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1. Disordered-to-ordered transitions in assembly factors allow the complex II catalytic subunit to switch binding partners.

Author

Sharma, Pankaj, Maklashina, Elena, Voehler, Markus, Balintova, Sona, Dvorakova, Sarka, Kraus, Michal, Vanova, Katerina, Nahacka, Zuzana, Zobalova, Renata, Boukalova, Stepana, Cunatova, Kristyna, Mracek, Tomas, Ghayee, Hans, Pacak, Karel, Rohlena, Jakub, Neuzil, Jiri, Cecchini, Gary, and Iverson, T

Subjects
Catalytic Domain, Protein Structure, Secondary
Abstract

Complex II (CII) activity controls phenomena that require crosstalk between metabolism and signaling, including neurodegeneration, cancer metabolism, immune activation, and ischemia-reperfusion injury. CII activity can be regulated at the level of assembly, a process that leverages metastable assembly intermediates. The nature of these intermediates and how CII subunits transfer between metastable complexes remains unclear. In this work, we identify metastable species containing the SDHA subunit and its assembly factors, and we assign a preferred temporal sequence of appearance of these species during CII assembly. Structures of two species show that the assembly factors undergo disordered-to-ordered transitions without the appearance of significant secondary structure. The findings identify that intrinsically disordered regions are critical in regulating CII assembly, an observation that has implications for the control of assembly in other biomolecular complexes.

Published
2024

3. Mitochondrial respiratory complex II is altered in renal carcinoma

Author

Miklovicova, Sona, Volpini, Luca, Sanovec, Ondrej, Monaco, Federica, Vanova, Katerina Hadrava, Novak, Jaromir, Boukalova, Stepana, Zobalova, Renata, Klezl, Petr, Tomasetti, Marco, Bobek, Vladimir, Fiala, Vojtech, Vcelak, Josef, Santarelli, Lory, Bielcikova, Zuzana, Komrskova, Katerina, Kolostova, Katarina, Pacak, Karel, Dvorakova, Sarka, and Neuzil, Jiri

Published
2025
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4. Mitochondrially targeted tamoxifen in patients with metastatic solid tumours: an open-label, phase I/Ib single-centre trial

Author

Bielcikova, Zuzana, Stursa, Jan, Krizova, Ludmila, Dong, Lanfeng, Spacek, Jan, Hlousek, Stanislav, Vocka, Michal, Rohlenova, Katerina, Bartosova, Olga, Cerny, Vladimir, Padrta, Tomas, Pesta, Michal, Michalek, Pavel, Hubackova, Sona Stemberkova, Kolostova, Katarina, Pospisilova, Eliska, Bobek, Vladimir, Klezl, Peter, Zobalova, Renata, Endaya, Berwini, Rohlena, Jakub, Petruzelka, Lubos, Werner, Lukas, and Neuzil, Jiri

Published
2023
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5. Role of Miro1 adaptor protein in mitochondrial mobility between cancer and stromal cells

Author

Novák Jaromír, Nahacka Zuzana, Oliveira Gabriela, Brisudova Petra, Dvorakova Sarka, Dalecka Marketa, Puttrich Verena, Grycova Lenka, Stepanek Ludek, Zobalova Renata, Terp Mikkel, Lansky Zdenek, Oliveira Paulo, Ditzel Henrik, Berridge Michael, Rohlena Jakub, and Neuzil Jiri

Subjects
horizontal mitochondrial transfer, miro1, cancer, Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991
Published
2024
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6. Pentamethinium salts suppress key metastatic processes by regulating mitochondrial function and inhibiting dihydroorotate dehydrogenase respiration

Author

Fialova, Jindriska Leischner, Hönigova, Katerina, Raudenska, Martina, Miksatkova, Lucie, Zobalova, Renata, Navratil, Jiri, Šmigová, Jana, Moturu, Taraka Ramji, Vicar, Tomas, Balvan, Jan, Vesela, Katerina, Abramenko, Nikita, Kejik, Zdenek, Kaplanek, Robert, Gumulec, Jaromir, Rosel, Daniel, Martasek, Pavel, Brábek, Jan, Jakubek, Milan, Neuzil, Jiri, and Masarik, Michal

Published
2022
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9. Reactivation of Dihydroorotate Dehydrogenase-Driven Pyrimidine Biosynthesis Restores Tumor Growth of Respiration-Deficient Cancer Cells

