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1. New pan-ALK inhibitor-resistant EML4::ALK mutations detected by liquid biopsy in lung cancer patients

Author

Villa, M, Malighetti, F, Sala, E, Sharma, G, Arosio, G, Gemelli, M, Manfroni, C, Fontana, D, Cordani, N, Meneveri, R, Zambon, A, Piazza, R, Pagni, F, Cortinovis, D, Mologni, L, Villa, Matteo, Malighetti, Federica, Sala, Elisa, Sharma, Geeta G., Arosio, Giulia, Gemelli, Maria, Manfroni, Chiara, Fontana, Diletta, Cordani, Nicoletta, Meneveri, Raffaella, Zambon, Alfonso, Piazza, Rocco, Pagni, Fabio, Cortinovis, Diego, Mologni, Luca, Villa, M, Malighetti, F, Sala, E, Sharma, G, Arosio, G, Gemelli, M, Manfroni, C, Fontana, D, Cordani, N, Meneveri, R, Zambon, A, Piazza, R, Pagni, F, Cortinovis, D, Mologni, L, Villa, Matteo, Malighetti, Federica, Sala, Elisa, Sharma, Geeta G., Arosio, Giulia, Gemelli, Maria, Manfroni, Chiara, Fontana, Diletta, Cordani, Nicoletta, Meneveri, Raffaella, Zambon, Alfonso, Piazza, Rocco, Pagni, Fabio, Cortinovis, Diego, and Mologni, Luca

Abstract

ALK and ROS1 fusions are effectively targeted by tyrosine kinase inhibitors (TKIs), however patients inevitably relapse after an initial response, often due to kinase domain mutations. We investigated circulating DNA from TKI-relapsed NSCLC patients by deep-sequencing. New EML4::ALK substitutions, L1198R, C1237Y and L1196P, were identified in the plasma of NSCLC ALK patients and characterized in a Ba/F3 cell model. Variants C1237Y and L1196P demonstrated pan-inhibitor resistance across 5 clinical and 2 investigational TKIs.

Published
2024

3. Current Therapeutical Approaches Targeting Lipid Metabolism in NAFLD

Author

Vitulo, M, Gnodi, E, Rosini, G, Meneveri, R, Giovannoni, R, Barisani, D, Vitulo M., Gnodi E., Rosini G., Meneveri R., Giovannoni R., Barisani D., Vitulo, M, Gnodi, E, Rosini, G, Meneveri, R, Giovannoni, R, Barisani, D, Vitulo M., Gnodi E., Rosini G., Meneveri R., Giovannoni R., and Barisani D.

Abstract

Nonalcoholic fatty liver disease (NAFLD, including nonalcoholic fatty liver (NAFL) and nonalcoholic steatohepatitis (NASH)) is a high-prevalence disorder, affecting about 1 billion people, which can evolve to more severe conditions like cirrhosis or hepatocellular carcinoma. NAFLD is often concomitant with conditions of the metabolic syndrome, such as central obesity and insulin-resistance, but a specific drug able to revert NAFL and prevent its evolution towards NASH is still lacking. With the liver being a key organ in metabolic processes, the potential therapeutic strategies are many, and range from directly targeting the lipid metabolism to the prevention of tissue inflammation. However, side effects have been reported for the drugs tested up to now. In this review, different approaches to the treatment of NAFLD are presented, including newer therapies and ongoing clinical trials. Particular focus is placed on the reverse cholesterol transport system and on the agonists for nuclear factors like PPAR and FXR, but also drugs initially developed for other conditions such as incretins and thyromimetics along with validated natural compounds that have anti-inflammatory potential. This work provides an overview of the different therapeutic strategies currently being tested for NAFLD, other than, or along with, the recommendation of weight loss.

Published
2023

4. Celiac disease: From genetics to epigenetics

Author

Gnodi, E, Meneveri, R, Barisani, D, Gnodi E., Meneveri R., Barisani D., Gnodi, E, Meneveri, R, Barisani, D, Gnodi E., Meneveri R., and Barisani D.

Abstract

Celiac disease (CeD) is a multifactorial autoimmune disorder spread worldwide. The exposure to gluten, a protein found in cereals like wheat, barley and rye, is the main environmental factor involved in its pathogenesis. Even if the genetic predisposition represented by HLA-DQ2 or HLA-DQ8 haplotypes is widely recognised as mandatory for CeD development, it is not enough to explain the total predisposition for the disease. Furthermore, the onset of CeD comprehend a wide spectrum of symptoms, that often leads to a delay in CeD diagnosis. To overcome this deficiency and help detecting people with increased risk for CeD, also clarifying CeD traits linked to disease familiarity, different studies have tried to make light on other predisposing elements. These were in many cases genetic variants shared with other autoimmune diseases. Since inherited traits can be regulated by epigenetic modifications, also induced by environmental factors, the most recent studies focused on the potential involvement of epigenetics in CeD. Epigenetic factors can in fact modulate gene expression with many mechanisms, generating more or less stable changes in gene expression without affecting the DNA sequence. Here we analyze the different epigenetic modifications in CeD, in particular DNA methylation, histone modifications, non-coding RNAs and RNA methylation. Special attention is dedicated to the additional predispositions to CeD, the involvement of epigenetics in developing CeD complications, the pathogenic pathways modulated by epigenetic factors such as microRNAs and the potential use of epigenetic profiling as biomarker to discriminate different classes of patients.

Published
2022

5. Interactions between Nanoparticles and Intestine

Author

Vitulo, M, Gnodi, E, Meneveri, R, Barisani, D, Vitulo M., Gnodi E., Meneveri R., Barisani D., Vitulo, M, Gnodi, E, Meneveri, R, Barisani, D, Vitulo M., Gnodi E., Meneveri R., and Barisani D.

Abstract

The use of nanoparticles (NPs) has surely grown in recent years due to their versatility, with a spectrum of applications that range from nanomedicine to the food industry. Recent research focuses on the development of NPs for the oral administration route rather than the intravenous one, placing the interactions between NPs and the intestine at the centre of the attention. This allows the NPs functionalization to exploit the different characteristics of the digestive tract, such as the different pH, the intestinal mucus layer, or the intestinal absorption capacity. On the other hand, these same characteristics can represent a problem for their complexity, also considering the potential interactions with the food matrix or the microbiota. This review intends to give a comprehensive look into three main branches of NPs delivery through the oral route: the functionalization of NPs drug carriers for systemic targets, with the case of insulin carriers as an example; NPs for the delivery of drugs locally active in the intestine, for the treatment of inflammatory bowel diseases and colon cancer; finally, the potential concerns and side effects of the accidental and uncontrolled exposure to NPs employed as food additives, with focus on E171 (titanium dioxide) and E174 (silver NPs).

