Your search keyword '"Menozzi, G."' showing total 4 results

1. Genetic adaptation of the human circadian clock to day-length latitudinal variations and relevance for affective disorders

Author

Forni, D, Pozzoli, U, Cagliani, R, Tresoldi, C, Menozzi, G, Riva, S, Guerini, F, Comi, G, Bolognesi, E, Bresolin, N, Clerici, M, Sironi, M, Forni D., Pozzoli U., Cagliani R., Tresoldi C., Menozzi G., Riva S., Guerini F. R., Comi G. P., Bolognesi E., Bresolin N., Clerici M., Sironi M., Forni, D, Pozzoli, U, Cagliani, R, Tresoldi, C, Menozzi, G, Riva, S, Guerini, F, Comi, G, Bolognesi, E, Bresolin, N, Clerici, M, Sironi, M, Forni D., Pozzoli U., Cagliani R., Tresoldi C., Menozzi G., Riva S., Guerini F. R., Comi G. P., Bolognesi E., Bresolin N., Clerici M., and Sironi M.

Abstract

Background: The temporal coordination of biological processes into daily cycles is a common feature of most living organisms. In humans, disruption of circadian rhythms is commonly observed in psychiatric diseases, including schizophrenia, bipolar disorder, depression and autism. Light therapy is the most effective treatment for seasonal affective disorder and circadian-related treatments sustain antidepressant response in bipolar disorder patients. Day/night cycles represent a major circadian synchronizing signal and vary widely with latitude. Results: We apply a geographically explicit model to show that out-of-Africa migration, which led humans to occupy a wide latitudinal area, affected the evolutionary history of circadian regulatory genes. The SNPs we identify using this model display consistent signals of natural selection using tests based on population genetic differentiation and haplotype homozygosity. Signals of natural selection driven by annual photoperiod variation are detected for schizophrenia, bipolar disorder, and restless leg syndrome risk variants, in line with the circadian component of these conditions. Conclusions: Our results suggest that human populations adapted to life at different latitudes by tuning their circadian clock systems. This process also involves risk variants for neuropsychiatric conditions, suggesting possible genetic modulators for chronotherapies and candidates for interaction analysis with photoperiod-related environmental variables, such as season of birth, country of residence, shift-work or lifestyle habits.

Published

2014

2. Serotonin Transporter Gene (SLC6A4) Methylation Associates With Neonatal Intensive Care Unit Stay and 3-Month-Old Temperament in Preterm Infants

Author

Montirosso, R., Provenzi, Livio, Fumagalli, Marco, Sirgiovanni, I., Giorda, R., Pozzoli, U., Beri, S., Menozzi, G., Tronick, E., Morandi, Federica, Mosca, F., Borgatti, Renato, Provenzi, L., Fumagalli, M., Morandi, F. (ORCID:0000-0002-8218-4602), Borgatti, R. (ORCID:0000-0001-8165-4994), Montirosso, R., Provenzi, Livio, Fumagalli, Marco, Sirgiovanni, I., Giorda, R., Pozzoli, U., Beri, S., Menozzi, G., Tronick, E., Morandi, Federica, Mosca, F., Borgatti, Renato, Provenzi, L., Fumagalli, M., Morandi, F. (ORCID:0000-0002-8218-4602), and Borgatti, R. (ORCID:0000-0001-8165-4994)

Abstract

Preterm birth and Neonatal Intensive Care Unit (NICU) stay are early adverse stressful experiences, which may result in an altered temperamental profile. The serotonin transporter gene (SLC6A4), which has been linked to infant temperament, is susceptible to epigenetic regulation associated with early stressful experience. This study examined a moderation model in which the exposure to NICU-related stress and SLC6A4 methylation moderated infant temperament at 3 months of age. SLC6A4 methylation at 20 CpG sites was quantified in preterm infants (N = 48) and full-term infants (N = 30) from Italian middle-class families. Results suggested that in preterm infants NICU-related stress might be associated with alterations of serotonergic tone as a consequence of SLC6A4 methylation, which in turn, might associate with temperamental difficulties assessed at 3 months of age.