Author

Bajzikova, Martina, Kovarova, Jaromira, Coelho, Ana R., Boukalova, Stepana, Oh, Sehyun, Rohlenova, Katerina, Svec, David, Hubackova, Sona, Endaya, Berwini, Judasova, Kristyna, Bezawork-Geleta, Ayenachew, Kluckova, Katarina, Chatre, Laurent, Zobalova, Renata, Novakova, Anna, Vanova, Katerina, Ezrova, Zuzana, Maghzal, Ghassan J., Magalhaes Novais, Silvia, Olsinova, Marie, Krobova, Linda, An, Yong Jin, Davidova, Eliska, Nahacka, Zuzana, Sobol, Margarita, Cunha-Oliveira, Teresa, Sandoval-Acuña, Cristian, Strnad, Hynek, Zhang, Tongchuan, Huynh, Thanh, Serafim, Teresa L., Hozak, Pavel, Sardao, Vilma A., Koopman, Werner J.H., Ricchetti, Miria, Oliveira, Paulo J., Kolar, Frantisek, Kubista, Mikael, Truksa, Jaroslav, Dvorakova-Hortova, Katerina, Pacak, Karel, Gurlich, Robert, Stocker, Roland, Zhou, Yaoqi, Berridge, Michael V., Park, Sunghyouk, Dong, Lanfeng, Rohlena, Jakub, and Neuzil, Jiri

Published
2019
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10. Cell-specific modulation of mitochondrial respiration and metabolism by the pro-apoptotic Bcl-2 family members Bax and Bak

Author

Sovilj, Dana, primary, Kelemen, Cristina Daniela, additional, Dvorakova, Sarka, additional, Zobalova, Renata, additional, Raabova, Helena, additional, Kriska, Jan, additional, Hermanova, Zuzana, additional, Knotek, Tomas, additional, Anderova, Miroslava, additional, Klener, Pavel, additional, Filimonenko, Vlada, additional, Neuzil, Jiri, additional, and Andera, Ladislav, additional

Published
2023
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11. Suppression of Tumor Growth In vivo by the Mitocan α-tocopheryl Succinate Requires Respiratory Complex II

Author

Dong, Lan-Feng, Freeman, Ruth, Liu, Ji, Zobalova, Renata, Marin-Hernandez, Alvaro, Stantic, Marina, Rohlena, Jakub, Valis, Karel, Rodriguez-Enriquez, Sara, Butcher, Bevan, Goodwin, Jacob, Brunk, Ulf T, Witting, Paul K, Moreno-Sanchez, Rafael, Scheffler, Immo E, Ralph, Stephen J, and Neuzil, Jiri

Subjects
Biotechnology, Cancer, Animals, Antioxidants, Apoptosis, Blotting, Western, Cell Transformation, Neoplastic, Cells, Cultured, Colony-Forming Units Assay, Cricetinae, Cricetulus, Electron Transport Complex II, Fibroblasts, Green Fluorescent Proteins, Lung, Lung Neoplasms, Membrane Proteins, Mice, Mice, Inbred BALB C, Mice, Nude, Mitochondria, Oxygen Consumption, RNA, Messenger, Reactive Oxygen Species, Reverse Transcriptase Polymerase Chain Reaction, alpha-Tocopherol, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

PurposeVitamin E analogues are potent novel anticancer drugs. The purpose of this study was to elucidate the cellular target by which these agents, represented by alpha-tocopoheryl succinate (alpha-TOS), suppress tumors in vivo, with the focus on the mitochondrial complex II (CII).Experimental designChinese hamster lung fibroblasts with functional, dysfunctional, and reconstituted CII were transformed using H-Ras. The cells were then used to form xenografts in immunocompromized mice, and response of the cells and the tumors to alpha-TOS was studied.ResultsThe CII-functional and CII-reconstituted cells, unlike their CII-dysfunctional counterparts, responded to alpha-TOS by reactive oxygen species generation and apoptosis execution. Tumors derived from these cell lines reciprocated their responses to alpha-TOS. Thus, growth of CII-functional and CII-reconstituted tumors was strongly suppressed by the agent, and this was accompanied by high level of apoptosis induction in the tumor cells. On the other hand, alpha-TOS did not inhibit the CII-dysfunctional tumors.ConclusionsWe document in this report a novel paradigm, according to which the mitochondrial CII, which rarely mutates in human neoplasias, is a plausible target for anticancer drugs from the group of vitamin E analogues, providing support for their testing in clinical trials.

