Your search keyword '"Jockel-Balsarotti, Jennifer"' showing total 3 results

1. Protein kinetics of superoxide dismutase‐1 in familial and sporadic amyotrophic lateral sclerosis.

Author

Ly, Cindy V., Ireland, Margaret D., Self, Wade K., Bollinger, James, Jockel‐Balsarotti, Jennifer, Herzog, Hillary, Allred, Peggy, Miller, Leah, Doyle, Michael, Anez‐Bruzual, Isabel, Trikamji, Bhavesh, Hyman, Ted, Kung, Tyler, Nicholson, Katherine, Bucelli, Robert C., Patterson, Bruce W., Bateman, Randall J., and Miller, Timothy M.

Subjects

AMYOTROPHIC lateral sclerosis, PROTEIN stability, PEPTIDES, MUTANT proteins, RADIOLABELING

Abstract

Objective: Accumulation of misfolded superoxide dismutase‐1 (SOD1) is a pathological hallmark of SOD1‐related amyotrophic lateral sclerosis (ALS) and is observed in sporadic ALS where its role in pathogenesis is controversial. Understanding in vivo protein kinetics may clarify how SOD1 influences neurodegeneration and inform optimal dosing for therapies that lower SOD1 transcripts. Methods: We employed stable isotope labeling paired with mass spectrometry to evaluate in vivo protein kinetics and concentration of soluble SOD1 in cerebrospinal fluid (CSF) of SOD1 mutation carriers, sporadic ALS participants and controls. A deaminated SOD1 peptide, SDGPVKV, that correlates with protein stability was also measured. Results: In participants with heterozygous SOD1A5V mutations, known to cause rapidly progressive ALS, mutant SOD1 protein exhibited ~twofold faster turnover and ~ 16‐fold lower concentration compared to wild‐type SOD1 protein. SDGPVKV levels were increased in SOD1A5V carriers relative to controls. Thus, SOD1 mutations impact protein kinetics and stability. We applied this approach to sporadic ALS participants and found that SOD1 turnover, concentration, and SDGPVKV levels are not significantly different compared to controls. Interpretation: These results highlight the ability of stable isotope labeling approaches and peptide deamidation to discern the influence of disease mutations on protein kinetics and stability and support implementation of this method to optimize clinical trial design of gene and molecular therapies for neurological disorders. Trial Registration: Clinicaltrials.gov: NCT03449212. [ABSTRACT FROM AUTHOR]

Published

2023

2. IN VIVO TAU IMAGING BY POSITRON EMISSION TOMOGRAPHY IN PATIENTS WITH C9ORF72 HEXANUCLEOTIDE REPEAT EXPANSIONS.

Author

Ly, Cindy V., Koenig, Lauren, Beaumont, Helen, Gordon, Brian A., Christensen, Jon, Su, Yi, Nelson, Brittany, Jockel-Balsarotti, Jennifer, Drain, Caroline, Jerome, Gina, Fagan, Anne M., Harms, Matthew, Benzinger, Tammie L.S., Miller, Timothy M., and Ances, Beau M.

Published

2017

3. Tau kinetics in the human cns.

Author

Sato, Chihiro, Mawuenyega, Kwasi, Barthelemy, Nicolas, Patterson, Bruce W., Kasten, Tom, Jockel-Balsarotti, Jennifer, Chott, Robert, Yarasheski, Kevin E., Miller, Timothy M., and Bateman, Randall

Published

2015