The abnormal amplification of a CAG repeat in the gene coding for huntingtin (HTT) leads to Huntington disease (HD). At the protein level, this translates into the expansion of a poly-glutamine (polyQ) stretch located at the HTT N-terminus, which renders it aggregation-prone by unknown mechanisms. Here we investigated the effects of polyQ expansion on HTT in a complex with its stabilizing interaction partner huntingtin-associated protein 40 (HAP40). Surprisingly, our comprehensive biophysical, crosslinking mass spectrometry and cryo-EM experiments revealed no major differences in the conformation of HTT-HAP40 complexes of various polyQ length, including 17QHTT-HAP40 (wild type), 46QHTT-HAP40 (typical polyQ length in HD patients) and 128QHTT-HAP40 (extreme polyQ length). Thus, HTT polyQ expansion does not alter the global structure of HTT when associated with HAP40.