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1. Deletions of chromosome 7q affect nuclear organization and HLXB9Gene expression in hematological disorders

Author

Federico, C, Owoka, T, Ragusa, D, Sturiale, V, Caponnetto, D, Leotta, C, Bruno, F, Foster, H, Rigamonti, S, Giudici, G, Cazzaniga, G, Bridger, J, Sisu, C, Saccone, S, Tosi, S, Federico C., Owoka T., Ragusa D., Sturiale V., Caponnetto D., Leotta C. G., Bruno F., Foster H. A., Rigamonti S., Giudici G., Cazzaniga G., Bridger J. M., Sisu C., Saccone S., Tosi S., Federico, C, Owoka, T, Ragusa, D, Sturiale, V, Caponnetto, D, Leotta, C, Bruno, F, Foster, H, Rigamonti, S, Giudici, G, Cazzaniga, G, Bridger, J, Sisu, C, Saccone, S, Tosi, S, Federico C., Owoka T., Ragusa D., Sturiale V., Caponnetto D., Leotta C. G., Bruno F., Foster H. A., Rigamonti S., Giudici G., Cazzaniga G., Bridger J. M., Sisu C., Saccone S., and Tosi S.

Abstract

The radial spatial positioning of individual gene loci within interphase nuclei has been associated with up-and downregulation of their expression. In cancer, the genome organization may become disturbed due to chromosomal abnormalities, such as translocations or deletions, resulting in the repositioning of genes and alteration of gene expression with oncogenic consequences. In this study, we analyzed the nuclear repositioning of HLXB9 (also called MNX1), mapping at 7q36.3, in patients with hematological disorders carrying interstitial deletions of 7q of various extents, with a distal breakpoint in 7q36. We observed that HLXB9 remains at the nuclear periphery, or is repositioned towards the nuclear interior, depending upon the compositional properties of the chromosomal regions involved in the rearrangement. For instance, a proximal breakpoint leading the guanine-cytosine (GC)-poor band 7q21 near 7q36 would bring HLXB9 to the nuclear periphery, whereas breakpoints that join the GC-rich band 7q22 to 7q36 would bring HLXB9 to the nuclear interior. This nuclear repositioning is associated with transcriptional changes, with HLXB9 in the nuclear interior becoming upregulated. Here we report an in cis rearrangement, involving one single chromosome altering gene behavior. Furthermore, we propose a mechanistic model for chromatin reorganization that affects gene expression via the influences of new chromatin neighborhoods.

Published
2019

2. Older people and smartphone practices in everyday life: an inquire on digital sociality of italian older users

Author

Caliandro, A., Garavaglia, E., Sturiale, V., Di Leva, A., Garavaglia E. (ORCID:0000-0001-7641-1816), Caliandro, A., Garavaglia, E., Sturiale, V., Di Leva, A., and Garavaglia E. (ORCID:0000-0001-7641-1816)

Abstract

This paper investigates the use of smartphone in older people everyday life and it is based on an empirical research involving 30 Italian smartphone users aged 62–76. The research drawn on the analysis of 75,089 log data, 3 collective and 20 face-to-face interviews. The paper describes the digital practices through which older users use smartphone to construct social relations within their everyday life as well as elaborate their own media ideologies. The article’s findings show that participants use smartphone for a limited amount of time and mainly to access WhatsApp. The smartphone is mainly used as an organizational device for activating momentary social connections to accomplish practical tasks. The ludic use of smartphone is rarely carried out. Specifically, we observed that through the smartphone, participants put into existence three kinds of “social spaces”: 1) a working space (with peers); 2) a space of augmented co-presences (with children); 3) a space of mutual digital education (grandchildren). In conclusion we argue that the forms of sociality participants put into existence through smartphone are marked by degrees of network privatism. While the media ideology they articulate around their everyday use of smartphone can be conceived as social media phobic.

