Studying submicrosecond protein folding kinetics using a photolabile caging strategy and time-resolved photoacoustic calorimetry.

Kinetic measurement of protein folding is limited by the method used to trigger folding. Traditional methods, such as stopped flow, have a long mixing dead time and cannot be used to monitor fast folding processes. Here, we report a compound, 4-(bromomethyl)-6,7-dimethoxycoumarin, that can be used as a "photolabile cage" to study the early stages of protein folding. The folding process of a protein, RD1, including kinetics, enthalpy, and volume change, was studied by the combined use of a phototriggered caging strategy and time-resolved photoacoustic calorimetry. The cage caused unfolding of the photolabile protein, and then a pulse UV laser (∼10(-9) s) was used to break the cage, leaving the protein free to refold and allowing the resolving of two folding events on a nanosecond time scale. This strategy is especially good for monitoring fast folding proteins that cannot be studied by traditional methods.

A new amyloid-like beta-aggregate with amyloid characteristics, except fibril morphology.

Amyloid plaques, formed from amyloid beta (Abeta) peptides (mainly Abeta40 or Abeta42), are one of the most important pathological characteristics of Alzheimer's disease. Here, a single D-form proline substitution in the 40-amino-acid Abeta40 peptide can totally change the aggregation behavior of this peptide. The residue immediately preceding each glycine in Abeta40 (S8, V24, I32, and V36) was individually replaced by D-form proline ((D)Pro). The resulting (D)P-G sequence (the (D)Pro residue and the following Gly residue) was designed as a "structural clip" to force the formation of a bend in the peptide, as this sequence has been reported to be a strong promoter of beta-hairpin formation. The mutant peptide with Val24-to-(D)Pro substitution, named V24P, formed a new amyloid-like beta-aggregate at high peptide concentration. The aggregate has most of the characteristics of amyloid fibrils, except fibril morphology. Moreover, the mutant peptide V24P, when mixed with Abeta40, can attenuate the cytotoxicity of Abeta40.