Your search keyword '"Conversi, D."' showing total 47 results

1. From climate change denial to war-mongering nationalism

Author

Conversi, D, Hassan, C, and Posocco, L

Subjects

disinformation, Settore SPS/08, post-truth, Anthropocene, Climate change, Climate change, Anthropocene, disinformation, misinformation , post-truth, misinformation

Published

2023

2. Either the dorsal hippocampus or the dorsolateral striatum is selectively involved in consolidation of forced swim-induced immobility depending on genetic background

Author

Colelli, V., Campus, P., Conversi, D., Orsini, C., and Cabib, S.

Published

2014

3. Positive emotional arousal increases duration of memory traces: Different role of dopamine D1 receptor and β-adrenoceptor activation

Author

Conversi, D., Cruciani, F., Accoto, A., and Cabib, S.

Published

2014

4. Acknowledgement to reviewers of social sciences in 2019

Author

Abbas, A., Abel, G., Abreu, A., Adam, A., Adamek, M., Adiletta, G., Adusei-asante, K.A., Romeo, M.D.M., Alderson, A., Alfaro, E., Aliverti, A., Almeida, Fernando, Álvarez-gonzález, L.I., Amelina, A., Anand, C., Anderson, G., Andreasson, J., Ang, I., Aragon, J., Arcidiacono, C., Arcuri, S., Assante, D., Atukeren, E., Avery, H., Ayeb-karlsson, S., Azadi, H., Bachman, R., Bader, M., Badulescu, A., Bahmanteymouri, E., Baines, S., Baker, T., Baker‐beall, C., Bañón, L., Bar‐am, N., Barbier‐greenland, K., Barnett, R., Barragán‐escandón, A., Barreto, A.M., Barrett, E., Bartkowski, J., Bartram, R., Bartzas, G., Bates, D., Baviera‐puig, A., Bayley, A., Beazley, H., Beer, C., Behr, H., Beier, G., Belford, N., Bencivenga, R., Benli, A.E., Benton‐short, L., Berei, J.M., Berbel‐pineda, E., Bernstein, Berntzen, E.R., Bertella, L., Birney, G., Bittle, M., Black, S., Rivero, L.B., Blattner, J.J., Blok, C., Blount, A., Boas, Y., Bockarie, I., Bockerman, A., Bodén, P., Bönisch‐brednich, L., Bontje, B., Bontje, M., Borsellino, V., Bostan, I., Bowl, M., Bowman, B., Bracci, E., Bracken, C.M., Bradley, H., Brereton, P., Brewer, J., Bridge, D., Brooks, S., Brown, Andrijana, Brzoska, M., Brzozowski, W., Buckley, G., Buente, W., Bullaro, G.R., Burke, M.D., Burlacu, S., Busu, M., Butler, S., Byrne, J., Cabral, L., Cai, Y., Cajias, M., Calin, A.C., Callegari, C., Camarero, M., Campbell-figuerola, H., Campbell, J.R., Cannito, M., Canonico, E., Canosa, A., Carabelli, G., Carlbom, A., Carlone, T., Caron, R., Carpenter, A., Caruso, G., Casais, B., Castro, M.P., Cava, M.-J., Čeněk, J., Cerchione, R., Certomà, C., Chan, E., Charles, D., Charlwood, A., Chatzifotiou, S., Chell, K., Chen, L., Chen, Q., Chen, W.-J., Ching, L., Christensen, J., Ciasullo, M.V., Cimermanová, I., Činčera, J., Cipollina, M., Clutterbuck, R., Cochrane, B., Collin, K., Conley, R., Connell, H., Connelly, J., Connelly, L., Connelly, R., Conti, D., Conversi, D., Conway, G., Cooper, S., Cope, M., Corsini, F., Cristian, P., Crohn, H.M., Croog, R.C., Salazar, T., Csiszár, C., D’auria, I., D’souza, A., D’souza, N., Dabija, D.-C., Dagg, J., Dalby, S., DaleDalsgård, B., Dʹamato, A.L., Daniel, D., Dant, L., Dantas, C., Darwin, H., Dashper, K., David, M.E., De Flippo, D., De, A., Edi, M., Velázquez, E.D.C., Velázquez, F., Del Vecchio, P., Delatolla, A., Delgado, P., Delgado‐romero, E., Delrosso, J., Desimone, J., Detlefsen, L., Devaney, C., Díaz, L.M., Didham, R., Diogo, E., Dirakis, A., Doberneck, D., Doidge, M.D., Molero, G., Dombrowski, P.J., Doñate, C., Đorđević, Martín, Reis, P.G.R., Doucek, P., Dundes, L., Dvouletý, O., Dybo, T., Eastman, J., Eckhardt, J., Economou, A., Edler, D., Edu, U., Ekblom, P.E., Khaled, D., Ellis, C., Elsabry, E., Erceg, A., Erokhin, V., Ertz, M., Everitt, J., Evers, A., Falcone, P.M.F., Cabana, P., Fawcett, B., Fearnley, B., Featherstone, M., Ferreira, M., Ferreira, P., Fetner, T., Fisher, J., Fisher, R., Fitzpatrick, T., Flanagan, C., Fogarty, E.A., Fonchingong, C.C., Fontana, M., Fook, J., Foreman, A.M., Foster‐mcgregor, N., Fox, S., Franco, J.A., Franklin, A.L., Friedrich, T., Fromm, I., Fu, N., Fucà, R., Fukuda, Y., Fusco, G., Gabriela, D., Galan, D., Gamo, A., Galiano, J., Garcia, A., García, M.E.A., García‐germán, S., García‐machado, J.J., García‐ruiz, C.R., Gavini, M., Gazzano, A., Gebhardt, M., Gerson, S., Gherghina, Ş.C., Gibbs, P., Gilhooly, D., Gill, F., Gill, N., Gil‐lopez, A.J., Ginès Fabrellas, A., Giuffrida, N., Giuliani, G., Goddard, J., Godderis, R., Goh, C.S., Gomes, O., Goncharuk, A.G., Canche, M.G., Pérez, I.G., Valero, G., González, R.C.L., Gonzalez‐benson, O., Gonzalez‐feliu, J., González‐lópez, M., Gozdziak, E., Granx, B., Gran, R., Gray, S.L., Grbes, A., Grondys, K., Grugan, S., Guenther, J., Guijarro, F., Gurko, T., Haas, L.L., Hagellx, A., Hagell, H., Hallgrímsdóttir, H., Hamada, T., Hanf, J., Hannouf, M., Hao, F., Harman, G., Harris, K.L., Harris, R., Harrison, N.H., Healy, G., Healy, K., Heikkilä, E., Hellmich, C., Henig, J., Henninger, C.E., Heo, W., Herman, C., Herrero‐diz, P., Heyman, J., Hibbert, N., Hillman, A.L., Hillman, B., Hine, B., Hino, K., Hinten, M., Hipp, L., Hoang, D., Holleran, D., Hollin, I., Holm, M., Holmes, C., Hook, G., Hoornweg, D., Hopper, L., Hossain, M., Hoxhaj, R., Hu, B., Huang, Y., Huarita, E., Hudec, O., Humbert, A.L., Hung, M.-C., Hunt, A., Husu, L., IanoleIbáñez‐gonzález, R., Ibáñez‐gonzález, M.J., Ide, T., Ijaz, Muhammad Fazal, Impicciatore, R., Ingwersen, M., Ioannides, D., Iseppi, L., Islam, M.M., Jaakkola, M., Jagger, S., Jagosh, J., Jenkin, G., Joelsson, T., Johansen, R.E.B., Johnsen, H.C., Garmann Jona, G., Jones, T., Judit, O., Kalalahti, M., Kang, M., Kantamaneni, K., Kaplan, L., Kapsalis, V., Karbowski, A., Katsoni, V., Kavish, D.R., Kawamura, H., Keilman, N.W., Kelly, J., Kenneth, H., Kepaptsoglou, K., Kevin, D., Kewley, S., Kim, J.-C., Kim, K.-Y., Kim, S., Kimengsi, J.N., Klein, J., Kleine, M., Klemes, J.I.R.I., Klepp, S., Klinkenberg, L.E.F., Knight, L., Knowles, J., Koerner, S., Konsolakis, K., Konstantinov, V., Kopkin, N.K., Kordova, S., Kosinski, E., Kostelka, F., Kot, S., Kotter, R., Kramers, A., Krienert, J.L., Kubon, M., Kuffer, M., Kungolos, A., Kuttner, P., Kużelewska, E., Ladd, A.E., Lammi, M., Landrum, J., Lange, B., Languilaire, T.D., Lantz, J.-C., Laudal, B., Laurentsyeva, T., Lavizzari, N., Lavoie, A., Feuvre, J.L., Leakey, N., Lee, R., Lee, A., Lee, E., Lee, J., Lentner, J.-H., Lenz‐taguchi, C., Leong, H., Levac, W.S., Lewin, L., Lewinson, E., Li, T., Li, F., Li, G., Li, M., Liczmańska‐kopcewicz, Y., Lillard, K., Linková, C., Links, M., Lipinski, P., Storto, J.L., Lochtman, C., Lockwood, K., Loh, A., Lomonaco‐benzing, V., Łopaciuk‐gonczaryk, R., López, B., lópez, D., Lorenzini, J., Löther, A., Loughnan, C., Love, T., Lucas, M.L., Ubago, J., Lukić, J., Lumley‐sapanski, A., Macedo, I., Macfarlane, S., Machimbarrena, J.M., Magda, R., Magrane, D., Maier, D., Majić, S., Majumdar, S., Makarovič, M., Malekigorji, M., Mallick, B., Malone, D., Mandić, D., Maniou, T., Mannell, J.M., Barbutiu, S., Marczak, M., Markvica, K.M., Aragón, M.D.M., Martín, J.S.M., Pereira, A., Marzal‐felici, J., Mason, F., Mather, J., Matijosaitiene, I., MatthewsMattisson, R., Mattisson, C., Matuszak, Ł., Matuzeviciute, K., Mauerer, G., Mayer, A., McCaig, C., McClearn, D., McKee, S.C., McKendry, S., McMahon, M., McReynolds, P., Medina‐vicent, M., Medyna, G., Mees, H., Meil, G., Meringolo, P., Miciuła, I., Milczarek‐andrzejewska, D., Miles, P., Milivojević, S., Miller, G., Minello, A., Miron, D., Mironeasa, S., Misra, J., Mitchell, T., Moldovan, O., Molero, P.P., Møllersen, S., Momsen, J.H., Moniz, A.B., Morea, D., Moreau, M.