RNA and the RNA-binding protein FUS act in concert to prevent TDP-43 spatial segregation
Résumé
FUS and TDP-43 are two self-adhesive aggregation-prone mRNA-binding proteins whose
pathological mutations have been linked to neurodegeneration. While TDP-43 and FUS form
reversible mRNA-rich compartments in the nucleus, pathological mutations promote their
respective cytoplasmic aggregation in neurons with no apparent link between the two proteins
except their intertwined function in mRNA processing. By combining analyses in cellular
context and at high-resolution in vitro, we unraveled that TDP-43 is specifically recruited in
FUS assemblies to form TDP-43 rich sub-compartments but without reciprocity. The presence
of mRNA provides an additional scaffold to promote the mixing between TDP-43 and FUS.
Accordingly, we also found that the pathological truncated form of TDP-43, TDP-25, which
has an impaired RNA binding ability, no longer mixes with FUS. Together, these results suggest
that the binding of FUS along nascent mRNAs enables TDP-43, which is highly aggregationprone,
to mix with FUS phase to form mRNA-rich sub-compartments. A functional link
between FUS and TDP-43 may explain their common implication in Amyotrophic Lateral
Sclerosis (ALS).