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The Molecular and Cellular Basis of Hutchinson–Gilford Progeria Syndrome and Potential Treatments
Noelle J. Batista, Sanket G. Desai, Alexis M. Perez, Alexa Finkelstein, Rachel Radigan, Manrose Singh, Aaron Landman, Brian Drittel, Daniella Abramov, Mina Ahsan, Samantha Cornwell, Dong Zhang
Genes · 2023 · ▲ 32 citations
Abstract
gene, which results in an alternative splicing defect and the generation of the mutant protein, progerin. Progerin behaves in a dominant-negative fashion, leading to a variety of cellular and molecular changes, including nuclear abnormalities, defective DNA damage response (DDR) and DNA repair, and accelerated telomere(definition) attrition. Intriguingly, many of the manifestations of the HGPS cells are shared with normal aging cells. However, at a clinical level, HGPS does not fully match normal aging because of the accelerated nature of the phenotypes and its primary effects on connective tissues. Furthermore, the epigenetic changes in HGPS patients are of great interest and may play a crucial role in the pathogenesis of HGPS. Finally, various treatments for the HGPS patients have been developed in recent years with important effects at a cellular level, which translate to symptomatic improvement and increased lifespan.
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- 10.3390/genes14030602
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- 2026-06-04 MST
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APA
Batista, N.J., Desai, S.G., Perez, A.M., Finkelstein, A., Radigan, R., Singh, M., Landman, A., Drittel, B., Abramov, D., Ahsan, M., Cornwell, S., & Zhang, D. (2023). The Molecular and Cellular Basis of Hutchinson–Gilford Progeria Syndrome and Potential Treatments. <em>Genes</em>. https://doi.org/10.3390/genes14030602
Vancouver
Batista NJ, Desai SG, Perez AM, Finkelstein A, Radigan R, Singh M, et al. The Molecular and Cellular Basis of Hutchinson–Gilford Progeria Syndrome and Potential Treatments. Genes. 2023. doi:10.3390/genes14030602.
BibTeX
@article{noelle2023TheMol,
title = {The Molecular and Cellular Basis of Hutchinson–Gilford Progeria Syndrome and Potential Treatments},
author = {Noelle J. Batista and Sanket G. Desai and Alexis M. Perez and Alexa Finkelstein and Rachel Radigan and Manrose Singh and Aaron Landman and Brian Drittel and Daniella Abramov and Mina Ahsan and Samantha Cornwell and Dong Zhang},
journal = {Genes},
year = {2023},
doi = {10.3390/genes14030602},
}
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