Published
2022

6. Hematopoietic Stem Cell (HSC)-Independent Progenitors Are Susceptible to Mll-Af9-Induced Leukemic Transformation

Author

Barone, C, Orsenigo, R, Cazzola, A, D'Errico, E, Patelli, A, Quattrini, G, Vergani, B, Bombelli, S, De Marco, S, D'Orlando, C, Bianchi, C, Leone, B, Meneveri, R, Biondi, A, Cazzaniga, G, Rabbitts, T, Brunelli, S, Azzoni, E, Barone, C, Orsenigo, R, Cazzola, A, D'Errico, E, Patelli, A, Quattrini, G, Vergani, B, Bombelli, S, De Marco, S, D'Orlando, C, Bianchi, C, Leone, B, Meneveri, R, Biondi, A, Cazzaniga, G, Rabbitts, T, Brunelli, S, and Azzoni, E

Abstract

Infant acute myeloid leukemia (AML) is a heterogeneous disease, genetically distinct from its adult counterpart. Chromosomal translocations involving the KMT2A gene (MLL) are especially common in affected infants of less than 1 year of age, and are associated with a dismal prognosis. While these rearrangements are likely to arise in utero, the cell of origin has not been conclusively identified. This knowledge could lead to a better understanding of the biology of the disease and support the identification of new therapeutic vulnerabilities. Over the last few years, important progress in understanding the dynamics of fetal hematopoiesis has been made. Several reports have highlighted how hematopoietic stem cells (HSC) provide little contribution to fetal hematopoiesis, which is instead largely sustained by HSC-independent progenitors. Here, we used conditional Cre-Lox transgenic mouse models to engineer the Mll-Af9 translocation in defined subsets of embryonic hematopoietic progenitors. We show that embryonic hematopoiesis is generally permissive for Mll-Af9-induced leukemic transformation. Surprisingly, the selective introduction of Mll-Af9 in HSC-independent progenitors generated a transplantable myeloid leukemia, whereas it did not when introduced in embryonic HSC-derived cells. Ex vivo engineering of the Mll-Af9 rearrangement in HSC-independent progenitors using a CRISPR/Cas9-based approach resulted in the activation of an aberrant myeloid-biased self-renewal program. Overall, our results demonstrate that HSC-independent hematopoietic progenitors represent a permissive environment for Mll-Af9-induced leukemic transformation, and can likely act as cells of origin of infant AML.

Published
2023

7. Novel ALK mutations in EML4::ALK+ NSCLC resistant to TKIs identified by liquid biopsy

Author

Villa, M, Malighetti, F, Sharma, G, Arosio, G, Sala, E, Manfroni, C, Fontana, D, Cordani, N, Meneveri, R, Zambon, A, Piazza, R, Pagni, F, Cortinovis, D, Mologni, L, Villa, M, Malighetti, F, Sharma, G, Arosio, G, Sala, E, Manfroni, C, Fontana, D, Cordani, N, Meneveri, R, Zambon, A, Piazza, R, Pagni, F, Cortinovis, D, and Mologni, L

Subjects
ctDNA, ALK+NSCLC
Abstract

SIC47-94

Published
2022

8. One Size Does Not Fit All: Heterogeneity in Developmental Hematopoiesis

Author

Barone, C, Orsenigo, R, Meneveri, R, Brunelli, S, Azzoni, E, Barone, Cristiana, Orsenigo, Roberto, Meneveri, Raffaella, Brunelli, Silvia, Azzoni, Emanuele, Barone, C, Orsenigo, R, Meneveri, R, Brunelli, S, Azzoni, E, Barone, Cristiana, Orsenigo, Roberto, Meneveri, Raffaella, Brunelli, Silvia, and Azzoni, Emanuele

Abstract

Our knowledge of the complexity of the developing hematopoietic system has dramatically expanded over the course of the last few decades. We now know that, while hematopoietic stem cells (HSCs) firmly reside at the top of the adult hematopoietic hierarchy, multiple HSC-independent progenitor populations play variegated and fundamental roles during fetal life, which reflect on adult physiology and can lead to disease if subject to perturbations. The importance of obtaining a high-resolution picture of the mechanisms by which the developing embryo establishes a functional hematopoietic system is demonstrated by many recent indications showing that ontogeny is a primary determinant of function of multiple critical cell types. This review will specifically focus on exploring the diversity of hematopoietic stem and progenitor cells unique to embryonic and fetal life. We will initially examine the evidence demonstrating heterogeneity within the hemogenic endothelium, precursor to all definitive hematopoietic cells. Next, we will summarize the dynamics and characteristics of the so-called “hematopoietic waves” taking place during vertebrate development. For each of these waves, we will define the cellular identities of their components, the extent and relevance of their respective contributions as well as potential drivers of heterogeneity.

Published
2022

9. GENETICA GENERALE

Author

DE LEO,G, DI BELLA,MA, FASANO,S, BARISANI,D, MENEVERI,R, TOGNON,M, DE LEO, G, FASANO, S, GINELLI, E, DE LEO,G, FASANO,S, ALESSANDRO,R, ANTOGNELLI,C, BARISANI,D, BRANCOLINI,C, DI BELLA, MA, FONTANA,S, MENEVERI,R, MEZZASOMA,L, MINUCCI,S, MODESTI,A, OLIVIERI,A, PELLERI, MC, PIERANTONI, R, PURRELLO, M, ROBLEDO, R, SIDOTI,A, TALESA,VN, TOGNON,M, and DI BELLA,MA

Subjects
Genetica
Abstract

Genetica formale Metodo e prove sperimentali di Mendel Caratteri singoli e segregazione, Caratteri e assortimento indipendente, Esperienze mendeliane "ieri ed oggi", I Leggi di Mendel, I Caratteri mendeliani e reincrocio IGenetica "oltre" Mendel Dominanza incompleta Codominanza Significato e valore della dominanza e della recessività Alleila multipla Pleiotropia Interazione tra geni Alleli letali Linkage: esperienze di Morgan e associazione genica Associazione completa e associazione incompleta Basi biologiche della ricombinazione Complesso sinaptonemale, rotture a doppio filamento e crossing over Mappe fisiche e mappe genetiche Ambiente e geni L'ambiente e l'espressione dei geni: penetranza ed espressività Poligenia ed ereditarietà quantitativa Sesso e geni Determinazione del sesso nelle specie animali Cromosomi sessuali, X e Y

Published
2020

11. Prenatal Origin of Pediatric Leukemia: Lessons From Hematopoietic Development

Author

Cazzola, A, Cazzaniga, G, Biondi, A, Meneveri, R, Brunelli, S, Azzoni, E, Cazzola, Anna, Cazzaniga, Giovanni, Biondi, Andrea, Meneveri, Raffaella, Brunelli, Silvia, Azzoni, Emanuele, Cazzola, A, Cazzaniga, G, Biondi, A, Meneveri, R, Brunelli, S, Azzoni, E, Cazzola, Anna, Cazzaniga, Giovanni, Biondi, Andrea, Meneveri, Raffaella, Brunelli, Silvia, and Azzoni, Emanuele

Abstract

Several lines of evidence suggest that childhood leukemia, the most common cancer in young age, originates during in utero development. However, our knowledge of the cellular origin of this large and heterogeneous group of malignancies is still incomplete. The identification and characterization of their cell of origin is of crucial importance in order to define the processes that initiate and sustain disease progression, to refine faithful animal models and to identify novel therapeutic approaches. During embryogenesis, hematopoiesis takes place at different anatomical sites in sequential waves, and occurs in both a hematopoietic stem cell (HSC)-dependent and a HSC-independent fashion. Despite the recently described relevance and complexity of HSC-independent hematopoiesis, few studies have so far investigated its potential involvement in leukemogenesis. Here, we review the current knowledge on prenatal origin of leukemias in the context of recent insights in developmental hematopoiesis.

