TY  - JOUR
AU  - Žižić, Milan
AU  - Atlagić, Kristina
AU  - Karaman, Maja
AU  - Živić, Miroslav
AU  - Stanić, Marina
AU  - Maksimović, Vuk
AU  - Zakrzewska, Joanna
PY  - 2024
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/3165
AB  - BACKGROUND
Fungi absorb and solubilize a broad spectrum of heavy metals such as vanadium (V), which makes them a main route of its entry into the biosphere. V as vanadate (V5+) is a potential medical agent due to its many metabolic actions such as interaction with phosphates in the cell, and especially its insulin-mimetic activity. Antidiabetic activity of V-enriched fungi has been studied in recent years, but the biological and chemical bases of vanadium action and status in fungi in general are poorly understood, with almost no information on edible fungi. 
METHODS
This manuscript gives a deeper insight into the interaction of V5+ with Coprinellus truncorum, an edible autochthonous species widely distributed in Europe and North America. Vanadium uptake and accumulation as V5+ was studied by 51V NMR, while the reducing abilities of the mycelium were determined by EPR. 31P NMR was used to determine its effects on the metabolism of phosphate compounds, with particular focus on phosphate sugars identified using HPLC.
RESULTS
Vanadate enters the mycelium in monomeric form and shows no immediate detrimental effects on intracellular pH or polyphosphate (PPc) levels, even when applied at physiologically high concentrations (20 mM Na3VO4). Once absorbed, it is partially reduced to less toxic vanadyl (V4+) with notable unreduced portion, which leads to a large increase in phosphorylated sugar levels, especially glucose-1-phosphate (G1P) and fructose-6-phosphate (F6P).
CONCLUSIONS
Preservation of pH and especially PPc reflects maintenance of the energy status of the mycelium, i.e., its tolerance to high V5+ concentrations. Rise in G1P and F6P levels implies that the main targets of V5+ are most likely phosphoglucomutase and phosphoglucokinase(s), enzymes involved in early stages of G6P transformation in glycolysis and glycogen metabolism. This study recommends C. truncorum for further investigation as a potential antidiabetic agent.
PB  - Elsevier Gmbh, Munich
T2  - Journal of Trace Elements in Biology and Medicine
T1  - Uptake of vanadium and its intracellular metabolism by Coprinellus truncorum mycelial biomass
EP  - 127386
SP  - 127381
VL  - 83
DO  - 10.1016/j.jtemb.2024.127381
ER  - 

@article{
author = "Žižić, Milan and Atlagić, Kristina and Karaman, Maja and Živić, Miroslav and Stanić, Marina and Maksimović, Vuk and Zakrzewska, Joanna",
year = "2024",
abstract = "BACKGROUND
Fungi absorb and solubilize a broad spectrum of heavy metals such as vanadium (V), which makes them a main route of its entry into the biosphere. V as vanadate (V5+) is a potential medical agent due to its many metabolic actions such as interaction with phosphates in the cell, and especially its insulin-mimetic activity. Antidiabetic activity of V-enriched fungi has been studied in recent years, but the biological and chemical bases of vanadium action and status in fungi in general are poorly understood, with almost no information on edible fungi. 
METHODS
This manuscript gives a deeper insight into the interaction of V5+ with Coprinellus truncorum, an edible autochthonous species widely distributed in Europe and North America. Vanadium uptake and accumulation as V5+ was studied by 51V NMR, while the reducing abilities of the mycelium were determined by EPR. 31P NMR was used to determine its effects on the metabolism of phosphate compounds, with particular focus on phosphate sugars identified using HPLC.
RESULTS
Vanadate enters the mycelium in monomeric form and shows no immediate detrimental effects on intracellular pH or polyphosphate (PPc) levels, even when applied at physiologically high concentrations (20 mM Na3VO4). Once absorbed, it is partially reduced to less toxic vanadyl (V4+) with notable unreduced portion, which leads to a large increase in phosphorylated sugar levels, especially glucose-1-phosphate (G1P) and fructose-6-phosphate (F6P).
CONCLUSIONS
Preservation of pH and especially PPc reflects maintenance of the energy status of the mycelium, i.e., its tolerance to high V5+ concentrations. Rise in G1P and F6P levels implies that the main targets of V5+ are most likely phosphoglucomutase and phosphoglucokinase(s), enzymes involved in early stages of G6P transformation in glycolysis and glycogen metabolism. This study recommends C. truncorum for further investigation as a potential antidiabetic agent.",
publisher = "Elsevier Gmbh, Munich",
journal = "Journal of Trace Elements in Biology and Medicine",
title = "Uptake of vanadium and its intracellular metabolism by Coprinellus truncorum mycelial biomass",
pages = "127386-127381",
volume = "83",
doi = "10.1016/j.jtemb.2024.127381"
}

Žižić, M., Atlagić, K., Karaman, M., Živić, M., Stanić, M., Maksimović, V.,& Zakrzewska, J.. (2024). Uptake of vanadium and its intracellular metabolism by Coprinellus truncorum mycelial biomass. in Journal of Trace Elements in Biology and Medicine
Elsevier Gmbh, Munich., 83, 127381-127386.
https://doi.org/10.1016/j.jtemb.2024.127381

Žižić M, Atlagić K, Karaman M, Živić M, Stanić M, Maksimović V, Zakrzewska J. Uptake of vanadium and its intracellular metabolism by Coprinellus truncorum mycelial biomass. in Journal of Trace Elements in Biology and Medicine. 2024;83:127381-127386.
doi:10.1016/j.jtemb.2024.127381 .