Published
2009

12. Suppression of tumor growth in vivo by the mitocan alpha-tocopheryl succinate requires respiratory complex II.

Author

Dong, Lan-Feng, Freeman, Ruth, Liu, Ji, Zobalova, Renata, Marin-Hernandez, Alvaro, Stantic, Marina, Rohlena, Jakub, Valis, Karel, Rodriguez-Enriquez, Sara, Butcher, Bevan, Goodwin, Jacob, Brunk, Ulf T, Witting, Paul K, Moreno-Sanchez, Rafael, Scheffler, Immo E, Ralph, Stephen J, and Neuzil, Jiri

Subjects
Lung, Cells, Cultured, Mitochondria, Fibroblasts, Animals, Mice, Inbred BALB C, Cricetulus, Mice, Mice, Nude, Lung Neoplasms, Cell Transformation, Neoplastic, Reactive Oxygen Species, Electron Transport Complex II, alpha-Tocopherol, Green Fluorescent Proteins, Membrane Proteins, RNA, Messenger, Antioxidants, Blotting, Western, Colony-Forming Units Assay, Reverse Transcriptase Polymerase Chain Reaction, Apoptosis, Oxygen Consumption, Cricetinae, Cells, Cultured, Inbred BALB C, Nude, Cell Transformation, Neoplastic, RNA, Messenger, Blotting, Western, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

PurposeVitamin E analogues are potent novel anticancer drugs. The purpose of this study was to elucidate the cellular target by which these agents, represented by alpha-tocopoheryl succinate (alpha-TOS), suppress tumors in vivo, with the focus on the mitochondrial complex II (CII).Experimental designChinese hamster lung fibroblasts with functional, dysfunctional, and reconstituted CII were transformed using H-Ras. The cells were then used to form xenografts in immunocompromized mice, and response of the cells and the tumors to alpha-TOS was studied.ResultsThe CII-functional and CII-reconstituted cells, unlike their CII-dysfunctional counterparts, responded to alpha-TOS by reactive oxygen species generation and apoptosis execution. Tumors derived from these cell lines reciprocated their responses to alpha-TOS. Thus, growth of CII-functional and CII-reconstituted tumors was strongly suppressed by the agent, and this was accompanied by high level of apoptosis induction in the tumor cells. On the other hand, alpha-TOS did not inhibit the CII-dysfunctional tumors.ConclusionsWe document in this report a novel paradigm, according to which the mitochondrial CII, which rarely mutates in human neoplasias, is a plausible target for anticancer drugs from the group of vitamin E analogues, providing support for their testing in clinical trials.

Published
2009

14. Disordered-to-ordered transitions in assembly factors allow the Complex II catalytic subunit to switch binding partners

Author

Sharma, Pankaj, primary, Maklashina, Elena, additional, Voehler, Markus, additional, Balintova, Sona, additional, Dvorakova, Sarka, additional, Kraus, Michal, additional, Vanova, Katerina Hadrava, additional, Nahacka, Zuzana, additional, Zobalova, Renata, additional, Boukalova, Stepana, additional, Mracek, Tomas, additional, Ghayee, Hans, additional, Pacak, Karel, additional, Rohlena, Jakub, additional, Neuzil, Jiri, additional, Cecchini, Gary, additional, and Iverson, T, additional

Published
2022
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16. Simultaneous targeting of mitochondrial metabolism and immune checkpoints as a new strategy for renal cancer therapy

Author

Stemberkova‐Hubackova, Sona, primary, Zobalova, Renata, additional, Dubisova, Maria, additional, Smigova, Jana, additional, Dvorakova, Sarka, additional, Korinkova, Klara, additional, Ezrova, Zuzana, additional, Endaya, Berwini, additional, Blazkova, Kristyna, additional, Vlcak, Erik, additional, Brisudova, Petra, additional, Le, Dan‐Diem Thi, additional, Juhas, Stefan, additional, Rosel, Daniel, additional, Daniela Kelemen, Cristina, additional, Sovilj, Dana, additional, Vacurova, Eliska, additional, Cajka, Tomas, additional, Filimonenko, Vlada, additional, Dong, Lanfeng, additional, Andera, Ladislav, additional, Hozak, Pavel, additional, Brabek, Jan, additional, Bielcikova, Zuzana, additional, Stursa, Jan, additional, Werner, Lukas, additional, and Neuzil, Jiri, additional

Published
2022
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17. Germline SUCLG2 Variants in Patients With Pheochromocytoma and Paraganglioma

Author

Hadrava Vanova, Katerina, primary, Pang, Ying, additional, Krobova, Linda, additional, Kraus, Michal, additional, Nahacka, Zuzana, additional, Boukalova, Stepana, additional, Pack, Svetlana D, additional, Zobalova, Renata, additional, Zhu, Jun, additional, Huynh, Thanh-Truc, additional, Jochmanova, Ivana, additional, Uher, Ondrej, additional, Hubackova, Sona, additional, Dvorakova, Sarka, additional, Garrett, Timothy J, additional, Ghayee, Hans K, additional, Wu, Xiaolin, additional, Schuster, Bjoern, additional, Knapp, Philip E, additional, Frysak, Zdenek, additional, Hartmann, Igor, additional, Nilubol, Naris, additional, Cerny, Jiri, additional, Taieb, David, additional, Rohlena, Jakub, additional, Neuzil, Jiri, additional, Yang, Chunzhang, additional, and Pacak, Karel, additional