-P., Morgan, D.L., Morgan, H., Moscatelli, S., Mostowska, M., Mousavi, A., Mousavi, S., Mrugalska, B., Muinos, G., Mukungu, K., Mukuni, J., Murakami, D., Muresan, I.C., Murib, Z., Muro, A., Mustafa, G., Nackerud, L., Nalmpantis, D., Napal, M., Närvi, J., Naser, M., Nash, V., Navarre‐jackson, L., Navarro, R., Nazarczuk, D., Neale, J., Necula, J., Němec, S., Neven, D., Nevgi, A., Newbold, A., Newton, G., New, A., Niakšu, O., Niiniluoto, I., Nkogo, J.C., Nobre, S., Nunn, P., Oakes, R., Obrad, C., Oke, A., Okorie, O., Oncioiu, I., Ormsbee, F., Ortega‐sánchez, D., Osgood, J., Osorio, C., Oswald, J., Otis, M.D., Ouassini, A., Oxford, S., Page, T., Paixão, M.J., De Pajares, E.M., Palmesr, E., Palos‐sánchez, P., Pamučar, Dragan, Pan, H., Panek, J., Pankowska, M., Papadakis, S., Papafilippou, V.P., Medina, R., Park, C.S., Partalidou, M., Passantino, A., Passini, S., Paul, S., Pavliuk, R., Pearce, P., Pease, K., Pentaris, P., Perez, V.W., Pérez‐armendáriz, C., Perez‐vaisvidovsky, N., Perez‐y‐perez, M., Perry, N., Prtchu, D., Peterson, D.A.M., Alexandru‐ionut, Petrykowski, Petrykowski, P., Phillips, L., Pickard, S., Pickel, A., Pieke, F., Piekut, A., Pierce, S., Pierrakis, Y., Piguet, E., Pleace, N., Połom, M., Polsa, P., Ponticorvo, M., Pookulangara, S., Pope, J., Popoli, P., Postigo, J.C., Price‐Wolf, J., Prior, S., Privitera, D., Prud’homme, C., Prosser, J., Prus, P., Puiu, S., Purcell, R., Pyrialakou, D., Quam‐wickham, N., Quarmby, T., Quinlan, K.M., Quinn, A., Quinn, R., Raciti, M., Radicić, D., Rahimi, B., Ramlo, S., Randle, H., Ratajczak, M., Raymond, T., Recio‐menéndez, M., Reese, L.A., Regner, T., Reichman, J., WReim, iebke, R., Pastor, A.M., Rexhepi, G., Reyes‐menendez, A., Reynaud, C., Ribeiro‐soriano, D., Ricci, S., Ridaura, G., Rita, C., Roberts, M., Roberts, G., Roberts, K., Rockerbie, D., Rodger, J.A., Rodin, G., Rodrigues, D.R., Martín, J.A., Rodríguez, C.F., Rodriguez‐modroño, P., Romero‐rodríguez, L.M., Rončáková, T., Roper, I., Rorie, M.R., Marzán, C.F., Rose, G., Rose, M., Rosen, R., Roth, R., Roubík, H., Roumpos, C., Rowbottom, D., Roy, J., Ruban, D., Rubira‐garcía, R., Ruiperez‐valiente, J.A., Ruiz, R., Ruiz‐real, J.L., Russell, B., Russo, K., Sabol, W., Safonte, F., Salin, M., Salom‐carrasco, J.S., Sánchez, L.D., Sanghera, Santos, B.S., Silva, D., Sanz, F., Sanz‐altamira, B., Sarapura, S., Sari, D., Satybaldieva, E., Saura, J.R., Sayed, N., Scandurra, C., Schartner, A., Schellekens, J., Schenk‐hoppé, K.R., Scherer, L., Schewe, J.A., Schewe, R., Schiller, N.G., Schmidt, E.-M., Schneickert, C., Schneider, J., Scott, H., Scott, P., Seibel, K., Seidler, R., Seifert, S.S., Puyuelo, M.S., Azevedo, P.S., Lopez, A.E.S., Raamkumar, A.S., Blundo, D., Severo, M., Shakya, K.M., Shapiro, A., Shaw, I.F., Shaw, T.V., Shea, B., Shearer, H., Sheldon, S., Shell‐duncan, B., Shepherd, S., Sheridan, L., Siemienska, R., Sillup, G.P., Simeon, J.C., Simonelli, A., Skilodimou, H.D., Škrinjarić, T., Slater, G., Smardon, R., Smith, J., Smoląg, K., Snauwaert, D.T., Soanes‐white, T., Sobocińska, M., Sohaib, O., Soldatić, K., Sorainen, G.T., Soldatos, A., Sørensen, N.N., Spanu, S., Stadlober, E., Stafford, F., Ștefănescu‐mihăilă, R.O., Stefanini, A., Štefko, R., Steglich, E., Steirer, G., Stephenson, M.O., Stoecker, R., Stoffelen, A., Strang, A., Suppa, D., Sutton, J., Svobodová, L., Swigon, M., Synnott, J., Sytsma, V., Tabe, T., Tajeddini, K., Tang, S., Taylor, B., Taylor, C., Teignier, M., Teixeira, C., Tempelaar, D., Ter Avest, K.H., Ter Horst, E., Testa, M.R., Thakur, N., Thiamwong, L., Thijsen, A., Thomas, B.A., Thompson, C., Thompson, D., Tisdall, K., Toft, Mancini, Torell, A., Toscano‐hernández, G., Tregua, A.E., Triandafyllidou, M., Tseloni, A., Seloni, A., Tsikouras, P., Tsogas, G., Twamley, K., Tyler, D.U., Haque, A., Underwood, M., Urbański, M., Uribe‐toril, J., Vaezipour, A., Van Hove, L.V., Huylenbroeck, G., Van Nuland, S., Vanner, C., Vázquez‐cano, E., Veen, E., Veintimilla, S.G.-A., Veković, M., Velija, P., Venco, E.M., Verticelli, A., Vicente, P.V., Estiarte, C., Višnjić, A., Visvizi, A., Vlasblom, J.D., Volsche, S.V., Fintel, D., Von Keyserlingk, L., Vranješević, J., Walter, K.V., Wandosell, G., Wang, Y., Wasileski, G., Wastl‐walter, D., Weaving, C., Weenik, D., Wehr, K., Wei, X., Wharton, A., White, G., Whitehouse, H., Whitley, C.T., Whitman, L., Wiersma‐mosley, J.D., Wilcke, H., Wilkes, R., Williams, L., Williamson, R.D., Wimalasena, L., Wiseman, A., Wołek, M., Wright, E.Q., Wroblewski, A., Wyile, A.S., Wynn, C., Xu, X., Xue, B., Yang, J., Yoe, T.M., Young, M., Younus, M., Yu, T.-F., Yuan, Q., Zadra, C., Zaharijević, A., Zajda, J., Zander, K., Zbuchea, A., Zelin, A., Zhang, C., Zippel, K., Zitricky, V., Živanović, P., Zou, L., Zufferey, C., Zuhdi, M., Zumeta, W.M., Abbas, A., Abel, G., Abreu, A., Adam, A., Adamek, M., Adiletta, G., Adusei-asante, K.A., Romeo, M.D.M., Alderson, A., Alfaro, E., Aliverti, A., Almeida, Fernando, Álvarez-gonzález, L.I., Amelina, A., Anand, C., Anderson, G., Andreasson, J., Ang, I., Aragon, J., Arcidiacono, C., Arcuri, S., Assante, D., Atukeren, E., Avery, H., Ayeb-karlsson, S., Azadi, H., Bachman, R., Bader, M., Badulescu, A., Bahmanteymouri, E., Baines, S., Baker, T., Baker‐beall, C., Bañón, L., Bar‐am, N., Barbier‐greenland, K., Barnett, R., Barragán‐escandón, A., Barreto, A.M., Barrett, E., Bartkowski, J., Bartram, R., Bartzas, G., Bates, D., Baviera‐puig, A., Bayley, A., Beazley, H., Beer, C., Behr, H., Beier, G., Belford, N., Bencivenga, R., Benli, A.E., Benton‐short, L., Berei, J.M., Berbel‐pineda, E., Bernstein, Berntzen, E.R., Bertella, L., Birney, G., Bittle, M., Black, S., Rivero, L.B., Blattner, J.J., Blok, C., Blount, A., Boas, Y., Bockarie, I., Bockerman, A., Bodén, P., Bönisch‐brednich, L., Bontje, B., Bontje, M., Borsellino, V., Bostan, I., Bowl, M., Bowman, B., Bracci, E., Bracken, C.M., Bradley, H., Brereton, P., Brewer, J., Bridge, D., Brooks, S., Brown, Andrijana, Brzoska, M., Brzozowski, W., Buckley, G., Buente, W., Bullaro, G.R., Burke, M.D., Burlacu, S., Busu, M., Butler, S., Byrne, J., Cabral, L., Cai, Y., Cajias, M., Calin, A.C., Callegari, C., Camarero, M., Campbell-figuerola, H., Campbell, J.R., Cannito, M., Canonico, E., Canosa, A., Carabelli, G., Carlbom, A., Carlone, T., Caron, R., Carpenter, A., Caruso, G., Casais, B., Castro, M.P., Cava, M.-J., Čeněk, J., Cerchione, R., Certomà, C., Chan, E., Charles, D., Charlwood, A., Chatzifotiou, S., Chell, K., Chen, L., Chen, Q., Chen, W.-J., Ching, L., Christensen, J., Ciasullo, M.V., Cimermanová, I., Činčera, J., Cipollina, M., Clutterbuck, R., Cochrane, B., Collin, K., Conley, R., Connell, H., Connelly, J., Connelly, L., Connelly, R., Conti, D., Conversi, D., Conway, G., Cooper, S., Cope, M., Corsini, F., Cristian, P., Crohn, H.M., Croog, R.C., Salazar, T., Csiszár, C., D’auria, I., D’souza, A., D’souza, N., Dabija, D.-C., Dagg, J., Dalby, S., DaleDalsgård, B., Dʹamato, A.L., Daniel, D., Dant, L., Dantas, C., Darwin, H., Dashper, K., David, M.E., De Flippo, D., De, A., Edi, M., Velázquez, E.D.C., Velázquez, F., Del Vecchio, P., Delatolla, A., Delgado, P., Delgado‐romero, E., Delrosso, J., Desimone, J., Detlefsen, L., Devaney, C., Díaz, L.M., Didham, R., Diogo, E., Dirakis, A., Doberneck, D., Doidge, M.D., Molero, G., Dombrowski, P.J., Doñate, C., Đorđević, Martín, Reis, P.G.R., Doucek, P., Dundes, L., Dvouletý, O., Dybo, T., Eastman, J., Eckhardt, J., Economou, A., Edler, D., Edu, U., Ekblom, P.E., Khaled, D., Ellis, C., Elsabry, E., Erceg, A., Erokhin, V., Ertz, M., Everitt, J., Evers, A., Falcone, P.M.F., Cabana, P., Fawcett, B., Fearnley, B., Featherstone, M., Ferreira, M., Ferreira, P., Fetner, T., Fisher, J., Fisher, R., Fitzpatrick, T., Flanagan, C., Fogarty, E.A., Fonchingong, C.C., Fontana, M., Fook, J., Foreman, A.M., Foster‐mcgregor, N., Fox, S., Franco, J.A., Franklin, A.L., Friedrich, T., Fromm, I., Fu, N., Fucà, R., Fukuda, Y., Fusco, G., Gabriela, D., Galan, D., Gamo, A., Galiano, J., Garcia, A., García, M.E.A., García‐germán, S., García‐machado, J.J., García‐ruiz, C.R., Gavini, M., Gazzano, A., Gebhardt, M., Gerson, S., Gherghina, Ş.C., Gibbs, P., Gilhooly, D., Gill, F., Gill, N., Gil‐lopez, A.J., Ginès Fabrellas, A., Giuffrida, N., Giuliani, G., Goddard, J., Godderis, R., Goh, C.S., Gomes, O., Goncharuk, A.G., Canche, M.G., Pérez, I.G., Valero, G., González, R.C.L., Gonzalez‐benson, O., Gonzalez‐feliu, J., González‐lópez, M., Gozdziak, E., Granx, B., Gran, R., Gray, S.L., Grbes, A., Grondys, K., Grugan, S., Guenther, J., Guijarro, F., Gurko, T., Haas, L.L., Hagellx, A., Hagell, H., Hallgrímsdóttir, H., Hamada, T., Hanf, J., Hannouf, M., Hao, F., Harman, G., Harris, K.L., Harris, R., Harrison, N.H., Healy, G., Healy, K., Heikkilä, E., Hellmich, C., Henig, J., Henninger, C.E., Heo, W., Herman, C., Herrero‐diz, P., Heyman, J., Hibbert, N., Hillman, A.L., Hillman, B., Hine, B., Hino, K., Hinten, M., Hipp, L., Hoang, D., Holleran, D., Hollin, I., Holm, M., Holmes, C., Hook, G., Hoornweg, D., Hopper, L., Hossain, M., Hoxhaj, R., Hu, B., Huang, Y., Huarita, E., Hudec, O., Humbert, A.L., Hung, M.