Published
2021

12. Study protocol: understanding the pathophysiologic mechanisms underlying delirium in older people undergoing hip fracture surgery

Author

Gamberale, R, D'Orlando, C, Brunelli, S, Meneveri, R, Mazzola, P, Foti, G, Bellani, G, Zatti, G, Munegato, D, Volpato, S, Zurlo, A, Caruso, G, Andreano, A, Valsecchi, M, Bellelli, G, Valsecchi, M G, Gamberale, R, D'Orlando, C, Brunelli, S, Meneveri, R, Mazzola, P, Foti, G, Bellani, G, Zatti, G, Munegato, D, Volpato, S, Zurlo, A, Caruso, G, Andreano, A, Valsecchi, M, Bellelli, G, and Valsecchi, M G

Abstract

Background Postoperative delirium (POD) is a common complication of older people undergoing hip fracture surgery, which negatively affects clinical- and healthcare-related outcomes. Unfortunately, POD pathophysiology is still largely unknown, despite previous studies showing that neuroinflammation, neuroendocrine dysfunction, increased reactive oxidative stress (ROS), and endothelial dysfunctions may be involved. There is also evidence that many of the pathophysiological mechanisms which are involved in delirium are involved in sarcopenia too. This article describes the protocol of a pilot study to evaluate the feasibility of a larger one that will explore the pathophysiological mechanisms correlating POD with sarcopenia. We will analyse whether various biomarkers reflecting neuroinflammation, ROS, neuroendocrine disorders, and microvasculature lesions will be simultaneously expressed in in the blood, cerebrospinal fluid (CSF), and muscles of patients developing POD. Methods Two centres will be involved in this study, each recruiting a convenient sample of ten older patients with hip fracture. All of them will undergo a baseline Comprehensive Geriatric Assessment, which will be used to construct a Rockwood-based Frailty Index (FI). Blood samples will be collected for each patient on the day of surgery and 1 day before. Additionally, CSF and muscle fragments will be taken and given to a biologist for subsequent analyses. The presence of POD will be assessed in each patient every morning until hospital discharge using the 4AT. Delirium subtypes and severity will be assessed using the Delirium Motor Subtype Scale-4 and the Delirium-O-Meter, respectively. We will also evaluate the patient's functional status at discharge, using the Cumulated Ambulation Score. Discussion This study will be the first to correlate biomarkers of blood, CSF, and muscle in older patients with hip fracture.

Published
2021

13. Gliadin, through the Activation of Innate Immunity, Triggers lncRNA NEAT1 Expression in Celiac Disease Duodenal Mucosa

Author

Gnodi, E, Mancuso, C, Elli, L, Ballarini, E, Meneveri, R, Beaulieu, J, Barisani, D, Gnodi, Elisa, Mancuso, Clara, Elli, Luca, Ballarini, Elisa, Meneveri, Raffaella, Beaulieu, Jean François, Barisani, Donatella, Gnodi, E, Mancuso, C, Elli, L, Ballarini, E, Meneveri, R, Beaulieu, J, Barisani, D, Gnodi, Elisa, Mancuso, Clara, Elli, Luca, Ballarini, Elisa, Meneveri, Raffaella, Beaulieu, Jean François, and Barisani, Donatella

Abstract

Celiac disease (CD) is an autoimmune enteropathy arising in genetically predisposed subjects exposed to gluten, which activates both innate and adaptive immunity. Although the pathogenesis is common to all patients, the clinical spectrum is quite variable, and differences could be explained by gene expression variations. Among the factors able to affect gene expression, there are lncRNAs. We evaluated the expression profile of 87 lncRNAs in CD vs. healthy control (HC) intestinal biopsies by RT-qPCR array. Nuclear enriched abundant transcript 1 (NEAT1) and taurine upregulated gene 1 (TUG1) were detected as downregulated in CD patients at diagnosis, but their expression increased in biopsies of patients on a gluten-free diet (GFD) exposed to gluten. The increase in NEAT1 expression after gluten exposure was mediated by IL-15 and STAT3 activation and binding to the NEAT1 promoter, as demonstrated by gel shift assay. NEAT1 is localized in the nucleus and can regulate gene expression by sequestering transcription factors, and it has been implicated in immune regulation and control of cell proliferation. The demonstration of its regulation by gluten thus also supports the role of lncRNAs in CD and prompts further research on these RNAs as gene expression regulators.

Published
2021

14. Biologia e genetica. Con e-book. Con software di simulazione

Author

De Leo, G, Fasano, S, Ginelli, E, Alessandro, R, Antognelli, C, Barisani, D, Brancolini, C, Di Bella MA, Fontana, S, Meneveri, R, Mezzasoma, L, Minucci, S, Modesti, A, Olivieri, A, Pelleri, Mc, Pierantoni, R, Purrello, M, Robledo, R, Sidoti, A, Talesa, Vn, and Tognon, M

Published
2020

17. Macrophages Guard Endothelial Lineage by Hindering Endothelial-to-Mesenchymal Transition: Implications for the Pathogenesis of Systemic Sclerosis

Author

Nicolosi, P, Tombetti, E, Giovenzana, A, Donè, E, Pulcinelli, E, Meneveri, R, Tirone, M, Maugeri, N, Rovere-Querini, P, Manfredi, A, Brunelli, S, Nicolosi, Pier Andrea, Tombetti, Enrico, GIOVENZANA, ANNA, Donè, Eleonora, Pulcinelli, Eleonora, Meneveri, Raffaella, Tirone, Mario, Maugeri, Norma, Rovere-Querini, Patrizia, Manfredi, Angelo A, Brunelli, Silvia, Nicolosi, P, Tombetti, E, Giovenzana, A, Donè, E, Pulcinelli, E, Meneveri, R, Tirone, M, Maugeri, N, Rovere-Querini, P, Manfredi, A, Brunelli, S, Nicolosi, Pier Andrea, Tombetti, Enrico, GIOVENZANA, ANNA, Donè, Eleonora, Pulcinelli, Eleonora, Meneveri, Raffaella, Tirone, Mario, Maugeri, Norma, Rovere-Querini, Patrizia, Manfredi, Angelo A, and Brunelli, Silvia