Published
2021
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19. Indoleamine-2,3-dioxygenase elevated in tumor-initiating cells is suppressed by mitocans

Author

Stapelberg, Michael, Zobalova, Renata, Nguyen, Maria Nga, Walker, Tom, Stantic, Marina, Goodwin, Jacob, Pasdar, Elham Alizadeh, Thai, Thuan, Prokopova, Katerina, Yan, Bing, Hall, Susan, de Pennington, Nicholas, Thomas, Shane R., Grant, Gary, Stursa, Jan, Bajzikova, Martina, Meedeniya, Adrian C.B., Truksa, Jaroslav, Ralph, Stephen J., Ansorge, Olaf, Dong, Lan-Feng, and Neuzil, Jiri

Published
2014
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20. Novel Germline SUCLG2 Mutations in Patients With Pheochromocytoma and Paraganglioma

Author

Vanova, Katerina Hadrava, primary, Pang, Ying, additional, Krobova, Linda, additional, Kraus, Michal, additional, Nahacka, Zuzana, additional, Boukalova, Stepana, additional, Pack, Svetlana, additional, Zobalova, Renata, additional, Zhu, Jun, additional, Huynh, Thanh, additional, Jochmanova, Ivana, additional, Uher, Ondrej, additional, Hubackova, Sona, additional, Dvorakova, Sarka, additional, Garrett, Timothy, additional, Ghayee, Hans, additional, Schuster, Bjoern, additional, Knapp, Philip, additional, Frysak, Zdenek, additional, Hartmann, Igor, additional, Nilubol, Naris, additional, Cerny, Jiri, additional, Taieb, David, additional, Rohlena, Jakub, additional, Neuzil, Jiri, additional, Yang, Chun Zhang, additional, and Pacak, Karel, additional

Published
2021
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21. Drugs that Kill Cancer Stem-like Cells

Author

Zobalova, Renata, primary, Stantic, Marina, additional, Stapelberg, Michael, additional, Prokopova, Katerina, additional, Dong, Lanfeng, additional, Truksa, Jaroslav, additional, and Neuzil, Jiri, additional

Published
2011
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23. Mitochondrial targeting of α-tocopheryl succinate enhances its pro-apoptotic efficacy: A new paradigm for effective cancer therapy

Author

Dong, Lan-Feng, Jameson, Victoria J.A., Tilly, David, Prochazka, Lubomir, Rohlena, Jakub, Valis, Karel, Truksa, Jaroslav, Zobalova, Renata, Mahdavian, Elahe, Kluckova, Katarina, Stantic, Marina, Stursa, Jan, Freeman, Ruth, Witting, Paul K., Norberg, Erik, Goodwin, Jacob, Salvatore, Brian A., Novotna, Jana, Turanek, Jaroslav, Ledvina, Miroslav, Hozak, Pavel, Zhivotovsky, Boris, Coster, Mark J., Ralph, Stephen J., Smith, Robin A.J., and Neuzil, Jiri

Published
2011
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24. Germline SUCLG2 Variants in Patients With Pheochromocytoma and Paraganglioma.

Author

Vanova, Katerina Hadrava, Pang, Ying, Krobova, Linda, Kraus, Michal, Nahacka, Zuzana, Boukalova, Stepana, Pack, Svetlana D, Zobalova, Renata, Zhu, Jun, Huynh, Thanh-Truc, Jochmanova, Ivana, Uher, Ondrej, Hubackova, Sona, Dvorakova, Sarka, Garrett, Timothy J, Ghayee, Hans K, Wu, Xiaolin, Schuster, Bjoern, Knapp, Philip E, and Frysak, Zdenek

Subjects
PHEOCHROMOCYTOMA, KREBS cycle, GERM cells, SUCCINATE dehydrogenase, NEUROENDOCRINE tumors, PARAGANGLIOMA, RESEARCH, GENETIC mutation, RESEARCH methodology, EVALUATION research, COMPARATIVE studies, ADRENAL tumors, OXIDOREDUCTASES
Abstract