-C., Hunt, A., Husu, L., IanoleIbáñez‐gonzález, R., Ibáñez‐gonzález, M.J., Ide, T., Ijaz, Muhammad Fazal, Impicciatore, R., Ingwersen, M., Ioannides, D., Iseppi, L., Islam, M.M., Jaakkola, M., Jagger, S., Jagosh, J., Jenkin, G., Joelsson, T., Johansen, R.E.B., Johnsen, H.C., Garmann Jona, G., Jones, T., Judit, O., Kalalahti, M., Kang, M., Kantamaneni, K., Kaplan, L., Kapsalis, V., Karbowski, A., Katsoni, V., Kavish, D.R., Kawamura, H., Keilman, N.W., Kelly, J., Kenneth, H., Kepaptsoglou, K., Kevin, D., Kewley, S., Kim, J.-C., Kim, K.-Y., Kim, S., Kimengsi, J.N., Klein, J., Kleine, M., Klemes, J.I.R.I., Klepp, S., Klinkenberg, L.E.F., Knight, L., Knowles, J., Koerner, S., Konsolakis, K., Konstantinov, V., Kopkin, N.K., Kordova, S., Kosinski, E., Kostelka, F., Kot, S., Kotter, R., Kramers, A., Krienert, J.L., Kubon, M., Kuffer, M., Kungolos, A., Kuttner, P., Kużelewska, E., Ladd, A.E., Lammi, M., Landrum, J., Lange, B., Languilaire, T.D., Lantz, J.-C., Laudal, B., Laurentsyeva, T., Lavizzari, N., Lavoie, A., Feuvre, J.L., Leakey, N., Lee, R., Lee, A., Lee, E., Lee, J., Lentner, J.-H., Lenz‐taguchi, C., Leong, H., Levac, W.S., Lewin, L., Lewinson, E., Li, T., Li, F., Li, G., Li, M., Liczmańska‐kopcewicz, Y., Lillard, K., Linková, C., Links, M., Lipinski, P., Storto, J.L., Lochtman, C., Lockwood, K., Loh, A., Lomonaco‐benzing, V., Łopaciuk‐gonczaryk, R., López, B., lópez, D., Lorenzini, J., Löther, A., Loughnan, C., Love, T., Lucas, M.L., Ubago, J., Lukić, J., Lumley‐sapanski, A., Macedo, I., Macfarlane, S., Machimbarrena, J.M., Magda, R., Magrane, D., Maier, D., Majić, S., Majumdar, S., Makarovič, M., Malekigorji, M., Mallick, B., Malone, D., Mandić, D., Maniou, T., Mannell, J.M., Barbutiu, S., Marczak, M., Markvica, K.M., Aragón, M.D.M., Martín, J.S.M., Pereira, A., Marzal‐felici, J., Mason, F., Mather, J., Matijosaitiene, I., MatthewsMattisson, R., Mattisson, C., Matuszak, Ł., Matuzeviciute, K., Mauerer, G., Mayer, A., McCaig, C., McClearn, D., McKee, S.C., McKendry, S., McMahon, M., McReynolds, P., Medina‐vicent, M., Medyna, G., Mees, H., Meil, G., Meringolo, P., Miciuła, I., Milczarek‐andrzejewska, D., Miles, P., Milivojević, S., Miller, G., Minello, A., Miron, D., Mironeasa, S., Misra, J., Mitchell, T., Moldovan, O., Molero, P.P., Møllersen, S., Momsen, J.H., Moniz, A.B., Morea, D., Moreau, M.-P., Morgan, D.L., Morgan, H., Moscatelli, S., Mostowska, M., Mousavi, A., Mousavi, S., Mrugalska, B., Muinos, G., Mukungu, K., Mukuni, J., Murakami, D., Muresan, I.C., Murib, Z., Muro, A., Mustafa, G., Nackerud, L., Nalmpantis, D., Napal, M., Närvi, J., Naser, M., Nash, V., Navarre‐jackson, L., Navarro, R., Nazarczuk, D., Neale, J., Necula, J., Němec, S., Neven, D., Nevgi, A., Newbold, A., Newton, G., New, A., Niakšu, O., Niiniluoto, I., Nkogo, J.C., Nobre, S., Nunn, P., Oakes, R., Obrad, C., Oke, A., Okorie, O., Oncioiu, I., Ormsbee, F., Ortega‐sánchez, D., Osgood, J., Osorio, C., Oswald, J., Otis, M.D., Ouassini, A., Oxford, S., Page, T., Paixão, M.J., De Pajares, E.M., Palmesr, E., Palos‐sánchez, P., Pamučar, Dragan, Pan, H., Panek, J., Pankowska, M., Papadakis, S., Papafilippou, V.P., Medina, R., Park, C.S., Partalidou, M., Passantino, A., Passini, S., Paul, S., Pavliuk, R., Pearce, P., Pease, K., Pentaris, P., Perez, V.W., Pérez‐armendáriz, C., Perez‐vaisvidovsky, N., Perez‐y‐perez, M., Perry, N., Prtchu, D., Peterson, D.A.M., Alexandru‐ionut, Petrykowski, Petrykowski, P., Phillips, L., Pickard, S., Pickel, A., Pieke, F., Piekut, A., Pierce, S., Pierrakis, Y., Piguet, E., Pleace, N., Połom, M., Polsa, P., Ponticorvo, M., Pookulangara, S., Pope, J., Popoli, P., Postigo, J.C., Price‐Wolf, J., Prior, S., Privitera, D., Prud’homme, C., Prosser, J., Prus, P., Puiu, S., Purcell, R., Pyrialakou, D., Quam‐wickham, N., Quarmby, T., Quinlan, K.M., Quinn, A., Quinn, R., Raciti, M., Radicić, D., Rahimi, B., Ramlo, S., Randle, H., Ratajczak, M., Raymond, T., Recio‐menéndez, M., Reese, L.A., Regner, T., Reichman, J., WReim, iebke, R., Pastor, A.M., Rexhepi, G., Reyes‐menendez, A., Reynaud, C., Ribeiro‐soriano, D., Ricci, S., Ridaura, G., Rita, C., Roberts, M., Roberts, G., Roberts, K., Rockerbie, D., Rodger, J.A., Rodin, G., Rodrigues, D.R., Martín, J.A., Rodríguez, C.F., Rodriguez‐modroño, P., Romero‐rodríguez, L.M., Rončáková, T., Roper, I., Rorie, M.R., Marzán, C.F., Rose, G., Rose, M., Rosen, R., Roth, R., Roubík, H., Roumpos, C., Rowbottom, D., Roy, J., Ruban, D., Rubira‐garcía, R., Ruiperez‐valiente, J.A., Ruiz, R., Ruiz‐real, J.L., Russell, B., Russo, K., Sabol, W., Safonte, F., Salin, M., Salom‐carrasco, J.S., Sánchez, L.D., Sanghera, Santos, B.S., Silva, D., Sanz, F., Sanz‐altamira, B., Sarapura, S., Sari, D., Satybaldieva, E., Saura, J.R., Sayed, N., Scandurra, C., Schartner, A., Schellekens, J., Schenk‐hoppé, K.R., Scherer, L., Schewe, J.A., Schewe, R., Schiller, N.G., Schmidt, E.-M., Schneickert, C., Schneider, J., Scott, H., Scott, P., Seibel, K., Seidler, R., Seifert, S.S., Puyuelo, M.S., Azevedo, P.S., Lopez, A.E.S., Raamkumar, A.S., Blundo, D., Severo, M., Shakya, K.M., Shapiro, A., Shaw, I.F., Shaw, T.V., Shea, B., Shearer, H., Sheldon, S., Shell‐duncan, B., Shepherd, S., Sheridan, L., Siemienska, R., Sillup, G.P., Simeon, J.C., Simonelli, A., Skilodimou, H.D., Škrinjarić, T., Slater, G., Smardon, R., Smith, J., Smoląg, K., Snauwaert, D.T., Soanes‐white, T., Sobocińska, M., Sohaib, O., Soldatić, K., Sorainen, G.T., Soldatos, A., Sørensen, N.N., Spanu, S., Stadlober, E., Stafford, F., Ștefănescu‐mihăilă, R.O., Stefanini, A., Štefko, R., Steglich, E., Steirer, G., Stephenson, M.O., Stoecker, R., Stoffelen, A., Strang, A., Suppa, D., Sutton, J., Svobodová, L., Swigon, M., Synnott, J., Sytsma, V., Tabe, T., Tajeddini, K., Tang, S., Taylor, B., Taylor, C., Teignier, M., Teixeira, C., Tempelaar, D., Ter Avest, K.H., Ter Horst, E., Testa, M.R., Thakur, N., Thiamwong, L., Thijsen, A., Thomas, B.A., Thompson, C., Thompson, D., Tisdall, K., Toft, Mancini, Torell, A., Toscano‐hernández, G., Tregua, A.E., Triandafyllidou, M., Tseloni, A., Seloni, A., Tsikouras, P., Tsogas, G., Twamley, K., Tyler, D.U., Haque, A., Underwood, M., Urbański, M., Uribe‐toril, J., Vaezipour, A., Van Hove, L.V., Huylenbroeck, G., Van Nuland, S., Vanner, C., Vázquez‐cano, E., Veen, E., Veintimilla, S.G.-A., Veković, M., Velija, P., Venco, E.M., Verticelli, A., Vicente, P.V., Estiarte, C., Višnjić, A., Visvizi, A., Vlasblom, J.D., Volsche, S.V., Fintel, D., Von Keyserlingk, L., Vranješević, J., Walter, K.V., Wandosell, G., Wang, Y., Wasileski, G., Wastl‐walter, D., Weaving, C., Weenik, D., Wehr, K., Wei, X., Wharton, A., White, G., Whitehouse, H., Whitley, C.T., Whitman, L., Wiersma‐mosley, J.D., Wilcke, H., Wilkes, R., Williams, L., Williamson, R.D., Wimalasena, L., Wiseman, A., Wołek, M., Wright, E.Q., Wroblewski, A., Wyile, A.S., Wynn, C., Xu, X., Xue, B., Yang, J., Yoe, T.M., Young, M., Younus, M., Yu, T.-F., Yuan, Q., Zadra, C., Zaharijević, A., Zajda, J., Zander, K., Zbuchea, A., Zelin, A., Zhang, C., Zippel, K., Zitricky, V., Živanović, P., Zou, L., Zufferey, C., Zuhdi, M., and Zumeta, W.M.

