Your search keyword '"Johanna Ramos"' showing total 5 results

1. GOT1 inhibition promotes pancreatic cancer cell death by ferroptosis

Author

Nupur K. Das, Amy L. Myers, Costas A. Lyssiotis, Stephen A. Sastra, Li Zhang, Christopher J. Halbrook, Samuel K. McBrayer, Anthony Andren, Yatrik M. Shah, Michael A. Badgley, Marina Pasca di Magliano, Andrew C. Little, Daniel M. Kremer, John M. Asara, Lin Lin, Kenneth P. Olive, Emily L. Yarosz, Nneka E. Mbah, Milan R. Savani, Sean W. Hou, Nicholas Cusmano, Tina Gao, Zeribe C. Nwosu, Peter Sajjakulnukit, Carmine F. Palermo, Mengrou Shan, Johanna Ramos, Stephanie Wisner, Brian Magnuson, Barbara S. Nelson, Galloway Thurston, Eileen S. Carpenter, Howard C. Crawford, and Samuel A. Kerk

Subjects

Cytoplasmic, endocrine system diseases, General Physics and Astronomy, Antioxidants, Mice, chemistry.chemical_compound, 2.1 Biological and endogenous factors, Aetiology, Cancer, Gene knockdown, Tumor, Multidisciplinary, Chemistry, Glutathione, Cancer metabolism, Mitochondria, Cell biology, Cystine, Aspartate Aminotransferase, Cytoplasmic, hormones, hormone substitutes, and hormone antagonists, Programmed cell death, Cell Survival, Iron, Science, Oxidative phosphorylation, Article, General Biochemistry, Genetics and Molecular Biology, Cell Line, Pancreatic Cancer, Rare Diseases, Cell Line, Tumor, Pancreatic cancer, medicine, Animals, Ferroptosis, Humans, Cell Proliferation, Autophagy, nutritional and metabolic diseases, Aspartate Aminotransferase, General Chemistry, Metabolism, medicine.disease, Pancreatic Neoplasms, Cytosol, Digestive Diseases

Abstract

Cancer metabolism is rewired to support cell survival in response to intrinsic and environmental stressors. Identification of strategies to target these adaptions is an area of active research. We previously described a cytosolic aspartate aminotransaminase (GOT1)-driven pathway in pancreatic cancer used to maintain redox balance. Here, we sought to identify metabolic dependencies following GOT1 inhibition to exploit this feature of pancreatic cancer and to provide additional insight into regulation of redox metabolism. Using pharmacological methods, we identify cysteine, glutathione, and lipid antioxidant function as metabolic vulnerabilities following GOT1 withdrawal. We demonstrate that targeting any of these pathways triggers ferroptosis, an oxidative, iron-dependent form of cell death, in GOT1 knockdown cells. Mechanistically, we reveal that GOT1 inhibition represses mitochondrial metabolism and promotes a catabolic state. Consequently, we find that this enhances labile iron availability through autophagy, which potentiates the activity of ferroptotic stimuli. Overall, our study identifies a biochemical connection between GOT1, iron regulation, and ferroptosis., The aspartate aminotransaminase GOT1 is important for maintaining redox balance. Here, the authors show that inhibition of GOT1 in pancreatic cancer cells leads to cell death via ferroptosis.

Published

2021

2. Tissue of origin dictates GOT1 dependence and confers synthetic lethality to radiotherapy

Author

Brandon Nicolay, Amy L. Myers, John M. Asara, Cecilia Cotta-Ramusino, Lin Lin, Johanna Ramos, Christopher J. Halbrook, Scott Campit, Ho-Joon Lee, Joseph Dresser, Alec C. Kimmelman, Ilya Kovalenko, Oksana Mashadova, Lewis C. Cantley, Tina Gao, Zeribe C. Nwosu, Costas A. Lyssiotis, Howard C. Crawford, Daniel R. Wahl, Zachary P. Tolstyka, Daniel M. Kremer, Barbara S. Nelson, Kari Wilder-Romans, Mary A. Davis, Cristovão M. Sousa, and Sriram Chandrasekaran

Subjects

PDA, Stable isotope tracing, Colorectal cancer, education, Synthetic lethality, lcsh:RC254-282, Redox, 03 medical and health sciences, chemistry.chemical_compound, Metabolomics, 0302 clinical medicine, Pancreatic cancer, NADPH, medicine, Glycolysis, 030304 developmental biology, Fluxomics, 0303 health sciences, Gene knockdown, Research, Metabolism, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, CRC, Psychiatry and Mental health, chemistry, Cell culture, 030220 oncology & carcinogenesis, Cancer cell, Cancer research, Growth inhibition

