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ML Jaffrain-Rea
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E Petrangeli
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C Lubrano
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G Minniti
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D Di Stefano
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F Sciarra
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L Frati
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G Tamburrano
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G Cantore
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A Gulino
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The number of epidermal growth factor (EGF) binding sites was determined by competitive binding assays in a series of 46 pituitary macroadenomas. A single concentration of 125I-EGF (1 nM) was used for all experiments. In four cases, a displacement curve was obtained by adding increasing concentrations of cold EGF, and Scatchard analysis showed the presence of two classes of EGF binding sites, with Kd1 = 0.62 +/- 0.23 nM and Kd2 = 53.8 +/- 8.2 nM for the high- and low-affinity binding sites respectively. The distribution of EGF binding sites was studied in 42 cases by a single-point assay, in the presence and in the absence of a 100-fold cold EGF excess. A non-parametric distribution of EGF binding sites was observed (median 10.2 fmol/mg membrane protein, range 0.0-332.0). EGF-receptor positivity, defined as EGF binding > or = 10.0 fmol/mg protein, was observed in 23 samples (54.8%), especially in prolactinomas (76.5%, P < 0.05 vs other tumors taken together) and in gonadotrope adenomas (62.5%). EGF binding was higher in invasive than in non-invasive adenomas (median: 12.8 vs 0.0 fmol/mg membrane protein, P = 0.047), and especially in adenomas invading the sphenoid sinus (median 26.7 fmol/mg membrane protein, P = 0.008 vs other adenomas). EGF binding also tended to increase with the grade of supra/extrasellar extension according to Wilson (P = 0.15). Sex steroid receptors (SSRs) were simultaneously determined in both cytosolic and nuclear fractions of 31 pituitary adenomas. Estrogen and progesterone receptors were determined by an enzyme-linked immunoassay and androgen receptors by a competitive binding assay with [3H]methyltrienolone. No correlation could be found between EGF binding and either the gender and gonadal status of the patients, or the expression of SSRs by the adenomas. We conclude that the EGF family of growth factors may play a role in the evolution of a significant subset of human pituitary adenomas, especially in their invasiveness, and that a high EGF binding capacity may represent an additional marker of aggressiveness for these tumors. Sex steroids do not appear to have a significant role in the regulation of EGF binding in vivo in these tumors.

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A Fratticci Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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F A Grieco Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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C Spilioti Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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F Giangaspero Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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L Ventura Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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V Esposito Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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M Piccirilli Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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A Santoro Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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A Gulino Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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G Cantore Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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E Alesse Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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M L Jaffrain-Rea Department of Experimental Medicine, University of L’Aquila, Via Vetoio, Coppito 2 - 67100 L’Aquila (AQ), Italy
Neuromed Institute, IRCCS, Pozzilli, Via Atinense 18, 86077 Pozzilli (IS), Italy
Department of Experimental Medicine and Pathology, University ‘La Sapienza’, Policlinico Umberto 1°, Viale dell’Università, 00161 Rome (RM), Italy
Pathology, S Salvatore Hospital, L’Aquila, Coppito, 67 100 L’Aquila (AQ), Italy
Departments of Neurological Sciences, Policlinico Umberto 1°, Via Regina Margherita, 00161 Roma (RM), Italy
Fondazione ‘Carlo Ferri’, Via E. Riva 42, 00015 Monterotondo (RM), Italy

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Basic helix-loop-helix (bHLH) transcription factors are involved in neuroendocrine cell growth and differentiation. Though NeuroD1 is viewed as corticotroph specific, its overexpression in non-corticotroph pituitary adenomas (PAs) may reflect the activation of molecular pathways involving other bHLH factors, like neurogenins. To search for neurogenin–NeuroD1 molecular pathways in the human normal and tumoural pituitary. Fifty-one PAs – 22 clinically non-secreting (CNS) and 29 secreting respectively – and normal human pituitaries (NP) were studied for NeuroD1 and neurogenins (Ngn1, Ngn2 and Ngn3) gene expression by RT-PCR and quantitative real-time RT-PCR (qRT-PCR). Immunohisto-chemistry for Ngn2/3 was performed in some cases. NeuroD1, Ngn2, Ngn3 and Ngn1 were observed in up to 84.3, 76.5, 30.4 and 9.1% of PA respectively, only NeuroD1 and Ngn2 being frequently overexpressed when compared with NP. Whereas NeuroD1 expression was higher in corticotroph and CNS adenomas (P=0.0001 versus Pit-1-dependent PA), Ngn2 expression was higher in secreting PA, especially in Pit-1-dependent PA (P=0.007 and P=0.0006 versus CNS respectively). Pit-1-dependent PAwhich received pre-operative pharmacological treatment expressed higher Ngn2 levels than untreated cases (P=0.025). Nuclear Ngn2 was observed in NP and in most PA, especially ACTH- and GH-secreting adenomas. Nuclear Ngn3 was observed in a minority of secreting PA. Ngn2 is normally expressed in the anterior pituitary and frequently expressed in PA, but does not account for NeuroD1 overexpression where present. Owing to their low and inconstant expression, the biological significance of Ngn1/3 in the adult pituitary is uncertain.

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