Žižić, Milan, Atlagić, Kristina, Karaman, Maja, Živić, Miroslav, Stanić, Marina, Maksimović, Vuk, Zakrzewska, Joanna, "Uptake of vanadium and its intracellular metabolism by Coprinellus truncorum mycelial biomass" in Journal of Trace Elements in Biology and Medicine, 83 (2024):127381-127386,
https://doi.org/10.1016/j.jtemb.2024.127381 . .

TY  - CONF
AU  - Žižić, Milan
AU  - Živić, Miroslav
AU  - Atlagić, Kristina
AU  - Karaman, Maja
AU  - Zakrzewska, Joanna
PY  - 2021
UR  - http://rimsi.imsi.bg.ac.rs/handle/123456789/2203
AB  - Fungi could absorb heavy metals, metalloids, or radionuclides, thus fungal species possess great
potential in bioremediation. Since fungi absorb the vanadium, in the present study ability of Coprinellus
truncorum mycelia for vanadate uptake and its intracellular metabolism were investigated. The
submerged cultivated C. truncorum was exposed to a rising concentration of vanadate. 31P NMR
spectroscopy was used to investigate phosphate metabolism of the mycelium, while the status of
vanadium in the cell was followed by 51V NMR spectroscopy. The mycelium could grow, and overcome
vanadate presence, up to the concentration of 1.6 mM in the submerged medium. 31P NMR
measurements pointed out that vanadate induced changes in the concentration of the crucial metabolite
containing phosphorus, particularly sugar phosphates. The major result of vanadate action is evinced
through an appearance of a signal positioned at around 2.8 ppm, and an increased signal of hexosephosphates.
Using 51V NMR spectroscopy the presence of vanadate monomer in the mycelia of the
fungal cell was confirmed.
PB  - Institute for Information Technologies, University of Kragujevac, Serbia, Jovana Cvijića bb, 2021
C3  - 1st International Conference on Chemo and Bioinformatics, October 26-27, 2021. Kragujevac, Serbia.
T1  - INFLUENCE OF VANADIUM ON THE GROWTH AND METABOLISM OF COPRINELLUS TRUNCORUM FUNGAL MYCELIUM
EP  - 307
SP  - 304
DO  - 10.46793/ICCBI21.304Z
ER  - 

@conference{
author = "Žižić, Milan and Živić, Miroslav and Atlagić, Kristina and Karaman, Maja and Zakrzewska, Joanna",
year = "2021",
abstract = "Fungi could absorb heavy metals, metalloids, or radionuclides, thus fungal species possess great
potential in bioremediation. Since fungi absorb the vanadium, in the present study ability of Coprinellus
truncorum mycelia for vanadate uptake and its intracellular metabolism were investigated. The
submerged cultivated C. truncorum was exposed to a rising concentration of vanadate. 31P NMR
spectroscopy was used to investigate phosphate metabolism of the mycelium, while the status of
vanadium in the cell was followed by 51V NMR spectroscopy. The mycelium could grow, and overcome
vanadate presence, up to the concentration of 1.6 mM in the submerged medium. 31P NMR
measurements pointed out that vanadate induced changes in the concentration of the crucial metabolite
containing phosphorus, particularly sugar phosphates. The major result of vanadate action is evinced
through an appearance of a signal positioned at around 2.8 ppm, and an increased signal of hexosephosphates.
Using 51V NMR spectroscopy the presence of vanadate monomer in the mycelia of the
fungal cell was confirmed.",
publisher = "Institute for Information Technologies, University of Kragujevac, Serbia, Jovana Cvijića bb, 2021",
journal = "1st International Conference on Chemo and Bioinformatics, October 26-27, 2021. Kragujevac, Serbia.",
title = "INFLUENCE OF VANADIUM ON THE GROWTH AND METABOLISM OF COPRINELLUS TRUNCORUM FUNGAL MYCELIUM",
pages = "307-304",
doi = "10.46793/ICCBI21.304Z"
}

Žižić, M., Živić, M., Atlagić, K., Karaman, M.,& Zakrzewska, J.. (2021). INFLUENCE OF VANADIUM ON THE GROWTH AND METABOLISM OF COPRINELLUS TRUNCORUM FUNGAL MYCELIUM. in 1st International Conference on Chemo and Bioinformatics, October 26-27, 2021. Kragujevac, Serbia.
Institute for Information Technologies, University of Kragujevac, Serbia, Jovana Cvijića bb, 2021., 304-307.
https://doi.org/10.46793/ICCBI21.304Z

Žižić M, Živić M, Atlagić K, Karaman M, Zakrzewska J. INFLUENCE OF VANADIUM ON THE GROWTH AND METABOLISM OF COPRINELLUS TRUNCORUM FUNGAL MYCELIUM. in 1st International Conference on Chemo and Bioinformatics, October 26-27, 2021. Kragujevac, Serbia.. 2021;:304-307.
doi:10.46793/ICCBI21.304Z .

Žižić, Milan, Živić, Miroslav, Atlagić, Kristina, Karaman, Maja, Zakrzewska, Joanna, "INFLUENCE OF VANADIUM ON THE GROWTH AND METABOLISM OF COPRINELLUS TRUNCORUM FUNGAL MYCELIUM" in 1st International Conference on Chemo and Bioinformatics, October 26-27, 2021. Kragujevac, Serbia. (2021):304-307,
https://doi.org/10.46793/ICCBI21.304Z . .