Skip to Content
MilliporeSigma
  • Neuron type-specific increase in lamin B1 contributes to nuclear dysfunction in Huntington's disease.

Neuron type-specific increase in lamin B1 contributes to nuclear dysfunction in Huntington's disease.

EMBO molecular medicine (2020-12-29)
Rafael Alcalá-Vida, Marta Garcia-Forn, Carla Castany-Pladevall, Jordi Creus-Muncunill, Yoko Ito, Enrique Blanco, Arantxa Golbano, Kilian Crespí-Vázquez, Aled Parry, Guy Slater, Shamith Samarajiwa, Sandra Peiró, Luciano Di Croce, Masashi Narita, Esther Pérez-Navarro
ABSTRACT

Lamins are crucial proteins for nuclear functionality. Here, we provide new evidence showing that increased lamin B1 levels contribute to the pathophysiology of Huntington's disease (HD), a CAG repeat-associated neurodegenerative disorder. Through fluorescence-activated nuclear suspension imaging, we show that nucleus from striatal medium-sized spiny and CA1 hippocampal neurons display increased lamin B1 levels, in correlation with altered nuclear morphology and nucleocytoplasmic transport disruption. Moreover, ChIP-sequencing analysis shows an alteration of lamin-associated chromatin domains in hippocampal nuclei, accompanied by changes in chromatin accessibility and transcriptional dysregulation. Supporting lamin B1 alterations as a causal role in mutant huntingtin-mediated neurodegeneration, pharmacological normalization of lamin B1 levels in the hippocampus of the R6/1 mouse model of HD by betulinic acid administration restored nuclear homeostasis and prevented motor and cognitive dysfunction. Collectively, our work points increased lamin B1 levels as a new pathogenic mechanism in HD and provides a novel target for its intervention.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Betulinic acid, technical grade, 90%