Abstract

The signals that control endothelial plasticity in inflamed tissues have only been partially characterized. For example, it has been shown that inadequate vasculogenesis in systemic sclerosis (SSc) has been associated with an endothelial defect. We used a genetic lineage tracing model to investigate whether endothelial cells die or change phenotypically after fibrosis induction and whether signals released by cells of the innate immune system and in the blood of patients influence their commitment. We observed that in the lineage-tracing transgenic mice Cdh5-CreERT2::R26R-EYFP, endothelial-derived cells (EdCs) underwent fibrosis after treatment with bleomycin, and EdCs retrieved from the lung showed expression of endothelial-to-mesenchymal transition (EndoMT) markers. Liposome-encapsulated clodronate was used to assess macrophage impact on EdCs. Clodronate treatment affected the number of alternatively activated macrophages in the lung, with upregulated expression of EndoMT markers in lung EdCs. Endothelial fate and function were investigated in vitro upon challenge with serum signals from SSc patients or released by activated macrophages. Sera of SSc patients with anti-Scl70 Abs, at higher risk of visceral organ fibrosis, induced EndoMT and jeopardized endothelial function. In conclusion, EdCs in SSc might be defective because of commitment to a mesenchymal fate, which is sustained by soluble signals in the patient's blood. Macrophages contribute to preserve the endothelial identity of precursor cells. Altered macrophage-dependent plasticity of EdCs could contribute to link vasculopathy with fibrosis.

Published
2019

19. miRNA-regulated gene expression differs in celiac disease patients according to the age of presentation

Author

Buoli Comani, G, Panceri, R, Dinelli, M, Biondi, A, Mancuso, C, Meneveri, R, Barisani, D, Buoli Comani, G, Panceri, R, Dinelli, M, Biondi, A, Mancuso, C, Meneveri, R, and Barisani, D

Abstract

Celiac disease is an intestinal disease which shows different symptoms and clinical manifestations among pediatric and adult patients. These variations could be imputable to age-related changes in gut architecture and intestinal immune system, which could be characterized by gene expression differences possibly regulated by miRNAs. We analyzed a panel of miRNAs and their target genes in duodenal biopsies of Marsh 3AB and 3C pediatric celiac patients, compared to controls. Moreover, to assess variation of expression in plasma samples, we evaluated circulating miRNA levels in controls and patients at diagnosis or on gluten-free diet. We detected a decreased miR-192-5p expression in celiac patients, but no variations in NOD2 and CXCL2, targets previously identified in adults. Conversely, we detected a significant increase in mRNA and protein levels of another target, MAD2L1, protein related to cell cycle control. miR-31-5p and miR-338-3p were down-regulated and their respective targets, FOXP3 and RUNX1, involved in Treg function, resulted up-regulated in celiac patients. Finally, we detected, in celiac patients, an increased expression of miR-21-5p, possibly caused by a regulatory loop with its putative target STAT3, which showed an increased activation in Marsh 3C patients. The analysis of plasma revealed a trend similar to that observed in biopsies, but in presence of gluten-free diet we could not detect circulating miRNAs values comparable to controls. miRNAs and their gene targets showed an altered expression in duodenal mucosa and plasma of celiac disease pediatric patients, and these alterations could be different from adult ones.

Published
2015

22. Biologia e Genetica

Author

De Leo, G., Fasano, S., Ginelli, E., Alessandro, R., Altruda, F., Amato, A., Antognelli, Cinzia, Barisani, D., Brancolini, C., Defilippi, P., Delrio, G., Di Bella, M. A., Dolcemascolo, G., Fontana, S., Gianguzza, M., Hirsch, E., Meneveri, R., Mezzasoma, Letizia, Minucci, S., Mirisola, M., Modesti, A., Pierantoni, R., Purrello, M., Seidita, G., Sidoti, A., Talesa, Vincenzo Nicola, Tarone, G., Tognon, M., and Tolosano, E.

Published
2013

23. Next-generation sequencing analysis of miRNA expression in control and FSHD myogenesis

Author

Colangelo, V, Francois, S, Solda, G, Picco, R, Roma, F, Ginelli, E, Meneveri, R, COLANGELO, VERONICA, FRANCOIS, STEPHANIE ANNE, MENEVERI, RAFFAELLA, ROMA, FRANCESCA, Colangelo, V, Francois, S, Solda, G, Picco, R, Roma, F, Ginelli, E, Meneveri, R, COLANGELO, VERONICA, FRANCOIS, STEPHANIE ANNE, MENEVERI, RAFFAELLA, and ROMA, FRANCESCA

Abstract

Emerging evidence has demonstrated that miRNA sequences can regulate skeletal myogenesis by controlling the process of myoblast proliferation and differentiation. However, at present a deep analysis of miRNA expression in control and FSHD myoblasts during differentiation has not yet been derived. To close this gap, we used a next-generation sequencing (NGS) approach applied to in vitro myogenesis. Furthermore, to minimize sample genetic heterogeneity and muscle-type specific patterns of gene expression, miRNA profiling from NGS data was filtered with FC≥4 (log2FC≥2) and p-value<0.05, and its validation was derived by qRT-PCR on myoblasts from seven muscle districts. In particular, control myogenesis showed the modulation of 38 miRNAs, the majority of which (34 out 38) were up-regulated, including myomiRs (miR-1, -133a, -133b and -206). Approximately one third of the modulated miRNAs were not previously reported to be involved in muscle differentiation, and interestingly some of these (i.e. miR-874, -1290, -95 and -146a) were previously shown to regulate cell proliferation and differentiation. FSHD myogenesis evidenced a reduced number of modulated miRNAs than healthy muscle cells. The two processes shared nine miRNAs, including myomiRs, although with FC values lower in FSHD than in control cells. In addition, FSHD cells showed the modulation of six miRNAs (miR-1 268, -1268b, -1908, 4258, -4508- and -4516) not evidenced in control cells and that therefore could be considered FSHD-specifIc, likewise three novel miRNAs that seem to be specifically expressed in FSHD myotubes. These data further clarify the impact of miRNA regulation during control myogenesis and strongly suggest that a complex dysregulation of miRNA expression characterizes FSHD, impairing two important features of myogenesis: cell cycle and muscle development. The derived miRNA profiling could represent a novel molecular signature for FSHD that includes diagnostic biomarkers and possibly therapeutic ta

Published
2014

24. miRNAs Affect the Expression of Innate and Adaptive Immunity Proteins in Celiac Disease