Published

2016

3. Natural selection at the brush-border: Adaptations to carbohydrate diets in humans and other mammals

Author

Pontremoli, C, Mozzi, A, Forni, D, Cagliani, R, Pozzoli, U, Menozzi, G, Vertemara, J, Bresolin, N, Clerici, M, Sironi, M, Pontremoli, Chiara, Mozzi, Alessandra, Forni, Diego, Cagliani, Rachele, Pozzoli, Uberto, Menozzi, Giorgia, Vertemara, Jacopo, Bresolin, Nereo, Clerici, Mario, Sironi, Manuela, Pontremoli, C, Mozzi, A, Forni, D, Cagliani, R, Pozzoli, U, Menozzi, G, Vertemara, J, Bresolin, N, Clerici, M, Sironi, M, Pontremoli, Chiara, Mozzi, Alessandra, Forni, Diego, Cagliani, Rachele, Pozzoli, Uberto, Menozzi, Giorgia, Vertemara, Jacopo, Bresolin, Nereo, Clerici, Mario, and Sironi, Manuela

Abstract

Dietary shifts can drive molecular evolution in mammals and a major transition in human history, the agricultural revolution, favored carbohydrate consumption. We investigated the evolutionary history of nine genes encoding brush-border proteins involved in carbohydrate digestion/absorption. Results indicated widespread adaptive evolution in mammals, with several branches experiencing episodic selection, particularly strong in bats. Many positively selected sites map to functional protein regions (e.g., within glucosidase catalytic crevices), with parallel evolution at SI (sucrase-isomaltase) and MGAM (maltase-glucoamylase). In human populations, five genes were targeted by positive selection acting on noncoding variants within regulatory elements. Analysis of ancient DNA samples indicated that most derived alleles were already present in the Paleolithic. Positively selected variants at SLC2A5 (fructose transporter) were an exception and possibly spread following the domestication of specific fruit crops. We conclude that agriculture determined no major selective event at carbohydrate metabolism genes in humans, with implications for susceptibility to metabolic disorders.

Published

2015

4. An Evolutionary Analysis of Antigen Processing and Presentation across Different Timescales Reveals Pervasive Selection

Author

Forni, D, Cagliani, R, Tresoldi, C, Pozzoli, U, DE GIOIA, L, Filippi, G, Riva, S, Menozzi, G, Colleoni, M, Biasin, M, Lo Caputo, S, Mazzotta, F, Comi, G, Bresolin, N, Clerici, M, Sironi, M, Sironi, M., DE GIOIA, LUCA, FILIPPI, GIULIA, Forni, D, Cagliani, R, Tresoldi, C, Pozzoli, U, DE GIOIA, L, Filippi, G, Riva, S, Menozzi, G, Colleoni, M, Biasin, M, Lo Caputo, S, Mazzotta, F, Comi, G, Bresolin, N, Clerici, M, Sironi, M, Sironi, M., DE GIOIA, LUCA, and FILIPPI, GIULIA

Abstract

The antigenic repertoire presented by MHC molecules is generated by the antigen processing and presentation (APP) pathway. We analyzed the evolutionary history of 45 genes involved in APP at the inter- and intra-species level. Results showed that 11 genes evolved adaptively in mammals. Several positively selected sites involve positions of fundamental importance to the protein function (e.g. the TAP1 peptide-binding domains, the sugar binding interface of langerin, and the CD1D trafficking signal region). In CYBB, all selected sites cluster in two loops protruding into the endosomal lumen; analysis of missense mutations responsible for chronic granulomatous disease (CGD) showed the action of different selective forces on the very same gene region, as most CGD substitutions involve aminoacid positions that are conserved in all mammals. As for ERAP2, different computational methods indicated that positive selection has driven the recurrent appearance of protein-destabilizing variants during mammalian evolution. Application of a population-genetics phylogenetics approach showed that purifying selection represented a major force acting on some APP components (e.g. immunoproteasome subunits and chaperones) and allowed identification of positive selection events in the human lineage.We also investigated the evolutionary history of APP genes in human populations by developing a new approach that uses several different tests to identify the selection target, and that integrates low-coverage whole-genome sequencing data with Sanger sequencing. This analysis revealed that 9 APP genes underwent local adaptation in human populations. Most positive selection targets are located within noncoding regions with regulatory function in myeloid cells or act as expression quantitative trait loci. Conversely, balancing selection targeted nonsynonymous variants in TAP1 and CD207 (langerin). Finally, we suggest that selected variants in PSMB10 and CD207 contribute to human phenotypes. Thus

Published

2014