Your search keyword '"Andrea G. Lania"' showing total 2 results

1. Prediction of vertebral fractures in cancer patients undergoing hormone deprivation therapies: Reliability of WHO fracture risk assessment tool (FRAX) and bone mineral density in real-life clinical practice

Author

Gherardo Mazziotti, Walter Vena, Rebecca Pedersini, Sara Piccini, Emanuela Morenghi, Deborah Cosentini, Paolo Zucali, Rosalba Torrisi, Silvio Sporeni, Edda L. Simoncini, Roberto Maroldi, Luca Balzarini, Andrea G. Lania, and Alfredo Berruti

Subjects

Bone mineral density, Breast cancer, FRAX score, Fractures, Hormone deprivation therapy, Osteoporosis, Diseases of the musculoskeletal system, RC925-935, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background and Objective: Prediction of fractures in cancer survivors exposed to hormone-deprivation therapies (HDTs) is a challenge since bone loss is rapid and severe, and determinants of fractures in this setting are still largely unknown. In this study we investigated reliability of the WHO Fracture Risk Assessment Tool (FRAX) and bone mineral density (BMD) to identify subjects developing vertebral fractures during HDTs. Design: Five-hundred-twenty-seven consecutive subjects (429 females with breast cancer, 98 males with prostate cancer; median age 61 years), under HDTs for at least 6 months, were evaluated for vertebral fractures by a radiological and morphometric approach, in relationship with FRAX score, body mass index (BMI), BMD, age and duration of HDTs. Results: Vertebral fractures were found in 140 subjects (26.6%) and spine deformity index was significantly associated with duration of HDTs (rho 0.38; p

Published

2022

2. Duplications disrupt chromatin architecture and rewire GPR101-enhancer communication in X-linked acrogigantism

Author

Martin Franke, Adrian F. Daly, Leonor Palmeira, Amit Tirosh, Antonio Stigliano, Eszter Trifan, Fabio R. Faucz, Dayana Abboud, Patrick Petrossians, Juan J. Tena, Eleonora Vitali, Andrea G. Lania, José L. Gómez-Skarmeta, Albert Beckers, Constantine A. Stratakis, Giampaolo Trivellin, Eunice Kennedy Shriver National Institute of Child Health and Human Development (US), Fondazione Telethon, National Institutes of Health (US), Centre Hospitalier Universitaire de Liège, Novo Nordisk, European Commission, and Université de Liège

Subjects

Tumor, Communication, Genetic Diseases, X-Linked, TAD, Growth, gpr101, tad, x-lag, enhancers, gigantism, growth, pituitary, tumor, Article, Chromatin, Gigantism, X-LAG, Receptors, G-Protein-Coupled, DNA-Binding Proteins, Pituitary, Child, Preschool, Acromegaly, Genetics, Enhancers, Humans, Pituitary Neoplasms, Genetics (clinical), GPR101, Transcription Factors

Abstract

X-linked acrogigantism (X-LAG) is the most severe form of pituitary gigantism and is characterized by aggressive growth hormone (GH)-secreting pituitary tumors that occur in early childhood. X-LAG is associated with chromosome Xq26.3 duplications (the X-LAG locus typically includes VGLL1, CD40LG, ARHGEF6, RBMX, and GPR101) that lead to massive pituitary tumoral expression of GPR101, a novel regulator of GH secretion. The mechanism by which the duplications lead to marked pituitary misexpression of GPR101 alone was previously unclear. Using Hi-C and 4C-seq, we characterized the normal chromatin structure at the X-LAG locus. We showed that GPR101 is located within a topologically associating domain (TAD) delineated by a tissue-invariant border that separates it from centromeric genes and regulatory sequences. Next, using 4C-seq with GPR101, RBMX, and VGLL1 viewpoints, we showed that the duplications in multiple X-LAG-affected individuals led to ectopic interactions that crossed the invariant TAD border, indicating the existence of a similar and consistent mechanism of neo-TAD formation in X-LAG. We then identified several pituitary active cis-regulatory elements (CREs) within the neo-TAD and demonstrated in vitro that one of them significantly enhanced reporter gene expression. At the same time, we showed that the GPR101 promoter permits the incorporation of new regulatory information. Our results indicate that X-LAG is a TADopathy of the endocrine system in which Xq26.3 duplications disrupt the local chromatin architecture forming a neo-TAD. Rewiring GPR101-enhancer interaction within the new regulatory unit is likely to cause the high levels of aberrant expression of GPR101 in pituitary tumors caused by X-LAG., The work was supported by the following funding sources: Fondazione Telethon, Italy grant no. GGP20130 (to G.T.); Society for Endocrinology equipment grant (to G.T.); Intramural Research Program, Eunice Kennedy Shriver National Institute of Child Health & Human Development (NICHD), National Institutes of Health (NIH) Research project Z01-HD008920 (to C.A.S., supporting G.T., F.R.F.); Fonds d’Investissement pour la Recherche Scientifique (FIRS) of the Centre Hospitalier Universitaire de Liège (to A.F.D. and A.B.); the JABBS Foundation, UK (to A.B.); and Novo Nordisk Belgium Educational Grant, Belgium (to A.F.D. and A.B.). M.F. was funded by the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement (#800396) and a Juan de la Cierva-Formación fellowship from the Spanish Ministry of Science and Innovation (FJC2018-038233-I). G.T. was funded by the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie grant agreement (#843843). A.F.D. and D.A. were supported by Action de Recherche Concertée (ARC) Grant 17/21-01 from Liège University. D.A. was supported by grants from Télévie (7461117 F, 7454719 F) and the Léon Fredericq Foundation, Belgium.

Published

2022