Abstract

We have previously demonstrated that Rab27 regulates dense granule secretion in platelets. Here, we analyzed the activation status of Rab27 using the thin layer chromatography method analyzing nucleotides bound to immunoprecipitated Rab27 and the pull-down method quantifying Rab27 bound to the GTP-Rab27-binding domain (synaptotagmin-like protein (Slp)-homology domain) of its specific effector, Slac2-b. We found that Rab27 was predominantly present in the GTP-bound form in unstimulated platelets due to constitutive GDP/GTP exchange activity. The GTP-bound Rab27 level drastically decreased due to enhanced GTP hydrolysis activity upon granule secretion. In permeabilized platelets, increase of Ca(2+) concentration induced dense granule secretion with concomitant decrease of GTP-Rab27, whereas in non-hydrolyzable GTP analogue GppNHp (beta-gamma-imidoguanosine 5'-triphosphate)-loaded permeabilized platelets, the GTP (GppNHp)-Rab27 level did not decrease upon the Ca(2+)-induced secretion. These data suggested that GTP hydrolysis of Rab27 was not necessary for inducing the secretion. Taken together, Rab27 is maintained in the active status in unstimulated platelets, which could function to keep dense granules in a preparative status for secretion.

Highlights

  • In eukaryotic cells, transport between distinct organelles is performed through vesicle trafficking

  • We examined whether GSTSHD bound GTP-bound Rab27A and Rab27B, both of which are expressed in platelets [37]

  • We have analyzed the GDP/GTP cycle of endogenous Rab27 in platelets during regulated exocytosis and demonstrated that Rab27 was predominantly present in the GTPbound form in unstimulated platelets and GTP-bound Rab27 decreased upon granule secretion

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Summary

Introduction

Transport between distinct organelles is performed through vesicle trafficking. We found that Rab27 was predominantly present in the GTP-bound form in unstimulated platelets due to constitutive GDP/GTP exchange activity. The GTP-bound Rab27 level drastically decreased due to enhanced GTP hydrolysis activity upon granule secretion.

Results
Conclusion

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