Author

Magni, S, BUOLI COMANI, G, Elli, L, Vanessi, S, Ballarini, E, Nicolini, G, Rusconi, M, Castoldi, M, Meneveri, R, Muckenthaler, M, Bardella, M, Barisani, D, Muckenthaler, MU, Bardella, MT, BUOLI COMANI, GAIA, VANESSI, SAMANTA, BALLARINI, ELISA, NICOLINI, GABRIELLA, RUSCONI, MICHELA, MENEVERI, RAFFAELLA, BARISANI, DONATELLA, Magni, S, BUOLI COMANI, G, Elli, L, Vanessi, S, Ballarini, E, Nicolini, G, Rusconi, M, Castoldi, M, Meneveri, R, Muckenthaler, M, Bardella, M, Barisani, D, Muckenthaler, MU, Bardella, MT, BUOLI COMANI, GAIA, VANESSI, SAMANTA, BALLARINI, ELISA, NICOLINI, GABRIELLA, RUSCONI, MICHELA, MENEVERI, RAFFAELLA, and BARISANI, DONATELLA

Abstract

OBJECTIVES: microRNAs (miRNAs) are short RNAs that regulate gene expression in various processes, including immune response. Altered immune response is a pivotal event in the pathogenesis of celiac disease (CD), and miRNAs could have a role in modulating both innate and adaptive response to gluten in celiac patients. METHODS: We compared miRNA profiles in duodenal biopsies of controls and CD patients by miRNA array. Differentially expressed miRNAs were validated in controls, Marsh 3A-B, and Marsh 3C patients by quantitative PCR (qPCR). Target gene expression was assessed by qPCR, western blotting, and immunohistochemistry, and the effect of gliadin was evaluated by in vitro stimulation experiments on duodenal biopsies. RESULTS: Seven miRNAs were identified as significantly downregulated in the duodenum of adult CD patients as compared with controls. qPCR validated the decreased expression of miR-192-5p, miR-31-5p, miR-338-3p, and miR-197, in particular in patients with more severe histological lesions (Marsh 3C). In silico analysis of possible miRNA targets identified several genes involved in innate and adaptive immunity. Among these, chemokine C-X-C motif ligand 2 (CXCL2) and NOD2 showed significantly increased mRNA and protein level in Marsh 3C patients and a significant inverse correlation with the regulatory miR-192-5p. In addition, forkhead box P3 (FOXP3), Run-related transcription factor 1, and interleukin-18 (targets of miR-31-5p, miR-338-3p, and miR-197, respectively) showed upregulation in CD patients. Furthermore, alterations in CXCL2 and NOD2, FOXP3, miR-192-5p, and miR-31-5p expression were triggered by gliadin exposure in CD patients. CONCLUSIONS: miRNA expression is significantly altered in duodenal mucosa of CD patients, and this alteration can increase the expression of molecules involved in immune response.

Published
2014

26. Evolutionary history of linked D4Z4 and Beta satellite clusters at the FSHD locus (4q35)

Author

Giussani, M, Cardone, F, Bodega, B, Ginelli, E, Meneveri, R, MENEVERI, RAFFAELLA, Giussani, M, Cardone, F, Bodega, B, Ginelli, E, Meneveri, R, and MENEVERI, RAFFAELLA

Abstract

We performed a detailed genomic investigation of the chimpanzee locus syntenic to human chromosome 4q35.2, associated to the facioscapulohumeral dystrophy. Two contigs of approximately 150 kb and 200 kb were derived from PTR chromosomes 4q35 and 3p12, respectively: both regions showed a very similar sequence organization, including D4Z4 and Beta satellite linked clusters. Starting from these findings, we derived a hypothetical evolutionary history of human 4q35, 10q26 and 3p12 chromosome regions focusing on the D4Z4-Beta satellite linked organization. The D4Z4 unit showed an open reading frame (DUX4) at both PTR 4q35 and 3p12 regions; furthermore some subregions of the Beta satellite unit showed a high degree of conservation between chimpanzee and humans. In conclusion, this paper provides evidence that at the 4q subtelomere the linkage between D4Z4 and Beta satellite arrays is a feature that appeared late during evolution and is conserved between chimpanzee and humans

Published
2012

27. Necdin Enhances Myoblasts Survival by Facilitating the Degradation of the Mediator of Apoptosis CCAR1/CARP1

Author

Francois, S, D'Orlando, C, Fatone, T, Touvier, T, Pessina, P, Meneveri, R, Brunelli, S, FRANCOIS, STEPHANIE ANNE, D'ORLANDO, CRISTINA, PESSINA, PATRIZIA, MENEVERI, RAFFAELLA, BRUNELLI, SILVIA, Francois, S, D'Orlando, C, Fatone, T, Touvier, T, Pessina, P, Meneveri, R, Brunelli, S, FRANCOIS, STEPHANIE ANNE, D'ORLANDO, CRISTINA, PESSINA, PATRIZIA, MENEVERI, RAFFAELLA, and BRUNELLI, SILVIA

Abstract

Regeneration of muscle fibers, lost during pathological muscle degeneration or after injuries, is sustained by the production of new myofibers by means of the satellite cells. Survival of the satellite cells is a critical requirement for efficient muscle reconstitution. Necdin, a member of the MAGE proteins family, is expressed in satellite cell-derived myogenic precursors during perinatal growth and in the adult upon activation during muscle regeneration, where it plays an important role both in myoblast differentiation and survival. We show here that necdin exerts its pro-survival activity by counteracting the action of the pro-apoptotic protein Cell Cycle Apoptosis Regulatory Protein (CCAR1/CARP1) that we have identified as a new molecular interactor of necdin by two-hybrid screening. Necdin is responsible for the maintenance of CCAR1 protein levels, by implementing its ubiquitination and degradation through the proteasome. Taken together, these data shed new light on the molecular mechanism of necdin anti-apoptotic activity in myogenesis. © 2012 François et al.

