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35 results on '"Sponagel, Jasmin"'

1. Gonadal sex patterns p21-induced cellular senescence in mouse and human glioblastoma

Author

Broestl, Lauren, Warrington, Nicole M, Grandison, Lucia, Abou-Antoun, Tamara, Tung, Olivia, Shenoy, Saraswati, Tallman, Miranda M, Rhee, Gina, Yang, Wei, Sponagel, Jasmin, Yang, Lihua, Kfoury-Beaumont, Najla, Hill, Cameron M, Qanni, Sulaiman A, Mao, Diane D, Kim, Albert H, Stewart, Sheila A, Venere, Monica, Luo, Jingqin, and Rubin, Joshua B

Subjects
Biomedical and Clinical Sciences, Oncology and Carcinogenesis, Neurosciences, Brain Cancer, Cancer, Rare Diseases, Brain Disorders, Animals, Astrocytes, Cell Line, Tumor, Cellular Senescence, Cyclin-Dependent Kinase Inhibitor p21, Female, Glioblastoma, Humans, Male, Mice, Biological sciences, Biomedical and clinical sciences
Abstract

Males exhibit higher incidence and worse prognosis for the majority of cancers, including glioblastoma (GBM). Disparate survival may be related to sex-biased responses to treatment, including radiation. Using a mouse model of GBM, we show that female cells are more sensitive to radiation, and that senescence represents a major component of the radiation therapeutic response in both sexes. Correlation analyses revealed that the CDK inhibitor p21 and irradiation induced senescence were differentially regulated between male and female cells. Indeed, female cellular senescence was more sensitive to changes in p21 levels, a finding that was observed in wildtype and transformed murine astrocytes, as well as patient-derived GBM cell lines. Using a novel Four Core Genotypes model of GBM, we further show that sex differences in p21-induced senescence are patterned during early development by gonadal sex. These data provide a rationale for the further study of sex differences in radiation response and how senescence might be enhanced for radiation sensitization. The determination that p21 and gonadal sex are required for sex differences in radiation response will serve as a foundation for these future mechanistic studies.

Published
2022

3. Sex differences in brain tumor glutamine metabolism reveal sex-specific vulnerabilities to treatment

Author

Sponagel, Jasmin, Jones, Jill K., Frankfater, Cheryl, Zhang, Shanshan, Tung, Olivia, Cho, Kevin, Tinkum, Kelsey L., Gass, Hannah, Nunez, Elena, Spitz, Douglas R., Chinnaiyan, Prakash, Schaefer, Jacob, Patti, Gary J., Graham, Maya S., Mauguen, Audrey, Grkovski, Milan, Dunphy, Mark P., Krebs, Simone, Luo, Jingqin, Rubin, Joshua B., and Ippolito, Joseph E.

Published
2022
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5. Sex differences in cancer mechanisms

Author

Rubin, Joshua B., Lagas, Joseph S., Broestl, Lauren, Sponagel, Jasmin, Rockwell, Nathan, Rhee, Gina, Rosen, Sarah F., Chen, Si, Klein, Robyn S., Imoukhuede, Princess, and Luo, Jingqin

Published
2020
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8. TMET-13. SEX DIFFERENCES IN GLUCOSE METABOLISM AND MITOCHONDRIAL FUNCTION IN GLIOBLASTOMA IMPLICATE HYPOXIA-INDUCIBLE FACTOR 1 ALPHA (HIF1A) ACTIVITY

Author

Lu, Jianyun, primary, Sponagel, Jasmin, additional, Jones, Jill, additional, Gass, Hannah, additional, Nunez, Elena, additional, Frankfater, Cheryl, additional, Williams-McLeod, Sierra, additional, Marquez, Camryn, additional, Chinnaiyan, Prakash, additional, Rubin, Joshua, additional, and Ippolito, Joseph, additional

Published
2022
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12. Sex Differences in Brain Tumor Glutamine Metabolism Reveal Sex-Specific Vulnerabilities to Treatment

Author

Sponagel, Jasmin, primary, Jones, Jill K., additional, Frankfater, Cheryl, additional, Zhang, Shanshan, additional, Tung, Olivia, additional, Cho, Kevin, additional, Tinkum, Kelsey L., additional, Gass, Hannah, additional, Nunez, Elena, additional, Spitz, Douglas R., additional, Chinnaiyan, Prakash, additional, Schaefer, Jacob, additional, Patti, Gary J., additional, Graham, Maya S., additional, Mauguen, Audrey, additional, Grkovski, Milan, additional, Dunphy, Mark P., additional, Krebs, Simone, additional, Luo, Jingqin, additional, Rubin, Joshua B., additional, and Ippolito, Joseph E., additional

Published
2021
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13. Gonadal sex patterns p21-induced cellular senescence in mouse and human glioblastoma

Author

Broestl, Lauren, primary, Grandison, Lucia, additional, Shenoy, Saraswati, additional, Tallman, Miranda M., additional, Rhee, Gina, additional, Yang, Wei, additional, Sponagel, Jasmin, additional, Kfoury-Beaumont, Najla, additional, Hill, Cameron M., additional, Mao, Diane D., additional, Kim, Albert H., additional, Stewart, Sheila A., additional, Venere, Monica, additional, Luo, Jingqin, additional, and Rubin, Joshua B., additional

Published
2021
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33. Mitochondrial pyruvate transport regulates presynaptic metabolism and neurotransmission.