Published
2021

4. Etnografia Digitale

Author

Airoldi, M, Anselmi, G, Arcostanzo, F, Cristadoro, A, Beraldo, D, Consolazio, D, Natale, P, Pansardi, P, Sturiale, V, Airoldi, M, Anselmi, G, Arcostanzo, F, Cristadoro, A, Beraldo, D, Consolazio, D, Natale, P, Pansardi, P, and Sturiale, V

Published
2017

17. Deletions of Chromosome 7q Affect Nuclear Organization and HLXB9 Gene Expression in Hematological Disorders

Author

Federico, Concetta, Owoka, Temitayo, Ragusa, Denise, Sturiale, Valentina, Caponnetto, Domenica, Leotta, Claudia Giovanna, Bruno, Francesca, Foster, Helen A., Rigamonti, Silvia, Giudici, Giovanni, Cazzaniga, Giovanni, Bridger, Joanna M., Sisu, Cristina, Saccone, Salvatore, Tosi, Sabrina, Federico, C, Owoka, T, Ragusa, D, Sturiale, V, Caponnetto, D, Leotta, C, Bruno, F, Foster, H, Rigamonti, S, Giudici, G, Cazzaniga, G, Bridger, J, Sisu, C, Saccone, S, and Tosi, S

Subjects
HLXB9 gene, genome organization, radial positioning, chromosome deletion, MNX1 gene, chromosome 7, leukemia, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282, Article
Abstract

© 2019 by the authors. The radial spatial positioning of individual gene loci within interphase nuclei has been associated with up- and downregulation of their expression. In cancer, the genome organization may become disturbed due to chromosomal abnormalities, such as translocations or deletions, resulting in the repositioning of genes and alteration of gene expression with oncogenic consequences. In this study, we analyzed the nuclear repositioning of HLXB9 (also called MNX1), mapping at 7q36.3, in patients with hematological disorders carrying interstitial deletions of 7q of various extents, with a distal breakpoint in 7q36. We observed that HLXB9 remains at the nuclear periphery, or is repositioned towards the nuclear interior, depending upon the compositional properties of the chromosomal regions involved in the rearrangement. For instance, a proximal breakpoint leading the guanine-cytosine (GC)-poor band 7q21 near 7q36 would bring HLXB9 to the nuclear periphery, whereas breakpoints that join the GC-rich band 7q22 to 7q36 would bring HLXB9 to the nuclear interior. This nuclear repositioning is associated with transcriptional changes, with HLXB9 in the nuclear interior becoming upregulated. Here we report an in cis rearrangement, involving one single chromosome altering gene behavior. Furthermore, we propose a mechanistic model for chromatin reorganization that affects gene expression via the influences of new chromatin neighborhoods. This research was funded by Research Plan 2016n2018 from Department of Biological, Geological and Environmental Sciences, University of Catania to C.F.” and “The APC was funded by Brunel University London; V.S., and F.B. are supported by a fellowship of the PhD program (University of Catania, Italy)

Published
2019

18. Etnografia Digitale

Author

Consolazio, D, Airoldi, M, Anselmi, G, Arcostanzo, F, Cristadoro, A, Beraldo, D, Consolazio, D, Natale, P, Pansardi, P, and Sturiale, V

Subjects
Etnografia Digitale, Nuovi Media, Netnografia
Published
2017

19. The Chromatin Organization Close to SNP rs12913832, Involved in Eye Color Variation, Is Evolutionary Conserved in Vertebrates.

Author

Brancato D, Bruno F, Coniglio E, Sturiale V, Saccone S, and Federico C

Subjects
Humans, Animals, Evolution, Molecular, Membrane Transport Proteins genetics, In Situ Hybridization, Fluorescence, Vertebrates genetics, Pigmentation genetics, Ubiquitin-Protein Ligases, Polymorphism, Single Nucleotide, Chromatin genetics, Chromatin metabolism, Guanine Nucleotide Exchange Factors genetics, Guanine Nucleotide Exchange Factors metabolism
Abstract

The most significant genetic influence on eye color pigmentation is attributed to the intronic SNP rs12913832 in the HERC2 gene, which interacts with the promoter region of the contiguous OCA2 gene. This interaction, through the formation of a chromatin loop, modulates the transcriptional activity of OCA2 , directly affecting eye color pigmentation. Recent advancements in technology have elucidated the precise spatial organization of the genome within the cell nucleus, with chromatin architecture playing a pivotal role in regulating various genome functions. In this study, we investigated the organization of the chromatin close to the HERC2/OCA2 locus in human lymphocyte nuclei using fluorescence in situ hybridization (FISH) and high-throughput chromosome conformation capture (Hi-C) data. The 3 Mb of genomic DNA that belonged to the chromosomal region 15q12-q13.1 revealed the presence of three contiguous chromatin loops, which exhibited a different level of compaction depending on the presence of the A or G allele in the SNP rs12913832. Moreover, the analysis of the genomic organization of the genes has demonstrated that this chromosomal region is evolutionarily highly conserved, as evidenced by the analysis of syntenic regions in species from other Vertebrate classes. Thus, the role of rs12913832 variant is relevant not only in determining the transcriptional activation of the OCA2 gene but also in the chromatin compaction of a larger region, underscoring the critical role of chromatin organization in the proper regulation of the involved genes. It is crucial to consider the broader implications of this finding, especially regarding the potential regulatory role of similar polymorphisms located within intronic regions, which do not influence the same gene by modulating the splicing process, but they regulate the expression of adjacent genes. Therefore, caution should be exercised when utilizing whole-exome sequencing for diagnostic purposes, as intron sequences may provide valuable gene regulation information on the region where they reside. Thus, future research efforts should also be directed towards gaining a deeper understanding of the precise mechanisms underlying the role and mode of action of intronic SNPs in chromatin loop organization and transcriptional regulation.