Published
2012

28. Expression profiling of FSHD-1 and FSHD-2 cells during myogenic differentiation evidences common and distinctive gene dysregulation patterns

Author

Cheli, S, Francois, S, Bodega, B, Ferrari, F, Tenedini, E, Roncaglia, E, Ferrari, S, Ginelli, E, Meneveri, R, FRANCOIS, STEPHANIE ANNE, MENEVERI, RAFFAELLA, Cheli, S, Francois, S, Bodega, B, Ferrari, F, Tenedini, E, Roncaglia, E, Ferrari, S, Ginelli, E, Meneveri, R, FRANCOIS, STEPHANIE ANNE, and MENEVERI, RAFFAELLA

Abstract

Background: Determine global gene dysregulation affecting 4q-linked (FSHD-1) and non 4q-linked (FSHD-2) cells during early stages of myogenic differentiation. This approach has been never applied to FSHD pathogenesis. Methodology/Principal Findings: By in vitro differentiation of FSHD-1 and FSHD-2 myoblasts and gene chip analysis we derived that gene expression profile is altered only in FSHD-1 myoblasts and FSHD-2 myotubes. The changes seen in FSHD-1 regarded a general defect in cell cycle progression, probably due to the upregulation of myogenic markers PAX3 and MYOD1, and a deficit of factors (SUV39H1 and HMGB2) involved in D4Z4 chromatin conformation. On the other hand, FSHD-2 mytubes were characterized by a general defect in RNA metabolism, protein synthesis and degradation and, to a lesser extent, in cell cycle. Common dysregulations regarded genes involved in response to oxidative stress and in sterol biosynthetic process. Interestingly, our results also suggest that miRNAs might be implied in both FSHD-1 and FSHD-2 gene dysregulation. Finally, in both cell differentiation systems, we did not observe a gradient of altered gene expression throughout the 4q35 chromosome. Conclusions/Significance: FSHD-1 and FSHD-2 cells showed, in different steps of myogenic differentiation, a global deregulation of gene expression rather than an alteration of expression of 4q35 specific genes. In general, FSHD-1 and FSHD-2 global gene deregulation interested common and distinctive biological processes. In this regard, defects of cell cycle progression (FSHD-1 and to a lesser extent FSHD-2), protein synthesis and degradation (FSHD-2), response to oxidative stress (FSHD-1 and FSHD-2), and cholesterol homeostasis (FSHD-1 and FSHD-2) may in general impair a correct myogenesis. Taken together our results recapitulate previously reported defects of FSHD-1, and add new insights into the gene deregulation characterizing both FSHD-1 and FSHD-2, in which miRNAs may play a role. © 2011 C

Published
2011

29. Remodeling of the chromatin structure of the facioscapulohumeral muscular dystrophy (FSHD) locus and upregulation of FSHD-related gene 1 (FRG1) expression during human myogenic differentiation

Author

Bodega, B, Ramirez, G, Grasser, F, Cheli, S, Brunelli, S, Mora, M, Meneveri, R, Marozzi, A, Mueller, S, Battaglioli, E, Ginelli, E, Ramirez, GD, Ginelli, E., BRUNELLI, SILVIA, MENEVERI, RAFFAELLA, Bodega, B, Ramirez, G, Grasser, F, Cheli, S, Brunelli, S, Mora, M, Meneveri, R, Marozzi, A, Mueller, S, Battaglioli, E, Ginelli, E, Ramirez, GD, Ginelli, E., BRUNELLI, SILVIA, and MENEVERI, RAFFAELLA

Abstract

Background Facioscapulohumeral muscular dystrophy (FSHD) is an autosomal dominant neuromuscular disorder associated with the partial deletion of integral numbers of 3.3 kb D4Z4 DNA repeats within the subtelomere of chromosome 4q. A number of candidate FSHD genes, adenine nucleotide translocator 1 gene (ANT1), FSHD-related gene 1 (FRG1), FRG2 and DUX4c, upstream of the D4Z4 array (FSHD locus), and double homeobox chromosome 4 (DUX4) within the repeat itself, are upregulated in some patients, thus suggesting an underlying perturbation of the chromatin structure. Furthermore, a mouse model overexpressing FRG1 has been generated, displaying skeletal muscle defects. Results In the context of myogenic differentiation, we compared the chromatin structure and tridimensional interaction of the D4Z4 array and FRG1 gene promoter, and FRG1 expression, in control and FSHD cells. The FRG1 gene was prematurely expressed during FSHD myoblast differentiation, thus suggesting that the number of D4Z4 repeats in the array may affect the correct timing of FRG1 expression. Using chromosome conformation capture (3C) technology, we revealed that the FRG1 promoter and D4Z4 array physically interacted. Furthermore, this chromatin structure underwent dynamic changes during myogenic differentiation that led to the loosening of the FRG1/4q-D4Z4 array loop in myotubes. The FRG1 promoter in both normal and FSHD myoblasts was characterized by H3K27 trimethylation and Polycomb repressor complex binding, but these repression signs were replaced by H3K4 trimethylation during differentiation. The D4Z4 sequences behaved similarly, with H3K27 trimethylation and Polycomb binding being lost upon myogenic differentiation. Conclusion We propose a model in which the D4Z4 array may play a critical chromatin function as an orchestrator of in cis chromatin loops, thus suggesting that this repeat may play a role in coordinating gene expression.

Published
2009

30. The low affinity receptor for neurotrophins p75NTR plays a key role for satellite cell function in muscle repair acting via RhoA. Molecular Biology of the Cell

Author

Deponti, D, Buono, R, Catanzaro, G, De Palma, C, Longhi, R, Meneveri, R, Bresolin, N, Bassi, M, Cossu, G, Clementi, E, Brunelli, S, De Palma C, Bassi, MT, MENEVERI, RAFFAELLA, BRUNELLI, SILVIA, Deponti, D, Buono, R, Catanzaro, G, De Palma, C, Longhi, R, Meneveri, R, Bresolin, N, Bassi, M, Cossu, G, Clementi, E, Brunelli, S, De Palma C, Bassi, MT, MENEVERI, RAFFAELLA, and BRUNELLI, SILVIA

Abstract

Regeneration of muscle fibers, lost during pathological muscle degeneration or after injuries, is mediated by the production of new myofibres. This process, sustained by the resident stem cells of the muscle, the satellite cells, is finely regulated by local cues, in particular by cytokines and growth factors. Evidence in the literature suggests that nerve growth factor (NGF) is involved in muscle fiber regeneration; however, its role and mechanism of action were unclear. We have investigated this issue in in vivo mouse models of muscle regeneration and in primary myogenic cells. Our results demonstrate that NGF acts through its low-affinity receptor p75NTR in a developmentally regulated signaling pathway necessary to myogenic differentiation and muscle repair in vivo. We also demonstrate that this action of NGF is mediated by the down-regulation of RhoA-GTP signaling in myogenic cells. © 2009 by The American Society for Cell Biology.

