Your search keyword '"A. Di Paola"' showing total 3 results

1. Maiolica bricks spires and domes in Sicily. Tipology, constructive and decorative elements.

Author

DI PAOLA, FRANCESCO, FATTA, GIOVANNI, and VINCI, CALOGERO

Subjects

*MAJOLICA, *BUILDING design & construction, *ARCHITECTURAL design, *BRICKS, *MONUMENTS

Abstract

The article discusses the use of Maiolica bricks as artifacts for surface decorations in both monumental and ordinary architectures in the Mediterranean regions in Sicily, Italy. It refers to the categorization of these architectural polychrome elements for typology and construction and decorative systems.

Published

2018

2. Evidence for genetic epistasis in human insulin resistance: the combined effect of PC-1 (K121Q) and PPARγ2 (P12A) polymorphisms.

Author

Baratta, R., Di Paola, R., Spampinato, D., Fini, G., Marucci, A., Coco, A., Vigneri, R., Frittitta, L., and Trischitta, V.

Subjects

*INSULIN resistance, *DIAGNOSIS of diabetes, *DRUG resistance, *GENETIC polymorphisms

Abstract

Insulin resistance is believed to be under the control of several genes often interacting each other. However, whether genetic epistasis does in fact modulate human insulin sensitivity is unknown. In 338 healthy unrelated subjects from Sicily, all nondiabetic and not morbidly obese, we investigated whether two gene polymorphisms previously associated with insulin resistance (namely PC-1 K121Q and PPARγ2 P12A) affect insulin sensitivity by interacting. PC-1 X121Q subjects showed higher level of fasting glucose, lower insulin sensitivity (by both the Matsuda insulin sensitivity index and M values at clamp, the latter performed in a subgroup of 113 subjects representative of the overall cohort) and higher insulin levels during the oral glucose tolerance test (OGTT) than PC-1 K121K subjects. In contrast, no difference in any of the measured variables was observed between PPARγ2 P12P and X12A individuals. The deleterious effect of the PC-1 X121Q genotype on each of these three variables was significant and entirely dependent upon the coexistence of the PPARγ2 P12P genotype. Among PPARγ2 P12P carriers also fasting insulin and glucose levels during OGTT were higher in PC-1 X121Q than in K121K individuals. In contrast, no deleterious effect of the PC-1 X121Q genotype was observed among PPARγ2 X12A carriers; rather, in these subjects a lower body mass index and consequently lower fasting insulin level was observed in PC-1 X121Q than in K121K carriers. Overall, a significant interaction between the two genes was observed on body mass index, insulin levels (both fasting and after OGTT) and both insulin sensitivity (i.e., insulin sensitivity index and M value) and insulin secretion (i.e., HOMA-B%) indexes. [ABSTRACT FROM AUTHOR]

Published

2003

3. A cluster of three single nucleotide polymorphisms in the 3'-untranslated region of human glycoprotein PC-1 gene stabilizes PC-1 mRNA and is associated with increased PC-1 protein content and insulin resistance-related abnormalities.

Author

Frittitta, Lucia, Ercolino, Tonino, Bozzali, Maura, Argiolas, Alessandra, Graci, Salvo, Santagati, Maria G., Spampinato, Daniela, Di Paola, Rosa, Cisternino, Carmela, Tassi, Vittorio, Vigneri, Riccardo, Pizzuti, Antonio, Trischitta, Vincenzo, Frittitta, L, Ercolino, T, Bozzali, M, Argiolas, A, Graci, S, Santagati, M G, and Spampinato, D

Subjects

NUCLEOTIDES, GENETIC polymorphisms, INSULIN resistance

Abstract

Glycoprotein PC-1 inhibits insulin signaling and, when overexpressed, plays a role in human insulin resistance. Mechanisms of PC-1 overexpression are unknown. We have identified a haplotype in the 3'-untranslated region of the PC-1 gene that may modulate PC-1 expression and confer an increased risk for insulin resistance. Individuals from Sicily, Italy, carrying the "P" haplotype (i.e., a cluster of three single nucleotide polymorphisms: G2897A, G2906C, and C2948T) were at higher risk (P < 0.01) for insulin resistance and had higher (P < 0.05) levels of plasma glucose and insulin during an oral glucose tolerance test and higher levels of cholesterol, HDL cholesterol, and systolic blood pressure. They also had higher (P < 0.05-0.01) PC-1 protein content in both skeletal muscle and cultured skin fibroblasts. In CHO cells transfected with either P or wild-type cDNA, specific PC-1 mRNA half-life was increased for those transfected with P (t/2 = 3.73 +/- 1.0 vs. 1.57 +/- 0.2 h; P < 0.01). In a population of different ethnicity (Gargano, East Coast Italy), patients with type 2 diabetes (the most likely clinical outcome of insulin resistance) had a higher P haplotype frequency than healthy control subjects (7.8 vs. 1.5%, P < 0.01), thus replicating the association between the P allele and the insulin resistance-related abnormalities observed among Sicilians. In conclusion, we have identified a possible molecular mechanism for PC-1 overexpression that confers an increased risk for insulin resistance-related abnormalities. [ABSTRACT FROM AUTHOR]

Published

2001