Published
2024
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20. Cell Cycle Reactivation, at the Start of Neurodegeneration, Induced by Forskolin and Aniline in Differentiated Neuroblastoma Cells.

Author

Sturiale V, Bruno F, Brancato D, D'Amico AG, Maugeri G, D'Agata V, Saccone S, and Federico C

Abstract

A characteristic hallmark of Alzheimer's disease (AD) is the intracellular accumulation of hyperphosphorylated tau protein, a phenomenon that appears to have associations with oxidative stress, double-stranded DNA breakage, and the de-condensation of heterochromatin. Re-entry into the cell division cycle appears to be involved in the onset of this neurodegenerative process. Indeed, the cell cycle cannot proceed regularly in the differentiated neurons leading to cell death. Here, we induced cell cycle reactivation in neuronal-like cells, obtained by neuroblastoma cells treated with retinoic acid, by exposure to forskolin or aniline. These compounds determine tau hyperphosphorylation or oxidative stress, respectively, resulting in the appearance of features resembling the start of neuronal degeneration typical of AD, such as tau hyperphosphorylation and re-entry into the cell cycle. Indeed, we detected an increased transcriptional level of cyclins and the appearance of a high number of mitotic cells. We also observed a delay in the initiation of the cell cycle when forskolin was co-administered with pituitary adenylate cyclase-activating polypeptide (PACAP). This delay was not observed when PACAP was co-administered with aniline. Our data demonstrate the relevance of tau hyperphosphorylation in initiating an ectopic cell cycle in differentiated neuronal cells, a condition that can lead to neurodegeneration. Moreover, we highlight the utility of neuroblastoma cell lines as an in vitro cellular model to test the possible neuroprotective effects of natural molecules.

Published
2023
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21. Hereditary Transthyretin-Related Amyloidosis: Genetic Heterogeneity and Early Personalized Gene Therapy.

Author

Dugo K, Bruno F, Sturiale V, Brancato D, Saccone S, and Federico C

Abstract

Point mutations of the transthyretin ( TTR ) gene are related with hereditary amyloidosis (hATTR). The number of people affected by this rare disease is only partially estimated. The real impact of somatic mosaicism and other genetic factors on expressivity, complexity, progression, and transmission of the disease should be better investigated. The relevance of this rare disease is increasing and many efforts have been made to improve the time to diagnosis and to estimate the real number of cases in endemic and non-endemic areas. In this context, somatic mosaicism should be better investigated to explain the complexity of the heterogeneity of the hATTR clinical features, to better estimate the number of new cases, and to focus on early and personalized gene therapy. Gene therapy can potentially improve the living conditions of affected individuals and is one of the central goals in research on amyloidosis related to the TTR gene, with the advantage of overcoming liver transplantation as the sole treatment for hATTR disease.

Published
2022
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22. Allelic Variations in the Human Genes TMPRSS2 and CCR5, and the Resistance to Viral Infection by SARS-CoV-2.

Author

Vitello GA, Federico C, Bruno F, Vinci M, Musumeci A, Ragalmuto A, Sturiale V, Brancato D, Calì F, and Saccone S

Subjects
Disease Progression, Genetic Predisposition to Disease, Humans, Sicily, COVID-19 genetics, Receptors, CCR5 genetics, SARS-CoV-2, Serine Endopeptidases genetics
Abstract

