Identification of Phosphorylated Calpain 3 in Rat Brain Mitochondria under mPTP Opening

The protein phosphorylation of the membrane-bound mitochondrial proteins has become of interest from the point of view of its regulatory role of the function of the respiratory chain, opening of the mitochondrial permeability transition pore (mPTP), and initiation of apoptosis. Earlier, we noticed that upon phosphorylation of proteins in some proteins, the degree of their phosphorylation increases with the opening of mPTP. Two isoforms of myelin basic protein and cyclic nucleotide phosphodiesterase were identified in rat brain non-synaptic mitochondria and it was concluded that they are involved in mPTP regulation. In the present study, using the mass spectrometry method, the phosphorylated protein was identified as Calpain 3 in rat brain non-synaptic mitochondria. In the present study, the phosphoprotein Calpain-3 (p94) (CAPN3) was identified in the rat brain mitochondria as a phosphorylated truncated form of p60-62 kDa by two-dimensional electrophoresis and mass spectrometry. We showed that the calpain inhibitor, calpeptin, was able to suppress the Ca2+ efflux from mitochondria, preventing the opening of mPTP. It was found that phosphorylated truncated CALP3 with a molecular weight of 60-62 contains p-Tyr, which indicates the possible involvement of protein tyrosine phosphatase in this process.

Automated summary

The protein phosphorylation of membrane-bound mitochondrial proteins is important in regulating the respiratory chain function, mPTP opening, and apoptosis. Calpain-3 was identified as a phosphorylated protein involved in mPTP regulation, with the calpain inhibitor calpeptin shown to suppress mPTP opening. Phosphorylated truncated CALP3 with a molecular weight of 60-62 contains p-Tyr, suggesting the involvement of protein tyrosine phosphatase in this process.