Recently a low-molecular-mass protein purified from goat testes cytosol has been reported from our laboratory which is found to stimulate Mg2+ -independent Ca2+-ATPase without any significant effect on Mg2+-dependent Ca2+-ATPase. In the present study, detailed structural and functional characterization, as well as the physiological significance of the protein has been described. The stimulatory effect is found to be inhibited by known inhibitors of P-type ATPases, vanadate and lanthanum chloride. Monitoring of the phosphoenzyme intermediate by autoradiography has shown that the stimulation of the ATPase is due to the enhancement in the rate of dephosphorylation of the overall reaction step. Along with the stimulation of the enzyme activity, the protein is found to enhance the calcium uptake. Amino acid analysis data show that the stimulator contains about 26% non-polar amino acid facilitating easy penetration to the hydrophobic core of the membrane bound ATPase. Circular dichroism analysis of the protein suggested the presence of all secondary structural elements. The Western-blotting experiment shows its expression level is the highest in goat testes. Peptide fragments obtained in MALDI-MS analysis when subjected to MSDB database search by MASCOT search engine reveals that the proteins of close similarity with the protein under study are actin related protein 2/3 complex subunit, peptidyl-prolyl cis-trans isomerase and gastrin releasing peptide precursor. Besides, the protein under study is also shown to decrease the forward motility of goat sperm without having any significant effect on the total motility indicating its possible role in fertility regulation.
A 14 kDa cytosolic protein purified from bovine brain homogenate has been recently reported as a stimulator of goat spermatozoa Mg2+-independent Ca2+-ATPase. In the present study, we demonstrate the formation of the [gamma-32P]ATP-labelled phosphoenzyme as the 110 kDa phosphoprotein and its rapid decomposition in presence of the stimulator protein. Together with the cross-reactivity of this 110 kDa protein with an anti-SERCA (sarcoplasmic/endoplasmic reticulum Ca2+-ATPase) 2a antibody, the ATPase can now be conclusively said to belong to the SERCA family, which is activated by the stimulator. The ability of the stimulator to enhance the Ca2+ transport has been elucidated from 45Ca2+ uptake studies and was found to be sensitive to Ca2+ channel blockers. CD revealed an alpha-helical structure of the stimulator. The amino acid analysis suggests that it is composed primarily of hydrophobic and some acidic amino acid residues. The pI of 5.1 has been re-confirmed from two-dimensional electrophoresis. Immuno-cross-reactivity studies indicate that the stimulator or similar proteins are present in cytosolic fractions of liver, kidney or testes in different species, but brain is the richest source. Proteomic analyses of its trypsinized fragments suggest its similarity with bovine THRP (thyroid hormone-responsive protein). The physiological significance of the stimulator has been suggested from its ability to activate sperm-cell motility.
The goat sperm microsomal membranes have been found to contain an Mg2+-independent Ca2+-ATPase, a low affinity but highly active enzyme sharing similarities with the SERCA family of ATPases. The present study reports the identification and characterization of a 14 kilodalton cytosolic protein from bovine brain which can act as an endogenous stimulator of the enzyme with an S50 (concentration producing 50% stimulation) of 0.8 mu molar. Kinetic analysis suggests that the stimulation is noncompetitive with respect to the substrate, and the binding site(s) of the stimulator and substrate are distinct. Binding of the stimulator to the enzyme is reversible. The stimulator increases the affinity of the enzyme for calcium as evident from a decrease in K0.5 of the enzyme for calcium in presence of the stimulator. Radioactive labeling of the enzyme with [gamma-32P]-ATP suggests that the stimulator enhances the rate of dephosphorylation of the phosphoenzyme intermediate without altering the phosphorylation reaction step. The stimulatory effect of the protein has been observed only for the Mg2+-independent form of the enzyme, the Mg2+-dependent form being unaffected.
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