During the first wave of COVID-19 infection in Italy, the number of cases and the mortality rates were among the highest compared to the rest of Europe and the world. Several studies demonstrated a severe clinical course of COVID-19 associated with old age, comorbidities, and male gender. However, there are cases of virus infection resistance in subjects living in close contact with infected subjects. Thus, to explain the predisposition to virus infection and to COVID-19 disease progression, we must consider, in addition to the genetic variability of the virus and other environmental or comorbidity conditions, the allelic variants of specific human genes, directly or indirectly related to the life cycle of the virus. Here, we analyzed three human genetic polymorphisms belonging to the TMPRSS2 and CCR5 genes in a sample population from Sicily (Italy) to investigate possible correlations with the resistance to viral infection and/or to COVID-19 disease progression as recently described in other human populations. Our results did not show any correlations of the rs35074065, rs12329760, and rs333 polymorphisms with SARS-CoV-2 infection or with COVID-19 disease severity. Further studies on other human genetic polymorphisms should be performed to identify the major human determinants of SARS-CoV-2 viral resistance.

Published
2022
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23. From FISH to Hi-C: The Chromatin Architecture of the Chromosomal Region 7q36.3, Frequently Rearranged in Leukemic Cells, Is Evolutionary Conserved.

Author

Gulino GM, Bruno F, Sturiale V, Brancato D, Ragusa D, Tosi S, Saccone S, and Federico C

Subjects
Animals, Cell Line, Tumor, Cell Nucleus genetics, Humans, In Situ Hybridization, Fluorescence, Mice, Chromatin genetics, Chromosomes, Human genetics, Homeodomain Proteins genetics, Leukemia genetics, Multigene Family, Transcription Factors genetics
Abstract

Fluorescence in situ hybridization (FISH) and Hi-C methods are largely used to investigate the three-dimensional organization of the genome in the cell nucleus and are applied here to study the organization of genes ( LMBR1 , NOM1 , MNX1 , UBE3C , PTPRN2 ) localized in the human 7q36.3 band. This region contains the MNX1 gene, which is normally not expressed in human lymphocytes beyond embryonic development. However, this homeobox gene is frequently activated in leukemic cells and its expression is associated with an altered gene positioning in the leukemia cell nuclei. In this study, we used FISH on 3D-preserved nuclei to investigate the nuclear positioning of MNX1 in the leukemia-derived cell line K562. Of the five copies of the MNX1 gene present in K562, four alleles were positioned in the nuclear periphery and only one in the nuclear interior. Using the Juicebox's Hi-C dataset, we identified five chromatin loops in the 7q36.3 band, with different extensions related to the size and orientation of the genes located here, and independent from their expression levels. We identified similar loops in 11 human and three mouse cell lines, showing that these loops are highly conserved in different human cell lines and during evolution. Moreover, the chromatin loop organization is well conserved also during neuronal cell differentiation, showing consistency in genomic organization of this region in development. In this report, we show that FISH and Hi-C are two different approaches that complement one another and together give complete information on the nuclear organization of specific chromosomal regions in different conditions, including cellular differentiation and genetic diseases.

Published
2021
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24. Deletions of Chromosome 7q Affect Nuclear Organization and HLXB9 Gene Expression in Hematological Disorders.

Author

Federico C, Owoka T, Ragusa D, Sturiale V, Caponnetto D, Leotta CG, Bruno F, Foster HA, Rigamonti S, Giudici G, Cazzaniga G, Bridger JM, Sisu C, Saccone S, and Tosi S

Abstract

The radial spatial positioning of individual gene loci within interphase nuclei has been associated with up- and downregulation of their expression. In cancer, the genome organization may become disturbed due to chromosomal abnormalities, such as translocations or deletions, resulting in the repositioning of genes and alteration of gene expression with oncogenic consequences. In this study, we analyzed the nuclear repositioning of HLXB9 (also called MNX1 ), mapping at 7q36.3, in patients with hematological disorders carrying interstitial deletions of 7q of various extents, with a distal breakpoint in 7q36. We observed that HLXB9 remains at the nuclear periphery, or is repositioned towards the nuclear interior, depending upon the compositional properties of the chromosomal regions involved in the rearrangement. For instance, a proximal breakpoint leading the guanine-cytosine (GC)-poor band 7q21 near 7q36 would bring HLXB9 to the nuclear periphery, whereas breakpoints that join the GC-rich band 7q22 to 7q36 would bring HLXB9 to the nuclear interior. This nuclear repositioning is associated with transcriptional changes, with HLXB9 in the nuclear interior becoming upregulated. Here we report an in cis rearrangement, involving one single chromosome altering gene behavior. Furthermore, we propose a mechanistic model for chromatin reorganization that affects gene expression via the influences of new chromatin neighborhoods.

Published
2019
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