Background: Pheochromocytoma and paraganglioma (PPGL) are neuroendocrine tumors with frequent mutations in genes linked to the tricarboxylic acid cycle. However, no pathogenic variant has been found to date in succinyl-CoA ligase (SUCL), an enzyme that provides substrate for succinate dehydrogenase (SDH; mitochondrial complex II [CII]), a known tumor suppressor in PPGL.Methods: A cohort of 352 patients with apparently sporadic PPGL underwent genetic testing using a panel of 54 genes developed at the National Institutes of Health, including the SUCLG2 subunit of SUCL. Gene deletion, succinate levels, and protein levels were assessed in tumors where possible. To confirm the possible mechanism, we used a progenitor cell line, hPheo1, derived from a human pheochromocytoma, and ablated and re-expressed SUCLG2.Results: We describe 8 germline variants in the guanosine triphosphate-binding domain of SUCLG2 in 15 patients (15 of 352, 4.3%) with apparently sporadic PPGL. Analysis of SUCLG2-mutated tumors and SUCLG2-deficient hPheo1 cells revealed absence of SUCLG2 protein, decrease in the level of the SDHB subunit of SDH, and faulty assembly of the complex II, resulting in aberrant respiration and elevated succinate accumulation.Conclusions: Our study suggests SUCLG2 as a novel candidate gene in the genetic landscape of PPGL. Large-scale sequencing may uncover additional cases harboring SUCLG2 variants and provide more detailed information about their prevalence and penetrance. [ABSTRACT FROM AUTHOR]

Published
2022
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26. Alternative assembly of respiratory complex II connects energy stress to metabolic checkpoints

Author

Bezawork-Geleta, Ayenachew, primary, Wen, He, additional, Dong, LanFeng, additional, Yan, Bing, additional, Vider, Jelena, additional, Boukalova, Stepana, additional, Krobova, Linda, additional, Vanova, Katerina, additional, Zobalova, Renata, additional, Sobol, Margarita, additional, Hozak, Pavel, additional, Novais, Silvia Magalhaes, additional, Caisova, Veronika, additional, Abaffy, Pavel, additional, Naraine, Ravindra, additional, Pang, Ying, additional, Zaw, Thiri, additional, Zhang, Ping, additional, Sindelka, Radek, additional, Kubista, Mikael, additional, Zuryn, Steven, additional, Molloy, Mark P., additional, Berridge, Michael V., additional, Pacak, Karel, additional, Rohlena, Jakub, additional, Park, Sunghyouk, additional, and Neuzil, Jiri, additional

Published
2018
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27. Mitochondrial targeting of ?±-tocopheryl succinate enhances its pro-apoptotic efficacy: A new paradigm for effective cancer therapy

Author

Dong, Lan-Feng, Jameson, Victoria J.A., Tilly, David, Prochazka, Lubomir, Rohlena, Jakub, Valis, Karel, Truksa, Jaroslav, Zobalova, Renata, Mahdavian, Elahe, Kluckova, Katarina, Stantic, Marina, Stursa, Jan, Freeman, Ruth, Witting, Paul K., Norberg, Erik, Goodwin, Jacob, Salvatore, Brian A., Novotna, Jana, Turanek, Jaroslav, Ledvina, Miroslav, Hozak, Pavel, Zhivotovsky, Boris, Coster, Mark J., Ralph, Stephen J., Smith, Robin A.J., and Neuzil, Jiri

Published
2011
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28. Selective Disruption of Respiratory Supercomplexes as a New Strategy to Suppress Her2high Breast Cancer

Author

Rohlenova, Katerina, primary, Sachaphibulkij, Karishma, additional, Stursa, Jan, additional, Bezawork-Geleta, Ayenachew, additional, Blecha, Jan, additional, Endaya, Berwini, additional, Werner, Lukas, additional, Cerny, Jiri, additional, Zobalova, Renata, additional, Goodwin, Jacob, additional, Spacek, Tomas, additional, Alizadeh Pesdar, Elham, additional, Yan, Bing, additional, Nguyen, Maria Nga, additional, Vondrusova, Magdalena, additional, Sobol, Margaryta, additional, Jezek, Petr, additional, Hozak, Pavel, additional, Truksa, Jaroslav, additional, Rohlena, Jakub, additional, Dong, Lan-Feng, additional, and Neuzil, Jiri, additional

Published
2017
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29. Mitochondrial DNA damage, repair, and replacement in cancer

Author

Vodicka, Pavel, Vodenkova, Sona, Danesova, Natalie, Vodickova, Ludmila, Zobalova, Renata, Tomasova, Kristyna, Boukalova, Stepana, Berridge, Michael V., and Neuzil, Jiri

Abstract

Cancer is a pathology that features a high level of DNA instability.Mitochondrial DNA in solid tumors and hematological malignancies is vulnerable to DNA damage.In many cancers, the capacity for DNA damage repair is compromised, translating into a more aggressive phenotype.Damaged mitochondrial DNA, presenting as low mitochondrial DNA copy number, can be replaced by horizontal mitochondrial transfer.

