Exogenous polyserine and polyleucine are toxic to recipient cells

Repeat-associated non-AUG (RAN) translation of mRNAs/transcripts responsible for polyglutamine (polyQ) diseases may generate peptides containing different mono amino acid tracts such as polyserine (polyS) and polyleucine (polyL). The propagation of aggregated polyQ from one cell to another is also an intriguing feature of polyQ proteins. However, whether the RAN translation-related polyS and polyL have the ability to propagate remains unclear, and if they do, whether the exogenous polyS and polyL exert toxicity on the recipient cells is also not known yet. In the present study, we found that aggregated polyS and polyL peptides spontaneously enter neuron-like cells and astrocytes in vitro. Aggregated polyS led to the degeneration of the differentiated neuron-like cultured cells. Likewise, the two types of aggregates taken up by astrocytes induced aberrant differentiation and cell death in vitro. Furthermore, injection of each of the two types of aggregates into the ventricles of adult mice resulted in their behavioral changes. The polyS-injected mice showed extensive vacuolar degeneration in the brain. Thus, the RAN translation-related proteins containing polyS and polyL have the potential to propagate and the proteins generated by all polyQ diseases might exert universal toxicity in the recipient cells.

Automated summary

The study revealed that aggregated polyS and polyL peptides can spontaneously enter neuron-like cells and astrocytes, causing cell degeneration, aberrant differentiation, and cell death. Injecting these aggregates into the ventricles of adult mice resulted in behavioral changes, with polyS injection leading to extensive vacuolar degeneration in the brain. This suggests that RAN translation-related proteins containing polyS and polyL have the potential to propagate and exert universal toxicity in recipient cells.