Abstract

Background Metabolic programs in cancer cells are influenced by genotype and the tissue of origin. We have previously shown that central carbon metabolism is rewired in pancreatic ductal adenocarcinoma (PDA) to support proliferation through a glutamate oxaloacetate transaminase 1 (GOT1)-dependent pathway. Methods We utilized a doxycycline-inducible shRNA-mediated strategy to knockdown GOT1 in PDA and colorectal cancer (CRC) cell lines and tumor models of similar genotype. These cells were analyzed for the ability to form colonies and tumors to test if tissue type impacted GOT1 dependence. Additionally, the ability of GOT1 to impact the response to chemo- and radiotherapy was assessed. Mechanistically, the associated specimens were examined using a combination of steady-state and stable isotope tracing metabolomics strategies and computational modeling. Statistics were calculated using GraphPad Prism 7. One-way ANOVA was performed for experiments comparing multiple groups with one changing variable. Student’s t test (unpaired, two-tailed) was performed when comparing two groups to each other. Metabolomics data comparing three PDA and three CRC cell lines were analyzed by performing Student’s t test (unpaired, two-tailed) between all PDA metabolites and CRC metabolites. Results While PDA exhibits profound growth inhibition upon GOT1 knockdown, we found CRC to be insensitive. In PDA, but not CRC, GOT1 inhibition disrupted glycolysis, nucleotide metabolism, and redox homeostasis. These insights were leveraged in PDA, where we demonstrate that radiotherapy potently enhanced the effect of GOT1 inhibition on tumor growth. Conclusions Taken together, these results illustrate the role of tissue type in dictating metabolic dependencies and provide new insights for targeting metabolism to treat PDA.

Published

2020

3. Actividad física y calidad de vida en personas con enfermedad renal crónica

Author

Yaneth Herazo-Beltrán, Jorge Gil Cataño, Johanna Ramos de Ávila, and Yisel Pinillos-Patiño

Subjects

medicine.medical_specialty, Cross-sectional study, business.industry, Physical health, General Medicine, Disease, medicine.disease, Kidney Failure, Quality of life, Renal Dialysis, Internal medicine, Quality of Life, medicine, Kidney Failure, Chronic, In patient, Chronic, Exercise physiology, business, Exercise, Disease burden, Kidney disease

Abstract

Background: Physical activity may improve quality of life in patients with chronic kidney disease. Aim: To assess the relationship between physical activity and quality of life in patients with Chronic Kidney Disease. Material and Methods: The Kidney Disease Quality of Life-36 (KDQOL-36) and the International Physical Activity questionnaire were answered by 130 patients with chronic kidney disease (74 women, 80 receiving renal substitution therapy). Sociodemographic variables were recorded. Results: Patients on renal substitution therapy with a time lapse since diagnosis of 0 to 6 months had higher levels of physical activity than those with longer time lapses (51.4 ± 12.5 and 34.6 ± 8.1 minutes respectively). Disease burden scores were lower among patients with renal substitution therapy. There was a direct correlation between levels of vigorous and moderate physical activity and the physical functioning dimension in the quality of life questionnaire for patients with more than 19 months of disease. The dimension general physical health was significantly associated with physical activity in women and patients with 7 to 18 months of diagnosis. The dimension disease burden was associated with physical activity in women, patients not receiving substitution therapy and those with 7 to 18 months of diagnosis. Conclusions: Moderate and vigorous physical activity is directly related to the dimensions physical functioning, the general perception of physical health and inversely related with the dimension burden of disease.

Published

2019

4. The Pancreatic Tumor Microenvironment Compensates for Loss of GOT2

Author

Marina Pasca di Magliano, Yatrik M. Shah, David B. Lombard, Peter Sajjakulnukit, Stefanie Galbán, Barbara S. Nelson, Amy L. Myers, Sarah E. Ackenhusen, Xiaohua Gao, Zeribe C. Nwosu, Yaqing Zhang, Howard C. Crawford, Christopher J. Halbrook, Jennifer A. Jiménez, Hui-Ju Wen, Lin Lin, David Piwnica-Worms, Samuel A. Kerk, Brandon Chen, Anthony Robinson, Megan T. Hoffman, Li Zhang, Johanna Ramos, Anthony Andren, Nina Steele, Haoqiang Ying, Daniel Long, Galloway Thurston, Samantha Kemp, and Costas A. Lyssiotis

Subjects

Tumor microenvironment, Chemistry, In vivo, Pancreatic tumor, Cancer research, medicine, Cancer-Associated Fibroblasts, Metabolism, medicine.disease, Carcinogenesis, medicine.disease_cause, GOT2, Intracellular

