The pathology of Huntington's disease is characterized by neuronal degeneration and inclusions containing N-terminal fragments of mutant huntingtin (htt). To study htt aggregation, we examined purified htt fragments in vitro, finding globular and protofibrillar intermediates participating in the genesis of mature fibrils. These intermediates were high in -structure. Furthermore, Congo Red, a dye that stains amyloid fibrils, prevented the assembly of mutant htt into mature fibrils, but not the formation of protofibrils. Other proteins capable of forming ordered aggregates, such as amyloid  and ␣-synuclein, form similar intermediates, suggesting that the mechanisms of mutant htt aggregation and possibly htt toxicity may overlap with other neurodegenerative disorders.Huntington's disease (HD) 1 is an inherited, neurodegenerative disorder resulting from an expanded polyglutamine (poly(Q)) region in the N terminus of huntingtin (htt) (1-4). Individuals affected with HD have a poly(Q) stretch of 36 or more glutamines and an age of disease onset inversely correlated with the length of the expanded poly(Q) region (5). HD post-mortem brain examination reveals intranuclear and cytoplasmic neuronal inclusions and other deposits, consisting of fibrillar huntingtin aggregates (6 -9). However, the presence of these large inclusions does not correlate well with neuronal death (10 -14), suggesting that they may not be the toxic species. In vitro, expanded htt forms fibrillar aggregates with morphological and biophysical properties similar to those formed by amyloid  (A) peptide (15). The aggregation threshold in vitro mimics the glutamine length threshold for the disease phenotype (16), suggesting that an abnormal conformation of expanded htt plays a role in disease pathogenesis. Recently, Thompson and colleagues (17) have designed polypeptides that bind mutant htt, suppress aggregation in vivo, and reduce pathology in both cell and animal models of poly(Q) disease. It is possible that the pathway from soluble htt to fibrillar aggregate is a multistep process, with the toxic species formed before the mature fiber. To better understand this pathway, we have characterized the morphological and structural features of poly(Q)-mediated htt fibrilization using biochemical and biophysical techniques, including SDS-PAGE, transmission electron microscopy (TEM), Fourier transform infrared (FTIR) spectroscopy, and atomic force microscopy (AFM).
EXPERIMENTAL PROCEDURESPlasmid Construction-Plasmids encoding huntingtin exon 1 (htt exon1) proteins with either 16 or 44 consecutive glutamine residues were prepared using a multistep PCR-based and synthetic DNA approach (18). The 5Ј and 3Ј regions of htt exon1 DNA were individually cloned into the Bluescript vector (Stratagene; 5Ј, SalI and XbaI sites; XbaI and NotI sites). The 3Ј htt exon1 cDNA fragment was then inserted into the 5Ј vector (XbaI and NotI sites) to yield a modified httt exon1 cDNA with a 42-base pair linker between the 5Ј and 3Ј regions. To generate the 16Q htt exon1 const...
