Your search keyword '"Sprocati, Teresa"' showing total 3 results

1. Dynamic and reversible restructuring of the ER induced by PDMP in cultured cells.

Author

Sprocati, Teresa, Ronchi, Paolo, Raimondi, Andrea, Francolini, Maura, and Borgese, Nica

Subjects

*ENDOPLASMIC reticulum, *PROTEINS, *CERAMIDES, *RIBOSOMES, *SPHINGOLIPIDS

Abstract

In many cells, the endoplasmic reticulum (ER) contains segregated smooth and rough domains, but the mechanism of this segregation is unclear. Here, we used a HeLa cell line, inducibly expressing a GFP fusion protein [GFP-b(5)tail] anchored to the ER membrane, as a tool to investigate factors influencing ER organisation. Induction of GFP-b(5)tail expression caused proliferation of the ER, but its normal branching polygonal meshwork architecture was maintained. Experiments designed to test the effects of drugs that alter ceramide levels revealed that treatment of these cells with Phenyl-2-decanoyl-amino-3-morpholino-1-propanol-hydrocholride (PDMP) generated patches of segregated smooth ER, organised as a random tubular network, which rapidly dispersed after removal of the drug. The effect of PDMP was independent of its activity as sphingolipid synthesis inhibitor, but could be partially reversed by a membrane-permeant Ca2+ chelator. Although the smooth ER patches maintained connectivity with the remaining ER, they appeared to represent distinct domains differing in protein and lipid composition from the remaining ER. PDMP did not cause detachment of membrane-bound ribosomes, indicating that smooth ER patch generation was due to a reorganisation of pre-existing ribosome-free areas. Our results demonstrate a dynamic relationship between smooth and rough ER and have implications for the mechanisms regulating ER architecture. [ABSTRACT FROM AUTHOR]

Published

2006

2. N-myristoylation determines dual targeting of mammalian NADH-cytochrome b(5) reductase to ER and mitochondrial outer membranes by a mechanism of kinetic partitioning.

Author

Colombo, Sara, Longhi, Renato, Alcaro, Stefano, Ortuso, Francesco, Sprocati, Teresa, Flora, Adriano, and Borgese, Nica

Subjects

*CYTOCHROMES, *CYTOCHROME b, *HEMOPROTEINS, *AMINO acids, *FATTY acids, *MITOCHONDRIA

Abstract

Mammalian NADH-cytochrome b(5) reductase (b5R) is an N-myristoylated protein that is dually targeted to ER and mitochondrial outer membranes. The N-linked myristate is not required for anchorage to membranes because a stretch of hydrophobic amino acids close to the NH2 terminus guarantees a tight interaction of the protein with the phospholipid bilayer. Instead, the fatty acid is required for targeting of b5R to mitochondria because a nonmyristoylated mutant is exclusively localized to the ER. Here, we have investigated the mechanism by which N-linked myristate affects b5R targeting. We find that myristoylation interferes with interaction of the nascent chain with signal recognition particle, so that a portion of the nascent chains escapes from cotranslational integration into the ER and can be post-translationally targeted to the mitochondrial outer membrane. Thus, competition between two cotranslational events, binding of signal recognition particle and modification by N-myristoylation, determines the site of translation and the localization of b5R. [ABSTRACT FROM AUTHOR]

Published

2005

3. Expression of KIF3C kinesin during neural development and in vitro neuronal differentiation.

Author

Navone, Francesca, Consalez, G. Giacomo, Sardella, Milena, Caspani, Elisabetta, Pozzoli, Ombretta, Frassoni, Carolina, Morlacchi, Elena, Sitia, Roberto, Sprocati, Teresa, and Cabibbo, Andrea

Subjects

*KINESIN, *NEUROBLASTOMA

Abstract

KIF3A, KIF3B and KIF3C are kinesin-related motor subunits of the KIF3 family that associate to form the kinesin-II motor complex in which KIF3C and KIF3B are alternative partners of KIF3A. We have analysed the expression of Kif3 mRNAs during prenatal murine development. Kif3c transcripts are detectable from embryonic day 12.5 and persist throughout development both in the CNS and in some peripheral ganglia. Comparison of the expression patterns of the Kif3 genes revealed that Kif3c and Kif3a mRNAs colocalize in the CNS, while only Kif3a is also present outside the CNS. In contrast, Kif3b is detectable in several non-neural tissues. We have also performed immunocytochemical analyses of the developing rat brain and have found the presence of the KIF3C protein in selected brain regions and in several fibre systems. Using neuroblastoma cells as an in vitro model for neuronal differentiation, we found that retinoic acid stimulated the expression of the three Kif3 and the kinesin-associated protein genes, although with different time courses. The selective expression of Kif3c in the nervous system during embryonic development and its up-regulation during neuroblastoma differentiation suggest a role for this motor during maturation of neuronal cells. [ABSTRACT FROM AUTHOR]

Published

2001