Your search keyword '"Francolini, Maura"' showing total 6 results

1. Transmembrane domain-dependent partitioning of membrane proteins within the endoplasmic reticulum

Author

Ronchi, Paolo, Colombo, Sara, Francolini, Maura, and Borgese, Nica

Subjects

Membrane proteins -- Properties, Membrane proteins -- Control, Endoplasmic reticulum -- Properties, Biological sciences

Abstract

The length and hydrophobicity of the transmembrane domain (TMD) play an important role in the sorting of membrane proteins within the secretory pathway; however, the relative contributions of protein-protein and protein-lipid interactions to this phenomenon are currently not understood. To investigate the mechanism of TMD-dependent sorting, we used the following two C tailanchored fluorescent proteins (FPs), which differ only in TMD length: FP-17, which is anchored to the endoplasmic reticulum (ER) membrane by 17 uncharged residues, and FP-22, which is driven to the plasma membrane by its 22-residue-long TMD. Before export of FP-22, the two constructs, although freely diffusible, were seen to distribute differently between ER tubules and sheets. Analyses in temperature-blocked cells revealed that FP-17 is excluded from ER exit sites, whereas FP-22 is recruited to them, although it remains freely exchangeable with the surrounding reticulum. Thus, physicochemical features of the TMD influence sorting of membrane proteins both within the ER and at the ER-Golgi boundary by simple receptorindependent mechanisms based on partitioning.

Published

2008

2. Two tail-anchored protein variants, differing in transmembrane domain length and intracellular sorting, interact differently with lipids

Author

Ceppi, Paolo, Colombo, Sara, Francolini, Maura, Raimondo, Francesca, Borgese, Nica, and Masserini, Massimo

Subjects

Cytochromes -- Research, Endoplasmic reticulum -- Research, Lipids -- Research, Liposomes -- Research, Proteins -- Research, Science and technology

Abstract

C-tail-anchored (TA) proteins often require a transmembrane domain of moderate hydrophobicity to maintain their endoplasmic reticulum residence, but the suggested role of protein--lipid interactions in this phenomenon has not been established. Here, we studied the interaction of TA proteins with lipids by differential scanning calorimetry by using a model system consisting of liposomes embedding either of two forms of cytochrome [b.sub.5]: the endoplasmic reticulum-resident wild-type ([b.sub.5]wt) and a mutant thereof ([b.sub.5]ext), that contains five extra nonpolar amino acids in its transmembrane domain and, therefore, reaches the plasma membrane. The proteins were incorporated into liposomes of palmitoyloleyl-phosphatidylcholine (POPC) or POPC mixed with either distearoyl-phosphatidylserine (DSPS), palmitoyl-oleyl-phosphatidylserine (POPS), distearoyl-phosphatidylcholine (DSPC), or C16-ceramide (CER). POPC liposomes displayed a single thermotropic transition centered at -3.4[degrees]C. When present, the second lipid formed a domain within the POPC bilayer, as indicated by the appearance of an additional peak. This peak was centered at temperatures close to 0[degrees]C in the case of liposomes containing 10% CER, DSPS, and POPS and at 23[degrees]C in the case of DSPC, likely reflecting a higher degree of molecular packing for DSPC domains. In DSPS/POPC, POPS/POPC, or CER/POPC, but not in DSPC/POPC liposomes, the insertion of [b.sub.5]wt increased, whereas [b.sub.5]ext decreased, the relative contribution to the total enthalpy of the higher temperature, phase-separated component. These results were confirmed with fluorescence measurements by using pyrene-labeled phospholipids. The dissimilar interaction with lipids of these two differently localized TA proteins could have implications for their intracellular sorting. cytochrome [b.sub.5] | differential scanning calorimetry | endoplasmic reticulum | lipid domains | liposomes

Published

2005

3. Mitochondrial biogenesis by NO yields functionally active mitochondria in mammals

Author

Nisoli, Enzo, Falcone, Sestina, Tonello, Cristina, Cozzi, Valeria, Palomba, Letizia, Fiorani, Mara, Pisconti, Addolorata, Brunelli, Silvia, Cardile, Annalisa, Francolini, Maura, Cantoni, Orazio, Carruba, Michele O., Moncada, Salvador, and Clementi, Emilio

Subjects

Nitric oxide -- Research, Science and technology

Abstract

We recently found that long-term exposure to nitric oxide (NO) triggers mitochondrial biogenesis in mammalian cells and tissues by activation of guanylate cyclase and generation of cGMP. Here, we report that the NO/cGMP-dependent mitochondrial biogenesis is associated with enhanced coupled respiration and content of ATP in U937, L6, and PC12 cells. The observed increase in ATP content depended entirely on oxidative phosphorylation, because ATP formation by glycolysis was unchanged. Brain, kidney, liver, heart, and gastrocnemius muscle from endothelial NO synthase null mutant mice displayed markedly reduced mitochondrial content associated with significantly lower oxygen consumption and ATP content. In these tissues, ultrastructural analyses revealed significantly smaller mitochondria. Furthermore, a significant reduction in the number of mitochondria was observed in the subsarcolemmal region of the gastrocnemius muscle. We conclude that NO/cGMP stimulates mitochondrial biogenesis, both in vitro and in vivo, and that this stimulation is associated with increased mitochondrial function, resulting in enhanced formation of ATP. ATP | cGMP | oxygen consumption

