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The ability to sense proteasome insufficiency and respond by directing the transcriptional synthesis of de novo proteasomes is a trait that is conserved in evolution and is found in organisms ranging from yeast to humans. This homeostatic mechanism in mammalian cells is driven by the transcription factor NRF1. Interestingly, NRF1 is synthesized as an endoplasmic reticulum (ER) membrane protein and when cellular proteasome activity is sufficient, it is retrotranslocated into the cytosol and targeted for destruction by the ER-associated degradation pathway (ERAD). However, when proteasome capacity is diminished, retrotranslocated NRF1 escapes ERAD and is activated into a mature transcription factor that traverses to the nucleus to induce proteasome genes. In this Perspective, we track the journey of NRF1 from the ER to the nucleus, with a special focus on the various molecular regulators it encounters along …