Published
2024
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30. Correction: Characterisation of Mesothelioma-Initiating Cells and Their Susceptibility to Anti-Cancer Agents

Author

Pasdar, Elham Alizadeh, primary, Smits, Michael, additional, Stapelberg, Michael, additional, Bajzikova, Martina, additional, Stantic, Marina, additional, Goodwin, Jacob, additional, Yan, Bing, additional, Stursa, Jan, additional, Kovarova, Jaromira, additional, Sachaphibulkij, Karishma, additional, Bezawork-Geleta, Ayenachew, additional, Sobol, Margaryta, additional, Filimonenko, Anatoly, additional, Tomasetti, Marco, additional, Zobalova, Renata, additional, Hozak, Pavel, additional, Dong, Lan-Feng, additional, and Neuzil, Jiri, additional

Published
2016
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31. Novel Treatment of Breast and Prostate Cancer, and Mesothelioma by Targeting Cancer Stem Cells

Author

Zobalova, Renata

Subjects
Mesothelioma, Breast cancer, Cancer stem cells, Prostate Cancer, Cancer
Abstract

Cancer is a major cause of death in the western world and is becoming an increasing world-wide problem. Even though treatment and therapeutic approaches to cancer have become better and there has been great improvement in the diagnosis of this group of pathologies, many cancer types are still lethal as there is no substantial treatment available. Further, even if treatment is successful, there is a significant risk of tumour recurrence, and such a tumour is then even harder to treat due to the acquired resistance in response to exposure to the initial treatment used. Cancer stem cells (CSCs) have been suggested as a reason behind more resistant tumours and tumour recurrence. Hence, CSCs are emerging as an important target for chemotherapy in order to suppress the re-initiation of tumours. The work of this laboratory has focused on two mitocans (mitochondrially-targeted anti-cancer compounds), α-tocopheryl succinate and its mitochondrially targeted derivative MitoVES. These anti-cancer agents have been shown to be effective against a variety of cancer cells and several in vivo mouse models of cancer, while being non-toxic to normal tissue. Whether they are able to target CSCs was one of the main aims of this study. This thesis addresses several questions in regards to CSCs. Firstly, breast and prostate cancer cell lines (MCF7 and LNCaP, respectively) and a mesothelioma cell line (IstMes2) as well as primary glioblastoma cells grown in the form of spheres were confirmed as a valid model to study CSC biology and resistance to apoptosis, as both phenotypical and genotypical features confirmed increased levels of stemness.

Published
2013
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34. Characterisation of Mesothelioma-Initiating Cells and Their Susceptibility to Anti-Cancer Agents

Author

Pasdar, Elham Alizadeh, primary, Smits, Michael, additional, Stapelberg, Michael, additional, Bajzikova, Martina, additional, Stantic, Marina, additional, Goodwin, Jacob, additional, Yan, Bing, additional, Stursa, Jan, additional, Kovarova, Jaromira, additional, Sachaphibulkij, Karishma, additional, Bezawork-Geleta, Ayenachew, additional, Sobol, Margaryta, additional, Filimonenko, Anatoly, additional, Tomasetti, Marco, additional, Zobalova, Renata, additional, Hozak, Pavel, additional, Dong, Lan-Feng, additional, and Neuzil, Jiri, additional

Published
2015
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35. Selective Disruption of Respiratory Supercomplexes as a New Strategy to Suppress Her2high Breast Cancer.

Author

Rohlenova, Katerina, Sachaphibulkij, Karishma, Stursa, Jan, Bezawork-Geleta, Ayenachew, Blecha, Jan, Endaya, Berwini, Werner, Lukas, Cerny, Jiri, Zobalova, Renata, Goodwin, Jacob, Spacek, Tomas, Alizadeh Pesdar, Elham, Yan, Bing, Nguyen, Maria Nga, Vondrusova, Magdalena, Sobol, Margaryta, Jezek, Petr, Hozak, Pavel, Truksa, Jaroslav, and Rohlena, Jakub

Published
2017
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36. Corrigendum to: “Mitochondrial targeting of α-tocopheryl succinate enhances its pro-apoptotic efficacy: A new paradigm for effective cancer therapy” [Free Radic Biol Med. 50 (2011) 1546–1555]

Author

Dong, Lan-Feng, primary, Jameson, Victoria J.A., additional, Tilly, David, additional, Prochazka, Lubomir, additional, Rohlena, Jakub, additional, Valis, Karel, additional, Truksa, Jaroslav, additional, Zobalova, Renata, additional, Mahdavian, Elahe, additional, Kluckova, Katarina, additional, Stantic, Marina, additional, Stursa, Jan, additional, Freeman, Ruth, additional, Witting, Paul K., additional, Norberg, Erik, additional, Goodwin, Jacob, additional, Salvatore, Brian A., additional, Novotna, Jana, additional, Turanek, Jaroslav, additional, Ledvina, Miroslav, additional, Hozak, Pavel, additional, Zhivotovsky, Boris, additional, Coster, Mark J., additional, Ralph, Stephen J., additional, Smith, Robin A.J., additional, and Neuzil, Jiri, additional