Published

2020

5. Susceptibility to conditioned place preference induced by addictive drugs in mice of the C57BL/6 and DBA/2 inbred strains

Author

Orsini, C., Bonito-Oliva, A., Conversi, D., and Cabib, S.

Published

2005

6. Association between striatal accumulation of FosB/ΔFosB and long-term psychomotor sensitization to amphetamine in mice depends on the genetic background

Author

Conversi, D., Orsini, C., Colelli, V., Cruciani, F., and Cabib, S.

Published

2011

7. Strain-specific proportion of the two isoforms of the dopamine D2 receptor in the mouse striatum: associated neural and behavioral phenotypes

Author

Colelli, V., Fiorenza, M. T., Conversi, D., Orsini, C., and Cabib, S.

Published

2010

8. DeltaFosB accumulation in ventro-medial caudate underlies the induction but not the expression of behavioral sensitization by both repeated amphetamine and stress

Author

Conversi, D., Bonito-Oliva, A., Orsini, C., Colelli, V., and Cabib, S.

Published

2008

9. Axotomy dependent purinergic and nitrergic co-expression.

Author

Viscomi, Mt, Florenzano, F, Conversi, D, Bernardi, G, Molinari, M., Viscomi MT (ORCID:0000-0002-9096-4967), Florenzano F, Conversi D, Bernardi G, Molinari M., Viscomi, Mt, Florenzano, F, Conversi, D, Bernardi, G, Molinari, M., Viscomi MT (ORCID:0000-0002-9096-4967), Florenzano F, Conversi D, Bernardi G, and Molinari M.

Abstract

Different lines of evidence indicate that ATP and nitric oxide (NO) play key roles in mediating neuronal responses after cell damage. Purinergic and nitrergic interactions have been proposed in non neural tissues physiological functions and, in different experimental models of brain injury, both purinergic and nitrergic activations have been reported. The present study was planned to ascertain possible relations of these two systems after brain damage. Variations in the expression of the nitric oxide synthase neuronal isoform (nNOS) enzyme, and of two subunits of purinergic ionotrophic receptors (P2X) namely P2X(1) and P2X(2) in precerebellar stations after cerebellar lesion in rats were analyzed and compared. After the lesion nNOS positive cells presented a clear increment followed by a decrement. Conversely, nNOS negative cells presented a rapid decrement in the first postlesional weeks that continued less pronounced afterward. Postlesional nNOS activation was related with time course of P2X(1) and P2X(2) activations. The capacity of the same cells to express both nNOS and P2X markers was investigated immunocytochemically. Confocal microscopy of double immunofluorescence showed a high percentage of co-localization among P2X(1)/nNOS, P2X(2)/nNOS and P2X(1)/P2X(2) in olivary and pontine neurons. In addition, NeuN/P2X(1) and NeuN/P2X(2) double immunofluorescence showed P2X(1) expressed only in neurons while P2X(2) expressed by both neurons and glia. Present data demonstrate that after cerebellar lesion nitrergic and purinergic systems are activated with similar time courses in precerebellar stations. Further, time differences in the relation between nNOS expression and cell survival suggest a multifarious role of NO in mediating cell reaction to axotomy. The tight cellular co-localization and temporal co-activation of purinergic and nitrergic markers indicate possible interactions between these two systems also in the CNS.

Published

2004

10. Environmental modulation of heroin-induced locomotory activity and Fos expression

Author

Paolone, G, Conversi, D, Caprioli, D, Palopoli, M, Del Bianco, P, D'Oro, S, Nencini, P, Cabib, S, and Badiani, A

Subjects

addiction, heroin, sensitization, environmental modulation of drug effects, early gene expression (fos protein), environmental modulation of drug effects, early gene expression (fos protein), addiction, heroin, sensitization

Published

2005

11. Cortical and subcortical distribution of ionotropic purinergic receptor subunit type 1 (P2X1R) immunoreactive neurons in the rat forebrain

Author

Florenzano, F., Carrive, P., Viscomi, M. T., Ferrari, F., Latini, L., Conversi, D., Cabib, S., Bagni, C., Molinari, M., Viscomi M. T. (ORCID:0000-0002-9096-4967), Florenzano, F., Carrive, P., Viscomi, M. T., Ferrari, F., Latini, L., Conversi, D., Cabib, S., Bagni, C., Molinari, M., and Viscomi M. T. (ORCID:0000-0002-9096-4967)

Abstract

Ionotropic purinergic receptors (P2XR) are ATP-gated cationic channels composed of seven known subunits (P2X1-7R) and involved in different functions in neural tissue. Although their presence has been demonstrated in the brain, few studies have investigated their expression pattern. In particular, ionotropic purinergic receptor subunit type 1 (P2X1R) has been observed in the cerebellum and in brainstem nuclei. The present study investigates the P2X1R expression pattern in the rat forebrain using immunohistochemistry. The specificity of the immunolabeling has been verified by Western blotting and in situ hybridization methods. P2X1R immunoreactivity was specifically localized in neurons, dendrites and axons throughout the forebrain. Characteristic differences in the distribution of P2X1R were observed in different cortical areas. In prefrontal, cingulate and perirhinal cortices, very intense labeling was present in neuronal bodies. In frontal, parietal, temporal and occipital cortices, immunostaining was lighter and mainly found in dendrites and axons. The hippocampal formation was intensely labeled. Labeling was present almost exclusively in dendrites and axons and never in neuronal bodies. The diencephalon was devoid of P2X1R positive neurons or fibers except for the medial habenular nucleus, which showed very intense P2X1R immunostaining. Furthermore, two subcortical regions, namely, the nucleus centralis of the amygdala and the bed nucleus of the stria terminalis, showed intense P2X1R neuronal labeling. Present data indicate that P2X1R are prevalent in forebrain areas involved in the integration of cognitive, limbic and autonomic functions. © 2007 IBRO.

Published

2008

12. Partial extinction of a conditioned context enhances preference for elements previously associated with cocaine but not with chocolate

Author

Orsini, C., primary, Bonito-Oliva, A., additional, Montanari, C., additional, Conversi, D., additional, and Cabib, S., additional

Published

2013

13. Cortical and subcortical distribution of ionotropic purinergic receptor subunit type 1 (P2X1R) immunoreactive neurons in the rat forebrain

Author

Florenzano, F., primary, Carrive, P., additional, Viscomi, M.T., additional, Ferrari, F., additional, Latini, L., additional, Conversi, D., additional, Cabib, S., additional, Bagni, C., additional, and Molinari, M., additional

Published

2008

14. DeltaFosB accumulation in ventro‐medial caudate underlies the induction but not the expression of behavioral sensitization by both repeated amphetamine and stress

Author

Conversi, D., primary, Bonito‐Oliva, A., additional, Orsini, C., additional, Colelli, V., additional, and Cabib, S., additional

Published

2007

15. Habituation to the test cage influences amphetamine-induced locomotion and Fos expression and increases FosB/ΔFosB-like immunoreactivity in mice

Author

Conversi, D., primary, Bonito-Oliva, A., additional, Orsini, C., additional, and Cabib, S., additional

Published

2006

16. B26 SENSITIVITY TO THE INCENTIVE PROPERTIES OF COCAINE DOES NOT PREDICT SUSCEPTIBILITY TO COCAINE-INDUCED REINSTATEMENT IN CONDITIONED PLACE PREFERENCE

Author

Bonito-Oliva, A., primary, Orsini, C., additional, Conversi, D., additional, and Cabib, S., additional

Published

2005

17. B56 ENVIRONMENTAL MODULATION OF HEROIN-INDUCED LOCOMOTORY ACTIVITY AND FOS EXPRESSION

Author

Paolone, G., primary, Conversi, D., additional, Caprioli, D., additional, Palopoli, M., additional, Del Bianco, P., additional, D???Oro, S., additional, Nencini, P., additional, Cabib, S., additional, and Badiani, A., additional

Published

2005

18. Distinct patterns of Fos expression induced by systemic amphetamine in the striatal complex of C57BL/6JICo and DBA/2JICo inbred strains of mice

Author

Conversi, D., primary, Orsini, C., additional, and Cabib, S., additional

Published

2004

19. P49 A MOUSE MODEL OF INDIVIDUAL DIFFERENCES IN THE SUSCEPTIBILITY TO THE REWARDING AND PSYCHOMOTOR ACTIVATING EFFECTS OF DRUGS OF ABUSE

Author

Orsini, C., primary, Conversi, D., additional, and Cabib, S., additional

Published

2004

20. Axotomy dependent purinergic and nitrergic co-expression

Author

Viscomi, M.T, primary, Florenzano, F, additional, Conversi, D, additional, Bernardi, G, additional, and Molinari, M, additional

Published

2004

21. Cortical and subcortical distribution of ionotropic purinergic receptor subunit type 1 (P2X1R) immunoreactive neurons in the rat forebrain

Author

Florenzano, F., Carrive, P., Viscomi, M.T., Ferrari, F., Latini, L., Conversi, D., Cabib, S., Bagni, C., and Molinari, M.

Subjects

*PURINERGIC receptors, *CEREBRAL cortex, *LABORATORY rats, *NEUROBIOLOGY

Abstract

Abstract: Ionotropic purinergic receptors (P2XR) are ATP-gated cationic channels composed of seven known subunits (P2X1–7R) and involved in different functions in neural tissue. Although their presence has been demonstrated in the brain, few studies have investigated their expression pattern. In particular, ionotropic purinergic receptor subunit type 1 (P2X1R) has been observed in the cerebellum and in brainstem nuclei. The present study investigates the P2X1R expression pattern in the rat forebrain using immunohistochemistry. The specificity of the immunolabeling has been verified by Western blotting and in situ hybridization methods. P2X1R immunoreactivity was specifically localized in neurons, dendrites and axons throughout the forebrain. Characteristic differences in the distribution of P2X1R were observed in different cortical areas. In prefrontal, cingulate and perirhinal cortices, very intense labeling was present in neuronal bodies. In frontal, parietal, temporal and occipital cortices, immunostaining was lighter and mainly found in dendrites and axons. The hippocampal formation was intensely labeled. Labeling was present almost exclusively in dendrites and axons and never in neuronal bodies. The diencephalon was devoid of P2X1R positive neurons or fibers except for the medial habenular nucleus, which showed very intense P2X1R immunostaining. Furthermore, two subcortical regions, namely, the nucleus centralis of the amygdala and the bed nucleus of the stria terminalis, showed intense P2X1R neuronal labeling. Present data indicate that P2X1R are prevalent in forebrain areas involved in the integration of cognitive, limbic and autonomic functions. [Copyright &y& Elsevier]

Published

2008

22. Dopamine in the medial prefrontal cortex controls genotype-dependent effects of amphetamine on mesoaccumbens dopamine release and locomotion

Author

Davide Conversi, Simona Cabib, Antonio Alcaro, Laura Mandolesi, Stefano Puglisi-Allegra, Rossella Ventura, Ventura, R, Alcaro, A, Cabib, S, Conversi, D, Mandolesi, L, and Puglisi-Allegra, S.