Abstract

The tumor microenvironment (TME) in pancreatic ductal adenocarcinoma (PDA) restricts vascularization and, consequently, access to blood-derived nutrients and oxygen, which impacts tumor growth. Intracellular redox imbalance is another restraint on cellular proliferation, yet it is unknown if the TME contributes to the maintenance of redox homeostasis in PDA cells. Here, we demonstrate that the loss of mitochondrial glutamate-oxaloacetate transaminase 2 (GOT2), a component in the malate-aspartate shuttle, disturbs redox homeostasis and halts proliferation of PDA cells in vitro. In contrast, GOT2 inhibition has no effect on in vivo tumor growth or tumorigenesis in an autochthonous model. We propose that this discrepancy is explained by heterocellular pyruvate exchange from the TME, including from cancer associated fibroblasts. More broadly, pyruvate similarly confers resistance to inhibitors of mitochondrial respiration. Genetic or pharmacologic inhibition of pyruvate uptake or metabolism abrogated pyruvate-mediated alleviation of reductive stress from NADH buildup. In sum, this work describes a potential resistance mechanism mediated by metabolic crosstalk within the pancreatic TME. These findings have important implications for metabolic treatment strategies since several mitochondrial inhibitors are currently in clinical trials for PDA and other cancers.

Published

2020

5. EPCT-03. SERIAL PLASMA AND CSF CELL-FREE TUMOR DNA (CF-TDNA) TRACKING IN DIFFUSE MIDLINE GLIOMA PATIENTS UNDERGOING TREATMENT WITH ONC201

Author

Ian Wolfe, Ramya Ravindran, Rajen Mody, Carl Koschmann, Joshua E. Allen, Hugh J. L. Garton, Sunjong Ji, Sabine Mueller, Andrea Franson, Evan Cantor, Abed Rhaman Kawakibi, Partricia Robertson, Clarissa May Babilla, Soumen Khatua, Rodrigo Cartaxo, Johanna Ramos, Nicholas A Vitanza, Alyssa Paul, Marcia Leonard, Sharon Gardner, Rohinton S. Tarapore, Yazmin Odia, Chase Thomas, Amy K. Bruzek, Kyle Wierzbicki, Jack Wadden, Viveka Nand Yadav, and Cassie Kline

Subjects

Cancer Research, Bevacizumab, medicine.diagnostic_test, business.industry, Lumbar puncture, Radiography, Magnetic resonance imaging, medicine.disease, Spinal cord, Translational/Early Phase Clinical Trials, medicine.anatomical_structure, Text mining, Oncology, Glioma, Etiology, Medicine, AcademicSubjects/MED00300, AcademicSubjects/MED00310, Neurology (clinical), business, Nuclear medicine, medicine.drug

Abstract

Diffuse midline glioma (DMG) with the H3K27M mutation is a lethal childhood brain cancer, with patients rarely surviving 2 years from diagnosis. We conducted a multi-site Phase 1 trial of the imipridone ONC201 for children with H3K27M-mutant glioma ({"type":"clinical-trial","attrs":{"text":"NCT03416530","term_id":"NCT03416530"}}NCT03416530). Patients enrolled on Arm D of the trial (n=24) underwent serial lumbar puncture (baseline, 2, 6 months) for cell-free tumor DNA (cf-tDNA) analysis at time of MRI. Additionally, patients on all arms of the trial at the University of Michigan underwent serial plasma collection. CSF collection was feasible in this cohort, with no procedural complications. We collected 96 plasma samples and 53 CSF samples from 29 patients, including those with H3F3A (H3.3) (n=13), HIST13HB (H3.1) (n= 4), and unknown H3 status/not biopsied (n=12) [range of 0–8 CSF samples and 0–10 plasma samples]. We performed digital droplet polymerase chain reaction (ddPCR) analysis and/or amplicon-based electronic sequencing (Oxford Nanopore) of cf-tDNA samples and compared variant allele fraction (VAF) to radiographic change (maximal 2D tumor area on MRI). Preliminary analysis of samples demonstrates a correlation between changes in tumor size and H3K27M cf-tDNA VAF, when removing samples with concurrent bevacizumab. In multiple cases, early reduction in CSF cf-tDNA predicts long-term clinical response (>1 year) to ONC201, and does not increase in cases of later-defined pseudo-progression (radiation necrosis). For example, a now 9-year old patient with thalamic H3K27M-mutant DMG underwent treatment with ONC201 after initial radiation and developed increase in tumor size at 4 months post-radiation (124% baseline) of unclear etiology at the time. Meanwhile, her ddPCR declined from baseline 6.76% VAF to

Published

2021