Data di Pubblicazione:
2011
Abstract:
The Golgi apparatus plays a central role in lipid and protein post-translational modification and sorting.
Morphologically the organelle is heterogeneous and it is possible to distinguish stacks of flat cysternae
(cis- and medial Golgi), tubular-reticular networks and vesicles (trans-Golgi). These morphological differences
parallel a distinct functionality with a selective distribution and complementary roles of the
enzymes found in the different compartments.
The Golgi apparatus has been also shown to be involved in Ca2+ signalling: it is indeed endowed with
Ca2+ pumps, Ca2+ release channels and Ca2+ binding proteins and is thought to participate in determining
the spatio-temporal complexity of the Ca2+ signal within the cell, though this role is still poorly
understood.
Recently, it has been demonstrated that the organelle is heterogeneous in terms of Ca2+ handling and
selective reduction of Ca2+ concentration, both in vitro and in a genetic human disease, within one of its
sub-compartment results in alterations of protein trafficking within the secretory pathway and of the
entire Golgi morphology.
In this paper we review the available information on the Ca2+ toolkit within the Golgi, its heterogeneous
distribution in the organelle sub-compartments and discuss the implications of these characteristics for
the physiopathology of the Golgi apparatus.
Morphologically the organelle is heterogeneous and it is possible to distinguish stacks of flat cysternae
(cis- and medial Golgi), tubular-reticular networks and vesicles (trans-Golgi). These morphological differences
parallel a distinct functionality with a selective distribution and complementary roles of the
enzymes found in the different compartments.
The Golgi apparatus has been also shown to be involved in Ca2+ signalling: it is indeed endowed with
Ca2+ pumps, Ca2+ release channels and Ca2+ binding proteins and is thought to participate in determining
the spatio-temporal complexity of the Ca2+ signal within the cell, though this role is still poorly
understood.
Recently, it has been demonstrated that the organelle is heterogeneous in terms of Ca2+ handling and
selective reduction of Ca2+ concentration, both in vitro and in a genetic human disease, within one of its
sub-compartment results in alterations of protein trafficking within the secretory pathway and of the
entire Golgi morphology.
In this paper we review the available information on the Ca2+ toolkit within the Golgi, its heterogeneous
distribution in the organelle sub-compartments and discuss the implications of these characteristics for
the physiopathology of the Golgi apparatus.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Golgi apparatus; Calcium; Fluorescence resonance energy transfer; Secretory pathway Ca2+ ATPase1; Hailey-Hailey disease
Elenco autori:
Pozzan, Tullio
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