Probing High-order Protein Complexes Using Native Mass Spectrometry and Hydrogen/Deuterium Exchange Mass Spectrometry: A Case Study Using Fresh and Commercial Hemoglobin Samples.

Abstract

Native mass spectrometry (MS) analysis of protein complexes is highly susceptible to matrix effect, and addressing this predicament using buffer exchange is a common approach. Nevertheless, optimization of the buffer exchange protocol is not trivial. With the use of hemoglobin (Hb) as the model entity, it was discovered that the native mass spectrum of protein assembly is highly dependent on the buffer-exchange protocol. Given the dependence of native MS on the purification protocol, this work attempts to use hydrogen/deuterium exchange mass spectrometry (HDX-MS) for comparative studies of hemoglobin complexes in untreated fresh and commercial samples. The information obtained from the HDX study was found to correlate well with the native mass spectrometry analysis of the properly buffer-exchanged Hb samples. Both native MS and HDX-MS showed that the fresh Hb sample has retained the expected tetrameric structure, whereas the commercial Hb has largely been denatured to the dimeric form. These findings prove the complementarity of native MS and HDX-MS in the analysis of high-order protein complexes and stress the necessity to validate the integrity of the high-order structures of the proteins prior to the use of the protein samples for other biomedical studies.