Subjects

Male, medicine.medical_specialty, Microdialysis, Time Factors, Genotype, Dopamine, Prefrontal Cortex, Nucleus accumbens, Inhibitory postsynaptic potential, Dopamine agonist, Nucleus Accumbens, Mice, Species Specificity, mesocorticolimbic system, Internal medicine, medicine, Animals, Drug Interactions, Oxidopamine, Amphetamine, Prefrontal cortex, Pharmacology, Analysis of Variance, Adrenergic Uptake Inhibitors, Dose-Response Relationship, Drug, Chemistry, Desipramine, Mice, Inbred C57BL, Psychiatry and Mental health, Endocrinology, Mice, Inbred DBA, Catecholamine, Central Nervous System Stimulants, dopamine, drugs of abuse, genotype, medial prefrontal cortex, nucleus accumbens, Extracellular Space, Neuroscience, Locomotion, medicine.drug

Abstract

Mice of background DBA/2J are hyporesponsive to the behavioral effects of D-amphetamine in comparison with the widely exploited murine background C57BL/6J. In view of the important role of dopamine (DA) release in the nucleus accumbens (NAc) regarding the behavioral effects of psychostimulants, we tested the hypothesis of an inverse relationship between mesocortical and mesoaccumbens DA functioning in the two backgrounds. Systemic D-amphetamine induces a sustained increase in DA release in the medial prefrontal cortex (mpFC) accompanied by a poor increase in the NAc in mice of the low-responsive DBA/2J background, as shown by intracerebral microdialysis in freely moving animals. The opposite occurs in C57BL/6J mice, which show low prefrontal cortical DA outflow accompanied by high accumbal extracellular DA. Moreover, the DBA/2J background showed lower locomotor activity than C57BL/6J mice following D-amphetamine challenge. Selective DA depletion in the mpFC of DBA/2J mice produced a clear-cut increase in D-amphetamine-induced DA outflow in the NAc as well as locomotor activity that reached levels similar to those observed in C57BL/6J mice. Finally, local infusion of D-amphetamine by reverse microdialysis produced a similar increase in extracellular DA in both the mpFC and the NAc of DBA/2J mice. This finding points to similar transporter-related mechanisms in the two brain areas and supports the hypothesis that low accumbal DA release induced by systemic D-amphetamine in the DBA/2J background is determined by the inhibitory action of prefrontal cortical DA. The present results indicate that genotype-dependent susceptibility to addictive properties of D-amphetamine involves unbalanced DA transmission in the mesocorticolimbic system.

Published

2004

23. Temperament and probabilistic predictive coding in visual-spatial attention.

Author

Lasaponara S, Scozia G, Lozito S, Pinto M, Conversi D, Costanzi M, Vriens T, Silvetti M, and Doricchi F

Subjects

Humans, Mood Disorders, Dopamine, Norepinephrine physiology, Cues, Temperament physiology, Attention physiology

Abstract

Cholinergic (Ach), Noradrenergic (NE), and Dopaminergic (DA) pathways play an important role in the regulation of spatial attention. The same neurotransmitters are also responsible for inter-individual differences in temperamental traits. Here we explored whether biologically defined temperamental traits determine differences in the ability to orient spatial attention as a function of the probabilistic association between cues and targets. To this aim, we administered the Structure of Temperament Questionnaire (STQ-77) to a sample of 151 participants who also performed a Posner task with central endogenous predictive (80 % valid/20 % invalid) or non-predictive cues (50 % valid/50 % invalid). We found that only participants with high scores in Plasticity and Intellectual Endurance showed a selective abatement of attentional costs with non-predictive cues. In addition, stepwise regression showed that costs in the non-predictive condition were negatively predicted by scores in Plasticity and positively predicted by scores in Probabilistic Thinking. These results show that stable temperamental characteristics play an important role in defining the inter-individual differences in attentional behaviour, especially in the presence of different probabilistic organisations of the sensory environment. These findings emphasize the importance of considering temperamental and personality traits in social and professional environments where the ability to control one's attention is a crucial functional skill., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Author(s). Published by Elsevier Ltd.. All rights reserved.)

Published

2024

24. Exploring the Interplay of Working Memory, Apathy, and Mood/Emotional Factors.

Author

Thellung di Courtelary E, Scozia G, Lasaponara S, Aguzzetti G, Doricchi F, and Conversi D

Abstract

Background: Previous investigations on healthy humans showed conflicting evidence regarding the impact of mood on working memory performance. A systematic investigation of how mood affects apathy levels in healthy participants is currently missing., Methods: We administered a visuospatial (VS) and a numerical (N) n-back task to a sample of 120 healthy individuals. In these participants, using a series of questionnaires, we also evaluated apathy, mood, working memory, perceived stress, PTSD symptoms caused by the COVID-19 pandemic outbreak, and general psychiatric symptoms. Successively, we investigated their performance in the n-back task as a function of scores to these questionnaires., Results: Participants performed better in the N block than in the VS one. Their accuracy decreased as a function of the n-back difficulty. We reported no differences in working memory performance or apathy as a function of mood, stress, or PTSD symptoms. We found that phobic anxiety negatively predicted accuracy to the numerical n-back task and that subjects with greater anxiety and difficulty in regulating emotions also showed higher levels of withdrawal from the task., Conclusion: The study's results suggest that while mood did not significantly affect working memory performance, strong associations were found between WMQ scores and working memory capabilities.

Published

2024

25. How does IL-6 change after combined treatment in MDD patients? A systematic review.

Author

Lombardi AL, Manfredi L, and Conversi D

Abstract

A growing amount of research suggests that inflammatory responses have a crucial role in the complex pathophysiology of Major Depressive Disorder (MDD), a disabling medical condition. The present review has two primary goals. Firstly, to highlight and summarize results from studies that investigated the changes of IL-6 in MDD patients before and after combined treatment. The second aim is to enlighten the need for further research on the difference in the concentration of the pro-inflammatory cytokines between MDD and Treatment-Resistant MDD. The protocol of this study was written using PRISMA, and it is registered at PROSPERO (identification: CRD42021289233). We searched the following bibliographic databases to identify potentially eligible articles without any time limit until September 2021: Pubmed, Web of Science, Scopus, PsycINFO. As they met the eligibility criteria, 14 articles were included in this systematic review. The selected studies assessed twelve different elements as an adjunction to the standard pharmacotherapy (ECT, Ketamine, CBT, NCT, Ketoprofene, Lithium, Celecoxib, Metformin tDCS, Pentoxifylline, ethyl-EPA, Zinc). Significant results were found in the studies that analyzed the impact of combined treatment with the adjunction of the following elements: ECT, Ketamine, CBT, NCT, Celecoxib, Metformin, and Pentoxifylline. Overall, this systematic review identifies several potentially beneficial combined treatments for MDD patients. Further evidence is needed to confirm the efficacy of reducing IL-6 levels in patients with Treatment-Resistant MDD., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2022 The Authors.)

Published

2022

26. A Systematic Review of Genetic Polymorphisms Associated with Bipolar Disorder Comorbid to Substance Abuse.

Author

de Marco A, Scozia G, Manfredi L, and Conversi D

Subjects

Adolescent, Adult, Aryldialkylphosphatase, Case-Control Studies, Comorbidity, Humans, Polymorphism, Genetic, Receptors, GABA, Bipolar Disorder genetics, Substance-Related Disorders epidemiology, Substance-Related Disorders genetics

Abstract

It is currently unknown which genetic polymorphisms are involved in substance use disorder (SUD) comorbid with bipolar disorder (BD). The research on polymorphisms in BD comorbid with SUD (BD + SUD) is summarized in this systematic review. We looked for case-control studies that genetically compared adults and adolescents with BD and SUD, healthy controls, and BD without SUD. PRISMA was used to create our protocol, which is PROSPERO-registered (identification: CRD4221270818). The following bibliographic databases were searched indefinitely until December 2021 to identify potentially relevant articles: PubMed, PsycINFO, Scopus, and Web of Science. This systematic review, after the qualitative analysis of the study selection, included 17 eligible articles. In the selected studies, 66 polymorphisms in 29 genes were investigated. The present work delivers a group of potentially valuable genetic polymorphisms associated with BD + SUD: rs11600996 ( ARNTL ), rs228642/rs228682/rs2640909 ( PER3 ), PONQ192R ( PON1 ), rs945032 ( BDKRB2 ), rs1131339 ( NR4A3 ), and rs6971 ( TSPO ). It is important to note that none of those findings have been confirmed by two or more studies; thus, we believe that all the polymorphisms identified in this review require additional evidence to be confirmed.

Published

2022

27. The SEEKING Drive and Its Fixation: A Neuro-Psycho-Evolutionary Approach to the Pathology of Addiction.

Author

Alcaro A, Brennan A, and Conversi D

Abstract

Neuro-ethological studies conducted by Panksepp and his colleagues have provided an understanding of how the activity of the mesolimbic dopaminergic (ML DA) system leads to the emotional disposition to SEEK/Explore, which is involved in all appetitive motivated behavior and mental activity. In pathological addiction phenomena, this emotional disposition "fixes" itself on certain obsessive-compulsive habits, losing its versatility and its natural predisposition to spontaneous and unconditioned activation. Overall, the result is a consistent disinterest in everything that is not the object of addiction. From a neuro-psycho-evolutionary point of view, the predisposition to develop addictive behavior can be attributed to a loss of "functional autonomy" of the SEEKING/Explorative disposition. Indeed, as shown by animal and human studies, the tendency to be conditioned by situations and contexts that provide an immediate reward can be closely related to a deficit in the tonic endogenous activity of the ML DA-SEEKING system., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Alcaro, Brennan and Conversi.)

Published

2021

28. Beneficial Effects of Mindfulness-Based Stress Reduction Training on the Well-Being of a Female Sample during the First Total Lockdown Due to COVID-19 Pandemic in Italy.

Author

Accoto A, Chiarella SG, Raffone A, Montano A, de Marco A, Mainiero F, Rubbino R, Valzania A, and Conversi D

Subjects

Anxiety epidemiology, Anxiety prevention & control, Communicable Disease Control, Depression, Female, Humans, Italy epidemiology, Male, Pandemics, SARS-CoV-2, Stress, Psychological prevention & control, COVID-19, Mindfulness

Abstract

The global pandemic caused by COVID-19 and the subsequent lockdown have been widely recognized as traumatic events that pose threats to psychological well-being. Recent studies reported that during such traumatic events, women tend to be at greater risk than men for developing symptoms of stress, anxiety, and depression. Several studies reported that a mindfulness-based stress reduction protocol (MBSR) provides useful skills for dealing with traumatic events. In our study, a sample of Italian females received an 8-week MBSR course plus 6 weeks of video support for meditation practice during the first total lockdown in Italy. We assessed the participants with questionnaires before and after this period to investigate their mindfulness skills, psychological well-being, post-traumatic growth, and psychological flexibility. After the intervention, the meditators group reported improvement in measures associated with self-acceptance, purpose in life, and relation to others compared to the control group. Furthermore, our results showed that participants with greater mindfulness scores showed high levels of psychological flexibility, which in turn was positively associated with higher levels of psychological well-being. We concluded that the MBSR could support psychological well-being, at least in female subjects, even during an unpredictable adverse event, such as the COVID-19 lockdown, by reinforcing key psychological aspects.

Published

2021

29. Effectiveness of NoiBene: A Web-based programme to promote psychological well-being and prevent psychological distress in university students.

