Sialylation of Asparagine 612 inhibits Aconitase activity during mouse sperm capacitation; A possible mechanism for the switch from oxidative phosphorylation to glycolysis

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Abstract

After ejaculation, mammalian spermatozoa must undergo a process known as capacitation in order to successfully fertilize the oocyte. Several post-translational modifications occur during capacitation, including sialylation, which despite being limited to a few proteins, seems to be essential for proper sperm-oocyte interaction. Regardless of its importance, to date, no single study has ever identified nor quantified which glycoproteins bearing terminal sialic acid (Sia) are altered during capacitation. Here we characterize sialylation during mouse sperm capacitation. Using tandem mass spectrometry coupled with liquid chromatography (LC-MS/MS), we found 142 non-reductant peptides, with 9 of them showing potential modifications on their sialylated oligosaccharides during capacitation. As such, N-linked sialoglycopeptides from C4b-binding protein, endothelial lipase (EL), serine proteases 39 and 52, testis-expressed protein 101 and zonadhesin were reduced following capacitation. In contrast, mitochondrial aconitate hydratase (aconitase; ACO2) was the only protein to show an increase in Sia content during capacitation. Interestingly, while the loss of Sia within EL (N62) was accompanied by a reduction in its phospholipase A 1 activity, the increase of sialylation in the ACO2 (N612) also resulted in a decrease of the activity of this TCA cycle enzyme. The latter was confirmed by N612D recombinant protein with both His and GFP tag, in which the N612D mutant had no activity compared to WT when protein. Computer modelling show that N612 sits atop the catalytic site of ACO2. The introduction of sialic acid causes a large confirmation change in the alpha helix, essentially, distorting the active site, leading to complete loss of function. These findings suggest that the switch from oxidative phosphorylation, over to glycolysis that occurs during capacitation may come about through sialylation of ACO2.

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europepmc
last seen: 2026-05-19T01:45:01.086888+00:00