Litcius/Paper detail

Long somatic DNA-repeat expansion drives neurodegeneration in Huntington’s disease

Robert E. Handsaker, Seva Kashin, Nora Reed, Steven Tan, Won‐Seok Lee, Tara M. McDonald, Kiely Morris, Nolan Kamitaki, Christopher D. Mullally, Neda R. Morakabati, Melissa Goldman, Gabriel Lind, Rhea Kohli, Elisabeth Lawton, Marina Hogan, Kiku Ichihara, Sabina Berretta, Steven A. McCarroll

2025Cell166 citationsDOIOpen Access PDF

Abstract

in the huntingtin (HTT) gene leads to neurodegeneration after decades of biological latency. We developed a single-cell method for measuring this repeat's length alongside genome-wide RNA expression. We found that the HTT CAG repeat expands somatically from 40-45 to 100-500+ CAGs in SPNs. Somatic expansion from 40 to 150 CAGs had no apparent cell-autonomous effect, but SPNs with 150-500+ CAGs lost positive and then negative features of neuronal identity, de-repressed senescence/apoptosis genes, and were lost. Our results suggest that somatic repeat expansion beyond 150 CAGs causes SPNs to degenerate quickly and asynchronously. We conclude that in HD, at any one time, most neurons have an innocuous but unstable HTT gene and that HD pathogenesis is a DNA process for almost all of a neuron's life.

Topics & Concepts

BiologyNeurodegenerationHuntington's diseaseSomatic cellGeneticsTrinucleotide repeat expansionDiseaseDNAGeneInternal medicineAlleleMedicineGenetic Neurodegenerative DiseasesMitochondrial Function and PathologyNeurological disorders and treatments