Manipulation of temperature to improve solubility of hydrophobic proteins and cocrystallization with matrix for analysis by MALDI-TOF mass spectrometry

Matrix-assisted laser desorption/ionization mass spectrometry (MALDI-MS) requires cocrystallization of analyte with a large excess of matrix, which must be mutually soluble in a solvent that encourages crystal growth upon evaporation. MALDI-MS of hydrophobic proteins can be difficult, because they tend to aggregate in polar solutions. High concentrations of denaturants and salts are often employed to combat protein aggregation, but this can result in signal suppression. By using various organic cosolvent systems and matrixes at different protein:matrix ratios, we were able to use MALDI-TOFMS to detect four bacterially expressed hydrophobic proteins comprising alanine-rich mutants of the basic region/leucine zipper protein (bZIP) GCN4. By manipulating sample temperature, we were able to maintain protein solubility. Protein aggregation was suppressed when mixing the protein and matrix solutions at 4 T prior to warming to 37 degreesC, following the temperature-leap technique described by Xie and Wetlaufer (Protein Sci. 1996, 5, 517-523), who used this method to renature bovine carbonic anhydrase H. Manipulation of temperature encouraged our hydrophobic proteins to adopt conformations leading to the nonaggregating state, and solubility was maintained even when the concentration of denaturant was reduced from 4 M to 400 mM. The temperature-leap tactic was critical for maintaining protein solubility, preventing signal suppression normally seen with higher concentrations of salts, allowing for generation of superior spectra, and should prove applicable to other systems prone to aggregation.