RESUMEN
Enriched environment (EE) is an important animal experimental paradigm to decipher gene-environment interaction. It is thought to be efficient in aiding recovery from certain metabolism disorders or cognitive impairments. Recently, the effects of EE during adolescence in mice gradually draw much attention. We first established an EE model in adolescent mice, dissected lipid metabolism, and further examined baseline level of anxiety and depression by multiple behavioral tests, including open field test (OFT), elevated zero maze (EZM), tail suspension test (TST), and forced swimming test (FST). EE mice exhibited lower weights, lower cholesterol than standard housing (SH) mice. Behaviorally, EE mice traveled more distance and had higher velocity than SH mice in OFT and EZM. Besides, EE mice showed reduced anxiety levels in OFT and EZM. Furthermore, EE mice also had less immobility time than SH mice in TST and FST. Thus, these results suggest that EE during adolescence has metabolic and behavioral benefits in mice.
Asunto(s)
Ansiedad , Metabolismo de los Lípidos , Animales , Ratones , Ansiedad/metabolismo , Ansiedad/psicología , Natación , Conducta AnimalRESUMEN
Pathogenic Leptospira spp. causes leptospirosis in China and throughout the world. Here, we have sequenced two L. interrogans moderately virulent vaccine strains JDL03 (serovar Canicola) and JDL10 (serovar Hebdomadis) used in China. We selected a subproteomic approach to identify surface-exposed proteins including OMPs and extracellular proteins of these two strains plus a highly virulent vaccine strain 56601 (serovar Lai). Comparative surface-exposed proteome among the three strains indicated 81 cores, 61 dispensable and 122 unique surface-exposed proteins. Finally, the 10 highly conserved surface-exposed or subsurface proteins included two known cross-reactive antigens (LipL32 and LA_3469) and another two novel antigens (LA_0136 and LA_0505) displaying conserved immunoreactivity among 15 Chinese epidemic serovars. Furthermore, many potential virulence factors were detected in these identified surface-exposed proteins, such as Loa22, LipL32, LenC, LenF and OmpL37. Interestingly, LipL45, ClpA and ClpB, exhibiting obvious amino acid mutations among str.56601, str.JDL03 and JDL10, might contribute to virulence differences observed among these strains. Additionally, specific surface-exposed proteins in virulent str.56601 were considered to be key virulence determinants, such as Zn-dependent protease, cholesterol oxidase precursor, and so on. In all, we had relatively complete surface-exposed subproteomes of L. interrogans, which will enhance our understanding of leptospiral pathogenesis and key virulence determinants. BIOLOGICAL SIGNIFICANCE: The present work demonstrates the use of genomic sequencing and subproteomic studies for the identification of potential vaccine and diagnostic antigen candidates against leptospirosis. The data show the conserved surface-exposed proteins to be novel potentially vaccine/diagnostic candidates. Furthermore, the data also show that LipL45, ClpA, ClpB and a lipoprotein from these three strains plus another highly virulent strain Fiocruz L1-130 contain specific amino acid mutations in strains JDL03 and JDL10. The surface-exposed subproteome of pathogenic L. interrogans could provide valuable information to gain a more complete understanding of leptospiral pathogenesis and virulence determinants.