Published

2004

4. Formation of stacked ER cisternae by low affinity protein interactions

Author

Snapp, Erik L., Hegde, Ramanujan S., Francolini, Maura, Lombardo, Francesca, Colombo, Sara, Pedrazzini, Emanuela, Borgese, Nica, and Lippincott-Schwartz, Jennifer

Subjects

Proteins -- Research, Endoplasmic reticulum -- Analysis, Biological sciences

Abstract

The endoplasmic reticulum (ER) can transform from a network of branching tubules into stacked membrane arrays (termed organized smooth ER [OSER]) in response to elevated levels of specific resident proteins, such as cytochrome b(5). Here, we have tagged OSER-inducing proteins with green fluorescent protein (GFP) to study OSER biogenesis and dynamics in living cells. Overexpression of these proteins induced formation of karmellae, whorls, and crystalloid OSER structures. Photobleaching experiments revealed that OSER-inducing proteins were highly mobile within OSER structures and could exchange between OSER structures and surrounding reticular ER. This indicated that binding interactions between proteins on apposing stacked membranes of OSER structures were not of high affinity. Addition of GFP, which undergoes low affinity, antiparallel dimerization, to the cytoplasmic domains of non-OSER-inducing resident ER proteins was sufficient to induce OSER structures when overexpressed, but addition of a nondimerizing GFP variant was not. These results point to a molecular mechanism for OSER biogenesis that involves weak homotypic interactions between cytoplasmic domains of proteins. This mechanism may underlie the formation of other stacked membrane structures within cells.

Published

2003

5. Mitochondrial biogenesis in mammals: the role of endogenous nitric oxide. (Reports)

Author

Nisoli, Enzo, Clementi, Emilio, Paolucci, Clara, Cozzi, Valeria, Tonello, Cristina, Sciorati, Clara, Bracale, Renata, Valerio, Alessandra, Francolini, Maura, Moncada, Salvador, and Carruba, Michele O.

Subjects

Mitochondria -- Observations -- Genetic aspects, Mice -- Genetic aspects, Science and technology, Observations, Genetic aspects

Abstract

Nitric oxide was found to trigger mitochondrial biogenesis in cells as diverse as brown adipocytes and 3T3-L1, U937, and HeLa cells. This effect of nitric oxide was dependent on guanosine 3',5'-monophosphate (cGMP) and was mediated by the induction of peroxisome proliferator-activated receptor γ coactivator 1α, a master regulator of mitochondrial biogenesis. Moreover, the mitochondrial biogenesis induced by exposure to cold was markedly reduced in brown adipose tissue of endothelial nitric oxide synthase null-mutant (eNOS.sup.-/-]) mice, which had a reduced metabolic rate and accelerated weight gain as compared to wild-type mice. Thus, a nitric oxide-cGMP-dependent pathway controls mitochondrial biogenesis and body energy balance., Mitochondria in mature brown adipocytes are more numerous and larger than those of other cell types. Furthermore, their inner mitochondrial membrane contains uncoupling protein 1 (UCP1), which diverts energy from [...]

Published

2003

6. Effects of Purified Recombinant Neural and Muscle Agrin on Skeletal Muscle Fibers In Vivo

Author

Bezakova, Gabriela, Helm, Johannes P., Francolini, Maura, and Lomo, Terje

Subjects

Agrin -- Physiological aspects, Striated muscle -- Physiological aspects, Acetylcholine -- Receptors, Laminin -- Physiological aspects, Neuromuscular junction -- Physiological aspects, Biological sciences

Abstract

Aggregation of acetylcholine receptors (AChRs) in muscle fibers by nerve-derived agrin plays a key role in the formation of neuromuscular junctions. So far, the effects of agrin on muscle fibers have been studied in culture systems, transgenic animals, and in animals injected with agrin-cDNA constructs. We have applied purified recombinant chick neural and muscle agrin to rat soleus muscle in vivo and obtained the following results. Both neural and muscle agrin bind uniformly to the surface of innervated and denervated muscle fibers along their entire length. Neural agrin causes a dose-dependent appearance of AChR aggregates, which persist [is greater than or equal to] 7 wk after a single application. Muscle agrin does not cluster AChRs and at 10 times the concentration of neural agrin does not reduce binding or AChR-aggregating activity of neural agrin. Electrical muscle activity affects the stability of agrin binding and the number, size, and spatial distribution of the neural agrin-induced AChR aggregates. Injected agrin is recovered from the muscles together with laminin and both proteins coimmunoprecipitate, indicating that agrin binds to laminin in vivo. Thus, the present approach provides a novel, simple, and efficient method for studying the effects of agrin on muscle under controlled conditions in vivo. Key words: agrin * acetylcholine receptors * laminin * electrical activity * neuromuscular junction

Published

2001