Author

Tiwari, Anupama, Jongyun Myeong, Hashemiaghdam, Arsalan, Stunault, Marion I., Hao Zhang, Xiangfeng Niu, Laramie, Marissa A., Sponagel, Jasmin, Shriver, Leah P., Patti, Gary J., Klyachko, Vitaly A., and Ashrafi, Ghazaleh

Subjects
*PYRUVATES, *NEURAL transmission, *MITOCHONDRIA, *SYNAPTIC vesicles, *NERVE endings, *NEUROPLASTICITY
Abstract

Glucose has long been considered the primary fuel source for the brain. However, glucose levels fluctuate in the brain during sleep or circuit activity, posing major metabolic stress. Here, we demonstrate that the mammalian brain uses pyruvate as a fuel source, and pyruvate can support neuronal viability in the absence of glucose. Nerve terminals are sites of metabolic vulnerability, and we show that mitochondrial pyruvate uptake is a critical step in oxidative ATP production in hippocampal terminals. We find that the mitochondrial pyruvate carrier is post-translationally modified by lysine acetylation, which, in turn, modulates mitochondrial pyruvate uptake. Our data reveal that the mitochondrial pyruvate carrier regulates distinct steps in neurotransmission, namely, the spatiotemporal pattern of synaptic vesicle release and the efficiency of vesicle retrieval--functions that have profound implications for synaptic plasticity. In summary, we identify pyruvate as a potent neuronal fuel and mitochondrial pyruvate uptake as a critical node for the metabolic control of neurotransmission in hippocampal terminals. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Mitochondrial pyruvate transport regulates presynaptic metabolism and neurotransmission.

Author

Tiwari A, Myeong J, Hashemiaghdam A, Zhang H, Niu X, Laramie MA, Stunault MI, Sponagel J, Patti G, Shriver L, Klyachko V, and Ashrafi G

Abstract

Glucose has long been considered the primary fuel source for the brain. However, glucose levels fluctuate in the brain during sleep, intense circuit activity, or dietary restrictions, posing significant metabolic stress. Here, we demonstrate that the mammalian brain utilizes pyruvate as a fuel source, and pyruvate can support neuronal viability in the absence of glucose. Nerve terminals are sites of metabolic vulnerability within a neuron and we show that mitochondrial pyruvate uptake is a critical step in oxidative ATP production in hippocampal terminals. We find that the mitochondrial pyruvate carrier is post-translationally modified by lysine acetylation which in turn modulates mitochondrial pyruvate uptake. Importantly, our data reveal that the mitochondrial pyruvate carrier regulates distinct steps in synaptic transmission, namely, the spatiotemporal pattern of synaptic vesicle release and the efficiency of vesicle retrieval, functions that have profound implications for synaptic plasticity. In summary, we identify pyruvate as a potent neuronal fuel and mitochondrial pyruvate uptake as a critical node for the metabolic control of synaptic transmission in hippocampal terminals., Competing Interests: The authors declare no competing financial interests.

Published
2024
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35. Viral E6/E7 oncogene and cellular hexokinase 2 expression in HPV-positive cancer cell lines.

Author

Hoppe-Seyler K, Honegger A, Bossler F, Sponagel J, Bulkescher J, Lohrey C, and Hoppe-Seyler F

Abstract

Oncogenic types of human papillomaviruses (HPVs) are major human carcinogens. Cancer cells typically exhibit metabolic alterations which support their malignant growth. These include an enhanced rate of aerobic glycolysis ('Warburg effect') which in cancer cells is often linked to an increased expression of the rate-limiting glycolytic enzyme Hexokinase 2 (HK2). Intriguingly, recent studies indicate that the HPV E6/E7 oncogenes cause the metabolic reprogramming in HPV-positive cancer cells by directly upregulating HK2 expression. Notably, however, these results were obtained upon ectopic overexpression of E6/E7. Here, we investigated whether HK2 levels are affected by the endogenous E6/E7 amounts present in HPV-positive cancer cell lines. RNA interference analyses reveal that the sustained E6/E7 expression is critical to maintain HK2 expression levels in HeLa cells. Mechanistically, this effect is linked to the E6/E7-dependent upregulation of HK2 -stimulatory MYC expression and the E6/E7-induced downregulation of the HK2 -inhibitory micro(mi)RNA miR-143-3p. Importantly, however, a stimulatory effect of E6/E7 on HK2 expression was observed only in HeLa among a panel of 8 different HPV-positive cervical and head and neck cancer cell lines. Thus, whereas these results support the notion that E6/E7 can increase HK2 expression, they argue against the concept that the viral oncogenes, at endogenous expression levels, commonly induce the metabolic switch of HPV-positive cancer cells towards aerobic glycolysis by directly or indirectly stimulating HK2 expression., Competing Interests: CONFLICTS OF INTEREST The authors declare no conflict of interest.

Published
2017
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