Abstract
Outer nuclear membrane is endowed with a SERCA type Ca 2+-ATPase which pumps calcium into the nuclear envelope lumen and creates calcium stores. Variation in this calcium pool, among other things, regulates nuclear transport. The transport of Nuclear Localization Signal (NLS)-containing molecules into the nucleus is well established. Intermediate size molecules lacking an NLS translocate to the nucleus and its mechanism remains obscure. It is observed here that the treatment of HEK 293 cells in culture with dibutyryl cyclic AMP (db-cAMP) or forskolin (FK) triggered transport of Calcium Green 10 kDa dextran into the nucleus. Under similar conditions Fluo-3-AM accumulated around the nuclei. cAMP-dependent protein kinase phosphorylated 105 kDa nuclear Ca 2+-ATPase (NCA) which served as a trigger for NLS-independent transport into the nucleus.
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