TY  - JOUR
AU  - Krunić, Matija
AU  - Ristić, Biljana
AU  - Bošnjak, Mihajlo
AU  - Paunović, Verica
AU  - Tovilović-Kovačević, Gordana
AU  - Zagović, Nevena
AU  - Mirčić, Aleksandar
AU  - Marković, Zoran
AU  - Todorović Marković, Biljana
AU  - Jovanović, Svetlana
AU  - Kleut, Duška
AU  - Mojović, Miloš
AU  - Nakarada, Đura
AU  - Marković, Olivera S.
AU  - Vuković, Irena
AU  - Harhaji-Trajković, Ljubica
AU  - Trajković, Vladimir
PY  - 2021
UR  - http://cherry.chem.bg.ac.rs/handle/123456789/5467
AB  - We investigated the ability of graphene quantum dot (GQD) nanoparticles to protect SH-SY5Y human neuro blastoma cells from oxidative/nitrosative stress induced by iron-nitrosyl complex sodium nitroprusside (SNP). 
GQD reduced SNP cytotoxicity by preventing mitochondrial depolarization, caspase-2 activation, and subsequent 
apoptotic death. Although GQD diminished the levels of nitric oxide (NO) in SNP-exposed cells, NO scavengers 
displayed only a slight protective effect, suggesting that NO quenching was not the main protective mechanism of 
GQD. GQD also reduced SNP-triggered increase in the intracellular levels of hydroxyl radical (
•
OH), superoxide 
anion (O2
•− ), and lipid peroxidation. Nonselective antioxidants, •
OH scavenging, and iron chelators, but not 
superoxide dismutase, mimicked GQD cytoprotective activity, indicating that GQD protect cells by neutralizing •
OH generated in the presence of SNP-released iron. Cellular internalization of GQD was required for optimal 
protection, since a removal of extracellular GQD by extensive washing only partly diminished their protective 
effect. Moreover, GQD cooperated with SNP to induce autophagy, as confirmed by the inhibition of autophagy limiting Akt/PRAS40/mTOR signaling and increase in autophagy gene transcription, protein levels of proauto phagic beclin-1 and LC3-II, formation of autophagic vesicles, and degradation of autophagic target p62. The 
antioxidant activity of GQD was not involved in autophagy induction, as antioxidants N-acetylcysteine and 
dimethyl sulfoxide failed to stimulate autophagy in SNP-exposed cells. Pharmacological inhibitors of early 
(wortmannin, 3-methyladenine) or late stages of autophagy (NH4Cl) efficiently reduced the protective effect of 
GQD. Therefore, the ability of GQD to prevent the in vitro neurotoxicity of SNP depends on both •
OH/NO 
scavenging and induction of cytoprotective autophagy.
PB  - Elsevier
T2  - Free Radical Biology and Medicine
T1  - Graphene quantum dot antioxidant and proautophagic actions protect  SH-SY5Y neuroblastoma cells from oxidative stress-mediated  apoptotic death
VL  - 177
SP  - 167
EP  - 180
DO  - 10.1016/j.freeradbiomed.2021.10.025
ER  - 