Author

Di Consiglio M, Fabrizi G, Conversi D, La Torre G, Pascucci T, Lombardo C, Violani C, and Couyoumdjian A

Subjects

Emotions, Humans, Internet, Students, Psychological Distress, Universities

Abstract

Mental health problems are very common among university students. NoiBene is an evidence-based intervention for the promotion of well-being and the prevention of psychological distress among university students. NoiBene was tested in two studies. In study 1, a randomized controlled pilot trial was conducted to investigate the efficacy of NoiBene on students' well-being, emotional awareness, emotion regulation and assertiveness. The degree of satisfaction with the intervention was also investigated. Students (n = 24) were assigned to either the NoiBene programme or a control condition. In study 2, to confirm the usefulness of NoiBene, we analysed data from the current use of NoiBene (n = 178). The effectiveness of NoiBene on transdiagnostic mechanisms (perfectionism, repetitive thinking and experiential avoidance) was also investigated. In study 1, NoiBene improved self-acceptance and increased the ability to identify feelings. Students reported a good level of perceived usefulness. In study 2, the results confirmed findings from the first study and suggested that NoiBene can improve emotional awareness and decrease transdiagnostic mechanisms. NoiBene is a promising tool that can improve students' psychological well-being. More control studies are mandatory., (© 2021 International Association of Applied Psychology.)

Published

2021

30. A Systematic Review of Genetic Polymorphisms Associated with Binge Eating Disorder.

Author

Manfredi L, Accoto A, Couyoumdjian A, and Conversi D

Subjects

Adolescent, Adult, Female, Humans, Male, Observational Studies as Topic, Young Adult, Binge-Eating Disorder genetics, Genetic Predisposition to Disease genetics, Obesity genetics, Overweight genetics, Polymorphism, Genetic

Abstract

The genetic polymorphisms involved in the physiopathology of binge eating disorder (BED) are currently unclear. This systematic review aims to highlight and summarize the research on polymorphisms that is conducted in the BED. We looked for observational studies where there was a genetic comparison between adults with BED, in some cases also with obesity or overweight, and healthy controls or obesity/overweight without BED. Our protocol was written using PRISMA. It is registered at PROSPERO (identification: CRD42020198645). To identify potentially relevant documents, the following bibliographic databases were searched without a time limit, but until September 2020: PubMed, PsycINFO, Scopus, and Web of Science. In total, 21 articles were included in the qualitative analysis of the systematic review, as they met the eligibility criteria. Within the selected studies, 41 polymorphisms of 17 genes were assessed. Overall, this systematic review provides a list of potentially useful genetic polymorphisms involved in BED: 5-HTTLPR (5-HTT), Taq1A (ANKK1/DRD2), A118G (OPRM1), C957T (DRD2), rs2283265 (DRD2), Val158Met (COMT), rs6198 (GR), Val103Ile (MC4R), Ile251Leu (MC4R), rs6265 (BNDF), and Leu72Met (GHRL). It is important to emphasize that Taq1A is the polymorphism that showed, in two different research groups, the most significant association with BED. The remaining polymorphisms need further evidence to be confirmed.

Published

2021

31. The Brain Emotional Systems in Addictions: From Attachment to Dominance/Submission Systems.

Author

Giacolini T, Conversi D, and Alcaro A

Abstract

Human development has become particularly complex during the evolution. In this complexity, adolescence is an extremely important developmental stage. Adolescence is characterized by biological and social changes that create the prerequisites to psychopathological problems, including both substance and non-substance addictive behaviors. Central to the dynamics of the biological changes during adolescence are the synergy between sexual and neurophysiological development, which activates the motivational/emotional systems of Dominance/Submission. The latter are characterized by the interaction between the sexual hormones, the dopaminergic system and the stress axis (HPA). The maturation of these motivational/emotional systems requires the integration with the phylogenetically more recent Attachment/CARE Systems, which primarily have governed the subject's relationships until puberty. The integration of these systems is particularly complex in the human species, due to the evolution of the process of competition related to sexual selection: from a simple fight between two individuals (of the same genus and species) to a struggle for the acquisition of a position in rank and the competition between groups. The latter is an important evolutionary acquisition and believed to be the variable that has most contributed to enhancing the capacity for cooperation in the human species. The interaction between competition and cooperation, and between competition and attachment, characterizes the entire human relational and emotional structure and the unending work of integration to which the BrainMind is involved. The beginning of the integration of the aforementioned motivational/emotional systems is currently identified in the prepubertal period, during the juvenile stage, with the development of the Adrenarche-the so-called Adrenal Puberty. This latter stage is characterized by a low rate of release of androgens, the hormones released by the adrenal cortex, which activate the same behaviors as those observed in the PLAY system. The Adrenarche and the PLAY system are biological and functional prerequisites of adolescence, a period devoted to learning the difficult task of integrating the phylogenetically ancient Dominance/Submission Systems with the newer Attachment/CARE Systems. These systems accompany very different adaptive goals which can easily give rise to mutual conflict and can in turn make the balance of the BrainMind precarious and vulnerable to mental suffering., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Giacolini, Conversi and Alcaro.)

Published

2021

32. Pupil dilation during orienting of attention and conscious detection of visual targets in patients with left spatial neglect.

Author

Lasaponara S, Fortunato G, Conversi D, Pellegrino M, Pinto M, Collins DL, Tomaiuolo F, and Doricchi F

Subjects

Cerebral Cortex, Consciousness, Functional Laterality, Humans, Reaction Time, Reward, Space Perception, Perceptual Disorders, Pupil

Abstract

Right Brain-Damaged patients (RBD) with left spatial neglect (N+), are characterised by deficits in orienting and re-orienting attention to stimuli in the contralesional left side of space. In a recent ERPs study with visual stimuli (Lasaponara et al., 2018) we have pointed out that the pathological attentional bias of N+ is matched with exaggerated novelty reaction and contextual updating of targets in the right ipsilesional space and reduced novelty reaction and contextual updating of targets in the left contralesional space. To characterise further the attentional performance of N+, here we measured Pupil Dilation (PDil), which is a reliable marker of noradrenergic-locus coeruleus activity and response to unexpected events/rewards. Compared to Neutral and Valid targets, N+ patients displayed a pathological reduction of PDil in response to infrequent Invalid targets in the left side of space, while in Healthy Controls (HC) and RBD without neglect (N-) the same targets enhanced PDil with respect to Neutral and frequent Valid targets. Invalid targets in the right side of space enhanced PDil in all experimental groups. Interestingly, both N- and N+ showed a consistent number of target omissions both in the left and right side of space. With respect to seen targets, N- showed reduced PDil in response to unseen targets both in the left and right side of space. In contrast, N+ had reduced PDil in response to unseen targets in the left side of space though not in the right side, where seen and unseen targets evoked comparable levels of PDil. These results disclose, for the first time, the PDil correlates of spatial attention in left spatial neglect and suggest that the pathological attentional bias suffered by N+ might enhance the autonomic responses reflected in PDil to unseen ipsilesional stimuli. This enhancement can contribute to biasing contextual updating and predictive coding of stimuli in the ipsilesional space, thus worsening the pathological attentional bias of N+., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2021

33. Functional and Dysfunctional Neuroplasticity in Learning to Cope with Stress.

Author

Cabib S, Campus P, Conversi D, Orsini C, and Puglisi-Allegra S

Abstract

In this brief review, we present evidence of the primary role of learning-associated plasticity in the development of either adaptive or maladaptive coping strategies. Successful interactions with novel stressors foster plasticity within the neural circuits supporting acquisition, consolidation, retrieval, and extinction of instrumental learning leading to development of a rich repertoire of flexible and context-specific adaptive coping responses, whereas prolonged or repeated exposure to inescapable/uncontrollable stressors fosters dysfunctional plasticity within the learning circuits leading to perseverant and inflexible maladaptive coping strategies. Finally, the results collected using an animal model of genotype-specific coping styles indicate the engagement of different molecular networks and the opposite direction of stress effects (reduced vs. enhanced gene expression) in stressed animals, as well as different behavioral alterations, in line with differences in the symptoms profile associated with post-traumatic stress disorder.

Published

2020

34. Access to consciousness of briefly presented visual events is modulated by transcranial direct current stimulation of left dorsolateral prefrontal cortex.

Author

Sdoia S, Conversi D, Pecchinenda A, and Ferlazzo F

Subjects

Adult, Female, Humans, Male, Young Adult, Attentional Blink, Consciousness, Prefrontal Cortex physiology, Transcranial Direct Current Stimulation, Unconsciousness

Abstract

Adaptive behaviour requires the ability to process goal-relevant events at the expense of irrelevant ones. However, perception of a relevant visual event can transiently preclude access to consciousness of subsequent events - a phenomenon called attentional blink (AB). Here we investigated involvement of the left dorsolateral prefrontal cortex (DLPFC) in conscious access, by using transcranial direct current stimulation (tDCS) to potentiate or reduce neural excitability in the context of an AB task. In a sham-controlled experimental design, we applied between groups anodal or cathodal tDCS over the left DLPFC, and examined whether this stimulation modulated the proportion of stimuli that were consciously reported during the AB period. We found that tDCS over the left DLPFC affected the proportion of consciously perceived target stimuli. Moreover, anodal and cathodal tDCS had opposing effects, and exhibited different temporal patterns. Anodal stimulation attenuated the AB, enhancing conscious report earlier in the AB period. Cathodal stimulation accentuated the AB, reducing conscious report later in the AB period. These findings support the notion that the DLPFC plays a role in facilitating information transition from the unconscious to the conscious stage of processing.

Published

2019

35. Dendritic spine density and EphrinB2 levels of hippocampal and anterior cingulate cortex neurons increase sequentially during formation of recent and remote fear memory in the mouse.

Author

Abate G, Colazingari S, Accoto A, Conversi D, and Bevilacqua A

Subjects

Animals, Anisomycin pharmacology, CA1 Region, Hippocampal cytology, CA1 Region, Hippocampal drug effects, Dendritic Spines drug effects, Fear drug effects, Gyrus Cinguli cytology, Male, Memory drug effects, Mice, Inbred C57BL, Neuronal Plasticity drug effects, Neuronal Plasticity physiology, Protein Synthesis Inhibitors pharmacology, Receptor, EphA4 metabolism, Time Factors, CA1 Region, Hippocampal metabolism, Dendritic Spines physiology, Ephrin-B2 metabolism, Fear physiology, Gyrus Cinguli physiology, Memory physiology

Abstract

Memory consolidation is a dynamic process that involves a sequential remodeling of hippocampal-cortical circuits. Although synaptic events underlying memory consolidation are well assessed, fine molecular events controlling this process deserve further characterization. To this aim, we challenged male C57BL/6N mice in a contextual fear conditioning (CFC) paradigm and tested their memory 24 h, 7 days or 36 days later. Mice displayed a strong fear response at all time points with an increase in dendritic spine density and protein levels of the cell adhesion factor EphrinB2 in CA1 hippocampal neurons 24 h and 7 days post conditioning (p.c.), and in anterior cingulate cortex (ACC) neurons 36 days p.c. We then investigated whether the formation of remote memory and neuronal modifications in the ACC would depend on p.c. protein synthesis in hippocampal neurons. Bilateral intrahippocampal infusions with the protein synthesis inhibitor anisomycin administered immediately p.c. decreased fear response, neuronal spine growth and EphrinB2 protein levels of hippocampal and ACC neurons 24 h and 36 days p.c., respectively. Anisomycin infusion 24 h p.c. had no effects on fear response, increase in spine density and in EphrinB2 protein levels in ACC neurons 36 days p.c. Our results thus confirm that early but not late p.c. hippocampal protein synthesis is necessary for the formation of remote memory and provide the first evidence of a possible involvement of EphrinB2 in neuronal plasticity in the ACC., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published

