posted on 2019-06-28, 00:00authored byBo Zhou, Yang Wang, Yiwu Yan, Javier Mariscal, Dolores Di Vizio, Michael R. Freeman, Wei Yang
Protein S-acylation (also called palmitoylation)
is a common post-translational modification whose deregulation plays
a key role in the pathogenesis of many diseases. Acyl-biotinyl exchange
(ABE), a widely used method for the enrichment of S-acylated proteins, has the potential of capturing the entire S-acylproteome in any type of biological sample. Here, we
showed that current ABE methods suffer from a high background arising
from the coisolation of non-S-acylated proteins.
The background can be substantially reduced by an additional blockage
of residual free cysteine residues with 2,2′-dithiodipyridine
prior to the biotin-HPDP reaction. Coupling the low-background ABE
(LB-ABE) method with label-free proteomics, 2 895 high-confidence
candidate S-acylated proteins (including 1 591
known S-acylated proteins) were identified from human
prostate cancer LNCaP cells, representing so-far the largest S-acylproteome data set identified in a single study. Immunoblotting
analysis confirmed the S-acylation of five known
and five novel prostate cancer-related S-acylated
proteins in LNCaP cells and suggested that their S-acylation levels were about 0.6–1.8%. In summary, the LB-ABE
method largely eliminates the coisolation of non-S-acylated proteins and enables deep S-acylproteomic
analysis. It is expected to facilitate a much more comprehensive and
accurate quantification of S-acylproteomes than previous
ABE methods.