@article{
author = "Krunić, Matija and Ristić, Biljana and Bošnjak, Mihajlo and Paunović, Verica and Tovilović-Kovačević, Gordana and Zagović, Nevena and Mirčić, Aleksandar and Marković, Zoran and Todorović Marković, Biljana and Jovanović, Svetlana and Kleut, Duška and Mojović, Miloš and Nakarada, Đura and Marković, Olivera S. and Vuković, Irena and Harhaji-Trajković, Ljubica and Trajković, Vladimir",
year = "2021",
abstract = "We investigated the ability of graphene quantum dot (GQD) nanoparticles to protect SH-SY5Y human neuro blastoma cells from oxidative/nitrosative stress induced by iron-nitrosyl complex sodium nitroprusside (SNP). 
GQD reduced SNP cytotoxicity by preventing mitochondrial depolarization, caspase-2 activation, and subsequent 
apoptotic death. Although GQD diminished the levels of nitric oxide (NO) in SNP-exposed cells, NO scavengers 
displayed only a slight protective effect, suggesting that NO quenching was not the main protective mechanism of 
GQD. GQD also reduced SNP-triggered increase in the intracellular levels of hydroxyl radical (
•
OH), superoxide 
anion (O2
•− ), and lipid peroxidation. Nonselective antioxidants, •
OH scavenging, and iron chelators, but not 
superoxide dismutase, mimicked GQD cytoprotective activity, indicating that GQD protect cells by neutralizing •
OH generated in the presence of SNP-released iron. Cellular internalization of GQD was required for optimal 
protection, since a removal of extracellular GQD by extensive washing only partly diminished their protective 
effect. Moreover, GQD cooperated with SNP to induce autophagy, as confirmed by the inhibition of autophagy limiting Akt/PRAS40/mTOR signaling and increase in autophagy gene transcription, protein levels of proauto phagic beclin-1 and LC3-II, formation of autophagic vesicles, and degradation of autophagic target p62. The 
antioxidant activity of GQD was not involved in autophagy induction, as antioxidants N-acetylcysteine and 
dimethyl sulfoxide failed to stimulate autophagy in SNP-exposed cells. Pharmacological inhibitors of early 
(wortmannin, 3-methyladenine) or late stages of autophagy (NH4Cl) efficiently reduced the protective effect of 
GQD. Therefore, the ability of GQD to prevent the in vitro neurotoxicity of SNP depends on both •
OH/NO 
scavenging and induction of cytoprotective autophagy.",
publisher = "Elsevier",
journal = "Free Radical Biology and Medicine",
title = "Graphene quantum dot antioxidant and proautophagic actions protect  SH-SY5Y neuroblastoma cells from oxidative stress-mediated  apoptotic death",
volume = "177",
pages = "167-180",
doi = "10.1016/j.freeradbiomed.2021.10.025"
}

Krunić, M., Ristić, B., Bošnjak, M., Paunović, V., Tovilović-Kovačević, G., Zagović, N., Mirčić, A., Marković, Z., Todorović Marković, B., Jovanović, S., Kleut, D., Mojović, M., Nakarada, Đ., Marković, O. S., Vuković, I., Harhaji-Trajković, L.,& Trajković, V.. (2021). Graphene quantum dot antioxidant and proautophagic actions protect  SH-SY5Y neuroblastoma cells from oxidative stress-mediated  apoptotic death. in Free Radical Biology and Medicine
Elsevier., 177, 167-180.
https://doi.org/10.1016/j.freeradbiomed.2021.10.025

Krunić M, Ristić B, Bošnjak M, Paunović V, Tovilović-Kovačević G, Zagović N, Mirčić A, Marković Z, Todorović Marković B, Jovanović S, Kleut D, Mojović M, Nakarada Đ, Marković OS, Vuković I, Harhaji-Trajković L, Trajković V. Graphene quantum dot antioxidant and proautophagic actions protect  SH-SY5Y neuroblastoma cells from oxidative stress-mediated  apoptotic death. in Free Radical Biology and Medicine. 2021;177:167-180.
doi:10.1016/j.freeradbiomed.2021.10.025 .

Krunić, Matija, Ristić, Biljana, Bošnjak, Mihajlo, Paunović, Verica, Tovilović-Kovačević, Gordana, Zagović, Nevena, Mirčić, Aleksandar, Marković, Zoran, Todorović Marković, Biljana, Jovanović, Svetlana, Kleut, Duška, Mojović, Miloš, Nakarada, Đura, Marković, Olivera S., Vuković, Irena, Harhaji-Trajković, Ljubica, Trajković, Vladimir, "Graphene quantum dot antioxidant and proautophagic actions protect  SH-SY5Y neuroblastoma cells from oxidative stress-mediated  apoptotic death" in Free Radical Biology and Medicine, 177 (2021):167-180,
https://doi.org/10.1016/j.freeradbiomed.2021.10.025 . .

