition was partially reversed. In addition, we tested how the heme uptake processes are affected by the presence of different transporter inhibitors. When the cells were treated with inhibitors and then incubated with heme, heme uptake decreased significantly for all treatments. These results constitute a strong indication for the existence of a protein associated with porphyrin transport in T. cruzi, possibly ATP-binding cassette transporters (ABC-transporter).

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Frataxin Is Localized to Both the Chloroplast and Mitochondrion and Is Involved in Chloroplast Fe-S Protein Function in Arabidopsis

Turowski

Aknin²,

Maliandi

et al. 2015

PLoS ONE

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Frataxin plays a key role in eukaryotic cellular iron metabolism, particularly in mitochondrial heme and iron-sulfur (Fe-S) cluster biosynthesis. However, its precise role has yet to be elucidated. In this work, we studied the subcellular localization of Arabidopsis frataxin, AtFH, using confocal microscopy, and found a novel dual localization for this protein. We demonstrate that plant frataxin is targeted to both the mitochondria and the chloroplast, where it may play a role in Fe-S cluster metabolism as suggested by functional studies on nitrite reductase (NIR) and ferredoxin (Fd), two Fe-S containing chloroplast proteins, in AtFH deficient plants. Our results indicate that frataxin deficiency alters the normal functioning of chloroplasts by affecting the levels of Fe, chlorophyll, and the photosynthetic electron transport chain in this organelle.

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Celeste Buchensky

The heme uptake process in Trypanosoma cruzi epimastigotes is inhibited by heme analogues and by inhibitors of ABC transporters

Frataxin Is Localized to Both the Chloroplast and Mitochondrion and Is Involved in Chloroplast Fe-S Protein Function in Arabidopsis

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