Published
2009

31. Hepcidin and iron-related gene expression in subjects with Dysmetabolic Hepatic Iron Overload

Author

Barisani, D, Pelucchi, S, Mariani, R, Galimberti, S, Trombini, P, Fumagalli, D, Meneveri, R, Nemeth, E, Ganz, T, Piperno, A, BARISANI, DONATELLA, PELUCCHI, SARA, MARIANI, RAFFAELLA, GALIMBERTI, STEFANIA, MENEVERI, RAFFAELLA, PIPERNO, ALBERTO, Barisani, D, Pelucchi, S, Mariani, R, Galimberti, S, Trombini, P, Fumagalli, D, Meneveri, R, Nemeth, E, Ganz, T, Piperno, A, BARISANI, DONATELLA, PELUCCHI, SARA, MARIANI, RAFFAELLA, GALIMBERTI, STEFANIA, MENEVERI, RAFFAELLA, and PIPERNO, ALBERTO

Abstract

BACKGROUND/AIMS: Many patients with hepatic iron overload do not have identifiable mutations and often present with metabolic disorders and hepatic steatosis. Since the pathophysiology of Dysmetabolic Hepatic Iron Overload (DHIO)is still obscure, the aim of this study was to evaluate, in these patients, possible alterations in iron-related molecule expression. METHODS: Iron-related gene mRNA levels were determined by quantitative-PCR in liver biopsies of subjects with NAFLD without iron overload and patients with HFE-hemochromatosis, beta-thalassemia major and DHIO. Urinary hepcidin was measured by immunoblotting. RESULTS: No alterations in mRNA expression of either iron transporters or exporters were found in DHIO. mRNA and urinary hepcidin levels normalized for the amount of iron overload showed a significantly lower ratio than in controls,although not as low as in hemochromatosis or beta-thalassemia. Differently from what observed in hemochromatosis, hepcidin mRNA did not correlate with urinary hepcidin. CONCLUSIONS: Patients with DHIO show appropriate regulation of mRNAs encoding proteins involved in iron uptake and efflux but dysregulation of hepcidin production. The relatively elevated urinary hepcidin can explain the iron phenotype in DHIO (more macrophage iron retention and low/normal transferrin saturation).

Published
2008

32. Necdin mediates skeletal muscle regeneration by promoting myoblast survival and differentiation.

Author

Deponti, D, Francois, S, Baesso, S, Sciorati, C, Innocenzi, A, Broccoli, V, Muscatelli, F, Meneveri, R, Clementi, E, Cossu, G, Brunelli, S, Deponti D, Baesso S, Sciorati C, Innocenzi A, Broccoli V, Muscatelli F, Clementi E, Cossu G, FRANCOIS, STEPHANIE ANNE, MENEVERI, RAFFAELLA, BRUNELLI, SILVIA, Deponti, D, Francois, S, Baesso, S, Sciorati, C, Innocenzi, A, Broccoli, V, Muscatelli, F, Meneveri, R, Clementi, E, Cossu, G, Brunelli, S, Deponti D, Baesso S, Sciorati C, Innocenzi A, Broccoli V, Muscatelli F, Clementi E, Cossu G, FRANCOIS, STEPHANIE ANNE, MENEVERI, RAFFAELLA, and BRUNELLI, SILVIA

Abstract

Regeneration of muscle fibers that are lost during pathological muscle degeneration or after injuries is sustained by the production of new myofibers. An important cell type involved in muscle regeneration is the satellite cell. Necdin is a protein expressed in satellite cell-derived myogenic precursors during perinatal growth. However, its function in myogenesis is not known. We compare transgenic mice that overexpress necdin in skeletal muscle with both wild-type and necdin null mice. After muscle injury the necdin null mice show a considerable defect in muscle healing, whereas mice that overexpress necdin show a substantial increase in myofiber regeneration. We also find that in muscle, necdin increases myogenin expression, accelerates differentiation, and counteracts myoblast apoptosis. Collectively, these data clarify the function and mechanism of necdin in skeletal muscle and show the importance of necdin in muscle regeneration.

Published
2007

33. Evolutionary genomic remodelling of the human 4q subtelomere (4q35.2)

Author

Bodega, B, Cardone, M, Muller, S, Neusser, M, Orzan, F, Rossi, E, Battaglioli, E, Marozzi, A, Riva, P, Rocchi, M, Meneveri, R, Ginelli, E, Cardone, MF, Ginelli, E., MENEVERI, RAFFAELLA, Bodega, B, Cardone, M, Muller, S, Neusser, M, Orzan, F, Rossi, E, Battaglioli, E, Marozzi, A, Riva, P, Rocchi, M, Meneveri, R, Ginelli, E, Cardone, MF, Ginelli, E., and MENEVERI, RAFFAELLA

Abstract

Background. In order to obtain insights into the functionality of the human 4q35.2 domain harbouring the facioscapulohumeral muscular dystrophy (FSHD) locus, we investigated in African apes genomic and chromatin organisations, and the nuclear topology of orthologous regions. Results. A basic block consisting of short D4Z4 arrays (10-15 repeats), 4q35.2 specific sequences, and approximately 35 kb of interspersed repeats from different LINE subfamilies was repeated at least twice in the gorilla 4qter. This genomic organisation has undergone evolutionary remodelling, leading to the single representation of both the D4Z4 array and LINE block in chimpanzee, and the loss of the LINE block in humans. The genomic remodelling has had an impact on 4qter chromatin organisation, but not its interphase nuclear topology. In comparison with humans, African apes show very low or undetectable levels of FRG1 and FRG2 histone 4 acetylation and gene transcription, although histone deacetylase inhibition restores gene transcription to levels comparable with those of human cells, thus indicating that the 4qter region is capable of acquiring a more open chromatin structure. Conversely, as in humans, the 4qter region in African apes has a very peripheral nuclear localisation. Conclusion. The 4q subtelomere has undergone substantial genomic changes during evolution that have had an impact on chromatin condensation and the region's transcriptional regulation. Consequently, the 4qter genes in African apes and humans seem to be subjected to a different strategy of regulation in which LINE and D4Z4 sequences may play a pivotal role. However, the effect of peripheral nuclear anchoring of 4qter on these regulation mechanisms is still unclear. The observed differences in the regulation of 4qter gene expression between African apes and humans suggest that the human 4q35.2 locus has acquired a novel functional relevance. © 2007 Bodega et al; licensee BioMed Central Ltd.

Published
2007

34. Lack of haptoglobin affects iron transport across duodenum by modulating ferroportin expression

Author

Marro, S, Barisani, D, Chiabrando, D, Fagoonee, S, Muckenthaler, M, Stolte, J, Meneveri, R, Haile, D, Silengo, L, Altruda, F, Tolosano, E, Muckenthaler, MU, Tolosano, E., BARISANI, DONATELLA, MENEVERI, RAFFAELLA, Marro, S, Barisani, D, Chiabrando, D, Fagoonee, S, Muckenthaler, M, Stolte, J, Meneveri, R, Haile, D, Silengo, L, Altruda, F, Tolosano, E, Muckenthaler, MU, Tolosano, E., BARISANI, DONATELLA, and MENEVERI, RAFFAELLA

Abstract

Background & Aims: Haptoglobin is an acute phase protein responsible for the recovery of free hemoglobin from plasma. Haptoglobin-mill mice were previously shown to have an altered heme-iron distribution, thus reproducing what occurs in humans in cases of congenital or acquired anhaptoglobinemia. Here, we report the analysis of iron homeostasis in haptoglobin-mill mice. Methods: Iron absorption was measured in tied-off duodenal segments. Iron stores were evaluated on tissue homogenates and sections. The expression of molecules involved in iron homeostasis was analyzed at the protein and messenger RNA levels both in mice and in murine RAW264.7 macrophages stimulated in vitro with hemoglobin. Results: Analysis of intestinal iron transport reveals that haptoglobin-null mice export significantly more iron from the duodenal mucosa to plasma compared with control counterparts. Increased iron export from the duodenum correlates with increased duodenal expression of ferroportin, both at the protein and messenger RNA levels, whereas hepatic hepcidin expression remains unchanged. Up-regulation of the ferroportin transcript, but not of the protein, also occurs in haptoglobin-null spleen macrophages, which accumulate free hemoglobin-derived iron. Finally, we demonstrate that hemoglobin induces ferroportin expression in RAW264.7 cells. Conclusions: Taking together these data, we suggest that haptoglobin, by controlling plasma levels of hemoglobin, participates in the regulation of ferroportin expression, thus contributing to the regulation of iron transfer from duodenal mucosa to plasma.

