Unblending of Transcriptional Condensates in Human Repeat Expansion Disease.

Expansions of amino acid repeats occur in >20 inherited human disorders, and many occur in intrinsically disordered regions (IDRs) of transcription factors (TFs). Such diseases are associated with protein aggregation, but the contribution of aggregates to pathology has been controversial. Here, we report that alanine repeat expansions in the HOXD13 TF, which cause hereditary synpolydactyly in humans, alter its phase separation capacity and its capacity to co-condense with transcriptional co-activators. HOXD13 repeat expansions perturb the composition of HOXD13-containing condensates in vitro and in vivo and alter the transcriptional program in a cell-specific manner in a mouse model of synpolydactyly. Disease-associated repeat expansions in other TFs (HOXA13, RUNX2, and TBP) were similarly found to alter their phase separation. These results suggest that unblending of transcriptional condensates may underlie human pathologies. We present a molecular classification of TF IDRs, which provides a framework to dissect TF function in diseases associated with transcriptional dysregulation. • Repeat expansions in transcription factors (TFs) alter their phase separation capacity • Repeat expansions in TFs perturb the composition of TF-containing condensates • Hoxd13 repeat expansions alter the transcriptional program in a synpolydactyly model • Features of intrinsically disordered regions in TFs are linked to condensation behavior Disease-associated repeat expansions within transcription factors alter their capacity to co-condense with transcriptional co-activators. [ABSTRACT FROM AUTHOR]