Julia E Roberts scite author profile

Amyotrophic Lateral Sclerosis (ALS) is a fatal, neurodegenerative disease characterized by progressive motor neuron dysfunction and loss. A portion of ALS is caused by mutation of the proteasome shuttle factor Ubiquilin 2 (UBQLN2), but the molecular pathway leading from UBQLN2 dysfunction to disease remains unclear. Here, we demonstrate a function of UBQLN2 in regulating activity of the domesticated gag-pol retrotransposon 'paternally expressed gene 10' (PEG10) in human cells and tissues. In cells, the PEG10 gag-pol protein cleaves itself in a mechanism reminiscent of retrotransposon self-processing to generate a liberated 'nucleocapsid' fragment, which uniquely localizes to the nucleus and changes expression of genes involved in axon remodeling. In spinal cord tissue from ALS patients, PEG10 gag-pol is elevated compared to healthy controls. These findings implicate the retrotransposon-like activity of PEG10 as a contributing mechanism in ALS through regulation of gene expression, and restraint of PEG10 as a primary function of UBQLN2.

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UBQLN2 restrains the domesticated retrotransposon PEG10 to maintain neuronal health in ALS

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Hanson

Roberts

et al. 2023

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Amyotrophic Lateral Sclerosis (ALS) is a fatal neurodegenerative disease characterized by progressive motor neuron dysfunction and loss. A portion of ALS cases are caused by mutation of the proteasome shuttle factor Ubiquilin 2 (UBQLN2), but the molecular pathway leading from UBQLN2 dysfunction to disease remains unclear. Here, we demonstrate that UBQLN2 regulates the domesticated gag-pol retrotransposon 'paternally expressed gene 10' (PEG10) in human cells and tissues. In cells, the PEG10 gag-pol protein cleaves itself in a mechanism reminiscent of retrotransposon self-processing to generate a liberated 'nucleocapsid' fragment, which uniquely localizes to the nucleus and changes the expression of genes involved in axon remodeling. In spinal cord tissue from ALS patients, PEG10 gag-pol is elevated compared to healthy controls. These findings implicate the retrotransposon-like activity of PEG10 as a contributing mechanism in ALS through regulation of gene expression, and restraint of PEG10 as a primary function of UBQLN2.

show abstract

Author response: UBQLN2 restrains the domesticated retrotransposon PEG10 to maintain neuronal health in ALS

Black

Hanson

Roberts

et al. 2023

View full text Add to dashboard Cite

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Julia E Roberts

UBQLN2 restrains the domesticated retrotransposon PEG10 to maintain neuronal health in ALS

UBQLN2 restrains the domesticated retrotransposon PEG10 to maintain neuronal health in ALS

Author response: UBQLN2 restrains the domesticated retrotransposon PEG10 to maintain neuronal health in ALS

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