Published
2013
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37. Mitochondrial targeting of α-tocopheryl succinate enhances its anti-mesothelioma efficacy

Author

Kovarova, Jaromira, primary, Bajzikova, Martina, additional, Vondrusova, Magdalena, additional, Stursa, Jan, additional, Goodwin, Jacob, additional, Nguyen, Maria, additional, Zobalova, Renata, additional, Pesdar, Elham Alizadeh, additional, Truksa, Jaroslav, additional, Tomasetti, Marco, additional, Dong, Lan-Feng, additional, and Neuzil, Jiri, additional

Published
2013
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38. Mitochondria transmit apoptosis signalling in cardiomyocyte-like cells and isolated hearts exposed to experimental ischemia-reperfusion injury

Author

Neuzil, Jiri, Widén, Cecilia, Gellert, Nina, Swettenham, Emma, Zobalova, Renata, Dong, Lan-Feng, Wang, Xiu-Fang, Lidebjer, Caroline, Dalen, Helge, Headrick, John P, Witting, Paul K, Neuzil, Jiri, Widén, Cecilia, Gellert, Nina, Swettenham, Emma, Zobalova, Renata, Dong, Lan-Feng, Wang, Xiu-Fang, Lidebjer, Caroline, Dalen, Helge, Headrick, John P, and Witting, Paul K

Abstract

Ischemia-reperfusion (I/R) is a condition leading to serious complications due to death of cardiac myocytes. We used the cardiomyocyte-like cell line H9c2 to study the mechanism underlying cell damage. Exposure of the cells to simulated I/R lead to their apoptosis. Over-expression of Bcl-2 and Bcl-x(L) protected the cells from apoptosis while over-expression of Bax sensitized them to programmed cell death induction. Mitochondria-targeted coenzyme Q (mitoQ) and superoxide dismutase both inhibited accumulation of reactive oxygen species (ROS) and apoptosis induction. Notably, mtDNA-deficient cells responded to I/R by decreased ROS generation and apoptosis. Using both in situ and in vivo approaches, it was found that apoptosis occurred during reperfusion following ischemia, and recovery was enhanced when hearts from mice were supplemented with mitoQ. In conclusion, I/R results in apoptosis in cultured cardiac myocytes and heart tissue largely via generation of mitochondria-derived superoxide, with ensuing apoptosis during the reperfusion phase.

Published
2007
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40. Mitochondrially Targeted α-Tocopheryl Succinate Is Antiangiogenic: Potential Benefit Against Tumor Angiogenesis but Caution Against Wound Healing

Author

Rohlena, Jakub, primary, Dong, Lan-Feng, additional, Kluckova, Katarina, additional, Zobalova, Renata, additional, Goodwin, Jacob, additional, Tilly, David, additional, Stursa, Jan, additional, Pecinova, Alena, additional, Philimonenko, Anatoly, additional, Hozak, Pavel, additional, Banerjee, Jaideep, additional, Ledvina, Miroslav, additional, Sen, Chandan K., additional, Houstek, Josef, additional, Coster, Mark J., additional, and Neuzil, Jiri, additional

Published
2011
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44. Vitamin E analogues as a novel group of mitocans: Anti-cancer agents that act by targeting mitochondria

Author

Neuzil, Jiri, primary, Dong, Lan-Feng, additional, Ramanathapuram, Lalitha, additional, Hahn, Tobias, additional, Chladova, Miroslava, additional, Wang, Xiu-Fang, additional, Zobalova, Renata, additional, Prochazka, Lubomir, additional, Gold, Mikhal, additional, Freeman, Ruth, additional, Turanek, Jaroslav, additional, Akporiaye, Emmanuel T., additional, Dyason, Jeffrey C., additional, and Ralph, Stephen J., additional

Published
2007
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45. Mitochondria transmit apoptosis signalling in cardiomyocyte-like cells and isolated hearts exposed to experimental ischemia-reperfusion injury

Author

Neuzil, Jiri, primary, Widén, Cecilia, additional, Gellert, Nina, additional, Swettenham, Emma, additional, Zobalova, Renata, additional, Dong, Lan-Feng, additional, Wang, Xiu-Fang, additional, Lidebjer, Caroline, additional, Dalen, Helge, additional, Headrick, John P., additional, and Witting, Paul K., additional

Published
2007
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46. A Peptide Conjugate of Vitamin E Succinate Targets Breast Cancer Cells with High ErbB2 Expression

Author

Wang, Xiu-Fang, primary, Birringer, Marc, additional, Dong, Lan-Feng, additional, Veprek, Pavel, additional, Low, Pauline, additional, Swettenham, Emma, additional, Stantic, Marina, additional, Yuan, Lin-Hong, additional, Zobalova, Renata, additional, Wu, Kun, additional, Ledvina, Miroslav, additional, Ralph, Stephen J., additional, and Neuzil, Jiri, additional

Published
2007
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48. Mitochondrially targeted vitamin E succinate efficiently kills breast tumour-initiating cells in a complex II-dependent manner.

