Antibody-Free Targeted Proteomics Assay for Absolute Measurement of alpha-Tubulin Acetylation

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Shah, Alok K
Wali, Gautam
Sue, Carolyn M
Mackay-Sim, Alan
Hill, Michelle M
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2020
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Abstract

Acetylation of α-tubulin at conserved lysine 40 (K40) amino acid residue regulates microtubule dynamics and controls a wide range of cellular activities. Dysregulated microtubule dynamics characterized by differential α-tubulin acetylation is a hallmark of cancer, neurodegeneration, and other complex disorders. Hence, accurate quantitation of α-tubulin acetylation is required in human disease and animal model studies. We developed a novel antibody-free proteomics assay to measure α-tubulin acetylation targeting protease AspN-generated peptides harboring K40 site. Using the synthetic unmodified and acetylated stable isotope labeled peptides DKTIGGG and DKTIGGGD, we demonstrate assay linearity across 4 log magnitude and reproducibility of <10% coefficient of variation. The assay accuracy was validated by titration of 10–80% mixture of acetylated/nonacetylated α-tubulin peptides in the background of human olfactory neurosphere-derived stem (ONS) cell matrix. Furthermore, in agreement with antibody-based high content microscopy analysis, the targeted proteomics assay reported an induction of α-tubulin K40 acetylation upon Trichostatin A stimulation of ONS cells. Independently, we found 35.99% and 16.11% α-tubulin acetylation for mouse spinal cord and brain homogenate tissue, respectively, as measured by our assay. In conclusion, this simple, antibody-free proteomics assay enables quantitation of α-tubulin acetylation, and is applicable across various fields of biology and medicine.

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Analytical Chemistry

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92

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16

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Analytical chemistry

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Chemistry

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Shah, AK; Wali, G; Sue, CM; Mackay-Sim, A; Hill, MM, Antibody-Free Targeted Proteomics Assay for Absolute Measurement of alpha-Tubulin Acetylation, Analytical Chemistry, 2020, 92 (16), pp. 11204-11212

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