Virginia Anna Ciccarone scite author profile

Virginia Anna Ciccarone

5Publications

34Citation Statements Received

76Citation Statements Given

How they've been cited

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381

Affiliations

University of Perugia, Columbia University

Publications

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Fibroblasts from PS1 Mutated Pre-Symptomatic Subjects and Alzheimer's Disease Patients Share a Unique Protein Levels Profile

Magini

Urbanelli

Ciccarone

et al. 2010

JAD

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In Alzheimer's disease (AD), a major goal is to improve early detection, as the diagnosis cannot be made until patients exhibit a noticeable decline in cognition and the brain is irreversibly damaged. With this aim in mind, we performed proteome analysis of familial AD fibroblasts from both demented and pre-symptomatic subjects, using a 2D-PAGE based approach and then identifying proteins by mass spectrometry. We compared primary fibroblast cultures from skin biopsy of presenilin 1 (PS1) mutated patients, pre-symptomatic subjects carrying mutations in the PS1 gene but healthy at the time of skin biopsy, and age-matched individuals as control. 15 differentially expressed proteins were identified in PS1 mutated fibroblasts, related to cell adhesion and cytoskeleton, energy and glucose metabolism, stress response and ubiquitin-proteasome system, and signal transduction. Interestingly, many of these proteins have been previously associated with AD and neurodegeneration. Overall results indicated that a unique protein profile can be identified by peripheral cell analysis of PS1 mutated individuals, and showed that fibroblasts are a useful cell model for pathological investigations as well as identification of potential biomarkers for AD diagnosis at early stages.

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New Perspectives for the Diagnosis of Alzheimers Disease

Urbanelli

Magini²,

Ciccarone³

et al. 2009

RPCN

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Alzheimer's disease is the most common cause of dementia in the elderly. Currently its clinical assessment is based on the exclusion of other forms of dementia and a definitive diagnosis requires a confirmation by examination of post-mortem brains. Therefore, there is a strong need to find easy measurable AD biomarkers that could facilitate the early diagnosis and monitoring the efficacy of the few therapies currently available. This would favor the development of further therapeutic approaches. Recently, dozens of biomarkers altered in peripheral tissues and body fluids have been patented by a variety of approaches, including transcriptomics, proteomics and peptidomics. However, assays for the routine laboratory diagnosis of AD are not available yet. The validation of these biomarkers is hindered by the fact that patient classification relies on clinical diagnosis that is not always accurate and this problem obstacles the enrollment of well characterized large patient cohorts needed for confirmation. This review provides an update of the status of research on AD peripheral biomarkers in the current post-genomic era, including recent patents in the field.

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Occurrence of an anomalous endocytic compartment in fibroblasts from Sandhoff disease patients

et al. 2009

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Sandhoff disease (SD) is a lysosomal storage disorder due to mutations in the gene encoding for the beta-subunit of beta-hexosaminidase, that result in beta-hexosaminidase A (alphabeta) and beta-hexosaminidase B (betabeta) deficiency. This leads to the storage of GM2 ganglioside in endosomes and lysosomes, which ends in a progressive neurodegeneration. Currently, very little is known about the biochemical pathways leading from GM2 ganglioside accumulation to pathogenesis. Defects in transport and sorting by the endosomal-lysosomal system have been described for several lysosomal storage disorders. Here, we have investigated the endosomal-lysosomal compartment in fibroblasts from SD patients and observed that both late endosomes and lysosomes, but not early endosomes, have a higher density in comparison with normal fibroblasts. Moreover, Sandhoff fibroblasts have an intracellular distribution of terminal endocytic organelles that differs from the characteristic perinuclear punctate pattern observed in normal fibroblasts and endocytic vesicles also appear larger. These findings reveal the occurrence of an alteration in the terminal endocytic organelles of Sandhoff fibroblasts, suggesting an involvement of this compartment in the disruption of cell metabolic and signalling pathways and in the onset of the pathological state.

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Identification and characterization of mature β-hexosaminidases associated with human placenta lysosomal membrane

Magini

Mencarelli

Tancini

et al. 2008

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Hex (β-hexosaminidase) is a soluble glycohydrolase involved in glycoconjugate degradation in lysosomes, however its localization has also been described in the cytosol and PM (plasma membrane). We previously demonstrated that Hex associated with human fibroblast PM as the mature form, which is functionally active towards GM2 ganglioside. In the present study, Hex was analysed in a lysosomal membrane-enriched fraction obtained by purification from highly purified human placenta lysosomes. These results demonstrate the presence of mature Hex associated with the lysosomal membrane and displaying, as observed for the PM-associated form, an acidic optimum pH. When subjected to sodium carbonate extraction, the enzyme behaved as a peripheral membrane protein, whereas Triton X-114 phase separation confirmed its partially hydrophilic nature, characteristics which are shared with the PM-associated form of Hex. Moreover, two-dimensional electrophoresis indicated a slight difference in the pI of β-subunits in the membrane and the soluble forms of the lysosomal Hex. These results reveal a new aspect of Hex biology and suggest that a fully processed membrane-associated form of Hex is translocated from the lysosomal membrane to the PM by an as yet unknown mechanism. We present a testable hypothesis that, at the cell surface, Hex changes the composition of glycoconjugates that are known to be involved in intercellular communication and signalling.

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Synaptic Membrane Antigens in Developing Rat Brain Cerebral Cortex and Cerebellum

Mahadik

Korenovsky

Ciccarone

et al. 1982

Journal of Neurochemistry

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The contents of five synaptic membrane antigens (56K, 58K, 62K, 63K, and 64K) were determined in rat cerebral cortex and cerebellum at eight developmental time points: E9, E14, P < 1, P5, P14, P28, P60, and P180 (E, embryonic; P, postnatal). In cerebral cortex, the five antigens showed five different developmental patterns with respect both to specific content (i.e., quantity per unit of membrane) and total content (i.e., quantity per cortex). The 56K, 58K, and 62K polypeptides were first detected at E14, increased slightly to P5, then increased rapidly from P5 to P28 by 14‐, 11‐, and 18‐fold, respectively. From P28 to PI80, the patterns of these antigens showed very large differences. The 63K and 64K antigens were first detected at P14 and P28, respectively. The specific content of 63K antigen continued to increase steadily throughout adult life; in contrast, the specific content of the 64K antigen did not change appreciably. In cerebellum only three antigens (56K, 58K, and 62K) were detected. These three antigens showed different developmental patterns. The 56K polypeptide was first detected at E14; its specific content increased very rapidly to a maximum at P < 1; it then decreased, first slowly, and then more rapidly, disappearing at P60. The 58K polypeptide also was detectable at E14 and increased very rapidly to a maximum at P < 1. It then decreased markedly to P5, followed by an increase, returning almost to its maximum level at P14. It then slowly decreased disappearing at P180. The 62K antigen was first detected at P14 and then it slowly decreased with disappearance at P60. The patterns with respect to total contents per cerebellum were similar for the three antigens, with a maximum at P28. We conclude that the highest increase in the contents of these antigens roughly corresponds to the period of maximal synaptogenesis (P9 to P28) in both regions. Differences among developmental patterns probably reflect changing molecular machinery required for development and functional differentiation of synapses in different brain regions. The fine structure of these patterns suggests that the quantitative measurement of synaptic membrane antigens will be useful for delineating complex processes occurring during synaptogenesis.

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