2018

36. Unstable Maternal Environment Affects Stress Response in Adult Mice in a Genotype-Dependent Manner.

Author

Di Segni M, Andolina D, Luchetti A, Babicola L, D'Apolito LI, Pascucci T, Conversi D, Accoto A, D'Amato FR, and Ventura R

Subjects

Animals, Animals, Newborn, Disease Models, Animal, Dopamine metabolism, Female, Food Preferences psychology, Genotype, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Microdialysis, Norepinephrine metabolism, Prefrontal Cortex metabolism, Proto-Oncogene Proteins c-fos metabolism, Rats, Restraint, Physical, Swimming psychology, Adaptation, Psychological physiology, Maternal Behavior psychology, Stress, Psychological genetics, Stress, Psychological physiopathology

Abstract

Early postnatal events exert powerful effects on development, inducing persistent functional alterations in different brain network, such as the catecholamine prefrontal-accumbal system, and increasing the risk of developing psychiatric disorders later in life. However, a vast body of literature shows that the interaction between genetic factors and early environmental conditions is crucial for expression of psychopathologies in adulthood. We evaluated the long-lasting effects of a repeated cross-fostering (RCF) procedure in 2 inbred strains of mice (C57BL/6J, DBA/2), known to show a different susceptibility to the development and expression of stress-induced psychopathologies. Coping behavior (forced swimming test) and preference for a natural reinforcing stimulus (saccharine preference test) were assessed in adult female mice of both genotypes. Moreover, c-Fos stress-induced activity was assessed in different brain regions involved in stress response. In addition, we evaluated the enduring effects of RCF on catecholamine prefrontal-accumbal response to acute stress (restraint) using, for the first time, a new "dual probes" in vivo microdialysis procedure in mouse. RCF experience affects behavioral and neurochemical responses to acute stress in adulthood in opposite direction in the 2 genotypes, leading DBA mice toward an "anhedonic-like" phenotype and C57 mice toward an increased sensitivity for a natural reinforcing stimulus., (© The Author 2015. Published by Oxford University Press. All rights reserved. For Permissions, please e-mail: journals.permissions@oup.com.)

Published

2016

37. Behavioral and neurochemical characterization of new mouse model of hyperphenylalaninemia.

Author

Pascucci T, Giacovazzo G, Andolina D, Accoto A, Fiori E, Ventura R, Orsini C, Conversi D, Carducci C, Leuzzi V, and Puglisi-Allegra S

Subjects

Amygdala metabolism, Analysis of Variance, Animals, Maze Learning physiology, Mice, Movement physiology, Prefrontal Cortex metabolism, Recognition, Psychology physiology, Serotonin metabolism, Behavior, Animal physiology, Cognition Disorders pathology, Disease Models, Animal, Phenylketonurias classification, Phenylketonurias physiopathology

Abstract

Hyperphenylalaninemia (HPA) refers to all clinical conditions characterized by increased amounts of phenylalanine (PHE) in blood and other tissues. According to their blood PHE concentrations under a free diet, hyperphenylalaninemic patients are commonly classified into phenotypic subtypes: classical phenylketonuria (PKU) (PHE > 1200 µM/L), mild PKU (PHE 600-1200 µM/L) and persistent HPA (PHE 120-600 µM/L) (normal blood PHE < 120 µM/L). The current treatment for hyperphenylalaninemic patients is aimed to keep blood PHE levels within the safe range of 120-360 µM/L through a PHE-restricted diet, difficult to achieve. If untreated, classical PKU presents variable neurological and mental impairment. However, even mildly elevated blood PHE levels, due to a bad compliance to dietary treatment, produce cognitive deficits involving the prefrontal cortical areas, extremely sensible to PHE-induced disturbances. The development of animal models of different degrees of HPA is a useful tool for identifying the metabolic mechanisms underlying cognitive deficits induced by PHE. In this paper we analyzed the behavioral and biochemical phenotypes of different forms of HPA (control, mild-HPA, mild-PKU and classic-PKU), developed on the base of plasma PHE concentrations. Our results demonstrated that mice with different forms of HPA present different phenotypes, characterized by increasing severity of behavioral symptoms and brain aminergic deficits moving from mild HPA to classical PKU forms. In addition, our data identify preFrontal cortex and amygdala as the most affected brain areas and confirm the highest susceptibility of brain serotonin metabolism to mildly elevated blood PHE.

Published

2013

38. Prefrontal/amygdalar system determines stress coping behavior through 5-HT/GABA connection.

Author

Andolina D, Maran D, Valzania A, Conversi D, and Puglisi-Allegra S

Subjects

5,7-Dihydroxytryptamine administration & dosage, 5,7-Dihydroxytryptamine pharmacology, Adaptation, Psychological drug effects, Allylglycine administration & dosage, Allylglycine pharmacology, Amygdala drug effects, Amygdala metabolism, Animals, Brain drug effects, Brain metabolism, Dopamine metabolism, GABA Antagonists pharmacology, Immobility Response, Tonic drug effects, Immobility Response, Tonic physiology, Male, Mice, Microinjections, Neural Pathways drug effects, Neural Pathways metabolism, Neural Pathways physiology, Norepinephrine metabolism, Prefrontal Cortex drug effects, Prefrontal Cortex metabolism, Stress, Psychological metabolism, Adaptation, Psychological physiology, Amygdala physiology, Prefrontal Cortex physiology, Serotonin metabolism, Stress, Psychological physiopathology, Stress, Psychological psychology, gamma-Aminobutyric Acid metabolism

Abstract

Coping is defined as the behavioral and physiological effort made to master stressful situations. The ability to cope with stress leads either to healthy or to pathogenic outcomes. The medial prefrontal cortex (mpFC) and amygdala are acknowledged as having a major role in stress-related behaviors, and mpFC has a critical role in the regulation of amygdala-mediated arousal in response to emotionally salient stimuli. Prefrontal cortical serotonin (5-hydroxytryptamine (5-HT)) is involved in corticolimbic circuitry, and GABA has a major role in amygdala functioning. Here, using mice, it was assessed whether amygdalar GABA regulation by prefrontal 5-HT is involved in processing stressful experiences and in determining coping outcomes. First (experiment 1), bilateral selective 5-HT depletion in mpFC of mice reduced GABA release induced by stress in basolateral amygdala (BLA) and passive coping in the Forced Swimming Test (FST) (experiment 2). Moreover, prefrontal-amygdala disconnection procedure that combined a selective unilateral 5-HT depletion of mpFC and infusion of an inhibitor of GABA synthesis into the contralateral BLA, thereby to disrupt prefrontal-amygdalar serial connectivity bilaterally, showed that disconnection selectively decreases immobility in the FST. These results point to prefrontal/amygdala connectivity mediated by 5-HT and GABA transmission as a critical neural mechanism in stress-induced behavior.

Published

2013

39. In vivo catecholaminergic metabolism in the medial prefrontal cortex of ENU2 mice: an investigation of the cortical dopamine deficit in phenylketonuria.

Author

Pascucci T, Giacovazzo G, Andolina D, Conversi D, Cruciani F, Cabib S, and Puglisi-Allegra S

Subjects

Animals, Disease Models, Animal, Levodopa administration & dosage, Male, Mice, Mice, Mutant Strains, Phenylalanine Hydroxylase genetics, Phenylketonurias blood, Phenylketonurias drug therapy, Phenylketonurias genetics, Synaptic Transmission drug effects, Tyrosine administration & dosage, Tyrosine blood, Tyrosine metabolism, Tyrosine 3-Monooxygenase deficiency, Catecholamines metabolism, Dopamine metabolism, Phenylketonurias metabolism, Prefrontal Cortex metabolism

Abstract

Objective: Phenylketonuria (PKU) is an inherited metabolic disease characterized by plasma hyperphenylalaninemia and several neurological symptoms that can be controlled by rigorous dietetic treatment. The cellular mechanisms underlying impaired brain functions are still unclear. It has been proposed, however, that phenylalanine interference in cognitive functions depends on impaired dopamine (DA) transmission in the prefrontal cortical area due to reduced availability of the precursor tyrosine. Here, using Pah(enu2) (ENU2) mice, the genetic murine model of PKU, we investigated all metabolic steps of catecholamine neurotransmission within the medial preFrontal Cortex (mpFC), availability of the precursor tyrosine, synthesis and release, to find an easy way to reinstate normal cortical DA neurotransmission., Methods and Results: Analysis of blood and brain levels of tyrosine showed reduced plasma and cerebral levels of tyrosine in ENU2 mice. Western blot analysis demonstrated deficient tyrosine hydroxylase (TH) protein levels in mpFC of ENU2 mice. Cortical TH activity, determined in vivo by measuring the accumulation of l-3,4-dihydroxyphenylalanine (L-DOPA) in mpFC after inhibition of L-aromatic acid decarboxylase with NSD-1015, was reduced in ENU2 mice. Finally, a very low dose of L-DOPA, which bypasses the phenylalanine-inhibited metabolic steps, restored DA prefrontal transmission to levels found in healthy mice., Conclusion: The data suggests that a strategy of using tyrosine supplementation to treat PKU is unlikely to be effective, whereas small dose L-DOPA administration is likely to have a positive therapeutic effect.

Published

2012

40. Positive and negative emotional arousal increases duration of memory traces: common and independent mechanisms.

Author

Cruciani F, Berardi A, Cabib S, and Conversi D

Abstract

We compared the ability of positive and negative emotional arousal to increase the duration of consolidated memory traces. Positive arousal was modulated by manipulating the motivational salience of the testing cage of an object recognition test. Negative emotional arousal was modulated by manipulating shock levels in a step-through inhibitory avoidance (IA). Mice trained in either a high (chocolate-associated) or a low (inedible object-associated) emotionally arousing cage showed discrimination of a novel object 24 h after training, but only mice trained in the more arousing cage showed retention 96 h after training. Mice trained with either low (0.35 mA) or high (0.7 mA) shock intensities showed increased step-through latencies when tested 24 h after training, but only mice trained with the higher shock intensity showed retention of the IA learning 1 week after training. Administration of the phosphodiesterase type IV inhibitor Rolipram immediately after training in the two low arousing conditions increases duration of both responses.

Published

2011

41. 5-Hydroxytryptophan during critical postnatal period improves cognitive performances and promotes dendritic spine maturation in genetic mouse model of phenylketonuria.

Author

Andolina D, Conversi D, Cabib S, Trabalza A, Ventura R, Puglisi-Allegra S, and Pascucci T

Subjects

Animals, Behavior, Animal drug effects, Cognition Disorders complications, Cognition Disorders genetics, Cognition Disorders physiopathology, Dendritic Spines physiology, Disease Models, Animal, Humans, Intellectual Disability drug therapy, Intellectual Disability genetics, Male, Mice, Mice, Mutant Strains, Phenylalanine Hydroxylase metabolism, Phenylketonurias complications, Phenylketonurias pathology, Phenylketonurias physiopathology, Prefrontal Cortex physiopathology, Time Factors, 5-Hydroxytryptophan pharmacology, Cognition, Critical Period, Psychological, Dendritic Spines drug effects, Intellectual Disability etiology, Phenylketonurias drug therapy, Prefrontal Cortex drug effects, Serotonin metabolism

Abstract

Although phenylketonuria (PKU) is the most common genetic cause of mental retardation, the cellular mechanisms underlying impaired brain function are still unclear. Using PAHenu2 mice (ENU2), the genetic mouse model of PKU, we previously demonstrated that high phenylalanine levels interfere with brain tryptophan hydroxylase activity by reducing the availability of serotonin (5-hydroxytryptamine, 5-HT), crucial for maturation of neuronal connectivity in the prefrontal cortex (PFC), around the third postnatal week, a critical period for cortical maturation. 5-Hydroxytryptophan (5-HTP), the product of tryptophan hydroxylation, is known to be a better treatment to increase brain 5-HT levels. In this study we investigated the role of 5-HT during the early postnatal period in cognitive disturbances and in cortical dendritic alterations of PKU subjects by restoring temporarily (postnatal days 14-21) physiological brain levels of 5-HT in ENU2 through 5-HTP treatment. In adult ENU2 mice early 5-HTP treatment reverses cognitive deficits in spatial and object recognition tests accompanied by an increase in spine maturation of pyramidal neurons in layer V of the prelimbic/infralimbic area of the PFC, although locomotor deficits are not recovered by treatment. Taken together, our results support the hypothesis that mental retardation in PKU depends on reduced availability of brain 5-HT during critical developmental periods that interferes with cortical maturation and point to 5-HTP supplementation as a highly promising additional tool to heal PKU patients.

