Your search keyword '"Snavely, Andrew R."' showing total 5 results

1. Identification of novel neuroprotectants against vincristine-induced neurotoxicity in iPSC-derived neurons.

Author

Petrova, Veselina, Snavely, Andrew R., Splaine, Jennifer, Zhen, Shannon, Singh, Bhagat, Pandey, Roshan, Chen, Kuchuan, Cheng, Anya, Hermawan, Crystal, Barrett, Lee B., Smith, Jennifer A., and Woolf, Clifford J.

Subjects

*CHEMOTHERAPY complications, *NEUROPROTECTIVE agents, *MOTOR neurons, *SENSORY neurons, *NEURONS

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) is a disabling side effect of cancer chemotherapy that can often limit treatment options for cancer patients or have life-long neurodegenerative consequences that reduce the patient's quality of life. CIPN is caused by the detrimental actions of various chemotherapeutic agents on peripheral axons. Currently, there are no approved preventative measures or treatment options for CIPN, highlighting the need for the discovery of novel therapeutics and improving our understanding of disease mechanisms. In this study, we utilized human-induced pluripotent stem cell (hiPSC)-derived motor neurons as a platform to mimic axonal damage after treatment with vincristine, a chemotherapeutic used for the treatment of breast cancers, osteosarcomas, and leukemia. We screened a total of 1902 small molecules for neuroprotective properties in rescuing vincristine-induced axon growth deficits. From our primary screen, we identified 38 hit compounds that were subjected to secondary dose response screens. Six compounds showed favorable pharmacological profiles – AZD7762, A-674563, Blebbistatin, Glesatinib, KW-2449, and Pelitinib, all novel neuroprotectants against vincristine toxicity to neurons. In addition, four of these six compounds also showed efficacy against vincristine-induced growth arrest in human iPSC-derived sensory neurons. In this study, we utilized high-throughput screening of a large library of compounds in a therapeutically relevant assay. We identified several novel compounds that are efficacious in protecting different neuronal subtypes from the toxicity induced by a common chemotherapeutic agent, vincristine which could have therapeutic potential in the clinic. [ABSTRACT FROM AUTHOR]

Published

2024

2. Bortezomib-induced neurotoxicity in human neurons is the consequence of nicotinamide adenine dinucleotide depletion

Author

Snavely, Andrew R., primary, Heo, Keungjung, additional, Petrova, Veselina, additional, Ho, Tammy Szu-Yu, additional, Huang, Xuan, additional, Hermawan, Crystal, additional, Kagan, Ruth, additional, Deng, Tao, additional, Singeç, Ilyas, additional, Chen, Long, additional, Barret, Lee B., additional, and Woolf, Clifford J., additional

Published

2022

3. High-throughput functional comparison of promoter and enhancer activities

Author

Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Pfenning, Andreas R., Nguyen, Thomas A., Jones, Richard D., Snavely, Andrew R., Kirchner, Rory, Hemberg, Martin, Gray, Jesse M., Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory, Pfenning, Andreas R., Nguyen, Thomas A., Jones, Richard D., Snavely, Andrew R., Kirchner, Rory, Hemberg, Martin, and Gray, Jesse M.

Abstract

Promoters initiate RNA synthesis, and enhancers stimulate promoter activity. Whether promoter and enhancer activities are encoded distinctly in DNA sequences is unknown. We measured the enhancer and promoter activities of thousands of DNA fragments transduced into mouse neurons. We focused on genomic loci bound by the neuronal activity-regulated coactivator CREBBP, and we measured enhancer and promoter activities both before and after neuronal activation. We find that the same sequences typically encode both enhancer and promoter activities. However, gene promoters generate more promoter activity than distal enhancers, despite generating similar enhancer activity. Surprisingly, the greater promoter activity of gene promoters is not due to conventional core promoter elements or splicing signals. Instead, we find that particular transcription factor binding motifs are intrinsically biased toward the generation of promoter activity, whereas others are not. Although the specific biases we observe may be dependent on experimental or cellular context, our results suggest that gene promoters are distinguished from distal enhancers by specific complements of transcriptional activators., National Institute of Mental Health (U.S.) (Grant R01 MH101528-01)

Published

2017

4. High-throughput functional comparison of promoter and enhancer activities

Author

Nguyen, Thomas A., primary, Jones, Richard D., additional, Snavely, Andrew R., additional, Pfenning, Andreas R., additional, Kirchner, Rory, additional, Hemberg, Martin, additional, and Gray, Jesse M., additional

Published

2016

5. Identification of novel neuroprotectants against vincristine-induced neurotoxicity in iPSC-derived neurons.

Author

Petrova V, Snavely AR, Splaine J, Zhen S, Singh B, Pandey R, Chen K, Cheng A, Hermawan C, Barrett LB, Smith JA, and Woolf C

Abstract

Chemotherapy-induced peripheral neuropathy (CIPN) is a disabling side effect of cancer chemotherapy that can often limit treatment options for cancer patients or have life-long neurodegenerative consequences that reduce the patient's quality of life. CIPN is caused by the detrimental actions of various chemotherapeutic agents on peripheral axons. Currently, there are no approved preventative measures or treatment options for CIPN, highlighting the need for the discovery of novel therapeutics and improving our understanding of disease mechanisms. In this study, we utilized human-induced pluripotent stem cell (hiPSC)-derived motor neurons as a platform to mimic axonal damage after treatment with vincristine, a chemotherapeutic used for the treatment of breast cancers, osteosarcomas, and leukemia. We screened a total of 1902 small molecules for neuroprotective properties in rescuing vincristine-induced axon growth deficits. From our primary screen, we identified 38 hit compounds that were subjected to secondary dose response screens. Six compounds showed favorable pharmacological profiles - AZD7762, A-674563, Blebbistatin, Glesatinib, KW-2449, and Pelitinib, all novel neuroprotectants against vincristine toxicity to neurons. In addition, four of these six compounds also showed efficacy against vincristine-induced growth arrest in human iPSC-derived sensory neurons. In this study, we utilized high-throughput screening of a large library of compounds in a therapeutically relevant assay. We identified several novel compounds that are efficacious in protecting different neuronal subtypes from the toxicity induced by a common chemotherapeutic agent, vincristine which could have therapeutic potential in the clinic., Competing Interests: COMPETING INTERESTS C.J.W. has no financial interests but is a founder of Nocion, Quralis, and Blackbox Bio. The other authors have no relevant financial or non-financial interests to disclose.

Published

2024