Author

Bing Yan, Stantic, Marina, Zobalova, Renata, Bezawork-Geleta, Ayenachew, Stapelberg, Michael, Stursa, Jan, Prokopova, Katerina, Lanfeng Dong, and Neuzil, Jiri

Subjects
BREAST cancer treatment, THERAPEUTIC use of vitamin E, MITOCHONDRIAL pathology, SUCCINATES, GENE expression
Abstract

Background: Accumulating evidence suggests that breast cancer involves tumour-initiating cells (TICs), which play a role in initiation, metastasis, therapeutic resistance and relapse of the disease. Emerging drugs that target TICs are becoming a focus of contemporary research. Mitocans, a group of compounds that induce apoptosis of cancer cells by destabilising their mitochondria, are showing their potential in killing TICs. In this project, we investigated mitochondrially targeted vitamin E succinate (MitoVES), a recently developed mitocan, for its in vitro and in vivo efficacy against TICs. Methods: The mammosphere model of breast TICs was established by culturing murine NeuTL and human MCF7 cells as spheres. This model was verified by stem cell marker expression, tumour initiation capacity and chemotherapeutic resistance. Cell susceptibility to MitoVES was assessed and the cell death pathway investigated. In vivo efficacy was studied by grafting NeuTL TICs to form syngeneic tumours. Results: Mammospheres derived from NeuTL and MCF7 breast cancer cells were enriched in the level of stemness, and the sphere cells featured altered mitochondrial function. Sphere cultures were resistant to several established anti-cancer agents while they were susceptible to MitoVES. Killing of mammospheres was suppressed when the mitochondrial complex II, the molecular target of MitoVES, was knocked down. Importantly, MitoVES inhibited progression of syngeneic HER2high tumours derived from breast TICs by inducing apoptosis in tumour cells. Conclusions: These results demonstrate that using mammospheres, a plausible model for studying TICs, drugs that target mitochondria efficiently kill breast tumour-initiating cells. [ABSTRACT FROM AUTHOR]

Published
2015
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49. Mitochondrial targeting of α-tocopheryl succinate enhances its anti-mesothelioma efficacy.

Author

Kovarova, Jaromira, Bajzikova, Martina, Vondrusova, Magdalena, Stursa, Jan, Goodwin, Jacob, Nguyen, Maria, Zobalova, Renata, Pesdar, Elham Alizadeh, Truksa, Jaroslav, Tomasetti, Marco, Dong, Lan-Feng, and Neuzil, Jiri

Subjects
MESOTHELIOMA, ANTINEOPLASTIC agents, MITOCHONDRIAL physiology, SUCCINATES, DRUG efficacy, APOPTOSIS, REACTIVE oxygen species
Abstract

Malignant mesothelioma (MM) is a fatal neoplastic disease with no therapeutic option. Therefore, the search for novel therapies is of paramount importance. [ABSTRACT FROM AUTHOR]

Published
2014
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50. Mitochondria on the move: Horizontal mitochondrial transfer in disease and health.

Author

Lan-Feng Dong, Rohlena, Jakub, Zobalova, Renata, Nahacka, Zuzana, Rodriguez, Anne-Marie, Berridge, Michael V., and Neuzil, Jiri

Subjects
*MITOCHONDRIA, *HOMEOSTASIS, *SOMATIC cells, *ORGANELLES, *THERAPEUTICS, *CANCER treatment
Abstract

Mammalian genes were long thought to be constrained within somatic cells in most cell types. This concept was challenged recently when cellular organelles including mitochondria were shown to move between mammalian cells in culture via cytoplasmic bridges. Recent research in animals indicates transfer of mitochondria in cancer and during lung injury in vivo, with considerable functional consequences. Since these pioneering discoveries, many studies have confirmed horizontal mitochondrial transfer (HMT) in vivo, and its functional characteristics and consequences have been described. Additional support for this phenomenon has come from phylogenetic studies. Apparently, mitochondrial trafficking between cells occurs more frequently than previously thought and contributes to diverse processes including bioenergetic crosstalk and homeostasis, disease treatment and recovery, and development of resistance to cancer therapy. Here we highlight current knowledge of HMT between cells, focusing primarily on in vivo systems, and contend that this process is not only (patho) physiologically relevant, but also can be exploited for the design of novel therapeutic approaches. [ABSTRACT FROM AUTHOR]

Published
2023
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