Published
2007

35. The boundary of macaque rDNA is constituted by low-copy sequences conserved during evolution

Author

Bodega, B, Cardone, M, Rocchi, M, Meneveri, R, Marozzi, A, Ginelli, E, Cardone, MF, Ginelli, E., MENEVERI, RAFFAELLA, Bodega, B, Cardone, M, Rocchi, M, Meneveri, R, Marozzi, A, Ginelli, E, Cardone, MF, Ginelli, E., and MENEVERI, RAFFAELLA

Abstract

In Macaca mulatta, the single rDNA array is flanked by a patchwork of sequences including subregions of human Yp11.2, 4q35.2, and 10p15.3. This composite DNA region is characterized by unique or low-copy sequences, resembling a potentially transcribed region. The analysis of Cercopithecus aethiops, Presbytis cristata, and Hylobates lar suggests that this complex sequence organization could be shared by Old World monkey and lesser ape species. After the lesser apes/great apes divergence, the unique or nonduplicated DNA region underwent amplification and spreading, preferentially marking the p arm of acrocentric chromosomes bearing the rDNA. The molecular analysis of human acrocentric chromosomes revealed some extent of remodeling of the rDNA boundary: near the human NOR, a large 4q35.2 duplication partially resembles that found in MMU; conversely, infrequently represented Yp11.2 sequences totally differed from those of the macaque, and 10p15.3 sequences were lacking. Thus, although evolutionary events modified the sequence organization of the MMU rDNA boundary, its overall sequence feature and the preferential location in vicinity to the NOR have been conserved. © 2006 Elsevier Inc. All rights reserved.

Published
2006

37. Hemochromatosis gene mutations and iron metabolism in celiac disease

Author

Barisani, D, Ceroni, S, Del Bianco, S, Meneveri, R, Bardella, M, BARISANI, DONATELLA, MENEVERI, RAFFAELLA, Bardella, MT, Barisani, D, Ceroni, S, Del Bianco, S, Meneveri, R, Bardella, M, BARISANI, DONATELLA, MENEVERI, RAFFAELLA, and Bardella, MT

Abstract

BACKGROUND AND OBJECTIVES: Iron deficiency anemia is a common manifestation of celiac disease, which may be due to genetic and environmental factors. HFE mutations, frequent in Caucasian populations, can cause increased intestinal iron absorption and thus could protect against the development of iron deficiency. The aim of this study was to evaluate the prevalence of HFE mutations and their effect on iron metabolism in Italian celiac patients at diagnosis and after a gluten-free diet. DESIGN AND METHODS: C282Y and H63D mutations were assessed by polymerase chain reaction (PCR) and restriction enzyme digestion in 203 patients with celiac disease and in 206 controls. HLA alleles were determined by sequence-specific primers and PCR. Duodenal histology was graded using Marsh's classification, and iron parameters measured by standard techniques. RESULTS: The frequency of the C282Y mutation was similar in celiac patients and controls (0.034 vs. 0.031); comparable frequencies were detected also for the H63D allele (0.170 vs. 0.136 in celiac patients and controls, respectively). Neither of the two HFE mutations affected iron indices in celiac patients at diagnosis, whereas a significant inverse correlation was detected between hemoglobin or ferritin and severity of histological damage (Marsh 3C or 3B vs. 3A, p<0.05 for both parameters). After a gluten-free diet, a slight increase in hemoglobin levels was observed in C282Y carriers as compared to controls, but only in female patients (p=0.044). INTERPRETATION AND CONCLUSIONS: In Italian patients with untreated celiac disease, HFE mutations do not constitute a protective factor against the development of iron deficiency, which seems to be mainly determined by the severity of the intestinal lesions.

Published
2004

38. Evolution of beta satellite DNA sequences: evidence for duplication-mediated repeat amplification and spreading

Author

Cardone, M, Ballarati, L, Ventura, M, Rocchi, M, Marozzi, A, Ginelli, E, Meneveri, R, Cardone, MF, MENEVERI, RAFFAELLA, Cardone, M, Ballarati, L, Ventura, M, Rocchi, M, Marozzi, A, Ginelli, E, Meneveri, R, Cardone, MF, and MENEVERI, RAFFAELLA

Abstract

In this article, we report studies on the evolutionary history of beta satellite repeats (BSR) in primates. In the orangutan genome, the bulk of BSR sequences was found organized as very short stretches of approximately 100 to 170 bp, embedded in a 60-kb to 80-kb duplicated DNA segment. The estimated copy number of the duplicon that carries BSR sequences ranges from 70 to 100 per orangutan haploid genome. In both macaque and gibbon, the duplicon mapped to a single chromosomal region at the boundary of the rDNA on the marker chromosome (chromosome 13 and 12, respectively). However, only in the gibbon, the duplicon comprised 100 bp of beta satellite. Thus, the ancestral copy of the duplicon appeared in Old World monkeys ( approximately 25 to approximately 35 MYA), whereas the prototype of beta satellite repeats took place in a gibbon ancestor, after apes/Old World monkeys divergence ( approximately 25 MYA). Subsequently, a burst in spreading of the duplicon that carries the beta satellite was observed in the orangutan, after lesser apes divergence from the great apes-humans lineage ( approximately 18 MYA). The analysis of the orangutan genome also indicated the existence of two variants of the duplication that differ for the length (100 or 170 bp) of beta satellite repeats. The latter organization was probably generated by nonhomologous recombination between two 100-bp repeated regions, and it likely led to the duplication of the single Sau3A site present in the 100-bp variant, which generated the prototype of Sau3A 68-bp beta satellite tandem organization. The two variants of the duplication, although with a different ratios, characterize the hominoid genomes from the orangutan to humans, preferentially involving acrocentric chromosomes. At variance to alpha satellite, which appeared before the divergence of New World and Old World monkeys, the beta satellite evolutionary history began in apes ancestor, where we have first documented a low-copy, nonduplicated BSR seq

Published
2004

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