TY  - DATA
AU  - Trmčić, Milena
AU  - Matović, Radomir
AU  - Tovilović, Gordana
AU  - Ristić, Biljana Z.
AU  - Trajković, Vladimir S.
AU  - Ferjančić, Zorana
AU  - Saičić, Radomir
PY  - 2012
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/3673
PB  - Royal Soc Chemistry, Cambridge
T2  - Organic and Biomolecular Chemistry
T1  - Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f
UR  - https://hdl.handle.net/21.15107/rcub_cherry_3673
ER  - 

@misc{
author = "Trmčić, Milena and Matović, Radomir and Tovilović, Gordana and Ristić, Biljana Z. and Trajković, Vladimir S. and Ferjančić, Zorana and Saičić, Radomir",
year = "2012",
publisher = "Royal Soc Chemistry, Cambridge",
journal = "Organic and Biomolecular Chemistry",
title = "Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f",
url = "https://hdl.handle.net/21.15107/rcub_cherry_3673"
}

Trmčić, M., Matović, R., Tovilović, G., Ristić, B. Z., Trajković, V. S., Ferjančić, Z.,& Saičić, R.. (2012). Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f. in Organic and Biomolecular Chemistry
Royal Soc Chemistry, Cambridge..
https://hdl.handle.net/21.15107/rcub_cherry_3673

Trmčić M, Matović R, Tovilović G, Ristić BZ, Trajković VS, Ferjančić Z, Saičić R. Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f. in Organic and Biomolecular Chemistry. 2012;.
https://hdl.handle.net/21.15107/rcub_cherry_3673 .

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, "Supplementary data for article:Trmčić, M.; Matović, R. V.; Tovilović, G.; Ristic, B. Z.; Trajković, V. S.; Ferjančić, Z.; Saičić, R. A Novel C,D-Spirolactone Analogue of Paclitaxel: Autophagy Instead of Apoptosis as a Previously Unknown Mechanism of Cytotoxic Action for Taxoids. Organic and Biomolecular Chemistry 2012, 10 (25), 4933–4942. https://doi.org/10.1039/c2ob25514f" in Organic and Biomolecular Chemistry (2012),
https://hdl.handle.net/21.15107/rcub_cherry_3673 .

TY  - JOUR
AU  - Trmčić, Milena
AU  - Matović, Radomir
AU  - Tovilović, Gordana
AU  - Ristić, Biljana Z.
AU  - Trajković, Vladimir S.
AU  - Ferjančić, Zorana
AU  - Saičić, Radomir
PY  - 2012
UR  - https://cherry.chem.bg.ac.rs/handle/123456789/1304
AB  - The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis.
PB  - Royal Soc Chemistry, Cambridge
T2  - Organic and Biomolecular Chemistry
T1  - A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids
VL  - 10
IS  - 25
SP  - 4933
EP  - 4942
DO  - 10.1039/c2ob25514f
ER  - 

@article{
author = "Trmčić, Milena and Matović, Radomir and Tovilović, Gordana and Ristić, Biljana Z. and Trajković, Vladimir S. and Ferjančić, Zorana and Saičić, Radomir",
year = "2012",
abstract = "The design, synthesis and biological evaluation of a novel C, D-spirolactone analogue of paclitaxel is described. This is the first paclitaxel analogue without an oxetane D-ring that shows a significant cytotoxic effect (activity one order of magnitude lower than paclitaxel). More importantly, its cytotoxicity is a result of a different mechanism of action, involving mTOR inhibition-dependent autophagy instead of G(2)/M cell cycle arrest-dependent apoptosis.",
publisher = "Royal Soc Chemistry, Cambridge",
journal = "Organic and Biomolecular Chemistry",
title = "A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids",
volume = "10",
number = "25",
pages = "4933-4942",
doi = "10.1039/c2ob25514f"
}

Trmčić, M., Matović, R., Tovilović, G., Ristić, B. Z., Trajković, V. S., Ferjančić, Z.,& Saičić, R.. (2012). A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids. in Organic and Biomolecular Chemistry
Royal Soc Chemistry, Cambridge., 10(25), 4933-4942.
https://doi.org/10.1039/c2ob25514f

Trmčić M, Matović R, Tovilović G, Ristić BZ, Trajković VS, Ferjančić Z, Saičić R. A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids. in Organic and Biomolecular Chemistry. 2012;10(25):4933-4942.
doi:10.1039/c2ob25514f .

Trmčić, Milena, Matović, Radomir, Tovilović, Gordana, Ristić, Biljana Z., Trajković, Vladimir S., Ferjančić, Zorana, Saičić, Radomir, "A novel C,D-spirolactone analogue of paclitaxel: autophagy instead of apoptosis as a previously unknown mechanism of cytotoxic action for taxoids" in Organic and Biomolecular Chemistry, 10, no. 25 (2012):4933-4942,
https://doi.org/10.1039/c2ob25514f . .