posted on 2006-12-01, 00:00authored byHamid Mirzaei, Fred Regnier
Living systems have efficient degradative pathways for dealing with the fact that reactive oxygen species
(ROS) derived from cellular metabolism and the environment oxidatively damage proteins and DNA.
But aggregation and cross-linking can occur as well, leading to a series of problems including disruption
of cellular regulation, mutations, and even cell death. The mechanism(s) by which protein aggregation
occurs and the macromolecular species involved are poorly understood. In the study reported here,
evidence is provided for a new type of aggregate between proteins and RNA in ribosomes. While
studying the effect of oxidative stress induced in the yeast proteome it was noted that ribosomal proteins
were widely oxidized. Eighty six percent of the proteins in yeast ribosomes were found to be
carbonylated after stressing yeast cell cultures with hydrogen peroxide. Moreover, many of these
proteins appeared to be cross-linked based on their coelution patterns during RPC separation. Since
they were not in direct contact, it was not clear how this could occur unless it was through the RNA
separating them in the ribosome. This was confirmed in a multiple-step process, the first being
derivatization of all carbonylated proteins in cell lysates with biotin hydrazide through Schiff base
formation. Following reduction of Schiff bases with sodium cyanoborohydride, biotinylated proteins
were selected from cell lysates with avidin affinity chromatography. Oxidized proteins thus captured
were then selected again using boronate affinity chromatography to capture vicinal diol-containing
proteins. This would include proteins cross-linked to an RNA fragment containing a ribose residue
with 2‘,3‘-hydroxyl groups. Some glycoproteins would also be selected by this process. LC/MS/MS
analyses of tryptic peptides derived from proteins captured by this process along with MASCOT searches
resulted in the identification of 37 ribosomal proteins that appear to be cross-linked to RNA. Aggregation
of proteins with ribosomal RNA has not been previously reported. The probable impact of this
phenomenon cells is to diminish the protein synthesis capacity.
Keywords: Proteomics • oxidative stress • hydrogen peroxide • yeast • biotin hydrazide • avidin affinity
chromatography • boronate affinity chromatography • protein fragmentation • protein cross-linking • ribosomal
proteins • protein−RNA cross-linking • tandem mass spectrometry • protein identification