Published

2011

42. 5-Hydroxytryptophan rescues serotonin response to stress in prefrontal cortex of hyperphenylalaninaemic mice.

Author

Pascucci T, Andolina D, Mela IL, Conversi D, Latagliata C, Ventura R, Puglisi-Allegra S, and Cabib S

Subjects

Analysis of Variance, Animals, Diet, Reducing methods, Disease Models, Animal, Dopamine metabolism, Dose-Response Relationship, Drug, Mice, Microdialysis methods, Neuraminidase genetics, Norepinephrine metabolism, Phenylalanine metabolism, Phenylketonurias drug therapy, Phenylketonurias genetics, Prefrontal Cortex metabolism, Time Factors, Tryptophan Hydroxylase metabolism, 5-Hydroxytryptophan pharmacology, Antidepressive Agents, Second-Generation pharmacology, Phenylketonurias pathology, Prefrontal Cortex drug effects, Serotonin metabolism

Abstract

Adult early treated hyperphenylalaninaemic patients can show specific deficits of prefrontal cortical functions. The development of additional therapeutic strategies for these patients requires the understanding of the mechanisms involved in phenylalanine-dependent impairment of fronto-cortical functions. We tested the hypothesis of phenylalanine interference with aminergic neurotransmission in the prefrontal cortex by evaluating, in vivo, amine release in adult Pah(enu2) mice, the genetic model of phenylketonuria. Mice of healthy background responded to a psychogenic stressor with the classic time-dependent increase of norepinephrine, dopamine and serotonin release from prefrontal cortical terminals. Neither the dopaminergic nor the serotoninergic responses were observable in the Pah(enu2) mice. Temporary reduction of circulating phenylalanine, by phenylalanine-free diet without amino- acid supplement, promoted recovery of the serotonin response only, demonstrating direct interference with serotonin synthesis in the mature brain. Evaluation of different steps of serotonin synthesis in the prefrontal cortex of hyperphenylalaninaemic mice demonstrated inhibition of cortical tryptophan hydroxylase activity. Finally, systemic administration of 5-hydroxytryptophan, the product of tryptophan hydroxylase activity, allowed frontal cortical serotonin response to stress in hyperphenylalaninaemic mice. Collectively, these results demonstrate that hyperphenylalaninaemia interferes with the ability of the mature prefrontal cortex to respond to psychological challenges, point to serotonin synthesis as the target of phenylalanine interference, and support the use of 5-hydroxytryptophan in lifelong treatment of hyperphenylalaninaemic subjects.

Published

2009

43. Genetic liability increases propensity to prime-induced reinstatement of conditioned place preference in mice exposed to low cocaine.

Author

Orsini C, Bonito-Oliva A, Conversi D, and Cabib S

Subjects

Animals, Cues, Dose-Response Relationship, Drug, Extinction, Psychological drug effects, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Recurrence, Species Specificity, Cocaine pharmacology, Cocaine-Related Disorders genetics, Cocaine-Related Disorders psychology, Conditioning, Operant drug effects

Abstract

Rationale: Relapse to drug use after periods of forced or self-imposed abstinence is a central problem in the treatment of addiction; therefore, identification of factors modulating the risk to relapse is a relevant goal of preclinical research., Objectives: These experiments evaluated the influence of the amount of drug experienced, the duration of drug withdrawal, and individual liability on the propensity to cocaine-induced reinstatement of conditioned place preference (CPP)., Materials and Methods: Mice from the inbred strains C57BL/6J and DBA/2J were trained for CPP with a high (20 mg/kg) or low (5 mg/kg) effective dose of cocaine. After CPP testing, all groups underwent extinction. Twenty-four hours after the extinction test, mice were challenged with saline, a cocaine dose unable to induce CPP (2.5 mg/kg) or an intermediate effective dose (10 mg/kg), and tested for CPP reinstatement. Additional groups of mice trained with the low cocaine dose were left undisturbed for 8 days after extinction test (long withdrawal), retested for extinction, and evaluated for prime-induced reinstatement (0, 2.5, 10 mg/kg of cocaine)., Results: Mice trained with the high cocaine dose, but not with the low one, showed prime-induced reinstatement 24 h after the extinction test; DBA/2J mice trained with the low dose showed reinstatement after long withdrawal., Conclusions: These results indicate that reinstatement of CPP by cocaine prime depends on the amount of drug experienced and on an interaction between individual liability and duration of drug abstinence and suggest that the risk to relapse into drug seeking is not prevented by moderated drug consumption.

Published

2008

44. Modulatory effect of environmental context and drug history on heroin-induced psychomotor activity and fos protein expression in the rat brain.

Author

Paolone G, Conversi D, Caprioli D, Bianco PD, Nencini P, Cabib S, and Badiani A

Subjects

Analysis of Variance, Animals, Behavior, Animal drug effects, Brain anatomy & histology, Brain metabolism, Drug Administration Schedule, Gene Expression Regulation drug effects, Male, Rats, Rats, Sprague-Dawley, Regression Analysis, Brain drug effects, Environment, Heroin administration & dosage, Motor Activity drug effects, Narcotics administration & dosage, Oncogene Proteins v-fos metabolism

Abstract

The goal of the present study was to investigate the role of environmental context and drug history in modulating the effects of heroin on locomotor activity and Fos protein expression in the neocortex and striatal complex of the rat. It was found that (1) repeated i.p. administrations of a relatively low dose of heroin (1 mg/kg, i.p.) induced psychomotor sensitization only when the treatment was administered in a relatively 'novel' environment (ie, a unique test environment distinct from the home cage) but not when the same treatment was administered in the home cage; (2) environmental novelty facilitated heroin-induced Fos expression in the caudate, particularly in its most caudal regions; (3) environmental context also modulated heroin-induced Fos expression in the nucleus accumbens and in the neocortex; (4) repeated exposures to heroin dramatically altered its effects on Fos expression in the caudate and in the neocortex; and (5) Fos protein levels in the postero-dorsal caudate, in the shell of the nucleus accumbens, and in the barrel field cortex predicted most of the variance in heroin-induced activity scores, as shown by multiple regression analysis. The present report demonstrates that environment and drug history powerfully interact in shaping the neurobehavioral response to heroin, as previously shown for amphetamine and cocaine. Thus, a full understanding of the mechanisms responsible for the neurobehavioral adaptations produced by addictive drugs will also require taking into due consideration the environment in which drugs are experienced.

Published

2007

45. Selective improvement of strain-dependent performances of cognitive tasks by food restriction.

Author

Orsini C, Buchini F, Conversi D, and Cabib S

Subjects

Animals, Choice Behavior, Discrimination Learning, Exploratory Behavior, Form Perception, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Orientation, Problem Solving, Reaction Time, Species Specificity, Cognition, Food Deprivation, Mental Recall

Abstract

Temporary food restriction affects strain differences for behavioral phenotypes in the inbred strains of mice C57BL/6 (C57) and DBA/2 (DBA). Since food restriction is a routine procedure to motivate learning, we evaluated its influence on differences for spatial and non-spatial discrimination between these strains of mice by using two non-associative tasks: the Spatial Novelty Test (SNT) and the Spontaneous Object Recognition Test (SORT). The results confirmed the poor performance of the DBA mice in SNT. Nonetheless, DBA mice were perfectly able to recognize the novel object in SORT. By contrast, C57 mice were good performers in SNT but failed to recognize a novel object in SORT. Finally, food restriction selectively improved C57 performance in SNT and DBA performance in SORT. These results support the view that a food restricting procedure enhances strain differences for discrimination of configurational information.

Published

2004

46. Dopamine in the medial prefrontal cortex controls genotype-dependent effects of amphetamine on mesoaccumbens dopamine release and locomotion.

Author

Ventura R, Alcaro A, Cabib S, Conversi D, Mandolesi L, and Puglisi-Allegra S

Subjects

Adrenergic Uptake Inhibitors pharmacology, Analysis of Variance, Animals, Desipramine pharmacology, Dose-Response Relationship, Drug, Drug Interactions, Extracellular Space drug effects, Genotype, Male, Mice, Mice, Inbred C57BL, Mice, Inbred DBA, Microdialysis, Nucleus Accumbens anatomy & histology, Nucleus Accumbens metabolism, Oxidopamine pharmacology, Prefrontal Cortex anatomy & histology, Species Specificity, Time Factors, Amphetamine pharmacology, Central Nervous System Stimulants pharmacology, Dopamine metabolism, Locomotion drug effects, Nucleus Accumbens drug effects, Prefrontal Cortex drug effects

Abstract

Mice of background DBA/2J are hyporesponsive to the behavioral effects of D-amphetamine in comparison with the widely exploited murine background C57BL/6J. In view of the important role of dopamine (DA) release in the nucleus accumbens (NAc) regarding the behavioral effects of psychostimulants, we tested the hypothesis of an inverse relationship between mesocortical and mesoaccumbens DA functioning in the two backgrounds. Systemic D-amphetamine induces a sustained increase in DA release in the medial prefrontal cortex (mpFC) accompanied by a poor increase in the NAc in mice of the low-responsive DBA/2J background, as shown by intracerebral microdialysis in freely moving animals. The opposite occurs in C57BL/6J mice, which show low prefrontal cortical DA outflow accompanied by high accumbal extracellular DA. Moreover, the DBA/2J background showed lower locomotor activity than C57BL/6J mice following D-amphetamine challenge. Selective DA depletion in the mpFC of DBA/2J mice produced a clear-cut increase in D-amphetamine-induced DA outflow in the NAc as well as locomotor activity that reached levels similar to those observed in C57BL/6J mice. Finally, local infusion of D-amphetamine by reverse microdialysis produced a similar increase in extracellular DA in both the mpFC and the NAc of DBA/2J mice. This finding points to similar transporter-related mechanisms in the two brain areas and supports the hypothesis that low accumbal DA release induced by systemic D-amphetamine in the DBA/2J background is determined by the inhibitory action of prefrontal cortical DA. The present results indicate that genotype-dependent susceptibility to addictive properties of D-amphetamine involves unbalanced DA transmission in the mesocorticolimbic system.

Published

2004

47. [The integration of the migrants from Barcelona].

Author

Conversi D

Subjects

Acculturation, Attitude, Behavior, Demography, Developed Countries, Education, Europe, Information Services, Language, Population, Population Characteristics, Population Dynamics, Social Change, Spain, Transients and Migrants, Emigration and Immigration

Published

1988