Ancestral P-body proteins rewired for autophagic recycling in the early land plant Marchantia polymorpha

Processing bodies (P-bodies) are conserved ribonucleoprotein (RNP) granules central to RNA metabolism across eukaryotes. Although the mechanisms underlying their assembly are well understood, the pathways governing their selective turnover remain unclear. Here, we identify the conserved decapping proteins EDC4 and DCP1 as a selective autophagy receptor pair responsible for P-body turnover in the early land plant Marchantia polymorpha . MpEDC4 engages ATG8 via a canonical AIM motif, while MpDCP1 contains a previously unrecognized reverse AIM within its intrinsically disordered region. Mutations disrupting these motifs impair autophagic degradation of P-bodies, demonstrating a cooperative receptor mechanism. Notably, this autophagic function is lineage-specific, as orthologs in Arabidopsis and humans lack ATG8-binding capacity. Strikingly, heterologous expression of MpEDC4 in human cells promotes degradation of α-synuclein, a protein strongly linked to Parkinson’s disease etiology. Our findings thus uncover an evolutionary innovation that links RNA metabolism to selective autophagy and opens avenues for cross-kingdom engineering of targeted protein degradation pathways.