Specialised ribonucleoprotein (RNP) granules are a hallmark of germ cells. Among their main function is the spatial and temporal modulation of the activity of specific mRNA transcripts that allow specification of primary embryonic axes. While RNPs composition and role are well established, their regulation is poorly defined. Here, we demonstrate that Hecw, a newly identified Drosophila ubiquitin ligase, is a key modulator of RNPs in oogenesis. Loss of Hecw activity results in the formation of enlarged granules that transition from a liquid to a gel-like state. At the molecular level, Hecw depletion leads to reduced ubiquitination and activity of the translational repressor Fmrp, resulting in premature Orb expression/recruitment in nurse cells. In addition to defective oogenesis, flies lacking Hecw show neurodegenerative traits with premature aging and climbing defects due to neuronal loss that are linked to RNPs condensation. Our findings reveal an unprecedented function of ubiquitin in modulating RNP fluidity and activity.